FHOD3 gene cDNA ORF clone, Homo sapiens(human)

mRNA	Protein	Name
XM_011526190.1	XP_011524492.1	FH1/FH2 domain-containing protein 3 isoform X2
NM_001281740.2	NP_001268669.1	FH1/FH2 domain-containing protein 3 isoform 3
XM_011526193.3	XP_011524495.1	FH1/FH2 domain-containing protein 3 isoform X4
XM_017026008.1	XP_016881497.1	FH1/FH2 domain-containing protein 3 isoform X8
XM_011526197.1	XP_011524499.1	FH1/FH2 domain-containing protein 3 isoform X16
NM_025135.4	NP_079411.2	FH1/FH2 domain-containing protein 3 isoform 1
XM_011526189.1	XP_011524491.1	FH1/FH2 domain-containing protein 3 isoform X1
XM_011526192.1	XP_011524494.1	FH1/FH2 domain-containing protein 3 isoform X3
XM_017026006.2	XP_016881495.1	FH1/FH2 domain-containing protein 3 isoform X5
NM_001281740.3	NP_001268669.1	FH1/FH2 domain-containing protein 3 isoform 3
NM_001281739.3	NP_001268668.1	FH1/FH2 domain-containing protein 3 isoform 2
NM_001281739.2	NP_001268668.1	FH1/FH2 domain-containing protein 3 isoform 2
XM_011526193.2	XP_011524495.1	FH1/FH2 domain-containing protein 3 isoform X4
XM_011526190.2	XP_011524492.1	FH1/FH2 domain-containing protein 3 isoform X2
XM_005258355.2	XP_005258412.1	FH1/FH2 domain-containing protein 3 isoform X14
XM_017026010.1	XP_016881499.1	FH1/FH2 domain-containing protein 3 isoform X15
NM_025135.5	NP_079411.2	FH1/FH2 domain-containing protein 3 isoform 1
XM_005258355.1	XP_005258412.1	FH1/FH2 domain-containing protein 3 isoform X13
XM_011526195.1	XP_011524497.1	FH1/FH2 domain-containing protein 3 isoform X9
XM_011526196.1	XP_011524498.1	FH1/FH2 domain-containing protein 3 isoform X10
XM_017026009.1	XP_016881498.1	FH1/FH2 domain-containing protein 3 isoform X11
XM_005258354.1	XP_005258411.1	FH1/FH2 domain-containing protein 3 isoform X12
XM_017026006.1	XP_016881495.1	FH1/FH2 domain-containing protein 3 isoform X5
XM_005258349.1	XP_005258406.1	FH1/FH2 domain-containing protein 3 isoform X6
XM_017026007.1	XP_016881496.1	FH1/FH2 domain-containing protein 3 isoform X7
XM_024451268.1	XP_024307036.1	FH1/FH2 domain-containing protein 3 isoform X13

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu104576	XM_024451268.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OHu88046	XM_017026009.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OHu88043	XM_017026006.2 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OHu88044	XM_017026007.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OHu88045	XM_017026008.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OHu09880	NM_001281739.3 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu10014	NM_025135.5 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu14758	NM_001281740.3 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu51313	XM_005258349.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu51318	XM_005258354.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu51319	XM_005258355.2 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu72651	XM_011526189.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72652	XM_011526190.2 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72654	XM_011526192.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72655	XM_011526193.3 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72656	XM_017026010.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72657	XM_011526195.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72658	XM_011526196.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu72659	XM_011526197.1 Latest version!	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X16, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
View Old Accession Versions >>
OHu14758	NM_001281740.2	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu09880	NM_001281739.2	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu72655	XM_011526193.2	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu72652	XM_011526190.1	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu10014	NM_025135.4	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu51319	XM_005258355.1	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OHu88043	XM_017026006.1	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
Hide Old Accession Versions >>

FHOD3 ( XM_024451268.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024307036.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OHu104576
Clone ID Related Accession (Same CDS sequence)	XM_024451268.1
Accession Version	XM_024451268.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4404bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTGTATG TGGATGGAAT GAATGGAGTA ATAAACCGCA ATGAAACCAT TCAGTGGCTG 
TACACTCTCA TTGGGTCAAA GTTCCGCCTG GTGGTGAAGA CAGCCCTGAA GCTGCTGCTC 
GTCTTTGTAG AGTACTCGGA GTCCAACGCA CCTCTCCTAA TTCAGGCTGT CACTGCTGTT 
GACACGAAAA GAGGGGTCAA ACCTTGGTCA AATATCATGG AAATCCTGGA GGAAAAAGAT 
GGAGTTGATA CGGAGCTACT GGTTTATGCA ATGACTTTGG TGAACAAGAC GTTATCAGGA 
CTACCAGACC AAGACACCTT CTACGACGTC GTGGACTGCC TGGAGGAGCT GGGCATTGCT 
GCTGTGTCCC AGAGGCACTT GAACAAGAAA GGGACTGACC TGGACTTAGT GGAGCAACTC 
AACATTTATG AGGTGGCGCT CAGGCACGAG GATGGCGATG AGACCACGGA GCCACCCCCC 
AGTGGGTGCC GGGACCGGAG GAGGGCCAGC GTGTGTTCCA GTGGCGGAGG CGAGCACCGG 
GGCCTGGACC GCAGAAGGAG CCGCAGGCAC TCGGTGCAGA GCATCAAGAG CACCCTGTCG 
GCCCCCACCA GTCCCTGCTC CCAGTCAGCT CCCAGCTTCA AGCCCAACCA AGTGCGAGAT 
CTGCGTGAAA AGGAGGAGGA GGAGGAAGAG GAGCAGCCAA TCACGGAGCC CAGTTCCGAA 
GAAGAGAGAG AGGATGATGC TTCCTGTCAG GGCAAGGACA GCAAGGTCGG CGCTGCCTCA 
GGGCAGAGCC CCACTGGAAG GGATGCTGCT CCCAAGAGCT CTGCCCTCCC TGCTGTCTCG 
AATGCCAGCT CGCAGGGAAA GCCGCTTCTG GTTGGCACTG CAGGCGGGAC CACCTGGCAC 
AGTGGGTCCT CTGGGTCTGA GGCCACCCCA TCTGCCCTCC TGTCACCCCC TGCCTCAGCT 
GCTCGGCCCT CCTCCGCCAC ACCAGGCTCC CTGAAGGTGT CACCGACCAT AGACAAGCTG 
CCCTACGTGC CCCACAGCCC CTTCCACCTC TTCTCCTATG ACTTTGAGGA CTCCTCCCTG 
TCCACCAAGG AGAAGGAAGC AGAGTCCCAG AAGGAAAACA GTTCCTCTGA TTCTTTCTCT 
TTGAGCACAT ATTCTGCCTC TGAGCCTTAC CACTTCCGAT CTTTCTCTTC TAATAGATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG ACAAAAATCT 
GAAACAAGAA GACCCGAGGC ATTCAGTGAT TTTCCCCAAG CATTGCCTAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
ACTGATGAGG AGGAGGAAGT TGAGTCTGGC AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA 
AGCCAGCCGC AGGGTCTGAG CTATGCGGAG GACGCGGCTG AGCACGAGAA CATGAAGGCT 
GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG GACGCCACCC CCGCGCTGGG CGTCCGCACA 
CGCAGCCGAG CAAGCCGAGG ATCCACTAGT TCCTGGACTA TGGGAACTGA TGACTCGCCC 
AATGTCACAG ATGATGCAGC TGATGAGATC ATGGACCGCA TCGTCAAGTC AGCCACCCAA 
GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG AGGAAACGAT CCCGGGCCAA CCGGAAATCT 
TTGCGAAGAA CCCTGAAGAG CGGCCTGACC CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT 
GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_024307036.1
CDS	413..4816
Translation	MLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_024451268.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X13, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_024451268.1

ORF Insert Sequence:

ATGTTGTATG TGGATGGAAT GAATGGAGTA ATAAACCGCA ATGAAACCAT TCAGTGGCTG 
TACACTCTCA TTGGGTCAAA GTTCCGCCTG GTGGTGAAGA CAGCCCTGAA GCTGCTGCTC 
GTCTTTGTAG AGTACTCGGA GTCCAACGCA CCTCTCCTAA TTCAGGCTGT CACTGCTGTT 
GACACGAAAA GAGGGGTCAA ACCTTGGTCA AATATCATGG AAATCCTGGA GGAAAAAGAT 
GGAGTTGATA CGGAGCTACT GGTTTATGCA ATGACTTTGG TGAACAAGAC GTTATCAGGA 
CTACCAGACC AAGACACCTT CTACGACGTC GTGGACTGCC TGGAGGAGCT GGGCATTGCT 
GCTGTGTCCC AGAGGCACTT GAACAAGAAA GGGACTGACC TGGACTTAGT GGAGCAACTC 
AACATTTATG AGGTGGCGCT CAGGCACGAG GATGGCGATG AGACCACGGA GCCACCCCCC 
AGTGGGTGCC GGGACCGGAG GAGGGCCAGC GTGTGTTCCA GTGGCGGAGG CGAGCACCGG 
GGCCTGGACC GCAGAAGGAG CCGCAGGCAC TCGGTGCAGA GCATCAAGAG CACCCTGTCG 
GCCCCCACCA GTCCCTGCTC CCAGTCAGCT CCCAGCTTCA AGCCCAACCA AGTGCGAGAT 
CTGCGTGAAA AGGAGGAGGA GGAGGAAGAG GAGCAGCCAA TCACGGAGCC CAGTTCCGAA 
GAAGAGAGAG AGGATGATGC TTCCTGTCAG GGCAAGGACA GCAAGGTCGG CGCTGCCTCA 
GGGCAGAGCC CCACTGGAAG GGATGCTGCT CCCAAGAGCT CTGCCCTCCC TGCTGTCTCG 
AATGCCAGCT CGCAGGGAAA GCCGCTTCTG GTTGGCACTG CAGGCGGGAC CACCTGGCAC 
AGTGGGTCCT CTGGGTCTGA GGCCACCCCA TCTGCCCTCC TGTCACCCCC TGCCTCAGCT 
GCTCGGCCCT CCTCCGCCAC ACCAGGCTCC CTGAAGGTGT CACCGACCAT AGACAAGCTG 
CCCTACGTGC CCCACAGCCC CTTCCACCTC TTCTCCTATG ACTTTGAGGA CTCCTCCCTG 
TCCACCAAGG AGAAGGAAGC AGAGTCCCAG AAGGAAAACA GTTCCTCTGA TTCTTTCTCT 
TTGAGCACAT ATTCTGCCTC TGAGCCTTAC CACTTCCGAT CTTTCTCTTC TAATAGATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG ACAAAAATCT 
GAAACAAGAA GACCCGAGGC ATTCAGTGAT TTTCCCCAAG CATTGCCTAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
ACTGATGAGG AGGAGGAAGT TGAGTCTGGC AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA 
AGCCAGCCGC AGGGTCTGAG CTATGCGGAG GACGCGGCTG AGCACGAGAA CATGAAGGCT 
GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG GACGCCACCC CCGCGCTGGG CGTCCGCACA 
CGCAGCCGAG CAAGCCGAGG ATCCACTAGT TCCTGGACTA TGGGAACTGA TGACTCGCCC 
AATGTCACAG ATGATGCAGC TGATGAGATC ATGGACCGCA TCGTCAAGTC AGCCACCCAA 
GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG AGGAAACGAT CCCGGGCCAA CCGGAAATCT 
TTGCGAAGAA CCCTGAAGAG CGGCCTGACC CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT 
GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_017026009.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881498.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X11, mRNA.

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CloneID	OHu88046
Clone ID Related Accession (Same CDS sequence)	XM_017026009.1
Accession Version	XM_017026009.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4344bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
ACTGATGAGG AGGAGGAAGT TGAGTCTGGC AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA 
AGCCAGCCGC AGGGTCTGAG CTATGCGGAG GACGCGGCTG AGCACGAGAA CATGAAGGCT 
GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG GACGCCACCC CCGCGCTGGG CGTCCGCACA 
CGCAGCCGAG CAAGCCGAGG ATCCACTAGT TCCTGGACTA TGGGAACTGA TGACTCGCCC 
AATGTCACAG ATGATGCAGC TGATGAGATC ATGGACCGCA TCGTCAAGTC AGCCACCCAA 
GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG AGGAAACGAT CCCGGGCCAA CCGGAAATCT 
TTGCGAAGAA CCCTGAAGAG CGGCCTGACC CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT 
GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016881498.1
CDS	123..4466
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_017026009.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X11, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017026009.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
ACTGATGAGG AGGAGGAAGT TGAGTCTGGC AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA 
AGCCAGCCGC AGGGTCTGAG CTATGCGGAG GACGCGGCTG AGCACGAGAA CATGAAGGCT 
GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG GACGCCACCC CCGCGCTGGG CGTCCGCACA 
CGCAGCCGAG CAAGCCGAGG ATCCACTAGT TCCTGGACTA TGGGAACTGA TGACTCGCCC 
AATGTCACAG ATGATGCAGC TGATGAGATC ATGGACCGCA TCGTCAAGTC AGCCACCCAA 
GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG AGGAAACGAT CCCGGGCCAA CCGGAAATCT 
TTGCGAAGAA CCCTGAAGAG CGGCCTGACC CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT 
GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_017026006.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881495.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu88043
Clone ID Related Accession (Same CDS sequence)	XM_017026006.2 , XM_017026006.1
Accession Version	XM_017026006.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4683bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017026006.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATGATCC ACTAGTTCCT 
GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG 
ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA 
AACGATCCCG GGCCAACCGG AAATCTTGAA CCAAAAAGAG TCTTCAGGAG TACTGGATGC 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016881495.1
CDS	123..4805
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDDPLVPGLWELMTRPMSQMMQLMRSWTASSSQPPKCPVSEWCRGRGNDPGPTGNLEPKRVFRSTGC

Target ORF information:

RefSeq Version	XM_017026006.2
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017026006.2

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATGATCC ACTAGTTCCT 
GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG 
ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA 
AACGATCCCG GGCCAACCGG AAATCTTGAA CCAAAAAGAG TCTTCAGGAG TACTGGATGC 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_017026006.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881495.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X5, mRNA.

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CloneID	OHu88043
Clone ID Related Accession (Same CDS sequence)	XM_017026006.2 , XM_017026006.1
Accession Version	XM_017026006.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4683bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATGATCC ACTAGTTCCT 
GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG 
ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA 
AACGATCCCG GGCCAACCGG AAATCTTGAA CCAAAAAGAG TCTTCAGGAG TACTGGATGC 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016881495.1
CDS	123..4805
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDDPLVPGLWELMTRPMSQMMQLMRSWTASSSQPPKCPVSEWCRGRGNDPGPTGNLEPKRVFRSTGC

Target ORF information:

RefSeq Version	XM_017026006.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017026006.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATGATCC ACTAGTTCCT 
GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG 
ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA 
AACGATCCCG GGCCAACCGG AAATCTTGAA CCAAAAAGAG TCTTCAGGAG TACTGGATGC 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_017026007.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881496.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X7, mRNA.

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CloneID	OHu88044
Clone ID Related Accession (Same CDS sequence)	XM_017026007.1
Accession Version	XM_017026007.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4674bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCTCTG TTTATTTAAC ATTCAACCCT CGACATGAAT GCTCCTGTGC TTTGGGCAGA 
GGTGGCTCCA GGCGTTCTGC GGAAAAACTA TACAACTCCA GCGGACGAGA TTTGAGAAGG 
GCCCTCTTCT CCCTGAAGCA GATATTTCAG GATGACAAGG ATTTGGTGCA TGAATTTGTA 
GTGGCTGAAG GTCTGACATG TTTGATCAAG GTGGGAGCTG AGGCTGATCA GAACTATCAG 
AACTACATCT TAAGGGCTTT GGGCCAGATT ATGTTGTATG TGGATGGAAT GAATGGAGTA 
ATAAACCGCA ATGAAACCAT TCAGTGGCTG TACACTCTCA TTGGGTCAAA GTTCCGCCTG 
GTGGTGAAGA CAGCCCTGAA GCTGCTGCTC GTCTTTGTAG AGTACTCGGA GTCCAACGCA 
CCTCTCCTAA TTCAGGCTGT CACTGCTGTT GACACGAAAA GAGGGGTCAA ACCTTGGTCA 
AATATCATGG AAATCCTGGA GGAAAAAGAT GGAGTTGATA CGGAGCTACT GGTTTATGCA 
ATGACTTTGG TGAACAAGAC GTTATCAGGA CTACCAGACC AAGACACCTT CTACGACGTC 
GTGGACTGCC TGGAGGAGCT GGGCATTGCT GCTGTGTCCC AGAGGCACTT GAACAAGAAA 
GGGACTGACC TGGACTTAGT GGAGCAACTC AACATTTATG AGGTGGCGCT CAGGCACGAG 
GATGGCGATG AGACCACGGA GCCACCCCCC AGTGGGTGCC GGGACCGGAG GAGGGCCAGC 
GTGTGTTCCA GTGGCGGAGG CGAGCACCGG GGCCTGGACC GCAGAAGGAG CCGCAGGCAC 
TCGGTGCAGA GCATCAAGAG CACCCTGTCG GCCCCCACCA GTCCCTGCTC CCAGTCAGCT 
CCCAGCTTCA AGCCCAACCA AGTGCGAGAT CTGCGTGAAA AGGAGGAGGA GGAGGAAGAG 
GAGCAGCCAA TCACGGAGCC CAGTTCCGAA GAAGAGAGAG AGGATGATGC TTCCTGTCAG 
GGCAAGGACA GCAAGGTCGG CGCTGCCTCA GGGCAGAGCC CCACTGGAAG GGATGCTGCT 
CCCAAGAGCT CTGCCCTCCC TGCTGTCTCG AATGCCAGCT CGCAGGGAAA GCCGCTTCTG 
GTTGGCACTG CAGGCGGGAC CACCTGGCAC AGTGGGTCCT CTGGGTCTGA GGCCACCCCA 
TCTGCCCTCC TGTCACCCCC TGCCTCAGCT GCTCGGCCCT CCTCCGCCAC ACCAGGCTCC 
CTGAAGGTGT CACCGACCAT AGACAAGCTG CCCTACGTGC CCCACAGCCC CTTCCACCTC 
TTCTCCTATG ACTTTGAGGA CTCCTCCCTG TCCACCAAGG AGAAGGAAGC AGAGTCCCAG 
AAGGAAAACA GTTCCTCTGA TTCTTTCTCT TTGAGCACAT ATTCTGCCTC TGAGCCTTAC 
CACTTCCGAT CTTTCTCTTC TAATAGATAC AGCAATTTTG GCAATAACTC TTATCACTCC 
TCAAGACCCT CATCTGGATC CAGTGTGCCC ACCACCCCCA CATCATCCGT CTCACCCCCA 
CAGGAGGCCA GGTTGGAAAG ACAAAAATCT GAAACAAGAA GACCCGAGGC ATTCAGTGAT 
TTTCCCCAAG CATTGCCTAG GTCATCACCG AGTGGTCTTC TCACATCATC CTTCAGGCAG 
CACCAAGAGT CACTGGCAGC AGAGAGAGAG AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG 
CAGAGAATAG AGCGGGAAGA AAGAAACAAA TTCAGCCGAG ATTATTTAGA CAAAAGAGAG 
GAGCAAAGGC AAGCAAGAGA AGAAAGATAC AAATACTTGG AACAGTTGGC AGCTGAGGAG 
CACGAGAAGG AGCTGAGAAG CCGGAGTGTG AGCCGGGGCA GAGCCGACCT CTCCTTGGAC 
CTGACCTCGC CAGCAGCCCC AGCCTGCCTG GCTCCTCTGA GCCATAGCCC CTCATCTTCA 
GACTCTCAAG AGGCTCTCAC GGTGTCTGCC TCCTCCCCAG GAACCCCTCA CCATCCCCAA 
GCAAGTGCCG GGGATCCTGA ACCCGAATCA GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG 
GGGCAGGTTG CTGATGAAGC TGGCCAGGAC ATAGCCTCTG CCCACGAGGG TGCAGAGACT 
GAAGTGGAGC AGGCACTAGA GCAAGAGCCG GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG 
AGGCAGAACG AGGGGGTGAA CGAGAGGGAC AACTGCTCTG CCTCCAGCGT CTCGTCCTCC 
AGCAGCACGT TGGAGAGGGA GGAGAAGGAG GACAAGCTCT CCAGGGACAG GACAACTGGT 
TTGTGGCCCG CAGGTGTCCA GGATGCAGGT GTAAATGGAC AGTGTGGCGA CATCCTCACC 
AACAAACGGT TCATGCTTGA CATGCTGTAT GCCCATAACA GGAAGTCTCC GGATGATGAG 
GAGAAGGGGG ATGGGGAGGC TGGGAGGACC CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT 
GCTACCAGGA TATCCACCCT GCAGGCCAAC TCTCAGACCC AGGATGAGAG TGTCAGGAGG 
GTGGATGTCG GCTGTTTGGA CAATCGGGGC AGTGTGAAAG CATTTGCTGA GAAATTCAAC 
AGTGGGGACC TGGGGAGAGG TTCCATCTCC CCTGATGCTG AGCCCAATGA CAAGGTCCCA 
GAAACAGCGC CGGTGCAGCC GAAGACAGAG TCTGATTACA TCTGGGACCA GCTCATGGCC 
AATCCAAGAG AGCTCAGAAT CCAAGACATG GATTTCACTG ACCTGGGGGA GGAGGATGAC 
ATTGATGTCC TAGATGTGGA CCTGGGTCAC AGGGAGGCCC CTGGGCCACC TCCCCCACCC 
CCACCCACCT TTCTGGGTTT GCCGCCCCCA CCCCCTCCGC CCCTGTTGGA CAGCATTCCT 
CCCCCTCCTG TCCCTGGTAA TTTATTGGTT CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG 
GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT CAGCCCACAT TCACTAAGAA AAAGAAGACC 
ATCCGTTTGT TCTGGAATGA AGTTCGGCCT TTTGACTGGC CATGTAAAAA CAACCGACGC 
TGCAGAGAAT TCCTGTGGTC AAAACTGGAA CCCATTAAGG TGGACACTTC CAGACTGGAG 
CACCTGTTTG AGTCTAAATC CAAGGAACTG TCTGTCTCAA AGAAAACTGC TGCAGATGGA 
AAAAGGCAAG AGATCATTGT TCTGGATTCC AAGAGGAGTA ACGCCATCAA TATTGGTCTG 
ACGGTGCTGC CCCCTCCAAG GACGATTAAG ATCGCCATTT TGAATTTTGA TGAGTATGCC 
TTAAACAAAG AAGGAATCGA GAAAATTCTA ACGATGATTC CCACCGATGA GGAGAAGCAG 
AAAATCCAGG AAGCTCAGCT GGCCAACCCT GAAATCCCCC TGGGCAGTGC AGAGCAGTTC 
CTCCTCACCC TGTCCTCCAT CAGCGAGCTC TCTGCACGAC TTCACCTCTG GGCATTCAAA 
ATGGATTATG AAACTACAGA AAAGGAAGTA GCAGAACCAC TCCTGGACCT GAAGGAAGGA 
ATAGACCAGT TGGAGAACAA TAAAACCTTG GGCTTTATCC TGTCTACTCT CTTAGCCATT 
GGGAACTTTC TAAATGGAAC TAATGCCAAA GCGTTTGAGT TAAGCTACCT CGAGAAGGTT 
CCAGAAGTCA AAGACACAGT GCACAAGCAG TCGCTTCTCC ACCATGTGTG CACCATGGTG 
GTAGAAAACT TCCCAGACAG CTCCGATCTG TACTCGGAGA TCGGGGCCAT CACCAGGTCA 
GCCAAGGTTG ACTTTGATCA ACTTCAGGAT AATTTATGTC AGATGGAGAG AAGATGCAAA 
GCTTCATGGG ATCACCTCAA GGCAATTGCA AAACATGAAA TGAAACCAGT TTTAAAACAA 
CGGATGTCAG AGTTCCTGAA AGACTGTGCA GAGCGAATTA TAATTTTAAA GATTGTCCAT 
AGAAGGATAA TCAACAGATT CCACTCCTTT TTACTCTTTA TGGGCCATCC ACCTTATGCA 
ATTCGGGAAG TGAACATAAA CAAATTCTGC AGGATTATTA GTGAATTTGC ACTAGAGTAT 
CGCACAACCA GGGAAAGGGT TTTGCAGCAG AAACAGAAAC GGGCCAACCA CAGAGAGAGA 
AATAAGACCA GAGGGAAGAT GATCACCGAT ACTGATGAGG AGGAGGAAGT TGAGTCTGGC 
AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA AGCCAGCCGC AGGGTCTGAG CTATGCGGAG 
GACGCGGCTG AGCACGAGAA CATGAAGGCT GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG 
GACGCCACCC CCGCGCTGGG CGTCCGCACA CGCAGCCGAG CAAGCCGAGG ATCCACTAGT 
TCCTGGACTA TGGGAACTGA TGACTCGCCC AATGTCACAG ATGATGCAGC TGATGAGATC 
ATGGACCGCA TCGTCAAGTC AGCCACCCAA GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG 
AGGAAACGAT CCCGGGCCAA CCGGAAATCT TTGCGAAGAA CCCTGAAGAG CGGCCTGACC 
CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016881496.1
CDS	16..4689
Translation	MGSVYLTFNPRHECSCALGRGGSRRSAEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_017026007.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017026007.1

ORF Insert Sequence:

ATGGGCTCTG TTTATTTAAC ATTCAACCCT CGACATGAAT GCTCCTGTGC TTTGGGCAGA 
GGTGGCTCCA GGCGTTCTGC GGAAAAACTA TACAACTCCA GCGGACGAGA TTTGAGAAGG 
GCCCTCTTCT CCCTGAAGCA GATATTTCAG GATGACAAGG ATTTGGTGCA TGAATTTGTA 
GTGGCTGAAG GTCTGACATG TTTGATCAAG GTGGGAGCTG AGGCTGATCA GAACTATCAG 
AACTACATCT TAAGGGCTTT GGGCCAGATT ATGTTGTATG TGGATGGAAT GAATGGAGTA 
ATAAACCGCA ATGAAACCAT TCAGTGGCTG TACACTCTCA TTGGGTCAAA GTTCCGCCTG 
GTGGTGAAGA CAGCCCTGAA GCTGCTGCTC GTCTTTGTAG AGTACTCGGA GTCCAACGCA 
CCTCTCCTAA TTCAGGCTGT CACTGCTGTT GACACGAAAA GAGGGGTCAA ACCTTGGTCA 
AATATCATGG AAATCCTGGA GGAAAAAGAT GGAGTTGATA CGGAGCTACT GGTTTATGCA 
ATGACTTTGG TGAACAAGAC GTTATCAGGA CTACCAGACC AAGACACCTT CTACGACGTC 
GTGGACTGCC TGGAGGAGCT GGGCATTGCT GCTGTGTCCC AGAGGCACTT GAACAAGAAA 
GGGACTGACC TGGACTTAGT GGAGCAACTC AACATTTATG AGGTGGCGCT CAGGCACGAG 
GATGGCGATG AGACCACGGA GCCACCCCCC AGTGGGTGCC GGGACCGGAG GAGGGCCAGC 
GTGTGTTCCA GTGGCGGAGG CGAGCACCGG GGCCTGGACC GCAGAAGGAG CCGCAGGCAC 
TCGGTGCAGA GCATCAAGAG CACCCTGTCG GCCCCCACCA GTCCCTGCTC CCAGTCAGCT 
CCCAGCTTCA AGCCCAACCA AGTGCGAGAT CTGCGTGAAA AGGAGGAGGA GGAGGAAGAG 
GAGCAGCCAA TCACGGAGCC CAGTTCCGAA GAAGAGAGAG AGGATGATGC TTCCTGTCAG 
GGCAAGGACA GCAAGGTCGG CGCTGCCTCA GGGCAGAGCC CCACTGGAAG GGATGCTGCT 
CCCAAGAGCT CTGCCCTCCC TGCTGTCTCG AATGCCAGCT CGCAGGGAAA GCCGCTTCTG 
GTTGGCACTG CAGGCGGGAC CACCTGGCAC AGTGGGTCCT CTGGGTCTGA GGCCACCCCA 
TCTGCCCTCC TGTCACCCCC TGCCTCAGCT GCTCGGCCCT CCTCCGCCAC ACCAGGCTCC 
CTGAAGGTGT CACCGACCAT AGACAAGCTG CCCTACGTGC CCCACAGCCC CTTCCACCTC 
TTCTCCTATG ACTTTGAGGA CTCCTCCCTG TCCACCAAGG AGAAGGAAGC AGAGTCCCAG 
AAGGAAAACA GTTCCTCTGA TTCTTTCTCT TTGAGCACAT ATTCTGCCTC TGAGCCTTAC 
CACTTCCGAT CTTTCTCTTC TAATAGATAC AGCAATTTTG GCAATAACTC TTATCACTCC 
TCAAGACCCT CATCTGGATC CAGTGTGCCC ACCACCCCCA CATCATCCGT CTCACCCCCA 
CAGGAGGCCA GGTTGGAAAG ACAAAAATCT GAAACAAGAA GACCCGAGGC ATTCAGTGAT 
TTTCCCCAAG CATTGCCTAG GTCATCACCG AGTGGTCTTC TCACATCATC CTTCAGGCAG 
CACCAAGAGT CACTGGCAGC AGAGAGAGAG AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG 
CAGAGAATAG AGCGGGAAGA AAGAAACAAA TTCAGCCGAG ATTATTTAGA CAAAAGAGAG 
GAGCAAAGGC AAGCAAGAGA AGAAAGATAC AAATACTTGG AACAGTTGGC AGCTGAGGAG 
CACGAGAAGG AGCTGAGAAG CCGGAGTGTG AGCCGGGGCA GAGCCGACCT CTCCTTGGAC 
CTGACCTCGC CAGCAGCCCC AGCCTGCCTG GCTCCTCTGA GCCATAGCCC CTCATCTTCA 
GACTCTCAAG AGGCTCTCAC GGTGTCTGCC TCCTCCCCAG GAACCCCTCA CCATCCCCAA 
GCAAGTGCCG GGGATCCTGA ACCCGAATCA GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG 
GGGCAGGTTG CTGATGAAGC TGGCCAGGAC ATAGCCTCTG CCCACGAGGG TGCAGAGACT 
GAAGTGGAGC AGGCACTAGA GCAAGAGCCG GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG 
AGGCAGAACG AGGGGGTGAA CGAGAGGGAC AACTGCTCTG CCTCCAGCGT CTCGTCCTCC 
AGCAGCACGT TGGAGAGGGA GGAGAAGGAG GACAAGCTCT CCAGGGACAG GACAACTGGT 
TTGTGGCCCG CAGGTGTCCA GGATGCAGGT GTAAATGGAC AGTGTGGCGA CATCCTCACC 
AACAAACGGT TCATGCTTGA CATGCTGTAT GCCCATAACA GGAAGTCTCC GGATGATGAG 
GAGAAGGGGG ATGGGGAGGC TGGGAGGACC CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT 
GCTACCAGGA TATCCACCCT GCAGGCCAAC TCTCAGACCC AGGATGAGAG TGTCAGGAGG 
GTGGATGTCG GCTGTTTGGA CAATCGGGGC AGTGTGAAAG CATTTGCTGA GAAATTCAAC 
AGTGGGGACC TGGGGAGAGG TTCCATCTCC CCTGATGCTG AGCCCAATGA CAAGGTCCCA 
GAAACAGCGC CGGTGCAGCC GAAGACAGAG TCTGATTACA TCTGGGACCA GCTCATGGCC 
AATCCAAGAG AGCTCAGAAT CCAAGACATG GATTTCACTG ACCTGGGGGA GGAGGATGAC 
ATTGATGTCC TAGATGTGGA CCTGGGTCAC AGGGAGGCCC CTGGGCCACC TCCCCCACCC 
CCACCCACCT TTCTGGGTTT GCCGCCCCCA CCCCCTCCGC CCCTGTTGGA CAGCATTCCT 
CCCCCTCCTG TCCCTGGTAA TTTATTGGTT CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG 
GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT CAGCCCACAT TCACTAAGAA AAAGAAGACC 
ATCCGTTTGT TCTGGAATGA AGTTCGGCCT TTTGACTGGC CATGTAAAAA CAACCGACGC 
TGCAGAGAAT TCCTGTGGTC AAAACTGGAA CCCATTAAGG TGGACACTTC CAGACTGGAG 
CACCTGTTTG AGTCTAAATC CAAGGAACTG TCTGTCTCAA AGAAAACTGC TGCAGATGGA 
AAAAGGCAAG AGATCATTGT TCTGGATTCC AAGAGGAGTA ACGCCATCAA TATTGGTCTG 
ACGGTGCTGC CCCCTCCAAG GACGATTAAG ATCGCCATTT TGAATTTTGA TGAGTATGCC 
TTAAACAAAG AAGGAATCGA GAAAATTCTA ACGATGATTC CCACCGATGA GGAGAAGCAG 
AAAATCCAGG AAGCTCAGCT GGCCAACCCT GAAATCCCCC TGGGCAGTGC AGAGCAGTTC 
CTCCTCACCC TGTCCTCCAT CAGCGAGCTC TCTGCACGAC TTCACCTCTG GGCATTCAAA 
ATGGATTATG AAACTACAGA AAAGGAAGTA GCAGAACCAC TCCTGGACCT GAAGGAAGGA 
ATAGACCAGT TGGAGAACAA TAAAACCTTG GGCTTTATCC TGTCTACTCT CTTAGCCATT 
GGGAACTTTC TAAATGGAAC TAATGCCAAA GCGTTTGAGT TAAGCTACCT CGAGAAGGTT 
CCAGAAGTCA AAGACACAGT GCACAAGCAG TCGCTTCTCC ACCATGTGTG CACCATGGTG 
GTAGAAAACT TCCCAGACAG CTCCGATCTG TACTCGGAGA TCGGGGCCAT CACCAGGTCA 
GCCAAGGTTG ACTTTGATCA ACTTCAGGAT AATTTATGTC AGATGGAGAG AAGATGCAAA 
GCTTCATGGG ATCACCTCAA GGCAATTGCA AAACATGAAA TGAAACCAGT TTTAAAACAA 
CGGATGTCAG AGTTCCTGAA AGACTGTGCA GAGCGAATTA TAATTTTAAA GATTGTCCAT 
AGAAGGATAA TCAACAGATT CCACTCCTTT TTACTCTTTA TGGGCCATCC ACCTTATGCA 
ATTCGGGAAG TGAACATAAA CAAATTCTGC AGGATTATTA GTGAATTTGC ACTAGAGTAT 
CGCACAACCA GGGAAAGGGT TTTGCAGCAG AAACAGAAAC GGGCCAACCA CAGAGAGAGA 
AATAAGACCA GAGGGAAGAT GATCACCGAT ACTGATGAGG AGGAGGAAGT TGAGTCTGGC 
AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA AGCCAGCCGC AGGGTCTGAG CTATGCGGAG 
GACGCGGCTG AGCACGAGAA CATGAAGGCT GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG 
GACGCCACCC CCGCGCTGGG CGTCCGCACA CGCAGCCGAG CAAGCCGAGG ATCCACTAGT 
TCCTGGACTA TGGGAACTGA TGACTCGCCC AATGTCACAG ATGATGCAGC TGATGAGATC 
ATGGACCGCA TCGTCAAGTC AGCCACCCAA GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG 
AGGAAACGAT CCCGGGCCAA CCGGAAATCT TTGCGAAGAA CCCTGAAGAG CGGCCTGACC 
CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_017026008.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881497.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X8, mRNA.

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CloneID	OHu88045
Clone ID Related Accession (Same CDS sequence)	XM_017026008.1
Accession Version	XM_017026008.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4662bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATGATCC ACTAGTTCCT 
GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG 
ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA 
AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016881497.1
CDS	123..4784
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDDPLVPGLWELMTRPMSQMMQLMRSWTASSSQPPKCPVSEWCRGRGNDPGPTGNLCEEP

Target ORF information:

RefSeq Version	XM_017026008.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017026008.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATGATCC ACTAGTTCCT 
GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG 
ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA 
AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( NM_001281739.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001268668.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 2, mRNA.

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CloneID	OHu09880
Clone ID Related Accession (Same CDS sequence)	NM_001281739.3 , NM_001281739.2
Accession Version	NM_001281739.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4269bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2020-01-03
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform 2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY020952.1, AK128053.1, AB084087.1, BC081563.1, AI948493.1 and AC090333.5. On Jun 2, 2019 this sequence version replaced NM_001281739.2. Transcript Variant: This variant (2) lacks an in-frame coding exon compared to variant 1. The resulting isoform (2) is shorter missing an internal protein segment compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB084087.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA1970526 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGATACA AATACTTGGA ACAGTTGGCA GCTGAGGAGC ACGAGAAGGA GCTGAGAAGC 
CGGAGTGTGA GCCGGGGCAG AGCCGACCTC TCCTTGGACC TGACCTCGCC AGCAGCCCCA 
GCCTGCCTGG CTCCTCTGAG CCATAGCCCC TCATCTTCAG ACTCTCAAGA GGCTCTCACG 
GTGTCTGCCT CCTCCCCAGG AACCCCTCAC CATCCCCAAG CAAGTGCCGG GGATCCTGAA 
CCCGAATCAG AGGCAGAACC GGAAGCAGAG GCAGGGGCGG GGCAGGTTGC TGATGAAGCT 
GGCCAGGACA TAGCCTCTGC CCACGAGGGT GCAGAGACTG AAGTGGAGCA GGCACTAGAG 
CAAGAGCCGG AAGAAAGAGC CTCCCTCAGT GAAAAAGAGA GGCAGAACGA GGGGGTGAAC 
GAGAGGGACA ACTGCTCTGC CTCCAGCGTC TCGTCCTCCA GCAGCACGTT GGAGAGGGAG 
GAGAAGGAGG ACAAGCTCTC CAGGGACAGG ACAACTGGTT TGTGGCCCGC AGGTGTCCAG 
GATGCAGGTG TAAATGGACA GTGTGGCGAC ATCCTCACCA ACAAACGGTT CATGCTTGAC 
ATGCTGTATG CCCATAACAG GAAGTCTCCG GATGATGAGG AGAAGGGGGA TGGGGAGGCT 
GGGAGGACCC AGCAGGAGGC AGAGGCGGTA GCCAGCCTTG CTACCAGGAT ATCCACCCTG 
CAGGCCAACT CTCAGACCCA GGATGAGAGT GTCAGGAGGG TGGATGTCGG CTGTTTGGAC 
AATCGGGGCA GTGTGAAAGC ATTTGCTGAG AAATTCAACA GTGGGGACCT GGGGAGAGGT 
TCCATCTCCC CTGATGCTGA GCCCAATGAC AAGGTCCCAG AAACAGCGCC GGTGCAGCCG 
AAGACAGAGT CTGATTACAT CTGGGACCAG CTCATGGCCA ATCCAAGAGA GCTCAGAATC 
CAAGACATGG ATTTCACTGA CCTGGGGGAG GAGGATGACA TTGATGTCCT AGATGTGGAC 
CTGGGTCACA GGGAGGCCCC TGGGCCACCT CCCCCACCCC CACCCACCTT TCTGGGTTTG 
CCGCCCCCAC CCCCTCCGCC CCTGTTGGAC AGCATTCCTC CCCCTCCTGT CCCTGGTAAT 
TTATTGGTTC CTCCTCCTCC AGTGTTCAAC GCTCCTCAGG GCTTAGGGTG GTCCCAGGTA 
CCCAGGGGTC AGCCCACATT CACTAAGAAA AAGAAGACCA TCCGTTTGTT CTGGAATGAA 
GTTCGGCCTT TTGACTGGCC ATGTAAAAAC AACCGACGCT GCAGAGAATT CCTGTGGTCA 
AAACTGGAAC CCATTAAGGT GGACACTTCC AGACTGGAGC ACCTGTTTGA GTCTAAATCC 
AAGGAACTGT CTGTCTCAAA GAAAACTGCT GCAGATGGAA AAAGGCAAGA GATCATTGTT 
CTGGATTCCA AGAGGAGTAA CGCCATCAAT ATTGGTCTGA CGGTGCTGCC CCCTCCAAGG 
ACGATTAAGA TCGCCATTTT GAATTTTGAT GAGTATGCCT TAAACAAAGA AGGAATCGAG 
AAAATTCTAA CGATGATTCC CACCGATGAG GAGAAGCAGA AAATCCAGGA AGCTCAGCTG 
GCCAACCCTG AAATCCCCCT GGGCAGTGCA GAGCAGTTCC TCCTCACCCT GTCCTCCATC 
AGCGAGCTCT CTGCACGACT TCACCTCTGG GCATTCAAAA TGGATTATGA AACTACAGAA 
AAGGAAGTAG CAGAACCACT CCTGGACCTG AAGGAAGGAA TAGACCAGTT GGAGAACAAT 
AAAACCTTGG GCTTTATCCT GTCTACTCTC TTAGCCATTG GGAACTTTCT AAATGGAACT 
AATGCCAAAG CGTTTGAGTT AAGCTACCTC GAGAAGGTTC CAGAAGTCAA AGACACAGTG 
CACAAGCAGT CGCTTCTCCA CCATGTGTGC ACCATGGTGG TAGAAAACTT CCCAGACAGC 
TCCGATCTGT ACTCGGAGAT CGGGGCCATC ACCAGGTCAG CCAAGGTTGA CTTTGATCAA 
CTTCAGGATA ATTTATGTCA GATGGAGAGA AGATGCAAAG CTTCATGGGA TCACCTCAAG 
GCAATTGCAA AACATGAAAT GAAACCAGTT TTAAAACAAC GGATGTCAGA GTTCCTGAAA 
GACTGTGCAG AGCGAATTAT AATTTTAAAG ATTGTCCATA GAAGGATAAT CAACAGATTC 
CACTCCTTTT TACTCTTTAT GGGCCATCCA CCTTATGCAA TTCGGGAAGT GAACATAAAC 
AAATTCTGCA GGATTATTAG TGAATTTGCA CTAGAGTATC GCACAACCAG GGAAAGGGTT 
TTGCAGCAGA AACAGAAACG GGCCAACCAC AGAGAGAGAA ATAAGACCAG AGGGAAGATG 
ATCACCGATT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001268668.1
CDS	124..4392
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFRYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	NM_001281739.3
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001281739.3

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGATACA AATACTTGGA ACAGTTGGCA GCTGAGGAGC ACGAGAAGGA GCTGAGAAGC 
CGGAGTGTGA GCCGGGGCAG AGCCGACCTC TCCTTGGACC TGACCTCGCC AGCAGCCCCA 
GCCTGCCTGG CTCCTCTGAG CCATAGCCCC TCATCTTCAG ACTCTCAAGA GGCTCTCACG 
GTGTCTGCCT CCTCCCCAGG AACCCCTCAC CATCCCCAAG CAAGTGCCGG GGATCCTGAA 
CCCGAATCAG AGGCAGAACC GGAAGCAGAG GCAGGGGCGG GGCAGGTTGC TGATGAAGCT 
GGCCAGGACA TAGCCTCTGC CCACGAGGGT GCAGAGACTG AAGTGGAGCA GGCACTAGAG 
CAAGAGCCGG AAGAAAGAGC CTCCCTCAGT GAAAAAGAGA GGCAGAACGA GGGGGTGAAC 
GAGAGGGACA ACTGCTCTGC CTCCAGCGTC TCGTCCTCCA GCAGCACGTT GGAGAGGGAG 
GAGAAGGAGG ACAAGCTCTC CAGGGACAGG ACAACTGGTT TGTGGCCCGC AGGTGTCCAG 
GATGCAGGTG TAAATGGACA GTGTGGCGAC ATCCTCACCA ACAAACGGTT CATGCTTGAC 
ATGCTGTATG CCCATAACAG GAAGTCTCCG GATGATGAGG AGAAGGGGGA TGGGGAGGCT 
GGGAGGACCC AGCAGGAGGC AGAGGCGGTA GCCAGCCTTG CTACCAGGAT ATCCACCCTG 
CAGGCCAACT CTCAGACCCA GGATGAGAGT GTCAGGAGGG TGGATGTCGG CTGTTTGGAC 
AATCGGGGCA GTGTGAAAGC ATTTGCTGAG AAATTCAACA GTGGGGACCT GGGGAGAGGT 
TCCATCTCCC CTGATGCTGA GCCCAATGAC AAGGTCCCAG AAACAGCGCC GGTGCAGCCG 
AAGACAGAGT CTGATTACAT CTGGGACCAG CTCATGGCCA ATCCAAGAGA GCTCAGAATC 
CAAGACATGG ATTTCACTGA CCTGGGGGAG GAGGATGACA TTGATGTCCT AGATGTGGAC 
CTGGGTCACA GGGAGGCCCC TGGGCCACCT CCCCCACCCC CACCCACCTT TCTGGGTTTG 
CCGCCCCCAC CCCCTCCGCC CCTGTTGGAC AGCATTCCTC CCCCTCCTGT CCCTGGTAAT 
TTATTGGTTC CTCCTCCTCC AGTGTTCAAC GCTCCTCAGG GCTTAGGGTG GTCCCAGGTA 
CCCAGGGGTC AGCCCACATT CACTAAGAAA AAGAAGACCA TCCGTTTGTT CTGGAATGAA 
GTTCGGCCTT TTGACTGGCC ATGTAAAAAC AACCGACGCT GCAGAGAATT CCTGTGGTCA 
AAACTGGAAC CCATTAAGGT GGACACTTCC AGACTGGAGC ACCTGTTTGA GTCTAAATCC 
AAGGAACTGT CTGTCTCAAA GAAAACTGCT GCAGATGGAA AAAGGCAAGA GATCATTGTT 
CTGGATTCCA AGAGGAGTAA CGCCATCAAT ATTGGTCTGA CGGTGCTGCC CCCTCCAAGG 
ACGATTAAGA TCGCCATTTT GAATTTTGAT GAGTATGCCT TAAACAAAGA AGGAATCGAG 
AAAATTCTAA CGATGATTCC CACCGATGAG GAGAAGCAGA AAATCCAGGA AGCTCAGCTG 
GCCAACCCTG AAATCCCCCT GGGCAGTGCA GAGCAGTTCC TCCTCACCCT GTCCTCCATC 
AGCGAGCTCT CTGCACGACT TCACCTCTGG GCATTCAAAA TGGATTATGA AACTACAGAA 
AAGGAAGTAG CAGAACCACT CCTGGACCTG AAGGAAGGAA TAGACCAGTT GGAGAACAAT 
AAAACCTTGG GCTTTATCCT GTCTACTCTC TTAGCCATTG GGAACTTTCT AAATGGAACT 
AATGCCAAAG CGTTTGAGTT AAGCTACCTC GAGAAGGTTC CAGAAGTCAA AGACACAGTG 
CACAAGCAGT CGCTTCTCCA CCATGTGTGC ACCATGGTGG TAGAAAACTT CCCAGACAGC 
TCCGATCTGT ACTCGGAGAT CGGGGCCATC ACCAGGTCAG CCAAGGTTGA CTTTGATCAA 
CTTCAGGATA ATTTATGTCA GATGGAGAGA AGATGCAAAG CTTCATGGGA TCACCTCAAG 
GCAATTGCAA AACATGAAAT GAAACCAGTT TTAAAACAAC GGATGTCAGA GTTCCTGAAA 
GACTGTGCAG AGCGAATTAT AATTTTAAAG ATTGTCCATA GAAGGATAAT CAACAGATTC 
CACTCCTTTT TACTCTTTAT GGGCCATCCA CCTTATGCAA TTCGGGAAGT GAACATAAAC 
AAATTCTGCA GGATTATTAG TGAATTTGCA CTAGAGTATC GCACAACCAG GGAAAGGGTT 
TTGCAGCAGA AACAGAAACG GGCCAACCAC AGAGAGAGAA ATAAGACCAG AGGGAAGATG 
ATCACCGATT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( NM_001281739.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001268668.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 2, mRNA.

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CloneID	OHu09880
Clone ID Related Accession (Same CDS sequence)	NM_001281739.3 , NM_001281739.2
Accession Version	NM_001281739.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4269bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-02-24
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform 2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY020952.1, AK128053.1, AB084087.1, BC081563.1, AI948493.1 and AC090333.5. On Aug 25, 2015 this sequence version replaced NM_001281739.1. Transcript Variant: This variant (2) lacks an in-frame coding exon compared to variant 1. The resulting isoform (2) is shorter missing an internal protein segment compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB084087.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA1970526 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGATACA AATACTTGGA ACAGTTGGCA GCTGAGGAGC ACGAGAAGGA GCTGAGAAGC 
CGGAGTGTGA GCCGGGGCAG AGCCGACCTC TCCTTGGACC TGACCTCGCC AGCAGCCCCA 
GCCTGCCTGG CTCCTCTGAG CCATAGCCCC TCATCTTCAG ACTCTCAAGA GGCTCTCACG 
GTGTCTGCCT CCTCCCCAGG AACCCCTCAC CATCCCCAAG CAAGTGCCGG GGATCCTGAA 
CCCGAATCAG AGGCAGAACC GGAAGCAGAG GCAGGGGCGG GGCAGGTTGC TGATGAAGCT 
GGCCAGGACA TAGCCTCTGC CCACGAGGGT GCAGAGACTG AAGTGGAGCA GGCACTAGAG 
CAAGAGCCGG AAGAAAGAGC CTCCCTCAGT GAAAAAGAGA GGCAGAACGA GGGGGTGAAC 
GAGAGGGACA ACTGCTCTGC CTCCAGCGTC TCGTCCTCCA GCAGCACGTT GGAGAGGGAG 
GAGAAGGAGG ACAAGCTCTC CAGGGACAGG ACAACTGGTT TGTGGCCCGC AGGTGTCCAG 
GATGCAGGTG TAAATGGACA GTGTGGCGAC ATCCTCACCA ACAAACGGTT CATGCTTGAC 
ATGCTGTATG CCCATAACAG GAAGTCTCCG GATGATGAGG AGAAGGGGGA TGGGGAGGCT 
GGGAGGACCC AGCAGGAGGC AGAGGCGGTA GCCAGCCTTG CTACCAGGAT ATCCACCCTG 
CAGGCCAACT CTCAGACCCA GGATGAGAGT GTCAGGAGGG TGGATGTCGG CTGTTTGGAC 
AATCGGGGCA GTGTGAAAGC ATTTGCTGAG AAATTCAACA GTGGGGACCT GGGGAGAGGT 
TCCATCTCCC CTGATGCTGA GCCCAATGAC AAGGTCCCAG AAACAGCGCC GGTGCAGCCG 
AAGACAGAGT CTGATTACAT CTGGGACCAG CTCATGGCCA ATCCAAGAGA GCTCAGAATC 
CAAGACATGG ATTTCACTGA CCTGGGGGAG GAGGATGACA TTGATGTCCT AGATGTGGAC 
CTGGGTCACA GGGAGGCCCC TGGGCCACCT CCCCCACCCC CACCCACCTT TCTGGGTTTG 
CCGCCCCCAC CCCCTCCGCC CCTGTTGGAC AGCATTCCTC CCCCTCCTGT CCCTGGTAAT 
TTATTGGTTC CTCCTCCTCC AGTGTTCAAC GCTCCTCAGG GCTTAGGGTG GTCCCAGGTA 
CCCAGGGGTC AGCCCACATT CACTAAGAAA AAGAAGACCA TCCGTTTGTT CTGGAATGAA 
GTTCGGCCTT TTGACTGGCC ATGTAAAAAC AACCGACGCT GCAGAGAATT CCTGTGGTCA 
AAACTGGAAC CCATTAAGGT GGACACTTCC AGACTGGAGC ACCTGTTTGA GTCTAAATCC 
AAGGAACTGT CTGTCTCAAA GAAAACTGCT GCAGATGGAA AAAGGCAAGA GATCATTGTT 
CTGGATTCCA AGAGGAGTAA CGCCATCAAT ATTGGTCTGA CGGTGCTGCC CCCTCCAAGG 
ACGATTAAGA TCGCCATTTT GAATTTTGAT GAGTATGCCT TAAACAAAGA AGGAATCGAG 
AAAATTCTAA CGATGATTCC CACCGATGAG GAGAAGCAGA AAATCCAGGA AGCTCAGCTG 
GCCAACCCTG AAATCCCCCT GGGCAGTGCA GAGCAGTTCC TCCTCACCCT GTCCTCCATC 
AGCGAGCTCT CTGCACGACT TCACCTCTGG GCATTCAAAA TGGATTATGA AACTACAGAA 
AAGGAAGTAG CAGAACCACT CCTGGACCTG AAGGAAGGAA TAGACCAGTT GGAGAACAAT 
AAAACCTTGG GCTTTATCCT GTCTACTCTC TTAGCCATTG GGAACTTTCT AAATGGAACT 
AATGCCAAAG CGTTTGAGTT AAGCTACCTC GAGAAGGTTC CAGAAGTCAA AGACACAGTG 
CACAAGCAGT CGCTTCTCCA CCATGTGTGC ACCATGGTGG TAGAAAACTT CCCAGACAGC 
TCCGATCTGT ACTCGGAGAT CGGGGCCATC ACCAGGTCAG CCAAGGTTGA CTTTGATCAA 
CTTCAGGATA ATTTATGTCA GATGGAGAGA AGATGCAAAG CTTCATGGGA TCACCTCAAG 
GCAATTGCAA AACATGAAAT GAAACCAGTT TTAAAACAAC GGATGTCAGA GTTCCTGAAA 
GACTGTGCAG AGCGAATTAT AATTTTAAAG ATTGTCCATA GAAGGATAAT CAACAGATTC 
CACTCCTTTT TACTCTTTAT GGGCCATCCA CCTTATGCAA TTCGGGAAGT GAACATAAAC 
AAATTCTGCA GGATTATTAG TGAATTTGCA CTAGAGTATC GCACAACCAG GGAAAGGGTT 
TTGCAGCAGA AACAGAAACG GGCCAACCAC AGAGAGAGAA ATAAGACCAG AGGGAAGATG 
ATCACCGATT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001268668.1
CDS	141..4409
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFRYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	NM_001281739.2
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001281739.2

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGATACA AATACTTGGA ACAGTTGGCA GCTGAGGAGC ACGAGAAGGA GCTGAGAAGC 
CGGAGTGTGA GCCGGGGCAG AGCCGACCTC TCCTTGGACC TGACCTCGCC AGCAGCCCCA 
GCCTGCCTGG CTCCTCTGAG CCATAGCCCC TCATCTTCAG ACTCTCAAGA GGCTCTCACG 
GTGTCTGCCT CCTCCCCAGG AACCCCTCAC CATCCCCAAG CAAGTGCCGG GGATCCTGAA 
CCCGAATCAG AGGCAGAACC GGAAGCAGAG GCAGGGGCGG GGCAGGTTGC TGATGAAGCT 
GGCCAGGACA TAGCCTCTGC CCACGAGGGT GCAGAGACTG AAGTGGAGCA GGCACTAGAG 
CAAGAGCCGG AAGAAAGAGC CTCCCTCAGT GAAAAAGAGA GGCAGAACGA GGGGGTGAAC 
GAGAGGGACA ACTGCTCTGC CTCCAGCGTC TCGTCCTCCA GCAGCACGTT GGAGAGGGAG 
GAGAAGGAGG ACAAGCTCTC CAGGGACAGG ACAACTGGTT TGTGGCCCGC AGGTGTCCAG 
GATGCAGGTG TAAATGGACA GTGTGGCGAC ATCCTCACCA ACAAACGGTT CATGCTTGAC 
ATGCTGTATG CCCATAACAG GAAGTCTCCG GATGATGAGG AGAAGGGGGA TGGGGAGGCT 
GGGAGGACCC AGCAGGAGGC AGAGGCGGTA GCCAGCCTTG CTACCAGGAT ATCCACCCTG 
CAGGCCAACT CTCAGACCCA GGATGAGAGT GTCAGGAGGG TGGATGTCGG CTGTTTGGAC 
AATCGGGGCA GTGTGAAAGC ATTTGCTGAG AAATTCAACA GTGGGGACCT GGGGAGAGGT 
TCCATCTCCC CTGATGCTGA GCCCAATGAC AAGGTCCCAG AAACAGCGCC GGTGCAGCCG 
AAGACAGAGT CTGATTACAT CTGGGACCAG CTCATGGCCA ATCCAAGAGA GCTCAGAATC 
CAAGACATGG ATTTCACTGA CCTGGGGGAG GAGGATGACA TTGATGTCCT AGATGTGGAC 
CTGGGTCACA GGGAGGCCCC TGGGCCACCT CCCCCACCCC CACCCACCTT TCTGGGTTTG 
CCGCCCCCAC CCCCTCCGCC CCTGTTGGAC AGCATTCCTC CCCCTCCTGT CCCTGGTAAT 
TTATTGGTTC CTCCTCCTCC AGTGTTCAAC GCTCCTCAGG GCTTAGGGTG GTCCCAGGTA 
CCCAGGGGTC AGCCCACATT CACTAAGAAA AAGAAGACCA TCCGTTTGTT CTGGAATGAA 
GTTCGGCCTT TTGACTGGCC ATGTAAAAAC AACCGACGCT GCAGAGAATT CCTGTGGTCA 
AAACTGGAAC CCATTAAGGT GGACACTTCC AGACTGGAGC ACCTGTTTGA GTCTAAATCC 
AAGGAACTGT CTGTCTCAAA GAAAACTGCT GCAGATGGAA AAAGGCAAGA GATCATTGTT 
CTGGATTCCA AGAGGAGTAA CGCCATCAAT ATTGGTCTGA CGGTGCTGCC CCCTCCAAGG 
ACGATTAAGA TCGCCATTTT GAATTTTGAT GAGTATGCCT TAAACAAAGA AGGAATCGAG 
AAAATTCTAA CGATGATTCC CACCGATGAG GAGAAGCAGA AAATCCAGGA AGCTCAGCTG 
GCCAACCCTG AAATCCCCCT GGGCAGTGCA GAGCAGTTCC TCCTCACCCT GTCCTCCATC 
AGCGAGCTCT CTGCACGACT TCACCTCTGG GCATTCAAAA TGGATTATGA AACTACAGAA 
AAGGAAGTAG CAGAACCACT CCTGGACCTG AAGGAAGGAA TAGACCAGTT GGAGAACAAT 
AAAACCTTGG GCTTTATCCT GTCTACTCTC TTAGCCATTG GGAACTTTCT AAATGGAACT 
AATGCCAAAG CGTTTGAGTT AAGCTACCTC GAGAAGGTTC CAGAAGTCAA AGACACAGTG 
CACAAGCAGT CGCTTCTCCA CCATGTGTGC ACCATGGTGG TAGAAAACTT CCCAGACAGC 
TCCGATCTGT ACTCGGAGAT CGGGGCCATC ACCAGGTCAG CCAAGGTTGA CTTTGATCAA 
CTTCAGGATA ATTTATGTCA GATGGAGAGA AGATGCAAAG CTTCATGGGA TCACCTCAAG 
GCAATTGCAA AACATGAAAT GAAACCAGTT TTAAAACAAC GGATGTCAGA GTTCCTGAAA 
GACTGTGCAG AGCGAATTAT AATTTTAAAG ATTGTCCATA GAAGGATAAT CAACAGATTC 
CACTCCTTTT TACTCTTTAT GGGCCATCCA CCTTATGCAA TTCGGGAAGT GAACATAAAC 
AAATTCTGCA GGATTATTAG TGAATTTGCA CTAGAGTATC GCACAACCAG GGAAAGGGTT 
TTGCAGCAGA AACAGAAACG GGCCAACCAC AGAGAGAGAA ATAAGACCAG AGGGAAGATG 
ATCACCGATT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( NM_025135.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_079411.2 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 1, mRNA.

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CloneID	OHu10014
Clone ID Related Accession (Same CDS sequence)	NM_025135.4 , NM_025135.5
Accession Version	NM_025135.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4320bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-02-25
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY020952.1, AK128053.1, BC031518.1, AB051482.1, BC081563.1, AI948493.1 and AC090333.5. This sequence is a reference standard in the RefSeqGene project. On Aug 25, 2015 this sequence version replaced NM_025135.3. Transcript Variant: This variant (1) encodes isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA1968832 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT 
GCGGAGGACG CGGCTGAGCA CGAGAACATG AAGGCTGTGC TGAAAACCTC GTCCCCCTCC 
GTGGAGGACG CCACCCCCGC GCTGGGCGTC CGCACACGCA GCCGAGCAAG CCGAGGATCC 
ACTAGTTCCT GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT 
GAGATCATGG ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG 
AGGGAGAGGA AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GAAGAGCGGC 
CTGACCCCAG AAGAAGCCAG AGCCCTGGGC TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_079411.2
CDS	141..4460
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	NM_025135.4
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_025135.4

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT 
GCGGAGGACG CGGCTGAGCA CGAGAACATG AAGGCTGTGC TGAAAACCTC GTCCCCCTCC 
GTGGAGGACG CCACCCCCGC GCTGGGCGTC CGCACACGCA GCCGAGCAAG CCGAGGATCC 
ACTAGTTCCT GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT 
GAGATCATGG ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG 
AGGGAGAGGA AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GAAGAGCGGC 
CTGACCCCAG AAGAAGCCAG AGCCCTGGGC TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( NM_025135.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_079411.2 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 1, mRNA.

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CloneID	OHu10014
Clone ID Related Accession (Same CDS sequence)	NM_025135.4 , NM_025135.5
Accession Version	NM_025135.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4320bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2020-01-04
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY020952.1, AK128053.1, BC031518.1, AB051482.1, BC081563.1, AI948493.1 and AC090333.5. This sequence is a reference standard in the RefSeqGene project. On Jun 3, 2019 this sequence version replaced NM_025135.4. Transcript Variant: This variant (1) encodes isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA1968832 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT 
GCGGAGGACG CGGCTGAGCA CGAGAACATG AAGGCTGTGC TGAAAACCTC GTCCCCCTCC 
GTGGAGGACG CCACCCCCGC GCTGGGCGTC CGCACACGCA GCCGAGCAAG CCGAGGATCC 
ACTAGTTCCT GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT 
GAGATCATGG ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG 
AGGGAGAGGA AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GAAGAGCGGC 
CTGACCCCAG AAGAAGCCAG AGCCCTGGGC TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_079411.2
CDS	124..4443
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	NM_025135.5
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_025135.5

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT 
GCGGAGGACG CGGCTGAGCA CGAGAACATG AAGGCTGTGC TGAAAACCTC GTCCCCCTCC 
GTGGAGGACG CCACCCCCGC GCTGGGCGTC CGCACACGCA GCCGAGCAAG CCGAGGATCC 
ACTAGTTCCT GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT 
GAGATCATGG ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG 
AGGGAGAGGA AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GAAGAGCGGC 
CTGACCCCAG AAGAAGCCAG AGCCCTGGGC TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( NM_001281740.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001268669.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu14758
Clone ID Related Accession (Same CDS sequence)	NM_001281740.2 , NM_001281740.3
Accession Version	NM_001281740.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4869bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-02-24
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform 3
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY020952.1, AK128053.1, HM191478.1, AC131053.2, BC031518.1, BC081563.1, AI948493.1 and AC090333.5. On Aug 25, 2015 this sequence version replaced NM_001281740.1. Transcript Variant: This variant (3) contains additional in-frame coding exons compared to variant 1. The resulting longer isoform (3) is muscle-specific and required for the maintenance of myofibrils in heart muscle (PMID:21149568). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: HM191478.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2151741, SAMEA2154361 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001268669.1
CDS	141..5009
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	NM_001281740.2
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001281740.2

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( NM_001281740.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001268669.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 3, mRNA.

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CloneID	OHu14758
Clone ID Related Accession (Same CDS sequence)	NM_001281740.2 , NM_001281740.3
Accession Version	NM_001281740.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4869bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2020-01-03
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform 3
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY020952.1, AK128053.1, HM191478.1, AC131053.2, BC031518.1, BC081563.1, AI948493.1 and AC090333.5. On Jun 2, 2019 this sequence version replaced NM_001281740.2. Transcript Variant: This variant (3) contains additional in-frame coding exons compared to variant 1. The resulting longer isoform (3) is muscle-specific and required for the maintenance of myofibrils in heart muscle (PMID:21149568). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: HM191478.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2151741, SAMEA2154361 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001268669.1
CDS	124..4992
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	NM_001281740.3
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant 3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001281740.3

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_005258349.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005258406.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X6, mRNA.

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CloneID	OHu51313
Clone ID Related Accession (Same CDS sequence)	XM_005258349.1
Accession Version	XM_005258349.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4680bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGGTCA TCACCGAGTG GTCTTCTCAC ATCATCCTTC 
AGGCAGCACC AAGAGTCACT GGCAGCAGAG AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA 
AGGTTGCAGA GAATAGAGCG GGAAGAAAGA AACAAATTCA GCCGAGATTA TTTAGACAAA 
AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA AGATACAAAT ACTTGGAACA GTTGGCAGCT 
GAGGAGCACG AGAAGGAGCT GAGAAGCCGG AGTGTGAGCC GGGGCAGAGC CGACCTCTCC 
TTGGACCTGA CCTCGCCAGC AGCCCCAGCC TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA 
TCTTCAGACT CTCAAGAGGC TCTCACGGTG TCTGCCTCCT CCCCAGGAAC CCCTCACCAT 
CCCCAAGCAA GTGCCGGGGA TCCTGAACCC GAATCAGAGG CAGAACCGGA AGCAGAGGCA 
GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC CAGGACATAG CCTCTGCCCA CGAGGGTGCA 
GAGACTGAAG TGGAGCAGGC ACTAGAGCAA GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA 
AAAGAGAGGC AGAACGAGGG GGTGAACGAG AGGGACAACT GCTCTGCCTC CAGCGTCTCG 
TCCTCCAGCA GCACGTTGGA GAGGGAGGAG AAGGAGGACA AGCTCTCCAG GGACAGGACA 
ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT GCAGGTGTAA ATGGACAGTG TGGCGACATC 
CTCACCAACA AACGGTTCAT GCTTGACATG CTGTATGCCC ATAACAGGAA GTCTCCGGAT 
GATGAGGAGA AGGGGGATGG GGAGGCTGGG AGGACCCAGC AGGAGGCAGA GGCGGTAGCC 
AGCCTTGCTA CCAGGATATC CACCCTGCAG GCCAACTCTC AGACCCAGGA TGAGAGTGTC 
AGGAGGGTGG ATGTCGGCTG TTTGGACAAT CGGGGCAGTG TGAAAGCATT TGCTGAGAAA 
TTCAACAGTG GGGACCTGGG GAGAGGTTCC ATCTCCCCTG ATGCTGAGCC CAATGACAAG 
GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG ACAGAGTCTG ATTACATCTG GGACCAGCTC 
ATGGCCAATC CAAGAGAGCT CAGAATCCAA GACATGGATT TCACTGACCT GGGGGAGGAG 
GATGACATTG ATGTCCTAGA TGTGGACCTG GGTCACAGGG AGGCCCCTGG GCCACCTCCC 
CCACCCCCAC CCACCTTTCT GGGTTTGCCG CCCCCACCCC CTCCGCCCCT GTTGGACAGC 
ATTCCTCCCC CTCCTGTCCC TGGTAATTTA TTGGTTCCTC CTCCTCCAGT GTTCAACGCT 
CCTCAGGGCT TAGGGTGGTC CCAGGTACCC AGGGGTCAGC CCACATTCAC TAAGAAAAAG 
AAGACCATCC GTTTGTTCTG GAATGAAGTT CGGCCTTTTG ACTGGCCATG TAAAAACAAC 
CGACGCTGCA GAGAATTCCT GTGGTCAAAA CTGGAACCCA TTAAGGTGGA CACTTCCAGA 
CTGGAGCACC TGTTTGAGTC TAAATCCAAG GAACTGTCTG TCTCAAAGAA AACTGCTGCA 
GATGGAAAAA GGCAAGAGAT CATTGTTCTG GATTCCAAGA GGAGTAACGC CATCAATATT 
GGTCTGACGG TGCTGCCCCC TCCAAGGACG ATTAAGATCG CCATTTTGAA TTTTGATGAG 
TATGCCTTAA ACAAAGAAGG AATCGAGAAA ATTCTAACGA TGATTCCCAC CGATGAGGAG 
AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC AACCCTGAAA TCCCCCTGGG CAGTGCAGAG 
CAGTTCCTCC TCACCCTGTC CTCCATCAGC GAGCTCTCTG CACGACTTCA CCTCTGGGCA 
TTCAAAATGG ATTATGAAAC TACAGAAAAG GAAGTAGCAG AACCACTCCT GGACCTGAAG 
GAAGGAATAG ACCAGTTGGA GAACAATAAA ACCTTGGGCT TTATCCTGTC TACTCTCTTA 
GCCATTGGGA ACTTTCTAAA TGGAACTAAT GCCAAAGCGT TTGAGTTAAG CTACCTCGAG 
AAGGTTCCAG AAGTCAAAGA CACAGTGCAC AAGCAGTCGC TTCTCCACCA TGTGTGCACC 
ATGGTGGTAG AAAACTTCCC AGACAGCTCC GATCTGTACT CGGAGATCGG GGCCATCACC 
AGGTCAGCCA AGGTTGACTT TGATCAACTT CAGGATAATT TATGTCAGAT GGAGAGAAGA 
TGCAAAGCTT CATGGGATCA CCTCAAGGCA ATTGCAAAAC ATGAAATGAA ACCAGTTTTA 
AAACAACGGA TGTCAGAGTT CCTGAAAGAC TGTGCAGAGC GAATTATAAT TTTAAAGATT 
GTCCATAGAA GGATAATCAA CAGATTCCAC TCCTTTTTAC TCTTTATGGG CCATCCACCT 
TATGCAATTC GGGAAGTGAA CATAAACAAA TTCTGCAGGA TTATTAGTGA ATTTGCACTA 
GAGTATCGCA CAACCAGGGA AAGGGTTTTG CAGCAGAAAC AGAAACGGGC CAACCACAGA 
GAGAGAAATA AGACCAGAGG GAAGATGATC ACCGATACTG ATGAGGAGGA GGAAGTTGAG 
TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT 
GCGGAGGACG CGGCTGAGCA CGAGAACATG AAGGCTGTGC TGAAAACCTC GTCCCCCTCC 
GTGGAGGACG CCACCCCCGC GCTGGGCGTC CGCACACGCA GCCGAGCAAG CCGAGGATCC 
ACTAGTTCCT GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT 
GAGATCATGG ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG 
AGGGAGAGGA AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GAAGAGCGGC 
CTGACCCCAG AAGAAGCCAG AGCCCTGGGC TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005258406.1
CDS	123..4802
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_005258349.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005258349.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGGTCA TCACCGAGTG GTCTTCTCAC ATCATCCTTC 
AGGCAGCACC AAGAGTCACT GGCAGCAGAG AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA 
AGGTTGCAGA GAATAGAGCG GGAAGAAAGA AACAAATTCA GCCGAGATTA TTTAGACAAA 
AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA AGATACAAAT ACTTGGAACA GTTGGCAGCT 
GAGGAGCACG AGAAGGAGCT GAGAAGCCGG AGTGTGAGCC GGGGCAGAGC CGACCTCTCC 
TTGGACCTGA CCTCGCCAGC AGCCCCAGCC TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA 
TCTTCAGACT CTCAAGAGGC TCTCACGGTG TCTGCCTCCT CCCCAGGAAC CCCTCACCAT 
CCCCAAGCAA GTGCCGGGGA TCCTGAACCC GAATCAGAGG CAGAACCGGA AGCAGAGGCA 
GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC CAGGACATAG CCTCTGCCCA CGAGGGTGCA 
GAGACTGAAG TGGAGCAGGC ACTAGAGCAA GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA 
AAAGAGAGGC AGAACGAGGG GGTGAACGAG AGGGACAACT GCTCTGCCTC CAGCGTCTCG 
TCCTCCAGCA GCACGTTGGA GAGGGAGGAG AAGGAGGACA AGCTCTCCAG GGACAGGACA 
ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT GCAGGTGTAA ATGGACAGTG TGGCGACATC 
CTCACCAACA AACGGTTCAT GCTTGACATG CTGTATGCCC ATAACAGGAA GTCTCCGGAT 
GATGAGGAGA AGGGGGATGG GGAGGCTGGG AGGACCCAGC AGGAGGCAGA GGCGGTAGCC 
AGCCTTGCTA CCAGGATATC CACCCTGCAG GCCAACTCTC AGACCCAGGA TGAGAGTGTC 
AGGAGGGTGG ATGTCGGCTG TTTGGACAAT CGGGGCAGTG TGAAAGCATT TGCTGAGAAA 
TTCAACAGTG GGGACCTGGG GAGAGGTTCC ATCTCCCCTG ATGCTGAGCC CAATGACAAG 
GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG ACAGAGTCTG ATTACATCTG GGACCAGCTC 
ATGGCCAATC CAAGAGAGCT CAGAATCCAA GACATGGATT TCACTGACCT GGGGGAGGAG 
GATGACATTG ATGTCCTAGA TGTGGACCTG GGTCACAGGG AGGCCCCTGG GCCACCTCCC 
CCACCCCCAC CCACCTTTCT GGGTTTGCCG CCCCCACCCC CTCCGCCCCT GTTGGACAGC 
ATTCCTCCCC CTCCTGTCCC TGGTAATTTA TTGGTTCCTC CTCCTCCAGT GTTCAACGCT 
CCTCAGGGCT TAGGGTGGTC CCAGGTACCC AGGGGTCAGC CCACATTCAC TAAGAAAAAG 
AAGACCATCC GTTTGTTCTG GAATGAAGTT CGGCCTTTTG ACTGGCCATG TAAAAACAAC 
CGACGCTGCA GAGAATTCCT GTGGTCAAAA CTGGAACCCA TTAAGGTGGA CACTTCCAGA 
CTGGAGCACC TGTTTGAGTC TAAATCCAAG GAACTGTCTG TCTCAAAGAA AACTGCTGCA 
GATGGAAAAA GGCAAGAGAT CATTGTTCTG GATTCCAAGA GGAGTAACGC CATCAATATT 
GGTCTGACGG TGCTGCCCCC TCCAAGGACG ATTAAGATCG CCATTTTGAA TTTTGATGAG 
TATGCCTTAA ACAAAGAAGG AATCGAGAAA ATTCTAACGA TGATTCCCAC CGATGAGGAG 
AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC AACCCTGAAA TCCCCCTGGG CAGTGCAGAG 
CAGTTCCTCC TCACCCTGTC CTCCATCAGC GAGCTCTCTG CACGACTTCA CCTCTGGGCA 
TTCAAAATGG ATTATGAAAC TACAGAAAAG GAAGTAGCAG AACCACTCCT GGACCTGAAG 
GAAGGAATAG ACCAGTTGGA GAACAATAAA ACCTTGGGCT TTATCCTGTC TACTCTCTTA 
GCCATTGGGA ACTTTCTAAA TGGAACTAAT GCCAAAGCGT TTGAGTTAAG CTACCTCGAG 
AAGGTTCCAG AAGTCAAAGA CACAGTGCAC AAGCAGTCGC TTCTCCACCA TGTGTGCACC 
ATGGTGGTAG AAAACTTCCC AGACAGCTCC GATCTGTACT CGGAGATCGG GGCCATCACC 
AGGTCAGCCA AGGTTGACTT TGATCAACTT CAGGATAATT TATGTCAGAT GGAGAGAAGA 
TGCAAAGCTT CATGGGATCA CCTCAAGGCA ATTGCAAAAC ATGAAATGAA ACCAGTTTTA 
AAACAACGGA TGTCAGAGTT CCTGAAAGAC TGTGCAGAGC GAATTATAAT TTTAAAGATT 
GTCCATAGAA GGATAATCAA CAGATTCCAC TCCTTTTTAC TCTTTATGGG CCATCCACCT 
TATGCAATTC GGGAAGTGAA CATAAACAAA TTCTGCAGGA TTATTAGTGA ATTTGCACTA 
GAGTATCGCA CAACCAGGGA AAGGGTTTTG CAGCAGAAAC AGAAACGGGC CAACCACAGA 
GAGAGAAATA AGACCAGAGG GAAGATGATC ACCGATACTG ATGAGGAGGA GGAAGTTGAG 
TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT 
GCGGAGGACG CGGCTGAGCA CGAGAACATG AAGGCTGTGC TGAAAACCTC GTCCCCCTCC 
GTGGAGGACG CCACCCCCGC GCTGGGCGTC CGCACACGCA GCCGAGCAAG CCGAGGATCC 
ACTAGTTCCT GGACTATGGG AACTGATGAC TCGCCCAATG TCACAGATGA TGCAGCTGAT 
GAGATCATGG ACCGCATCGT CAAGTCAGCC ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG 
AGGGAGAGGA AACGATCCCG GGCCAACCGG AAATCTTTGC GAAGAACCCT GAAGAGCGGC 
CTGACCCCAG AAGAAGCCAG AGCCCTGGGC TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_005258354.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005258411.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X12, mRNA.

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CloneID	OHu51318
Clone ID Related Accession (Same CDS sequence)	XM_005258354.1
Accession Version	XM_005258354.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4230bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGTCA 
TCACCGAGTG GTCTTCTCAC ATCATCCTTC AGGCAGCACC AAGAGTCACT GGCAGCAGAG 
AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA AGGTTGCAGA GAATAGAGCG GGAAGAAAGA 
AACAAATTCA GCCGAGATTA TTTAGACAAA AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA 
AGATACAAAT ACTTGGAACA GTTGGCAGCT GAGGAGCACG AGAAGGAGCT GAGAAGCCGG 
AGTGTGAGCC GGGGCAGAGC CGACCTCTCC TTGGACCTGA CCTCGCCAGC AGCCCCAGCC 
TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA TCTTCAGACT CTCAAGAGGC TCTCACGGTG 
TCTGCCTCCT CCCCAGGAAC CCCTCACCAT CCCCAAGCAA GTGCCGGGGA TCCTGAACCC 
GAATCAGAGG CAGAACCGGA AGCAGAGGCA GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC 
CAGGACATAG CCTCTGCCCA CGAGGGTGCA GAGACTGAAG TGGAGCAGGC ACTAGAGCAA 
GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA AAAGAGAGGC AGAACGAGGG GGTGAACGAG 
AGGGACAACT GCTCTGCCTC CAGCGTCTCG TCCTCCAGCA GCACGTTGGA GAGGGAGGAG 
AAGGAGGACA AGCTCTCCAG GGACAGGACA ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT 
GCAGGTGTAA ATGGACAGTG TGGCGACATC CTCACCAACA AACGGTTCAT GCTTGACATG 
CTGTATGCCC ATAACAGGAA GTCTCCGGAT GATGAGGAGA AGGGGGATGG GGAGGCTGGG 
AGGACCCAGC AGGAGGCAGA GGCGGTAGCC AGCCTTGCTA CCAGGATATC CACCCTGCAG 
GCCAACTCTC AGACCCAGGA TGAGAGTGTC AGGAGGGTGG ATGTCGGCTG TTTGGACAAT 
CGGGGCAGTG TGAAAGCATT TGCTGAGAAA TTCAACAGTG GGGACCTGGG GAGAGGTTCC 
ATCTCCCCTG ATGCTGAGCC CAATGACAAG GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG 
ACAGAGTCTG ATTACATCTG GGACCAGCTC ATGGCCAATC CAAGAGAGCT CAGAATCCAA 
GACATGGATT TCACTGACCT GGGGGAGGAG GATGACATTG ATGTCCTAGA TGTGGACCTG 
GGTCACAGGG AGGCCCCTGG GCCACCTCCC CCACCCCCAC CCACCTTTCT GGGTTTGCCG 
CCCCCACCCC CTCCGCCCCT GTTGGACAGC ATTCCTCCCC CTCCTGTCCC TGGTAATTTA 
TTGGTTCCTC CTCCTCCAGT GTTCAACGCT CCTCAGGGCT TAGGGTGGTC CCAGGTACCC 
AGGGGTCAGC CCACATTCAC TAAGAAAAAG AAGACCATCC GTTTGTTCTG GAATGAAGTT 
CGGCCTTTTG ACTGGCCATG TAAAAACAAC CGACGCTGCA GAGAATTCCT GTGGTCAAAA 
CTGGAACCCA TTAAGGTGGA CACTTCCAGA CTGGAGCACC TGTTTGAGTC TAAATCCAAG 
GAACTGTCTG TCTCAAAGAA AACTGCTGCA GATGGAAAAA GGCAAGAGAT CATTGTTCTG 
GATTCCAAGA GGAGTAACGC CATCAATATT GGTCTGACGG TGCTGCCCCC TCCAAGGACG 
ATTAAGATCG CCATTTTGAA TTTTGATGAG TATGCCTTAA ACAAAGAAGG AATCGAGAAA 
ATTCTAACGA TGATTCCCAC CGATGAGGAG AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC 
AACCCTGAAA TCCCCCTGGG CAGTGCAGAG CAGTTCCTCC TCACCCTGTC CTCCATCAGC 
GAGCTCTCTG CACGACTTCA CCTCTGGGCA TTCAAAATGG ATTATGAAAC TACAGAAAAG 
GAAGTAGCAG AACCACTCCT GGACCTGAAG GAAGGAATAG ACCAGTTGGA GAACAATAAA 
ACCTTGGGCT TTATCCTGTC TACTCTCTTA GCCATTGGGA ACTTTCTAAA TGGAACTAAT 
GCCAAAGCGT TTGAGTTAAG CTACCTCGAG AAGGTTCCAG AAGTCAAAGA CACAGTGCAC 
AAGCAGTCGC TTCTCCACCA TGTGTGCACC ATGGTGGTAG AAAACTTCCC AGACAGCTCC 
GATCTGTACT CGGAGATCGG GGCCATCACC AGGTCAGCCA AGGTTGACTT TGATCAACTT 
CAGGATAATT TATGTCAGAT GGAGAGAAGA TGCAAAGCTT CATGGGATCA CCTCAAGGCA 
ATTGCAAAAC ATGAAATGAA ACCAGTTTTA AAACAACGGA TGTCAGAGTT CCTGAAAGAC 
TGTGCAGAGC GAATTATAAT TTTAAAGATT GTCCATAGAA GGATAATCAA CAGATTCCAC 
TCCTTTTTAC TCTTTATGGG CCATCCACCT TATGCAATTC GGGAAGTGAA CATAAACAAA 
TTCTGCAGGA TTATTAGTGA ATTTGCACTA GAGTATCGCA CAACCAGGGA AAGGGTTTTG 
CAGCAGAAAC AGAAACGGGC CAACCACAGA GAGAGAAATA AGACCAGAGG GAAGATGATC 
ACCGATACTG ATGAGGAGGA GGAAGTTGAG TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG 
CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT GCGGAGGACG CGGCTGAGCA CGAGAACATG 
AAGGCTGTGC TGAAAACCTC GTCCCCCTCC GTGGAGGACG CCACCCCCGC GCTGGGCGTC 
CGCACACGCA GCCGAGCAAG CCGAGGATCC ACTAGTTCCT GGACTATGGG AACTGATGAC 
TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG ACCGCATCGT CAAGTCAGCC 
ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA AACGATCCCG GGCCAACCGG 
AAATCTTTGC GAAGAACCCT GAAGAGCGGC CTGACCCCAG AAGAAGCCAG AGCCCTGGGC 
TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005258411.1
CDS	123..4352
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_005258354.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X12, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005258354.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGTCA 
TCACCGAGTG GTCTTCTCAC ATCATCCTTC AGGCAGCACC AAGAGTCACT GGCAGCAGAG 
AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA AGGTTGCAGA GAATAGAGCG GGAAGAAAGA 
AACAAATTCA GCCGAGATTA TTTAGACAAA AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA 
AGATACAAAT ACTTGGAACA GTTGGCAGCT GAGGAGCACG AGAAGGAGCT GAGAAGCCGG 
AGTGTGAGCC GGGGCAGAGC CGACCTCTCC TTGGACCTGA CCTCGCCAGC AGCCCCAGCC 
TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA TCTTCAGACT CTCAAGAGGC TCTCACGGTG 
TCTGCCTCCT CCCCAGGAAC CCCTCACCAT CCCCAAGCAA GTGCCGGGGA TCCTGAACCC 
GAATCAGAGG CAGAACCGGA AGCAGAGGCA GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC 
CAGGACATAG CCTCTGCCCA CGAGGGTGCA GAGACTGAAG TGGAGCAGGC ACTAGAGCAA 
GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA AAAGAGAGGC AGAACGAGGG GGTGAACGAG 
AGGGACAACT GCTCTGCCTC CAGCGTCTCG TCCTCCAGCA GCACGTTGGA GAGGGAGGAG 
AAGGAGGACA AGCTCTCCAG GGACAGGACA ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT 
GCAGGTGTAA ATGGACAGTG TGGCGACATC CTCACCAACA AACGGTTCAT GCTTGACATG 
CTGTATGCCC ATAACAGGAA GTCTCCGGAT GATGAGGAGA AGGGGGATGG GGAGGCTGGG 
AGGACCCAGC AGGAGGCAGA GGCGGTAGCC AGCCTTGCTA CCAGGATATC CACCCTGCAG 
GCCAACTCTC AGACCCAGGA TGAGAGTGTC AGGAGGGTGG ATGTCGGCTG TTTGGACAAT 
CGGGGCAGTG TGAAAGCATT TGCTGAGAAA TTCAACAGTG GGGACCTGGG GAGAGGTTCC 
ATCTCCCCTG ATGCTGAGCC CAATGACAAG GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG 
ACAGAGTCTG ATTACATCTG GGACCAGCTC ATGGCCAATC CAAGAGAGCT CAGAATCCAA 
GACATGGATT TCACTGACCT GGGGGAGGAG GATGACATTG ATGTCCTAGA TGTGGACCTG 
GGTCACAGGG AGGCCCCTGG GCCACCTCCC CCACCCCCAC CCACCTTTCT GGGTTTGCCG 
CCCCCACCCC CTCCGCCCCT GTTGGACAGC ATTCCTCCCC CTCCTGTCCC TGGTAATTTA 
TTGGTTCCTC CTCCTCCAGT GTTCAACGCT CCTCAGGGCT TAGGGTGGTC CCAGGTACCC 
AGGGGTCAGC CCACATTCAC TAAGAAAAAG AAGACCATCC GTTTGTTCTG GAATGAAGTT 
CGGCCTTTTG ACTGGCCATG TAAAAACAAC CGACGCTGCA GAGAATTCCT GTGGTCAAAA 
CTGGAACCCA TTAAGGTGGA CACTTCCAGA CTGGAGCACC TGTTTGAGTC TAAATCCAAG 
GAACTGTCTG TCTCAAAGAA AACTGCTGCA GATGGAAAAA GGCAAGAGAT CATTGTTCTG 
GATTCCAAGA GGAGTAACGC CATCAATATT GGTCTGACGG TGCTGCCCCC TCCAAGGACG 
ATTAAGATCG CCATTTTGAA TTTTGATGAG TATGCCTTAA ACAAAGAAGG AATCGAGAAA 
ATTCTAACGA TGATTCCCAC CGATGAGGAG AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC 
AACCCTGAAA TCCCCCTGGG CAGTGCAGAG CAGTTCCTCC TCACCCTGTC CTCCATCAGC 
GAGCTCTCTG CACGACTTCA CCTCTGGGCA TTCAAAATGG ATTATGAAAC TACAGAAAAG 
GAAGTAGCAG AACCACTCCT GGACCTGAAG GAAGGAATAG ACCAGTTGGA GAACAATAAA 
ACCTTGGGCT TTATCCTGTC TACTCTCTTA GCCATTGGGA ACTTTCTAAA TGGAACTAAT 
GCCAAAGCGT TTGAGTTAAG CTACCTCGAG AAGGTTCCAG AAGTCAAAGA CACAGTGCAC 
AAGCAGTCGC TTCTCCACCA TGTGTGCACC ATGGTGGTAG AAAACTTCCC AGACAGCTCC 
GATCTGTACT CGGAGATCGG GGCCATCACC AGGTCAGCCA AGGTTGACTT TGATCAACTT 
CAGGATAATT TATGTCAGAT GGAGAGAAGA TGCAAAGCTT CATGGGATCA CCTCAAGGCA 
ATTGCAAAAC ATGAAATGAA ACCAGTTTTA AAACAACGGA TGTCAGAGTT CCTGAAAGAC 
TGTGCAGAGC GAATTATAAT TTTAAAGATT GTCCATAGAA GGATAATCAA CAGATTCCAC 
TCCTTTTTAC TCTTTATGGG CCATCCACCT TATGCAATTC GGGAAGTGAA CATAAACAAA 
TTCTGCAGGA TTATTAGTGA ATTTGCACTA GAGTATCGCA CAACCAGGGA AAGGGTTTTG 
CAGCAGAAAC AGAAACGGGC CAACCACAGA GAGAGAAATA AGACCAGAGG GAAGATGATC 
ACCGATACTG ATGAGGAGGA GGAAGTTGAG TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG 
CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT GCGGAGGACG CGGCTGAGCA CGAGAACATG 
AAGGCTGTGC TGAAAACCTC GTCCCCCTCC GTGGAGGACG CCACCCCCGC GCTGGGCGTC 
CGCACACGCA GCCGAGCAAG CCGAGGATCC ACTAGTTCCT GGACTATGGG AACTGATGAC 
TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG ACCGCATCGT CAAGTCAGCC 
ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA AACGATCCCG GGCCAACCGG 
AAATCTTTGC GAAGAACCCT GAAGAGCGGC CTGACCCCAG AAGAAGCCAG AGCCCTGGGC 
TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_005258355.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005258412.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X14, mRNA.

Price & Availability↑

CloneID	OHu51319
Clone ID Related Accession (Same CDS sequence)	XM_005258355.2 , XM_005258355.1
Accession Version	XM_005258355.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4206bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005258355.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGTCA 
TCACCGAGTG GTCTTCTCAC ATCATCCTTC AGGCAGCACC AAGAGTCACT GGCAGCAGAG 
AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA AGGTTGCAGA GAATAGAGCG GGAAGAAAGA 
AACAAATTCA GCCGAGATTA TTTAGACAAA AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA 
AGATACAAAT ACTTGGAACA GTTGGCAGCT GAGGAGCACG AGAAGGAGCT GAGAAGCCGG 
AGTGTGAGCC GGGGCAGAGC CGACCTCTCC TTGGACCTGA CCTCGCCAGC AGCCCCAGCC 
TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA TCTTCAGACT CTCAAGAGGC TCTCACGGTG 
TCTGCCTCCT CCCCAGGAAC CCCTCACCAT CCCCAAGCAA GTGCCGGGGA TCCTGAACCC 
GAATCAGAGG CAGAACCGGA AGCAGAGGCA GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC 
CAGGACATAG CCTCTGCCCA CGAGGGTGCA GAGACTGAAG TGGAGCAGGC ACTAGAGCAA 
GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA AAAGAGAGGC AGAACGAGGG GGTGAACGAG 
AGGGACAACT GCTCTGCCTC CAGCGTCTCG TCCTCCAGCA GCACGTTGGA GAGGGAGGAG 
AAGGAGGACA AGCTCTCCAG GGACAGGACA ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT 
GCAGGTGTAA ATGGACAGTG TGGCGACATC CTCACCAACA AACGGTTCAT GCTTGACATG 
CTGTATGCCC ATAACAGGAA GTCTCCGGAT GATGAGGAGA AGGGGGATGG GGAGGCTGGG 
AGGACCCAGC AGGAGGCAGA GGCGGTAGCC AGCCTTGCTA CCAGGATATC CACCCTGCAG 
GCCAACTCTC AGACCCAGGA TGAGAGTGTC AGGAGGGTGG ATGTCGGCTG TTTGGACAAT 
CGGGGCAGTG TGAAAGCATT TGCTGAGAAA TTCAACAGTG GGGACCTGGG GAGAGGTTCC 
ATCTCCCCTG ATGCTGAGCC CAATGACAAG GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG 
ACAGAGTCTG ATTACATCTG GGACCAGCTC ATGGCCAATC CAAGAGAGCT CAGAATCCAA 
GACATGGATT TCACTGACCT GGGGGAGGAG GATGACATTG ATGTCCTAGA TGTGGACCTG 
GGTCACAGGG AGGCCCCTGG GCCACCTCCC CCACCCCCAC CCACCTTTCT GGGTTTGCCG 
CCCCCACCCC CTCCGCCCCT GTTGGACAGC ATTCCTCCCC CTCCTGTCCC TGGTAATTTA 
TTGGTTCCTC CTCCTCCAGT GTTCAACGCT CCTCAGGGCT TAGGGTGGTC CCAGGTACCC 
AGGGGTCAGC CCACATTCAC TAAGAAAAAG AAGACCATCC GTTTGTTCTG GAATGAAGTT 
CGGCCTTTTG ACTGGCCATG TAAAAACAAC CGACGCTGCA GAGAATTCCT GTGGTCAAAA 
CTGGAACCCA TTAAGGTGGA CACTTCCAGA CTGGAGCACC TGTTTGAGTC TAAATCCAAG 
GAACTGTCTG TCTCAAAGAA AACTGCTGCA GATGGAAAAA GGCAAGAGAT CATTGTTCTG 
GATTCCAAGA GGAGTAACGC CATCAATATT GGTCTGACGG TGCTGCCCCC TCCAAGGACG 
ATTAAGATCG CCATTTTGAA TTTTGATGAG TATGCCTTAA ACAAAGAAGG AATCGAGAAA 
ATTCTAACGA TGATTCCCAC CGATGAGGAG AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC 
AACCCTGAAA TCCCCCTGGG CAGTGCAGAG CAGTTCCTCC TCACCCTGTC CTCCATCAGC 
GAGCTCTCTG CACGACTTCA CCTCTGGGCA TTCAAAATGG ATTATGAAAC TACAGAAAAG 
GAAGTAGCAG AACCACTCCT GGACCTGAAG GAAGGAATAG ACCAGTTGGA GAACAATAAA 
ACCTTGGGCT TTATCCTGTC TACTCTCTTA GCCATTGGGA ACTTTCTAAA TGGAACTAAT 
GCCAAAGCGT TTGAGTTAAG CTACCTCGAG AAGGTTCCAG AAGTCAAAGA CACAGTGCAC 
AAGCAGTCGC TTCTCCACCA TGTGTGCACC ATGGTGGTAG AAAACTTCCC AGACAGCTCC 
GATCTGTACT CGGAGATCGG GGCCATCACC AGGTCAGCCA AGGTTGACTT TGATCAACTT 
CAGGATAATT TATGTCAGAT GGAGAGAAGA TGCAAAGCTT CATGGGATCA CCTCAAGGCA 
ATTGCAAAAC ATGAAATGAA ACCAGTTTTA AAACAACGGA TGTCAGAGTT CCTGAAAGAC 
TGTGCAGAGC GAATTATAAT TTTAAAGATT GTCCATAGAA GGATAATCAA CAGATTCCAC 
TCCTTTTTAC TCTTTATGGG CCATCCACCT TATGCAATTC GGGAAGTGAA CATAAACAAA 
TTCTGCAGGA TTATTAGTGA ATTTGCACTA GAGTATCGCA CAACCAGGGA AAGGGTTTTG 
CAGCAGAAAC AGAAACGGGC CAACCACAGA GAGAGAAATA AGACCAGAGG GAAGATGATC 
ACCGATTCTG GCAAGTTCTC CGGCAGTTCT CCGGCGCCCC CAAGCCAGCC GCAGGGTCTG 
AGCTATGCGG AGGACGCGGC TGAGCACGAG AACATGAAGG CTGTGCTGAA AACCTCGTCC 
CCCTCCGTGG AGGACGCCAC CCCCGCGCTG GGCGTCCGCA CACGCAGCCG AGCAAGCCGA 
GGATCCACTA GTTCCTGGAC TATGGGAACT GATGACTCGC CCAATGTCAC AGATGATGCA 
GCTGATGAGA TCATGGACCG CATCGTCAAG TCAGCCACCC AAGTGCCCAG TCAGCGAGTG 
GTGCCGAGGG AGAGGAAACG ATCCCGGGCC AACCGGAAAT CTTTGCGAAG AACCCTGAAG 
AGCGGCCTGA CCCCAGAAGA AGCCAGAGCC CTGGGCTTGG TTGGCACCTC GGAGTTGCAG 
CTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005258412.1
CDS	123..4328
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_005258355.2
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X14, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005258355.2

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGTCA 
TCACCGAGTG GTCTTCTCAC ATCATCCTTC AGGCAGCACC AAGAGTCACT GGCAGCAGAG 
AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA AGGTTGCAGA GAATAGAGCG GGAAGAAAGA 
AACAAATTCA GCCGAGATTA TTTAGACAAA AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA 
AGATACAAAT ACTTGGAACA GTTGGCAGCT GAGGAGCACG AGAAGGAGCT GAGAAGCCGG 
AGTGTGAGCC GGGGCAGAGC CGACCTCTCC TTGGACCTGA CCTCGCCAGC AGCCCCAGCC 
TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA TCTTCAGACT CTCAAGAGGC TCTCACGGTG 
TCTGCCTCCT CCCCAGGAAC CCCTCACCAT CCCCAAGCAA GTGCCGGGGA TCCTGAACCC 
GAATCAGAGG CAGAACCGGA AGCAGAGGCA GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC 
CAGGACATAG CCTCTGCCCA CGAGGGTGCA GAGACTGAAG TGGAGCAGGC ACTAGAGCAA 
GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA AAAGAGAGGC AGAACGAGGG GGTGAACGAG 
AGGGACAACT GCTCTGCCTC CAGCGTCTCG TCCTCCAGCA GCACGTTGGA GAGGGAGGAG 
AAGGAGGACA AGCTCTCCAG GGACAGGACA ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT 
GCAGGTGTAA ATGGACAGTG TGGCGACATC CTCACCAACA AACGGTTCAT GCTTGACATG 
CTGTATGCCC ATAACAGGAA GTCTCCGGAT GATGAGGAGA AGGGGGATGG GGAGGCTGGG 
AGGACCCAGC AGGAGGCAGA GGCGGTAGCC AGCCTTGCTA CCAGGATATC CACCCTGCAG 
GCCAACTCTC AGACCCAGGA TGAGAGTGTC AGGAGGGTGG ATGTCGGCTG TTTGGACAAT 
CGGGGCAGTG TGAAAGCATT TGCTGAGAAA TTCAACAGTG GGGACCTGGG GAGAGGTTCC 
ATCTCCCCTG ATGCTGAGCC CAATGACAAG GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG 
ACAGAGTCTG ATTACATCTG GGACCAGCTC ATGGCCAATC CAAGAGAGCT CAGAATCCAA 
GACATGGATT TCACTGACCT GGGGGAGGAG GATGACATTG ATGTCCTAGA TGTGGACCTG 
GGTCACAGGG AGGCCCCTGG GCCACCTCCC CCACCCCCAC CCACCTTTCT GGGTTTGCCG 
CCCCCACCCC CTCCGCCCCT GTTGGACAGC ATTCCTCCCC CTCCTGTCCC TGGTAATTTA 
TTGGTTCCTC CTCCTCCAGT GTTCAACGCT CCTCAGGGCT TAGGGTGGTC CCAGGTACCC 
AGGGGTCAGC CCACATTCAC TAAGAAAAAG AAGACCATCC GTTTGTTCTG GAATGAAGTT 
CGGCCTTTTG ACTGGCCATG TAAAAACAAC CGACGCTGCA GAGAATTCCT GTGGTCAAAA 
CTGGAACCCA TTAAGGTGGA CACTTCCAGA CTGGAGCACC TGTTTGAGTC TAAATCCAAG 
GAACTGTCTG TCTCAAAGAA AACTGCTGCA GATGGAAAAA GGCAAGAGAT CATTGTTCTG 
GATTCCAAGA GGAGTAACGC CATCAATATT GGTCTGACGG TGCTGCCCCC TCCAAGGACG 
ATTAAGATCG CCATTTTGAA TTTTGATGAG TATGCCTTAA ACAAAGAAGG AATCGAGAAA 
ATTCTAACGA TGATTCCCAC CGATGAGGAG AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC 
AACCCTGAAA TCCCCCTGGG CAGTGCAGAG CAGTTCCTCC TCACCCTGTC CTCCATCAGC 
GAGCTCTCTG CACGACTTCA CCTCTGGGCA TTCAAAATGG ATTATGAAAC TACAGAAAAG 
GAAGTAGCAG AACCACTCCT GGACCTGAAG GAAGGAATAG ACCAGTTGGA GAACAATAAA 
ACCTTGGGCT TTATCCTGTC TACTCTCTTA GCCATTGGGA ACTTTCTAAA TGGAACTAAT 
GCCAAAGCGT TTGAGTTAAG CTACCTCGAG AAGGTTCCAG AAGTCAAAGA CACAGTGCAC 
AAGCAGTCGC TTCTCCACCA TGTGTGCACC ATGGTGGTAG AAAACTTCCC AGACAGCTCC 
GATCTGTACT CGGAGATCGG GGCCATCACC AGGTCAGCCA AGGTTGACTT TGATCAACTT 
CAGGATAATT TATGTCAGAT GGAGAGAAGA TGCAAAGCTT CATGGGATCA CCTCAAGGCA 
ATTGCAAAAC ATGAAATGAA ACCAGTTTTA AAACAACGGA TGTCAGAGTT CCTGAAAGAC 
TGTGCAGAGC GAATTATAAT TTTAAAGATT GTCCATAGAA GGATAATCAA CAGATTCCAC 
TCCTTTTTAC TCTTTATGGG CCATCCACCT TATGCAATTC GGGAAGTGAA CATAAACAAA 
TTCTGCAGGA TTATTAGTGA ATTTGCACTA GAGTATCGCA CAACCAGGGA AAGGGTTTTG 
CAGCAGAAAC AGAAACGGGC CAACCACAGA GAGAGAAATA AGACCAGAGG GAAGATGATC 
ACCGATTCTG GCAAGTTCTC CGGCAGTTCT CCGGCGCCCC CAAGCCAGCC GCAGGGTCTG 
AGCTATGCGG AGGACGCGGC TGAGCACGAG AACATGAAGG CTGTGCTGAA AACCTCGTCC 
CCCTCCGTGG AGGACGCCAC CCCCGCGCTG GGCGTCCGCA CACGCAGCCG AGCAAGCCGA 
GGATCCACTA GTTCCTGGAC TATGGGAACT GATGACTCGC CCAATGTCAC AGATGATGCA 
GCTGATGAGA TCATGGACCG CATCGTCAAG TCAGCCACCC AAGTGCCCAG TCAGCGAGTG 
GTGCCGAGGG AGAGGAAACG ATCCCGGGCC AACCGGAAAT CTTTGCGAAG AACCCTGAAG 
AGCGGCCTGA CCCCAGAAGA AGCCAGAGCC CTGGGCTTGG TTGGCACCTC GGAGTTGCAG 
CTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_005258355.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005258412.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OHu51319
Clone ID Related Accession (Same CDS sequence)	XM_005258355.2 , XM_005258355.1
Accession Version	XM_005258355.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4206bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGTCA 
TCACCGAGTG GTCTTCTCAC ATCATCCTTC AGGCAGCACC AAGAGTCACT GGCAGCAGAG 
AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA AGGTTGCAGA GAATAGAGCG GGAAGAAAGA 
AACAAATTCA GCCGAGATTA TTTAGACAAA AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA 
AGATACAAAT ACTTGGAACA GTTGGCAGCT GAGGAGCACG AGAAGGAGCT GAGAAGCCGG 
AGTGTGAGCC GGGGCAGAGC CGACCTCTCC TTGGACCTGA CCTCGCCAGC AGCCCCAGCC 
TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA TCTTCAGACT CTCAAGAGGC TCTCACGGTG 
TCTGCCTCCT CCCCAGGAAC CCCTCACCAT CCCCAAGCAA GTGCCGGGGA TCCTGAACCC 
GAATCAGAGG CAGAACCGGA AGCAGAGGCA GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC 
CAGGACATAG CCTCTGCCCA CGAGGGTGCA GAGACTGAAG TGGAGCAGGC ACTAGAGCAA 
GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA AAAGAGAGGC AGAACGAGGG GGTGAACGAG 
AGGGACAACT GCTCTGCCTC CAGCGTCTCG TCCTCCAGCA GCACGTTGGA GAGGGAGGAG 
AAGGAGGACA AGCTCTCCAG GGACAGGACA ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT 
GCAGGTGTAA ATGGACAGTG TGGCGACATC CTCACCAACA AACGGTTCAT GCTTGACATG 
CTGTATGCCC ATAACAGGAA GTCTCCGGAT GATGAGGAGA AGGGGGATGG GGAGGCTGGG 
AGGACCCAGC AGGAGGCAGA GGCGGTAGCC AGCCTTGCTA CCAGGATATC CACCCTGCAG 
GCCAACTCTC AGACCCAGGA TGAGAGTGTC AGGAGGGTGG ATGTCGGCTG TTTGGACAAT 
CGGGGCAGTG TGAAAGCATT TGCTGAGAAA TTCAACAGTG GGGACCTGGG GAGAGGTTCC 
ATCTCCCCTG ATGCTGAGCC CAATGACAAG GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG 
ACAGAGTCTG ATTACATCTG GGACCAGCTC ATGGCCAATC CAAGAGAGCT CAGAATCCAA 
GACATGGATT TCACTGACCT GGGGGAGGAG GATGACATTG ATGTCCTAGA TGTGGACCTG 
GGTCACAGGG AGGCCCCTGG GCCACCTCCC CCACCCCCAC CCACCTTTCT GGGTTTGCCG 
CCCCCACCCC CTCCGCCCCT GTTGGACAGC ATTCCTCCCC CTCCTGTCCC TGGTAATTTA 
TTGGTTCCTC CTCCTCCAGT GTTCAACGCT CCTCAGGGCT TAGGGTGGTC CCAGGTACCC 
AGGGGTCAGC CCACATTCAC TAAGAAAAAG AAGACCATCC GTTTGTTCTG GAATGAAGTT 
CGGCCTTTTG ACTGGCCATG TAAAAACAAC CGACGCTGCA GAGAATTCCT GTGGTCAAAA 
CTGGAACCCA TTAAGGTGGA CACTTCCAGA CTGGAGCACC TGTTTGAGTC TAAATCCAAG 
GAACTGTCTG TCTCAAAGAA AACTGCTGCA GATGGAAAAA GGCAAGAGAT CATTGTTCTG 
GATTCCAAGA GGAGTAACGC CATCAATATT GGTCTGACGG TGCTGCCCCC TCCAAGGACG 
ATTAAGATCG CCATTTTGAA TTTTGATGAG TATGCCTTAA ACAAAGAAGG AATCGAGAAA 
ATTCTAACGA TGATTCCCAC CGATGAGGAG AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC 
AACCCTGAAA TCCCCCTGGG CAGTGCAGAG CAGTTCCTCC TCACCCTGTC CTCCATCAGC 
GAGCTCTCTG CACGACTTCA CCTCTGGGCA TTCAAAATGG ATTATGAAAC TACAGAAAAG 
GAAGTAGCAG AACCACTCCT GGACCTGAAG GAAGGAATAG ACCAGTTGGA GAACAATAAA 
ACCTTGGGCT TTATCCTGTC TACTCTCTTA GCCATTGGGA ACTTTCTAAA TGGAACTAAT 
GCCAAAGCGT TTGAGTTAAG CTACCTCGAG AAGGTTCCAG AAGTCAAAGA CACAGTGCAC 
AAGCAGTCGC TTCTCCACCA TGTGTGCACC ATGGTGGTAG AAAACTTCCC AGACAGCTCC 
GATCTGTACT CGGAGATCGG GGCCATCACC AGGTCAGCCA AGGTTGACTT TGATCAACTT 
CAGGATAATT TATGTCAGAT GGAGAGAAGA TGCAAAGCTT CATGGGATCA CCTCAAGGCA 
ATTGCAAAAC ATGAAATGAA ACCAGTTTTA AAACAACGGA TGTCAGAGTT CCTGAAAGAC 
TGTGCAGAGC GAATTATAAT TTTAAAGATT GTCCATAGAA GGATAATCAA CAGATTCCAC 
TCCTTTTTAC TCTTTATGGG CCATCCACCT TATGCAATTC GGGAAGTGAA CATAAACAAA 
TTCTGCAGGA TTATTAGTGA ATTTGCACTA GAGTATCGCA CAACCAGGGA AAGGGTTTTG 
CAGCAGAAAC AGAAACGGGC CAACCACAGA GAGAGAAATA AGACCAGAGG GAAGATGATC 
ACCGATTCTG GCAAGTTCTC CGGCAGTTCT CCGGCGCCCC CAAGCCAGCC GCAGGGTCTG 
AGCTATGCGG AGGACGCGGC TGAGCACGAG AACATGAAGG CTGTGCTGAA AACCTCGTCC 
CCCTCCGTGG AGGACGCCAC CCCCGCGCTG GGCGTCCGCA CACGCAGCCG AGCAAGCCGA 
GGATCCACTA GTTCCTGGAC TATGGGAACT GATGACTCGC CCAATGTCAC AGATGATGCA 
GCTGATGAGA TCATGGACCG CATCGTCAAG TCAGCCACCC AAGTGCCCAG TCAGCGAGTG 
GTGCCGAGGG AGAGGAAACG ATCCCGGGCC AACCGGAAAT CTTTGCGAAG AACCCTGAAG 
AGCGGCCTGA CCCCAGAAGA AGCCAGAGCC CTGGGCTTGG TTGGCACCTC GGAGTTGCAG 
CTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005258412.1
CDS	123..4328
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_005258355.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X13, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005258355.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGTCA 
TCACCGAGTG GTCTTCTCAC ATCATCCTTC AGGCAGCACC AAGAGTCACT GGCAGCAGAG 
AGAGAGAGGC GGCGGCAGGA GAGAGAAGAA AGGTTGCAGA GAATAGAGCG GGAAGAAAGA 
AACAAATTCA GCCGAGATTA TTTAGACAAA AGAGAGGAGC AAAGGCAAGC AAGAGAAGAA 
AGATACAAAT ACTTGGAACA GTTGGCAGCT GAGGAGCACG AGAAGGAGCT GAGAAGCCGG 
AGTGTGAGCC GGGGCAGAGC CGACCTCTCC TTGGACCTGA CCTCGCCAGC AGCCCCAGCC 
TGCCTGGCTC CTCTGAGCCA TAGCCCCTCA TCTTCAGACT CTCAAGAGGC TCTCACGGTG 
TCTGCCTCCT CCCCAGGAAC CCCTCACCAT CCCCAAGCAA GTGCCGGGGA TCCTGAACCC 
GAATCAGAGG CAGAACCGGA AGCAGAGGCA GGGGCGGGGC AGGTTGCTGA TGAAGCTGGC 
CAGGACATAG CCTCTGCCCA CGAGGGTGCA GAGACTGAAG TGGAGCAGGC ACTAGAGCAA 
GAGCCGGAAG AAAGAGCCTC CCTCAGTGAA AAAGAGAGGC AGAACGAGGG GGTGAACGAG 
AGGGACAACT GCTCTGCCTC CAGCGTCTCG TCCTCCAGCA GCACGTTGGA GAGGGAGGAG 
AAGGAGGACA AGCTCTCCAG GGACAGGACA ACTGGTTTGT GGCCCGCAGG TGTCCAGGAT 
GCAGGTGTAA ATGGACAGTG TGGCGACATC CTCACCAACA AACGGTTCAT GCTTGACATG 
CTGTATGCCC ATAACAGGAA GTCTCCGGAT GATGAGGAGA AGGGGGATGG GGAGGCTGGG 
AGGACCCAGC AGGAGGCAGA GGCGGTAGCC AGCCTTGCTA CCAGGATATC CACCCTGCAG 
GCCAACTCTC AGACCCAGGA TGAGAGTGTC AGGAGGGTGG ATGTCGGCTG TTTGGACAAT 
CGGGGCAGTG TGAAAGCATT TGCTGAGAAA TTCAACAGTG GGGACCTGGG GAGAGGTTCC 
ATCTCCCCTG ATGCTGAGCC CAATGACAAG GTCCCAGAAA CAGCGCCGGT GCAGCCGAAG 
ACAGAGTCTG ATTACATCTG GGACCAGCTC ATGGCCAATC CAAGAGAGCT CAGAATCCAA 
GACATGGATT TCACTGACCT GGGGGAGGAG GATGACATTG ATGTCCTAGA TGTGGACCTG 
GGTCACAGGG AGGCCCCTGG GCCACCTCCC CCACCCCCAC CCACCTTTCT GGGTTTGCCG 
CCCCCACCCC CTCCGCCCCT GTTGGACAGC ATTCCTCCCC CTCCTGTCCC TGGTAATTTA 
TTGGTTCCTC CTCCTCCAGT GTTCAACGCT CCTCAGGGCT TAGGGTGGTC CCAGGTACCC 
AGGGGTCAGC CCACATTCAC TAAGAAAAAG AAGACCATCC GTTTGTTCTG GAATGAAGTT 
CGGCCTTTTG ACTGGCCATG TAAAAACAAC CGACGCTGCA GAGAATTCCT GTGGTCAAAA 
CTGGAACCCA TTAAGGTGGA CACTTCCAGA CTGGAGCACC TGTTTGAGTC TAAATCCAAG 
GAACTGTCTG TCTCAAAGAA AACTGCTGCA GATGGAAAAA GGCAAGAGAT CATTGTTCTG 
GATTCCAAGA GGAGTAACGC CATCAATATT GGTCTGACGG TGCTGCCCCC TCCAAGGACG 
ATTAAGATCG CCATTTTGAA TTTTGATGAG TATGCCTTAA ACAAAGAAGG AATCGAGAAA 
ATTCTAACGA TGATTCCCAC CGATGAGGAG AAGCAGAAAA TCCAGGAAGC TCAGCTGGCC 
AACCCTGAAA TCCCCCTGGG CAGTGCAGAG CAGTTCCTCC TCACCCTGTC CTCCATCAGC 
GAGCTCTCTG CACGACTTCA CCTCTGGGCA TTCAAAATGG ATTATGAAAC TACAGAAAAG 
GAAGTAGCAG AACCACTCCT GGACCTGAAG GAAGGAATAG ACCAGTTGGA GAACAATAAA 
ACCTTGGGCT TTATCCTGTC TACTCTCTTA GCCATTGGGA ACTTTCTAAA TGGAACTAAT 
GCCAAAGCGT TTGAGTTAAG CTACCTCGAG AAGGTTCCAG AAGTCAAAGA CACAGTGCAC 
AAGCAGTCGC TTCTCCACCA TGTGTGCACC ATGGTGGTAG AAAACTTCCC AGACAGCTCC 
GATCTGTACT CGGAGATCGG GGCCATCACC AGGTCAGCCA AGGTTGACTT TGATCAACTT 
CAGGATAATT TATGTCAGAT GGAGAGAAGA TGCAAAGCTT CATGGGATCA CCTCAAGGCA 
ATTGCAAAAC ATGAAATGAA ACCAGTTTTA AAACAACGGA TGTCAGAGTT CCTGAAAGAC 
TGTGCAGAGC GAATTATAAT TTTAAAGATT GTCCATAGAA GGATAATCAA CAGATTCCAC 
TCCTTTTTAC TCTTTATGGG CCATCCACCT TATGCAATTC GGGAAGTGAA CATAAACAAA 
TTCTGCAGGA TTATTAGTGA ATTTGCACTA GAGTATCGCA CAACCAGGGA AAGGGTTTTG 
CAGCAGAAAC AGAAACGGGC CAACCACAGA GAGAGAAATA AGACCAGAGG GAAGATGATC 
ACCGATTCTG GCAAGTTCTC CGGCAGTTCT CCGGCGCCCC CAAGCCAGCC GCAGGGTCTG 
AGCTATGCGG AGGACGCGGC TGAGCACGAG AACATGAAGG CTGTGCTGAA AACCTCGTCC 
CCCTCCGTGG AGGACGCCAC CCCCGCGCTG GGCGTCCGCA CACGCAGCCG AGCAAGCCGA 
GGATCCACTA GTTCCTGGAC TATGGGAACT GATGACTCGC CCAATGTCAC AGATGATGCA 
GCTGATGAGA TCATGGACCG CATCGTCAAG TCAGCCACCC AAGTGCCCAG TCAGCGAGTG 
GTGCCGAGGG AGAGGAAACG ATCCCGGGCC AACCGGAAAT CTTTGCGAAG AACCCTGAAG 
AGCGGCCTGA CCCCAGAAGA AGCCAGAGCC CTGGGCTTGG TTGGCACCTC GGAGTTGCAG 
CTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526189.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524491.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X1, mRNA.

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CloneID	OHu72651
Clone ID Related Accession (Same CDS sequence)	XM_011526189.1
Accession Version	XM_011526189.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4929bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524491.1
CDS	123..5051
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526189.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526189.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTTGCG AAGAACCCTG 
AAGAGCGGCC TGACCCCAGA AGAAGCCAGA GCCCTGGGCT TGGTTGGCAC CTCGGAGTTG 
CAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526190.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524492.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X2, mRNA.

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CloneID	OHu72652
Clone ID Related Accession (Same CDS sequence)	XM_011526190.1 , XM_011526190.2
Accession Version	XM_011526190.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4905bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATTCTGG CAAGTTCTCC 
GGCAGTTCTC CGGCGCCCCC AAGCCAGCCG CAGGGTCTGA GCTATGCGGA GGACGCGGCT 
GAGCACGAGA ACATGAAGGC TGTGCTGAAA ACCTCGTCCC CCTCCGTGGA GGACGCCACC 
CCCGCGCTGG GCGTCCGCAC ACGCAGCCGA GCAAGCCGAG GATCCACTAG TTCCTGGACT 
ATGGGAACTG ATGACTCGCC CAATGTCACA GATGATGCAG CTGATGAGAT CATGGACCGC 
ATCGTCAAGT CAGCCACCCA AGTGCCCAGT CAGCGAGTGG TGCCGAGGGA GAGGAAACGA 
TCCCGGGCCA ACCGGAAATC TTTGCGAAGA ACCCTGAAGA GCGGCCTGAC CCCAGAAGAA 
GCCAGAGCCC TGGGCTTGGT TGGCACCTCG GAGTTGCAGC TGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524492.1
CDS	123..5027
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526190.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526190.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATTCTGG CAAGTTCTCC 
GGCAGTTCTC CGGCGCCCCC AAGCCAGCCG CAGGGTCTGA GCTATGCGGA GGACGCGGCT 
GAGCACGAGA ACATGAAGGC TGTGCTGAAA ACCTCGTCCC CCTCCGTGGA GGACGCCACC 
CCCGCGCTGG GCGTCCGCAC ACGCAGCCGA GCAAGCCGAG GATCCACTAG TTCCTGGACT 
ATGGGAACTG ATGACTCGCC CAATGTCACA GATGATGCAG CTGATGAGAT CATGGACCGC 
ATCGTCAAGT CAGCCACCCA AGTGCCCAGT CAGCGAGTGG TGCCGAGGGA GAGGAAACGA 
TCCCGGGCCA ACCGGAAATC TTTGCGAAGA ACCCTGAAGA GCGGCCTGAC CCCAGAAGAA 
GCCAGAGCCC TGGGCTTGGT TGGCACCTCG GAGTTGCAGC TGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526190.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524492.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X2, mRNA.

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CloneID	OHu72652
Clone ID Related Accession (Same CDS sequence)	XM_011526190.1 , XM_011526190.2
Accession Version	XM_011526190.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4905bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011526190.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATTCTGG CAAGTTCTCC 
GGCAGTTCTC CGGCGCCCCC AAGCCAGCCG CAGGGTCTGA GCTATGCGGA GGACGCGGCT 
GAGCACGAGA ACATGAAGGC TGTGCTGAAA ACCTCGTCCC CCTCCGTGGA GGACGCCACC 
CCCGCGCTGG GCGTCCGCAC ACGCAGCCGA GCAAGCCGAG GATCCACTAG TTCCTGGACT 
ATGGGAACTG ATGACTCGCC CAATGTCACA GATGATGCAG CTGATGAGAT CATGGACCGC 
ATCGTCAAGT CAGCCACCCA AGTGCCCAGT CAGCGAGTGG TGCCGAGGGA GAGGAAACGA 
TCCCGGGCCA ACCGGAAATC TTTGCGAAGA ACCCTGAAGA GCGGCCTGAC CCCAGAAGAA 
GCCAGAGCCC TGGGCTTGGT TGGCACCTCG GAGTTGCAGC TGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524492.1
CDS	123..5027
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526190.2
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526190.2

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATTCTGG CAAGTTCTCC 
GGCAGTTCTC CGGCGCCCCC AAGCCAGCCG CAGGGTCTGA GCTATGCGGA GGACGCGGCT 
GAGCACGAGA ACATGAAGGC TGTGCTGAAA ACCTCGTCCC CCTCCGTGGA GGACGCCACC 
CCCGCGCTGG GCGTCCGCAC ACGCAGCCGA GCAAGCCGAG GATCCACTAG TTCCTGGACT 
ATGGGAACTG ATGACTCGCC CAATGTCACA GATGATGCAG CTGATGAGAT CATGGACCGC 
ATCGTCAAGT CAGCCACCCA AGTGCCCAGT CAGCGAGTGG TGCCGAGGGA GAGGAAACGA 
TCCCGGGCCA ACCGGAAATC TTTGCGAAGA ACCCTGAAGA GCGGCCTGAC CCCAGAAGAA 
GCCAGAGCCC TGGGCTTGGT TGGCACCTCG GAGTTGCAGC TGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526192.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524494.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X3, mRNA.

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CloneID	OHu72654
Clone ID Related Accession (Same CDS sequence)	XM_011526192.1
Accession Version	XM_011526192.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4854bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGATAC AGCAATTTTG GCAATAACTC TTATCACTCC 
TCAAGACCCT CATCTGGATC CAGTGTGCCC ACCACCCCCA CATCATCCGT CTCACCCCCA 
CAGGAGGCCA GGTTGGAAAG ACAAAAATCT GAAACAAGAA GACCCGAGGC ATTCAGTGAT 
TTTCCCCAAG CATTGCCTAG GTCATCACCG AGTGGTCTTC TCACATCATC CTTCAGGCAG 
CACCAAGAGT CACTGGCAGC AGAGAGAGAG AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG 
CAGAGAATAG AGCGGGAAGA AAGAAACAAA TTCAGCCGAG ATTATTTAGA CAAAAGAGAG 
GAGCAAAGGC AAGCAAGAGA AGAAAGATAC AAATACTTGG AACAGTTGGC AGCTGAGGAG 
CACGAGAAGG AGCTGAGAAG CCGGAGTGTG AGCCGGGGCA GAGCCGACCT CTCCTTGGAC 
CTGACCTCGC CAGCAGCCCC AGCCTGCCTG GCTCCTCTGA GCCATAGCCC CTCATCTTCA 
GACTCTCAAG AGGCTCTCAC GGTGTCTGCC TCCTCCCCAG GAACCCCTCA CCATCCCCAA 
GCAAGTGCCG GGGATCCTGA ACCCGAATCA GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG 
GGGCAGGTTG CTGATGAAGC TGGCCAGGAC ATAGCCTCTG CCCACGAGGG TGCAGAGACT 
GAAGTGGAGC AGGCACTAGA GCAAGAGCCG GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG 
AGGCAGAACG AGGGGGTGAA CGAGAGGGAC AACTGCTCTG CCTCCAGCGT CTCGTCCTCC 
AGCAGCACGT TGGAGAGGGA GGAGAAGGAG GACAAGCTCT CCAGGGACAG GACAACTGGT 
TTGTGGCCCG CAGGTGTCCA GGATGCAGGT GTAAATGGAC AGTGTGGCGA CATCCTCACC 
AACAAACGGT TCATGCTTGA CATGCTGTAT GCCCATAACA GGAAGTCTCC GGATGATGAG 
GAGAAGGGGG ATGGGGAGGC TGGGAGGACC CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT 
GCTACCAGGA TATCCACCCT GCAGGCCAAC TCTCAGACCC AGGATGAGAG TGTCAGGAGG 
GTGGATGTCG GCTGTTTGGA CAATCGGGGC AGTGTGAAAG CATTTGCTGA GAAATTCAAC 
AGTGGGGACC TGGGGAGAGG TTCCATCTCC CCTGATGCTG AGCCCAATGA CAAGGTCCCA 
GAAACAGCGC CGGTGCAGCC GAAGACAGAG TCTGATTACA TCTGGGACCA GCTCATGGCC 
AATCCAAGAG AGCTCAGAAT CCAAGACATG GATTTCACTG ACCTGGGGGA GGAGGATGAC 
ATTGATGTCC TAGATGTGGA CCTGGGTCAC AGGGAGGCCC CTGGGCCACC TCCCCCACCC 
CCACCCACCT TTCTGGGTTT GCCGCCCCCA CCCCCTCCGC CCCTGTTGGA CAGCATTCCT 
CCCCCTCCTG TCCCTGGTAA TTTATTGGTT CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG 
GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT CAGCCCACAT TCACTAAGAA AAAGAAGACC 
ATCCGTTTGT TCTGGAATGA AGTTCGGCCT TTTGACTGGC CATGTAAAAA CAACCGACGC 
TGCAGAGAAT TCCTGTGGTC AAAACTGGAA CCCATTAAGG TGGACACTTC CAGACTGGAG 
CACCTGTTTG AGTCTAAATC CAAGGAACTG TCTGTCTCAA AGAAAACTGC TGCAGATGGA 
AAAAGGCAAG AGATCATTGT TCTGGATTCC AAGAGGAGTA ACGCCATCAA TATTGGTCTG 
ACGGTGCTGC CCCCTCCAAG GACGATTAAG ATCGCCATTT TGAATTTTGA TGAGTATGCC 
TTAAACAAAG AAGGAATCGA GAAAATTCTA ACGATGATTC CCACCGATGA GGAGAAGCAG 
AAAATCCAGG AAGCTCAGCT GGCCAACCCT GAAATCCCCC TGGGCAGTGC AGAGCAGTTC 
CTCCTCACCC TGTCCTCCAT CAGCGAGCTC TCTGCACGAC TTCACCTCTG GGCATTCAAA 
ATGGATTATG AAACTACAGA AAAGGAAGTA GCAGAACCAC TCCTGGACCT GAAGGAAGGA 
ATAGACCAGT TGGAGAACAA TAAAACCTTG GGCTTTATCC TGTCTACTCT CTTAGCCATT 
GGGAACTTTC TAAATGGAAC TAATGCCAAA GCGTTTGAGT TAAGCTACCT CGAGAAGGTT 
CCAGAAGTCA AAGACACAGT GCACAAGCAG TCGCTTCTCC ACCATGTGTG CACCATGGTG 
GTAGAAAACT TCCCAGACAG CTCCGATCTG TACTCGGAGA TCGGGGCCAT CACCAGGTCA 
GCCAAGGTTG ACTTTGATCA ACTTCAGGAT AATTTATGTC AGATGGAGAG AAGATGCAAA 
GCTTCATGGG ATCACCTCAA GGCAATTGCA AAACATGAAA TGAAACCAGT TTTAAAACAA 
CGGATGTCAG AGTTCCTGAA AGACTGTGCA GAGCGAATTA TAATTTTAAA GATTGTCCAT 
AGAAGGATAA TCAACAGATT CCACTCCTTT TTACTCTTTA TGGGCCATCC ACCTTATGCA 
ATTCGGGAAG TGAACATAAA CAAATTCTGC AGGATTATTA GTGAATTTGC ACTAGAGTAT 
CGCACAACCA GGGAAAGGGT TTTGCAGCAG AAACAGAAAC GGGCCAACCA CAGAGAGAGA 
AATAAGACCA GAGGGAAGAT GATCACCGAT ACTGATGAGG AGGAGGAAGT TGAGTCTGGC 
AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA AGCCAGCCGC AGGGTCTGAG CTATGCGGAG 
GACGCGGCTG AGCACGAGAA CATGAAGGCT GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG 
GACGCCACCC CCGCGCTGGG CGTCCGCACA CGCAGCCGAG CAAGCCGAGG ATCCACTAGT 
TCCTGGACTA TGGGAACTGA TGACTCGCCC AATGTCACAG ATGATGCAGC TGATGAGATC 
ATGGACCGCA TCGTCAAGTC AGCCACCCAA GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG 
AGGAAACGAT CCCGGGCCAA CCGGAAATCT TTGCGAAGAA CCCTGAAGAG CGGCCTGACC 
CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524494.1
CDS	123..4976
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526192.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526192.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGATAC AGCAATTTTG GCAATAACTC TTATCACTCC 
TCAAGACCCT CATCTGGATC CAGTGTGCCC ACCACCCCCA CATCATCCGT CTCACCCCCA 
CAGGAGGCCA GGTTGGAAAG ACAAAAATCT GAAACAAGAA GACCCGAGGC ATTCAGTGAT 
TTTCCCCAAG CATTGCCTAG GTCATCACCG AGTGGTCTTC TCACATCATC CTTCAGGCAG 
CACCAAGAGT CACTGGCAGC AGAGAGAGAG AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG 
CAGAGAATAG AGCGGGAAGA AAGAAACAAA TTCAGCCGAG ATTATTTAGA CAAAAGAGAG 
GAGCAAAGGC AAGCAAGAGA AGAAAGATAC AAATACTTGG AACAGTTGGC AGCTGAGGAG 
CACGAGAAGG AGCTGAGAAG CCGGAGTGTG AGCCGGGGCA GAGCCGACCT CTCCTTGGAC 
CTGACCTCGC CAGCAGCCCC AGCCTGCCTG GCTCCTCTGA GCCATAGCCC CTCATCTTCA 
GACTCTCAAG AGGCTCTCAC GGTGTCTGCC TCCTCCCCAG GAACCCCTCA CCATCCCCAA 
GCAAGTGCCG GGGATCCTGA ACCCGAATCA GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG 
GGGCAGGTTG CTGATGAAGC TGGCCAGGAC ATAGCCTCTG CCCACGAGGG TGCAGAGACT 
GAAGTGGAGC AGGCACTAGA GCAAGAGCCG GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG 
AGGCAGAACG AGGGGGTGAA CGAGAGGGAC AACTGCTCTG CCTCCAGCGT CTCGTCCTCC 
AGCAGCACGT TGGAGAGGGA GGAGAAGGAG GACAAGCTCT CCAGGGACAG GACAACTGGT 
TTGTGGCCCG CAGGTGTCCA GGATGCAGGT GTAAATGGAC AGTGTGGCGA CATCCTCACC 
AACAAACGGT TCATGCTTGA CATGCTGTAT GCCCATAACA GGAAGTCTCC GGATGATGAG 
GAGAAGGGGG ATGGGGAGGC TGGGAGGACC CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT 
GCTACCAGGA TATCCACCCT GCAGGCCAAC TCTCAGACCC AGGATGAGAG TGTCAGGAGG 
GTGGATGTCG GCTGTTTGGA CAATCGGGGC AGTGTGAAAG CATTTGCTGA GAAATTCAAC 
AGTGGGGACC TGGGGAGAGG TTCCATCTCC CCTGATGCTG AGCCCAATGA CAAGGTCCCA 
GAAACAGCGC CGGTGCAGCC GAAGACAGAG TCTGATTACA TCTGGGACCA GCTCATGGCC 
AATCCAAGAG AGCTCAGAAT CCAAGACATG GATTTCACTG ACCTGGGGGA GGAGGATGAC 
ATTGATGTCC TAGATGTGGA CCTGGGTCAC AGGGAGGCCC CTGGGCCACC TCCCCCACCC 
CCACCCACCT TTCTGGGTTT GCCGCCCCCA CCCCCTCCGC CCCTGTTGGA CAGCATTCCT 
CCCCCTCCTG TCCCTGGTAA TTTATTGGTT CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG 
GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT CAGCCCACAT TCACTAAGAA AAAGAAGACC 
ATCCGTTTGT TCTGGAATGA AGTTCGGCCT TTTGACTGGC CATGTAAAAA CAACCGACGC 
TGCAGAGAAT TCCTGTGGTC AAAACTGGAA CCCATTAAGG TGGACACTTC CAGACTGGAG 
CACCTGTTTG AGTCTAAATC CAAGGAACTG TCTGTCTCAA AGAAAACTGC TGCAGATGGA 
AAAAGGCAAG AGATCATTGT TCTGGATTCC AAGAGGAGTA ACGCCATCAA TATTGGTCTG 
ACGGTGCTGC CCCCTCCAAG GACGATTAAG ATCGCCATTT TGAATTTTGA TGAGTATGCC 
TTAAACAAAG AAGGAATCGA GAAAATTCTA ACGATGATTC CCACCGATGA GGAGAAGCAG 
AAAATCCAGG AAGCTCAGCT GGCCAACCCT GAAATCCCCC TGGGCAGTGC AGAGCAGTTC 
CTCCTCACCC TGTCCTCCAT CAGCGAGCTC TCTGCACGAC TTCACCTCTG GGCATTCAAA 
ATGGATTATG AAACTACAGA AAAGGAAGTA GCAGAACCAC TCCTGGACCT GAAGGAAGGA 
ATAGACCAGT TGGAGAACAA TAAAACCTTG GGCTTTATCC TGTCTACTCT CTTAGCCATT 
GGGAACTTTC TAAATGGAAC TAATGCCAAA GCGTTTGAGT TAAGCTACCT CGAGAAGGTT 
CCAGAAGTCA AAGACACAGT GCACAAGCAG TCGCTTCTCC ACCATGTGTG CACCATGGTG 
GTAGAAAACT TCCCAGACAG CTCCGATCTG TACTCGGAGA TCGGGGCCAT CACCAGGTCA 
GCCAAGGTTG ACTTTGATCA ACTTCAGGAT AATTTATGTC AGATGGAGAG AAGATGCAAA 
GCTTCATGGG ATCACCTCAA GGCAATTGCA AAACATGAAA TGAAACCAGT TTTAAAACAA 
CGGATGTCAG AGTTCCTGAA AGACTGTGCA GAGCGAATTA TAATTTTAAA GATTGTCCAT 
AGAAGGATAA TCAACAGATT CCACTCCTTT TTACTCTTTA TGGGCCATCC ACCTTATGCA 
ATTCGGGAAG TGAACATAAA CAAATTCTGC AGGATTATTA GTGAATTTGC ACTAGAGTAT 
CGCACAACCA GGGAAAGGGT TTTGCAGCAG AAACAGAAAC GGGCCAACCA CAGAGAGAGA 
AATAAGACCA GAGGGAAGAT GATCACCGAT ACTGATGAGG AGGAGGAAGT TGAGTCTGGC 
AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA AGCCAGCCGC AGGGTCTGAG CTATGCGGAG 
GACGCGGCTG AGCACGAGAA CATGAAGGCT GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG 
GACGCCACCC CCGCGCTGGG CGTCCGCACA CGCAGCCGAG CAAGCCGAGG ATCCACTAGT 
TCCTGGACTA TGGGAACTGA TGACTCGCCC AATGTCACAG ATGATGCAGC TGATGAGATC 
ATGGACCGCA TCGTCAAGTC AGCCACCCAA GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG 
AGGAAACGAT CCCGGGCCAA CCGGAAATCT TTGCGAAGAA CCCTGAAGAG CGGCCTGACC 
CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526193.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524495.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu72655
Clone ID Related Accession (Same CDS sequence)	XM_011526193.3 , XM_011526193.2
Accession Version	XM_011526193.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4848bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011526193.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524495.1
CDS	123..4970
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKS

Target ORF information:

RefSeq Version	XM_011526193.3
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526193.3

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526193.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524495.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X4, mRNA.

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CloneID	OHu72655
Clone ID Related Accession (Same CDS sequence)	XM_011526193.3 , XM_011526193.2
Accession Version	XM_011526193.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4848bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011526193.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524495.1
CDS	123..4970
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKS

Target ORF information:

RefSeq Version	XM_011526193.2
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526193.2

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGCAAG TGCCGGGGAT CCTGAACCCG AATCAGAGGC AGAACCGGAA 
GCAGAGGCAG GGGCGGGGCA GGTTGCTGAT GAAGCTGGCC AGGACATAGC CTCTGCCCAC 
GAGGGTGCAG AGACTGAAGT GGAGCAGGCA CTAGAGCAAG AGCCGGAAGA AAGAGCCTCC 
CTCAGTGAAA AAGAGAGGCA GAACGAGGGG GTGAACGAGA GGGACAACTG CTCTGCCTCC 
AGCGTCTCGT CCTCCAGCAG CACGTTGGAG AGGGAGGAGA AGGAGGACAA GCTCTCCAGG 
GACAGGACAA CTGGTTTGTG GCCCGCAGGT GTCCAGGATG CAGGTGTAAA TGGACAGTGT 
GGCGACATCC TCACCAACAA ACGGTTCATG CTTGACATGC TGTATGCCCA TAACAGGAAG 
TCTCCGGATG ATGAGGAGAA GGGGGATGGG GAGGCTGGGA GGACCCAGCA GGAGGCAGAG 
GCGGTAGCCA GCCTTGCTAC CAGGATATCC ACCCTGCAGG CCAACTCTCA GACCCAGGAT 
GAGAGTGTCA GGAGGGTGGA TGTCGGCTGT TTGGACAATC GGGGCAGTGT GAAAGCATTT 
GCTGAGAAAT TCAACAGTGG GGACCTGGGG AGAGGTTCCA TCTCCCCTGA TGCTGAGCCC 
AATGACAAGG TCCCAGAAAC AGCGCCGGTG CAGCCGAAGA CAGAGTCTGA TTACATCTGG 
GACCAGCTCA TGGCCAATCC AAGAGAGCTC AGAATCCAAG ACATGGATTT CACTGACCTG 
GGGGAGGAGG ATGACATTGA TGTCCTAGAT GTGGACCTGG GTCACAGGGA GGCCCCTGGG 
CCACCTCCCC CACCCCCACC CACCTTTCTG GGTTTGCCGC CCCCACCCCC TCCGCCCCTG 
TTGGACAGCA TTCCTCCCCC TCCTGTCCCT GGTAATTTAT TGGTTCCTCC TCCTCCAGTG 
TTCAACGCTC CTCAGGGCTT AGGGTGGTCC CAGGTACCCA GGGGTCAGCC CACATTCACT 
AAGAAAAAGA AGACCATCCG TTTGTTCTGG AATGAAGTTC GGCCTTTTGA CTGGCCATGT 
AAAAACAACC GACGCTGCAG AGAATTCCTG TGGTCAAAAC TGGAACCCAT TAAGGTGGAC 
ACTTCCAGAC TGGAGCACCT GTTTGAGTCT AAATCCAAGG AACTGTCTGT CTCAAAGAAA 
ACTGCTGCAG ATGGAAAAAG GCAAGAGATC ATTGTTCTGG ATTCCAAGAG GAGTAACGCC 
ATCAATATTG GTCTGACGGT GCTGCCCCCT CCAAGGACGA TTAAGATCGC CATTTTGAAT 
TTTGATGAGT ATGCCTTAAA CAAAGAAGGA ATCGAGAAAA TTCTAACGAT GATTCCCACC 
GATGAGGAGA AGCAGAAAAT CCAGGAAGCT CAGCTGGCCA ACCCTGAAAT CCCCCTGGGC 
AGTGCAGAGC AGTTCCTCCT CACCCTGTCC TCCATCAGCG AGCTCTCTGC ACGACTTCAC 
CTCTGGGCAT TCAAAATGGA TTATGAAACT ACAGAAAAGG AAGTAGCAGA ACCACTCCTG 
GACCTGAAGG AAGGAATAGA CCAGTTGGAG AACAATAAAA CCTTGGGCTT TATCCTGTCT 
ACTCTCTTAG CCATTGGGAA CTTTCTAAAT GGAACTAATG CCAAAGCGTT TGAGTTAAGC 
TACCTCGAGA AGGTTCCAGA AGTCAAAGAC ACAGTGCACA AGCAGTCGCT TCTCCACCAT 
GTGTGCACCA TGGTGGTAGA AAACTTCCCA GACAGCTCCG ATCTGTACTC GGAGATCGGG 
GCCATCACCA GGTCAGCCAA GGTTGACTTT GATCAACTTC AGGATAATTT ATGTCAGATG 
GAGAGAAGAT GCAAAGCTTC ATGGGATCAC CTCAAGGCAA TTGCAAAACA TGAAATGAAA 
CCAGTTTTAA AACAACGGAT GTCAGAGTTC CTGAAAGACT GTGCAGAGCG AATTATAATT 
TTAAAGATTG TCCATAGAAG GATAATCAAC AGATTCCACT CCTTTTTACT CTTTATGGGC 
CATCCACCTT ATGCAATTCG GGAAGTGAAC ATAAACAAAT TCTGCAGGAT TATTAGTGAA 
TTTGCACTAG AGTATCGCAC AACCAGGGAA AGGGTTTTGC AGCAGAAACA GAAACGGGCC 
AACCACAGAG AGAGAAATAA GACCAGAGGG AAGATGATCA CCGATACTGA TGAGGAGGAG 
GAAGTTGAGT CTGGCAAGTT CTCCGGCAGT TCTCCGGCGC CCCCAAGCCA GCCGCAGGGT 
CTGAGCTATG CGGAGGACGC GGCTGAGCAC GAGAACATGA AGGCTGTGCT GAAAACCTCG 
TCCCCCTCCG TGGAGGACGC CACCCCCGCG CTGGGCGTCC GCACACGCAG CCGAGCAAGC 
CGAGGATCCA CTAGTTCCTG GACTATGGGA ACTGATGACT CGCCCAATGT CACAGATGAT 
GCAGCTGATG AGATCATGGA CCGCATCGTC AAGTCAGCCA CCCAAGTGCC CAGTCAGCGA 
GTGGTGCCGA GGGAGAGGAA ACGATCCCGG GCCAACCGGA AATCTTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_017026010.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881499.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X15, mRNA.

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CloneID	OHu72656
Clone ID Related Accession (Same CDS sequence)	XM_017026010.1
Accession Version	XM_017026010.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4695bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X15
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTGTAC TCTGCAGCTC TCTCACAATG GCGCCTACCT GGATTTGGAG GCCACCCTGG 
CAGAGCAGCG GGATGAGTTG GAAGGCTTCC AGGATGACGC CGGAAAAACT ATACAACTCC 
AGCGGACGAG ATTTGAGAAG GGCCCTCTTC TCCCTGAAGC AGATATTTCA GGATGACAAG 
GATTTGGTGC ATGAATTTGT AGTGGCTGAA GGTCTGACAT GTTTGATCAA GGTGGGAGCT 
GAGGCTGATC AGAACTATCA GAACTACATC TTAAGGGCTT TGGGCCAGAT TATGTTGTAT 
GTGGATGGAA TGAATGGAGT AATAAACCGC AATGAAACCA TTCAGTGGCT GTACACTCTC 
ATTGGGTCAA AGTTCCGCCT GGTGGTGAAG ACAGCCCTGA AGCTGCTGCT CGTCTTTGTA 
GAGTACTCGG AGTCCAACGC ACCTCTCCTA ATTCAGGCTG TCACTGCTGT TGACACGAAA 
AGAGGGGTCA AACCTTGGTC AAATATCATG GAAATCCTGG AGGAAAAAGA TGGAGTTGAT 
ACGGAGCTAC TGGTTTATGC AATGACTTTG GTGAACAAGA CGTTATCAGG ACTACCAGAC 
CAAGACACCT TCTACGACGT CGTGGACTGC CTGGAGGAGC TGGGCATTGC TGCTGTGTCC 
CAGAGGCACT TGAACAAGAA AGGGACTGAC CTGGACTTAG TGGAGCAACT CAACATTTAT 
GAGGTGGCGC TCAGGCACGA GGATGGCGAT GAGACCACGG AGCCACCCCC CAGTGGGTGC 
CGGGACCGGA GGAGGGCCAG CGTGTGTTCC AGTGGCGGAG GCGAGCACCG GGGCCTGGAC 
CGCAGAAGGA GCCGCAGGCA CTCGGTGCAG AGCATCAAGA GCACCCTGTC GGCCCCCACC 
AGTCCCTGCT CCCAGTCAGC TCCCAGCTTC AAGCCCAACC AAGTGCGAGA TCTGCGTGAA 
AAGGAGGAGG AGGAGGAAGA GGAGCAGCCA ATCACGGAGC CCAGTTCCGA AGAAGAGAGA 
GAGGATGATG CTTCCTGTCA GGGCAAGGAC AGCAAGGTCG GCGCTGCCTC AGGGCAGAGC 
CCCACTGGAA GGGATGCTGC TCCCAAGAGC TCTGCCCTCC CTGCTGTCTC GAATGCCAGC 
TCGCAGGGAA AGCCGCTTCT GGTTGGCACT GCAGGCGGGA CCACCTGGCA CAGTGGGTCC 
TCTGGGTCTG AGGCCACCCC ATCTGCCCTC CTGTCACCCC CTGCCTCAGC TGCTCGGCCC 
TCCTCCGCCA CACCAGGCTC CCTGAAGGTG TCACCGACCA TAGACAAGCT GCCCTACGTG 
CCCCACAGCC CCTTCCACCT CTTCTCCTAT GACTTTGAGG ACTCCTCCCT GTCCACCAAG 
GAGAAGGAAG CAGAGTCCCA GAAGGAAAAC AGTTCCTCTG ATTCTTTCTC TTTGAGCACA 
TATTCTGCCT CTGAGCCTTA CCACTTCCGA TCTTTCTCTT CTAATAGATA CAGCAATTTT 
GGCAATAACT CTTATCACTC CTCAAGACCC TCATCTGGAT CCAGTGTGCC CACCACCCCC 
ACATCATCCG TCTCACCCCC ACAGGAGGCC AGGTTGGAAA GACAAAAATC TGAAACAAGA 
AGACCCGAGG CATTCAGTGA TTTTCCCCAA GCATTGCCTA GGTCATCACC GAGTGGTCTT 
CTCACATCAT CCTTCAGGCA GCACCAAGAG TCACTGGCAG CAGAGAGAGA GAGGCGGCGG 
CAGGAGAGAG AAGAAAGGTT GCAGAGAATA GAGCGGGAAG AAAGAAACAA ATTCAGCCGA 
GATTATTTAG ACAAAAGAGA GGAGCAAAGG CAAGCAAGAG AAGAAAGATA CAAATACTTG 
GAACAGTTGG CAGCTGAGGA GCACGAGAAG GAGCTGAGAA GCCGGAGTGT GAGCCGGGGC 
AGAGCCGACC TCTCCTTGGA CCTGACCTCG CCAGCAGCCC CAGCCTGCCT GGCTCCTCTG 
AGCCATAGCC CCTCATCTTC AGACTCTCAA GAGGCTCTCA CGGTGTCTGC CTCCTCCCCA 
GGAACCCCTC ACCATCCCCA AGCAAGTGCC GGGGATCCTG AACCCGAATC AGAGGCAGAA 
CCGGAAGCAG AGGCAGGGGC GGGGCAGGTT GCTGATGAAG CTGGCCAGGA CATAGCCTCT 
GCCCACGAGG GTGCAGAGAC TGAAGTGGAG CAGGCACTAG AGCAAGAGCC GGAAGAAAGA 
GCCTCCCTCA GTGAAAAAGA GAGGCAGAAC GAGGGGGTGA ACGAGAGGGA CAACTGCTCT 
GCCTCCAGCG TCTCGTCCTC CAGCAGCACG TTGGAGAGGG AGGAGAAGGA GGACAAGCTC 
TCCAGGGACA GGACAACTGG TTTGTGGCCC GCAGGTGTCC AGGATGCAGG TGTAAATGGA 
CAGTGTGGCG ACATCCTCAC CAACAAACGG TTCATGCTTG ACATGCTGTA TGCCCATAAC 
AGGAAGTCTC CGGATGATGA GGAGAAGGGG GATGGGGAGG CTGGGAGGAC CCAGCAGGAG 
GCAGAGGCGG TAGCCAGCCT TGCTACCAGG ATATCCACCC TGCAGGCCAA CTCTCAGACC 
CAGGATGAGA GTGTCAGGAG GGTGGATGTC GGCTGTTTGG ACAATCGGGG CAGTGTGAAA 
GCATTTGCTG AGAAATTCAA CAGTGGGGAC CTGGGGAGAG GTTCCATCTC CCCTGATGCT 
GAGCCCAATG ACAAGGTCCC AGAAACAGCG CCGGTGCAGC CGAAGACAGA GTCTGATTAC 
ATCTGGGACC AGCTCATGGC CAATCCAAGA GAGCTCAGAA TCCAAGACAT GGATTTCACT 
GACCTGGGGG AGGAGGATGA CATTGATGTC CTAGATGTGG ACCTGGGTCA CAGGGAGGCC 
CCTGGGCCAC CTCCCCCACC CCCACCCACC TTTCTGGGTT TGCCGCCCCC ACCCCCTCCG 
CCCCTGTTGG ACAGCATTCC TCCCCCTCCT GTCCCTGGTA ATTTATTGGT TCCTCCTCCT 
CCAGTGTTCA ACGCTCCTCA GGGCTTAGGG TGGTCCCAGG TACCCAGGGG TCAGCCCACA 
TTCACTAAGA AAAAGAAGAC CATCCGTTTG TTCTGGAATG AAGTTCGGCC TTTTGACTGG 
CCATGTAAAA ACAACCGACG CTGCAGAGAA TTCCTGTGGT CAAAACTGGA ACCCATTAAG 
GTGGACACTT CCAGACTGGA GCACCTGTTT GAGTCTAAAT CCAAGGAACT GTCTGTCTCA 
AAGAAAACTG CTGCAGATGG AAAAAGGCAA GAGATCATTG TTCTGGATTC CAAGAGGAGT 
AACGCCATCA ATATTGGTCT GACGGTGCTG CCCCCTCCAA GGACGATTAA GATCGCCATT 
TTGAATTTTG ATGAGTATGC CTTAAACAAA GAAGGAATCG AGAAAATTCT AACGATGATT 
CCCACCGATG AGGAGAAGCA GAAAATCCAG GAAGCTCAGC TGGCCAACCC TGAAATCCCC 
CTGGGCAGTG CAGAGCAGTT CCTCCTCACC CTGTCCTCCA TCAGCGAGCT CTCTGCACGA 
CTTCACCTCT GGGCATTCAA AATGGATTAT GAAACTACAG AAAAGGAAGT AGCAGAACCA 
CTCCTGGACC TGAAGGAAGG AATAGACCAG TTGGAGAACA ATAAAACCTT GGGCTTTATC 
CTGTCTACTC TCTTAGCCAT TGGGAACTTT CTAAATGGAA CTAATGCCAA AGCGTTTGAG 
TTAAGCTACC TCGAGAAGGT TCCAGAAGTC AAAGACACAG TGCACAAGCA GTCGCTTCTC 
CACCATGTGT GCACCATGGT GGTAGAAAAC TTCCCAGACA GCTCCGATCT GTACTCGGAG 
ATCGGGGCCA TCACCAGGTC AGCCAAGGTT GACTTTGATC AACTTCAGGA TAATTTATGT 
CAGATGGAGA GAAGATGCAA AGCTTCATGG GATCACCTCA AGGCAATTGC AAAACATGAA 
ATGAAACCAG TTTTAAAACA ACGGATGTCA GAGTTCCTGA AAGACTGTGC AGAGCGAATT 
ATAATTTTAA AGATTGTCCA TAGAAGGATA ATCAACAGAT TCCACTCCTT TTTACTCTTT 
ATGGGCCATC CACCTTATGC AATTCGGGAA GTGAACATAA ACAAATTCTG CAGGATTATT 
AGTGAATTTG CACTAGAGTA TCGCACAACC AGGGAAAGGG TTTTGCAGCA GAAACAGAAA 
CGGGCCAACC ACAGAGAGAG AAATAAGACC AGAGGGAAGA TGATCACCGA TACTGATGAG 
GAGGAGGAAG TTGAGTCTGG CAAGTTCTCC GGCAGTTCTC CGGCGCCCCC AAGCCAGCCG 
CAGGGTCTGA GCTATGCGGA GGACGCGGCT GAGCACGAGA ACATGAAGGC TGTGCTGAAA 
ACCTCGTCCC CCTCCGTGGA GGACGCCACC CCCGCGCTGG GCGTCCGCAC ACGCAGCCGA 
GCAAGCCGAG GATCCACTAG TTCCTGGACT ATGGGAACTG ATGACTCGCC CAATGTCACA 
GATGATGCAG CTGATGAGAT CATGGACCGC ATCGTCAAGT CAGCCACCCA AGTGCCCAGT 
CAGCGAGTGG TGCCGAGGGA GAGGAAACGA TCCCGGGCCA ACCGGAAATC TTTGCGAAGA 
ACCCTGAAGA GCGGCCTGAC CCCAGAAGAA GCCAGAGCCC TGGGCTTGGT TGGCACCTCG 
GAGTTGCAGC TGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_016881499.1
CDS	1..4695
Translation	MTVLCSSLTMAPTWIWRPPWQSSGMSWKASRMTPEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_017026010.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X15, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017026010.1

ORF Insert Sequence:

ATGACTGTAC TCTGCAGCTC TCTCACAATG GCGCCTACCT GGATTTGGAG GCCACCCTGG 
CAGAGCAGCG GGATGAGTTG GAAGGCTTCC AGGATGACGC CGGAAAAACT ATACAACTCC 
AGCGGACGAG ATTTGAGAAG GGCCCTCTTC TCCCTGAAGC AGATATTTCA GGATGACAAG 
GATTTGGTGC ATGAATTTGT AGTGGCTGAA GGTCTGACAT GTTTGATCAA GGTGGGAGCT 
GAGGCTGATC AGAACTATCA GAACTACATC TTAAGGGCTT TGGGCCAGAT TATGTTGTAT 
GTGGATGGAA TGAATGGAGT AATAAACCGC AATGAAACCA TTCAGTGGCT GTACACTCTC 
ATTGGGTCAA AGTTCCGCCT GGTGGTGAAG ACAGCCCTGA AGCTGCTGCT CGTCTTTGTA 
GAGTACTCGG AGTCCAACGC ACCTCTCCTA ATTCAGGCTG TCACTGCTGT TGACACGAAA 
AGAGGGGTCA AACCTTGGTC AAATATCATG GAAATCCTGG AGGAAAAAGA TGGAGTTGAT 
ACGGAGCTAC TGGTTTATGC AATGACTTTG GTGAACAAGA CGTTATCAGG ACTACCAGAC 
CAAGACACCT TCTACGACGT CGTGGACTGC CTGGAGGAGC TGGGCATTGC TGCTGTGTCC 
CAGAGGCACT TGAACAAGAA AGGGACTGAC CTGGACTTAG TGGAGCAACT CAACATTTAT 
GAGGTGGCGC TCAGGCACGA GGATGGCGAT GAGACCACGG AGCCACCCCC CAGTGGGTGC 
CGGGACCGGA GGAGGGCCAG CGTGTGTTCC AGTGGCGGAG GCGAGCACCG GGGCCTGGAC 
CGCAGAAGGA GCCGCAGGCA CTCGGTGCAG AGCATCAAGA GCACCCTGTC GGCCCCCACC 
AGTCCCTGCT CCCAGTCAGC TCCCAGCTTC AAGCCCAACC AAGTGCGAGA TCTGCGTGAA 
AAGGAGGAGG AGGAGGAAGA GGAGCAGCCA ATCACGGAGC CCAGTTCCGA AGAAGAGAGA 
GAGGATGATG CTTCCTGTCA GGGCAAGGAC AGCAAGGTCG GCGCTGCCTC AGGGCAGAGC 
CCCACTGGAA GGGATGCTGC TCCCAAGAGC TCTGCCCTCC CTGCTGTCTC GAATGCCAGC 
TCGCAGGGAA AGCCGCTTCT GGTTGGCACT GCAGGCGGGA CCACCTGGCA CAGTGGGTCC 
TCTGGGTCTG AGGCCACCCC ATCTGCCCTC CTGTCACCCC CTGCCTCAGC TGCTCGGCCC 
TCCTCCGCCA CACCAGGCTC CCTGAAGGTG TCACCGACCA TAGACAAGCT GCCCTACGTG 
CCCCACAGCC CCTTCCACCT CTTCTCCTAT GACTTTGAGG ACTCCTCCCT GTCCACCAAG 
GAGAAGGAAG CAGAGTCCCA GAAGGAAAAC AGTTCCTCTG ATTCTTTCTC TTTGAGCACA 
TATTCTGCCT CTGAGCCTTA CCACTTCCGA TCTTTCTCTT CTAATAGATA CAGCAATTTT 
GGCAATAACT CTTATCACTC CTCAAGACCC TCATCTGGAT CCAGTGTGCC CACCACCCCC 
ACATCATCCG TCTCACCCCC ACAGGAGGCC AGGTTGGAAA GACAAAAATC TGAAACAAGA 
AGACCCGAGG CATTCAGTGA TTTTCCCCAA GCATTGCCTA GGTCATCACC GAGTGGTCTT 
CTCACATCAT CCTTCAGGCA GCACCAAGAG TCACTGGCAG CAGAGAGAGA GAGGCGGCGG 
CAGGAGAGAG AAGAAAGGTT GCAGAGAATA GAGCGGGAAG AAAGAAACAA ATTCAGCCGA 
GATTATTTAG ACAAAAGAGA GGAGCAAAGG CAAGCAAGAG AAGAAAGATA CAAATACTTG 
GAACAGTTGG CAGCTGAGGA GCACGAGAAG GAGCTGAGAA GCCGGAGTGT GAGCCGGGGC 
AGAGCCGACC TCTCCTTGGA CCTGACCTCG CCAGCAGCCC CAGCCTGCCT GGCTCCTCTG 
AGCCATAGCC CCTCATCTTC AGACTCTCAA GAGGCTCTCA CGGTGTCTGC CTCCTCCCCA 
GGAACCCCTC ACCATCCCCA AGCAAGTGCC GGGGATCCTG AACCCGAATC AGAGGCAGAA 
CCGGAAGCAG AGGCAGGGGC GGGGCAGGTT GCTGATGAAG CTGGCCAGGA CATAGCCTCT 
GCCCACGAGG GTGCAGAGAC TGAAGTGGAG CAGGCACTAG AGCAAGAGCC GGAAGAAAGA 
GCCTCCCTCA GTGAAAAAGA GAGGCAGAAC GAGGGGGTGA ACGAGAGGGA CAACTGCTCT 
GCCTCCAGCG TCTCGTCCTC CAGCAGCACG TTGGAGAGGG AGGAGAAGGA GGACAAGCTC 
TCCAGGGACA GGACAACTGG TTTGTGGCCC GCAGGTGTCC AGGATGCAGG TGTAAATGGA 
CAGTGTGGCG ACATCCTCAC CAACAAACGG TTCATGCTTG ACATGCTGTA TGCCCATAAC 
AGGAAGTCTC CGGATGATGA GGAGAAGGGG GATGGGGAGG CTGGGAGGAC CCAGCAGGAG 
GCAGAGGCGG TAGCCAGCCT TGCTACCAGG ATATCCACCC TGCAGGCCAA CTCTCAGACC 
CAGGATGAGA GTGTCAGGAG GGTGGATGTC GGCTGTTTGG ACAATCGGGG CAGTGTGAAA 
GCATTTGCTG AGAAATTCAA CAGTGGGGAC CTGGGGAGAG GTTCCATCTC CCCTGATGCT 
GAGCCCAATG ACAAGGTCCC AGAAACAGCG CCGGTGCAGC CGAAGACAGA GTCTGATTAC 
ATCTGGGACC AGCTCATGGC CAATCCAAGA GAGCTCAGAA TCCAAGACAT GGATTTCACT 
GACCTGGGGG AGGAGGATGA CATTGATGTC CTAGATGTGG ACCTGGGTCA CAGGGAGGCC 
CCTGGGCCAC CTCCCCCACC CCCACCCACC TTTCTGGGTT TGCCGCCCCC ACCCCCTCCG 
CCCCTGTTGG ACAGCATTCC TCCCCCTCCT GTCCCTGGTA ATTTATTGGT TCCTCCTCCT 
CCAGTGTTCA ACGCTCCTCA GGGCTTAGGG TGGTCCCAGG TACCCAGGGG TCAGCCCACA 
TTCACTAAGA AAAAGAAGAC CATCCGTTTG TTCTGGAATG AAGTTCGGCC TTTTGACTGG 
CCATGTAAAA ACAACCGACG CTGCAGAGAA TTCCTGTGGT CAAAACTGGA ACCCATTAAG 
GTGGACACTT CCAGACTGGA GCACCTGTTT GAGTCTAAAT CCAAGGAACT GTCTGTCTCA 
AAGAAAACTG CTGCAGATGG AAAAAGGCAA GAGATCATTG TTCTGGATTC CAAGAGGAGT 
AACGCCATCA ATATTGGTCT GACGGTGCTG CCCCCTCCAA GGACGATTAA GATCGCCATT 
TTGAATTTTG ATGAGTATGC CTTAAACAAA GAAGGAATCG AGAAAATTCT AACGATGATT 
CCCACCGATG AGGAGAAGCA GAAAATCCAG GAAGCTCAGC TGGCCAACCC TGAAATCCCC 
CTGGGCAGTG CAGAGCAGTT CCTCCTCACC CTGTCCTCCA TCAGCGAGCT CTCTGCACGA 
CTTCACCTCT GGGCATTCAA AATGGATTAT GAAACTACAG AAAAGGAAGT AGCAGAACCA 
CTCCTGGACC TGAAGGAAGG AATAGACCAG TTGGAGAACA ATAAAACCTT GGGCTTTATC 
CTGTCTACTC TCTTAGCCAT TGGGAACTTT CTAAATGGAA CTAATGCCAA AGCGTTTGAG 
TTAAGCTACC TCGAGAAGGT TCCAGAAGTC AAAGACACAG TGCACAAGCA GTCGCTTCTC 
CACCATGTGT GCACCATGGT GGTAGAAAAC TTCCCAGACA GCTCCGATCT GTACTCGGAG 
ATCGGGGCCA TCACCAGGTC AGCCAAGGTT GACTTTGATC AACTTCAGGA TAATTTATGT 
CAGATGGAGA GAAGATGCAA AGCTTCATGG GATCACCTCA AGGCAATTGC AAAACATGAA 
ATGAAACCAG TTTTAAAACA ACGGATGTCA GAGTTCCTGA AAGACTGTGC AGAGCGAATT 
ATAATTTTAA AGATTGTCCA TAGAAGGATA ATCAACAGAT TCCACTCCTT TTTACTCTTT 
ATGGGCCATC CACCTTATGC AATTCGGGAA GTGAACATAA ACAAATTCTG CAGGATTATT 
AGTGAATTTG CACTAGAGTA TCGCACAACC AGGGAAAGGG TTTTGCAGCA GAAACAGAAA 
CGGGCCAACC ACAGAGAGAG AAATAAGACC AGAGGGAAGA TGATCACCGA TACTGATGAG 
GAGGAGGAAG TTGAGTCTGG CAAGTTCTCC GGCAGTTCTC CGGCGCCCCC AAGCCAGCCG 
CAGGGTCTGA GCTATGCGGA GGACGCGGCT GAGCACGAGA ACATGAAGGC TGTGCTGAAA 
ACCTCGTCCC CCTCCGTGGA GGACGCCACC CCCGCGCTGG GCGTCCGCAC ACGCAGCCGA 
GCAAGCCGAG GATCCACTAG TTCCTGGACT ATGGGAACTG ATGACTCGCC CAATGTCACA 
GATGATGCAG CTGATGAGAT CATGGACCGC ATCGTCAAGT CAGCCACCCA AGTGCCCAGT 
CAGCGAGTGG TGCCGAGGGA GAGGAAACGA TCCCGGGCCA ACCGGAAATC TTTGCGAAGA 
ACCCTGAAGA GCGGCCTGAC CCCAGAAGAA GCCAGAGCCC TGGGCTTGGT TGGCACCTCG 
GAGTTGCAGC TGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526195.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524497.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X9, mRNA.

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CloneID	OHu72657
Clone ID Related Accession (Same CDS sequence)	XM_011526195.1
Accession Version	XM_011526195.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4632bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGGTTT GTGGCCCGCA GGTGTCCAGG ATGCAGGTGT AAATGGACAG 
TGTGGCGACA TCCTCACCAA CAAACGGTTC ATGCTTGACA TGCTGTATGC CCATAACAGG 
AAGTCTCCGG ATGATGAGGA GAAGGGGGAT GGGGAGGCTG GGAGGACCCA GCAGGAGGCA 
GAGGCGGTAG CCAGCCTTGC TACCAGGATA TCCACCCTGC AGGCCAACTC TCAGACCCAG 
GATGAGAGTG TCAGGAGGGT GGATGTCGGC TGTTTGGACA ATCGGGGCAG TGTGAAAGCA 
TTTGCTGAGA AATTCAACAG TGGGGACCTG GGGAGAGGTT CCATCTCCCC TGATGCTGAG 
CCCAATGACA AGGTCCCAGA AACAGCGCCG GTGCAGCCGA AGACAGAGTC TGATTACATC 
TGGGACCAGC TCATGGCCAA TCCAAGAGAG CTCAGAATCC AAGACATGGA TTTCACTGAC 
CTGGGGGAGG AGGATGACAT TGATGTCCTA GATGTGGACC TGGGTCACAG GGAGGCCCCT 
GGGCCACCTC CCCCACCCCC ACCCACCTTT CTGGGTTTGC CGCCCCCACC CCCTCCGCCC 
CTGTTGGACA GCATTCCTCC CCCTCCTGTC CCTGGTAATT TATTGGTTCC TCCTCCTCCA 
GTGTTCAACG CTCCTCAGGG CTTAGGGTGG TCCCAGGTAC CCAGGGGTCA GCCCACATTC 
ACTAAGAAAA AGAAGACCAT CCGTTTGTTC TGGAATGAAG TTCGGCCTTT TGACTGGCCA 
TGTAAAAACA ACCGACGCTG CAGAGAATTC CTGTGGTCAA AACTGGAACC CATTAAGGTG 
GACACTTCCA GACTGGAGCA CCTGTTTGAG TCTAAATCCA AGGAACTGTC TGTCTCAAAG 
AAAACTGCTG CAGATGGAAA AAGGCAAGAG ATCATTGTTC TGGATTCCAA GAGGAGTAAC 
GCCATCAATA TTGGTCTGAC GGTGCTGCCC CCTCCAAGGA CGATTAAGAT CGCCATTTTG 
AATTTTGATG AGTATGCCTT AAACAAAGAA GGAATCGAGA AAATTCTAAC GATGATTCCC 
ACCGATGAGG AGAAGCAGAA AATCCAGGAA GCTCAGCTGG CCAACCCTGA AATCCCCCTG 
GGCAGTGCAG AGCAGTTCCT CCTCACCCTG TCCTCCATCA GCGAGCTCTC TGCACGACTT 
CACCTCTGGG CATTCAAAAT GGATTATGAA ACTACAGAAA AGGAAGTAGC AGAACCACTC 
CTGGACCTGA AGGAAGGAAT AGACCAGTTG GAGAACAATA AAACCTTGGG CTTTATCCTG 
TCTACTCTCT TAGCCATTGG GAACTTTCTA AATGGAACTA ATGCCAAAGC GTTTGAGTTA 
AGCTACCTCG AGAAGGTTCC AGAAGTCAAA GACACAGTGC ACAAGCAGTC GCTTCTCCAC 
CATGTGTGCA CCATGGTGGT AGAAAACTTC CCAGACAGCT CCGATCTGTA CTCGGAGATC 
GGGGCCATCA CCAGGTCAGC CAAGGTTGAC TTTGATCAAC TTCAGGATAA TTTATGTCAG 
ATGGAGAGAA GATGCAAAGC TTCATGGGAT CACCTCAAGG CAATTGCAAA ACATGAAATG 
AAACCAGTTT TAAAACAACG GATGTCAGAG TTCCTGAAAG ACTGTGCAGA GCGAATTATA 
ATTTTAAAGA TTGTCCATAG AAGGATAATC AACAGATTCC ACTCCTTTTT ACTCTTTATG 
GGCCATCCAC CTTATGCAAT TCGGGAAGTG AACATAAACA AATTCTGCAG GATTATTAGT 
GAATTTGCAC TAGAGTATCG CACAACCAGG GAAAGGGTTT TGCAGCAGAA ACAGAAACGG 
GCCAACCACA GAGAGAGAAA TAAGACCAGA GGGAAGATGA TCACCGATAC TGATGAGGAG 
GAGGAAGTTG AGTCTGGCAA GTTCTCCGGC AGTTCTCCGG CGCCCCCAAG CCAGCCGCAG 
GGTCTGAGCT ATGCGGAGGA CGCGGCTGAG CACGAGAACA TGAAGGCTGT GCTGAAAACC 
TCGTCCCCCT CCGTGGAGGA CGCCACCCCC GCGCTGGGCG TCCGCACACG CAGCCGAGCA 
AGCCGAGGAT CCACTAGTTC CTGGACTATG GGAACTGATG ACTCGCCCAA TGTCACAGAT 
GATGCAGCTG ATGAGATCAT GGACCGCATC GTCAAGTCAG CCACCCAAGT GCCCAGTCAG 
CGAGTGGTGC CGAGGGAGAG GAAACGATCC CGGGCCAACC GGAAATCTTT GCGAAGAACC 
CTGAAGAGCG GCCTGACCCC AGAAGAAGCC AGAGCCCTGG GCTTGGTTGG CACCTCGGAG 
TTGCAGCTGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524497.1
CDS	123..4754
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENSSSDSFSLSTYSASEPYHFRSFSSNRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526195.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526195.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGTTCC TCTGATTCTT TCTCTTTGAG CACATATTCT 
GCCTCTGAGC CTTACCACTT CCGATCTTTC TCTTCTAATA GATACAGCAA TTTTGGCAAT 
AACTCTTATC ACTCCTCAAG ACCCTCATCT GGATCCAGTG TGCCCACCAC CCCCACATCA 
TCCGTCTCAC CCCCACAGGA GGCCAGGTTG GAAAGACAAA AATCTGAAAC AAGAAGACCC 
GAGGCATTCA GTGATTTTCC CCAAGCATTG CCTAGGTCAT CACCGAGTGG TCTTCTCACA 
TCATCCTTCA GGCAGCACCA AGAGTCACTG GCAGCAGAGA GAGAGAGGCG GCGGCAGGAG 
AGAGAAGAAA GGTTGCAGAG AATAGAGCGG GAAGAAAGAA ACAAATTCAG CCGAGATTAT 
TTAGACAAAA GAGAGGAGCA AAGGCAAGCA AGAGAAGAAA GATACAAATA CTTGGAACAG 
TTGGCAGCTG AGGAGCACGA GAAGGAGCTG AGAAGCCGGA GTGTGAGCCG GGGCAGAGCC 
GACCTCTCCT TGGACCTGAC CTCGCCAGCA GCCCCAGCCT GCCTGGCTCC TCTGAGCCAT 
AGCCCCTCAT CTTCAGACTC TCAAGAGGCT CTCACGGTGT CTGCCTCCTC CCCAGGAACC 
CCTCACCATC CCCAAGGTTT GTGGCCCGCA GGTGTCCAGG ATGCAGGTGT AAATGGACAG 
TGTGGCGACA TCCTCACCAA CAAACGGTTC ATGCTTGACA TGCTGTATGC CCATAACAGG 
AAGTCTCCGG ATGATGAGGA GAAGGGGGAT GGGGAGGCTG GGAGGACCCA GCAGGAGGCA 
GAGGCGGTAG CCAGCCTTGC TACCAGGATA TCCACCCTGC AGGCCAACTC TCAGACCCAG 
GATGAGAGTG TCAGGAGGGT GGATGTCGGC TGTTTGGACA ATCGGGGCAG TGTGAAAGCA 
TTTGCTGAGA AATTCAACAG TGGGGACCTG GGGAGAGGTT CCATCTCCCC TGATGCTGAG 
CCCAATGACA AGGTCCCAGA AACAGCGCCG GTGCAGCCGA AGACAGAGTC TGATTACATC 
TGGGACCAGC TCATGGCCAA TCCAAGAGAG CTCAGAATCC AAGACATGGA TTTCACTGAC 
CTGGGGGAGG AGGATGACAT TGATGTCCTA GATGTGGACC TGGGTCACAG GGAGGCCCCT 
GGGCCACCTC CCCCACCCCC ACCCACCTTT CTGGGTTTGC CGCCCCCACC CCCTCCGCCC 
CTGTTGGACA GCATTCCTCC CCCTCCTGTC CCTGGTAATT TATTGGTTCC TCCTCCTCCA 
GTGTTCAACG CTCCTCAGGG CTTAGGGTGG TCCCAGGTAC CCAGGGGTCA GCCCACATTC 
ACTAAGAAAA AGAAGACCAT CCGTTTGTTC TGGAATGAAG TTCGGCCTTT TGACTGGCCA 
TGTAAAAACA ACCGACGCTG CAGAGAATTC CTGTGGTCAA AACTGGAACC CATTAAGGTG 
GACACTTCCA GACTGGAGCA CCTGTTTGAG TCTAAATCCA AGGAACTGTC TGTCTCAAAG 
AAAACTGCTG CAGATGGAAA AAGGCAAGAG ATCATTGTTC TGGATTCCAA GAGGAGTAAC 
GCCATCAATA TTGGTCTGAC GGTGCTGCCC CCTCCAAGGA CGATTAAGAT CGCCATTTTG 
AATTTTGATG AGTATGCCTT AAACAAAGAA GGAATCGAGA AAATTCTAAC GATGATTCCC 
ACCGATGAGG AGAAGCAGAA AATCCAGGAA GCTCAGCTGG CCAACCCTGA AATCCCCCTG 
GGCAGTGCAG AGCAGTTCCT CCTCACCCTG TCCTCCATCA GCGAGCTCTC TGCACGACTT 
CACCTCTGGG CATTCAAAAT GGATTATGAA ACTACAGAAA AGGAAGTAGC AGAACCACTC 
CTGGACCTGA AGGAAGGAAT AGACCAGTTG GAGAACAATA AAACCTTGGG CTTTATCCTG 
TCTACTCTCT TAGCCATTGG GAACTTTCTA AATGGAACTA ATGCCAAAGC GTTTGAGTTA 
AGCTACCTCG AGAAGGTTCC AGAAGTCAAA GACACAGTGC ACAAGCAGTC GCTTCTCCAC 
CATGTGTGCA CCATGGTGGT AGAAAACTTC CCAGACAGCT CCGATCTGTA CTCGGAGATC 
GGGGCCATCA CCAGGTCAGC CAAGGTTGAC TTTGATCAAC TTCAGGATAA TTTATGTCAG 
ATGGAGAGAA GATGCAAAGC TTCATGGGAT CACCTCAAGG CAATTGCAAA ACATGAAATG 
AAACCAGTTT TAAAACAACG GATGTCAGAG TTCCTGAAAG ACTGTGCAGA GCGAATTATA 
ATTTTAAAGA TTGTCCATAG AAGGATAATC AACAGATTCC ACTCCTTTTT ACTCTTTATG 
GGCCATCCAC CTTATGCAAT TCGGGAAGTG AACATAAACA AATTCTGCAG GATTATTAGT 
GAATTTGCAC TAGAGTATCG CACAACCAGG GAAAGGGTTT TGCAGCAGAA ACAGAAACGG 
GCCAACCACA GAGAGAGAAA TAAGACCAGA GGGAAGATGA TCACCGATAC TGATGAGGAG 
GAGGAAGTTG AGTCTGGCAA GTTCTCCGGC AGTTCTCCGG CGCCCCCAAG CCAGCCGCAG 
GGTCTGAGCT ATGCGGAGGA CGCGGCTGAG CACGAGAACA TGAAGGCTGT GCTGAAAACC 
TCGTCCCCCT CCGTGGAGGA CGCCACCCCC GCGCTGGGCG TCCGCACACG CAGCCGAGCA 
AGCCGAGGAT CCACTAGTTC CTGGACTATG GGAACTGATG ACTCGCCCAA TGTCACAGAT 
GATGCAGCTG ATGAGATCAT GGACCGCATC GTCAAGTCAG CCACCCAAGT GCCCAGTCAG 
CGAGTGGTGC CGAGGGAGAG GAAACGATCC CGGGCCAACC GGAAATCTTT GCGAAGAACC 
CTGAAGAGCG GCCTGACCCC AGAAGAAGCC AGAGCCCTGG GCTTGGTTGG CACCTCGGAG 
TTGCAGCTGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526196.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524498.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OHu72658
Clone ID Related Accession (Same CDS sequence)	XM_011526196.1
Accession Version	XM_011526196.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4404bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG ACAAAAATCT 
GAAACAAGAA GACCCGAGGC ATTCAGTGAT TTTCCCCAAG CATTGCCTAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
ACTGATGAGG AGGAGGAAGT TGAGTCTGGC AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA 
AGCCAGCCGC AGGGTCTGAG CTATGCGGAG GACGCGGCTG AGCACGAGAA CATGAAGGCT 
GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG GACGCCACCC CCGCGCTGGG CGTCCGCACA 
CGCAGCCGAG CAAGCCGAGG ATCCACTAGT TCCTGGACTA TGGGAACTGA TGACTCGCCC 
AATGTCACAG ATGATGCAGC TGATGAGATC ATGGACCGCA TCGTCAAGTC AGCCACCCAA 
GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG AGGAAACGAT CCCGGGCCAA CCGGAAATCT 
TTGCGAAGAA CCCTGAAGAG CGGCCTGACC CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT 
GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524498.1
CDS	123..4526
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDTDEEEEVESGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526196.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526196.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAATAC 
AGCAATTTTG GCAATAACTC TTATCACTCC TCAAGACCCT CATCTGGATC CAGTGTGCCC 
ACCACCCCCA CATCATCCGT CTCACCCCCA CAGGAGGCCA GGTTGGAAAG ACAAAAATCT 
GAAACAAGAA GACCCGAGGC ATTCAGTGAT TTTCCCCAAG CATTGCCTAG GTCATCACCG 
AGTGGTCTTC TCACATCATC CTTCAGGCAG CACCAAGAGT CACTGGCAGC AGAGAGAGAG 
AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG CAGAGAATAG AGCGGGAAGA AAGAAACAAA 
TTCAGCCGAG ATTATTTAGA CAAAAGAGAG GAGCAAAGGC AAGCAAGAGA AGAAAGATAC 
AAATACTTGG AACAGTTGGC AGCTGAGGAG CACGAGAAGG AGCTGAGAAG CCGGAGTGTG 
AGCCGGGGCA GAGCCGACCT CTCCTTGGAC CTGACCTCGC CAGCAGCCCC AGCCTGCCTG 
GCTCCTCTGA GCCATAGCCC CTCATCTTCA GACTCTCAAG AGGCTCTCAC GGTGTCTGCC 
TCCTCCCCAG GAACCCCTCA CCATCCCCAA GCAAGTGCCG GGGATCCTGA ACCCGAATCA 
GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG GGGCAGGTTG CTGATGAAGC TGGCCAGGAC 
ATAGCCTCTG CCCACGAGGG TGCAGAGACT GAAGTGGAGC AGGCACTAGA GCAAGAGCCG 
GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG AGGCAGAACG AGGGGGTGAA CGAGAGGGAC 
AACTGCTCTG CCTCCAGCGT CTCGTCCTCC AGCAGCACGT TGGAGAGGGA GGAGAAGGAG 
GACAAGCTCT CCAGGGACAG GACAACTGGT TTGTGGCCCG CAGGTGTCCA GGATGCAGGT 
GTAAATGGAC AGTGTGGCGA CATCCTCACC AACAAACGGT TCATGCTTGA CATGCTGTAT 
GCCCATAACA GGAAGTCTCC GGATGATGAG GAGAAGGGGG ATGGGGAGGC TGGGAGGACC 
CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT GCTACCAGGA TATCCACCCT GCAGGCCAAC 
TCTCAGACCC AGGATGAGAG TGTCAGGAGG GTGGATGTCG GCTGTTTGGA CAATCGGGGC 
AGTGTGAAAG CATTTGCTGA GAAATTCAAC AGTGGGGACC TGGGGAGAGG TTCCATCTCC 
CCTGATGCTG AGCCCAATGA CAAGGTCCCA GAAACAGCGC CGGTGCAGCC GAAGACAGAG 
TCTGATTACA TCTGGGACCA GCTCATGGCC AATCCAAGAG AGCTCAGAAT CCAAGACATG 
GATTTCACTG ACCTGGGGGA GGAGGATGAC ATTGATGTCC TAGATGTGGA CCTGGGTCAC 
AGGGAGGCCC CTGGGCCACC TCCCCCACCC CCACCCACCT TTCTGGGTTT GCCGCCCCCA 
CCCCCTCCGC CCCTGTTGGA CAGCATTCCT CCCCCTCCTG TCCCTGGTAA TTTATTGGTT 
CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT 
CAGCCCACAT TCACTAAGAA AAAGAAGACC ATCCGTTTGT TCTGGAATGA AGTTCGGCCT 
TTTGACTGGC CATGTAAAAA CAACCGACGC TGCAGAGAAT TCCTGTGGTC AAAACTGGAA 
CCCATTAAGG TGGACACTTC CAGACTGGAG CACCTGTTTG AGTCTAAATC CAAGGAACTG 
TCTGTCTCAA AGAAAACTGC TGCAGATGGA AAAAGGCAAG AGATCATTGT TCTGGATTCC 
AAGAGGAGTA ACGCCATCAA TATTGGTCTG ACGGTGCTGC CCCCTCCAAG GACGATTAAG 
ATCGCCATTT TGAATTTTGA TGAGTATGCC TTAAACAAAG AAGGAATCGA GAAAATTCTA 
ACGATGATTC CCACCGATGA GGAGAAGCAG AAAATCCAGG AAGCTCAGCT GGCCAACCCT 
GAAATCCCCC TGGGCAGTGC AGAGCAGTTC CTCCTCACCC TGTCCTCCAT CAGCGAGCTC 
TCTGCACGAC TTCACCTCTG GGCATTCAAA ATGGATTATG AAACTACAGA AAAGGAAGTA 
GCAGAACCAC TCCTGGACCT GAAGGAAGGA ATAGACCAGT TGGAGAACAA TAAAACCTTG 
GGCTTTATCC TGTCTACTCT CTTAGCCATT GGGAACTTTC TAAATGGAAC TAATGCCAAA 
GCGTTTGAGT TAAGCTACCT CGAGAAGGTT CCAGAAGTCA AAGACACAGT GCACAAGCAG 
TCGCTTCTCC ACCATGTGTG CACCATGGTG GTAGAAAACT TCCCAGACAG CTCCGATCTG 
TACTCGGAGA TCGGGGCCAT CACCAGGTCA GCCAAGGTTG ACTTTGATCA ACTTCAGGAT 
AATTTATGTC AGATGGAGAG AAGATGCAAA GCTTCATGGG ATCACCTCAA GGCAATTGCA 
AAACATGAAA TGAAACCAGT TTTAAAACAA CGGATGTCAG AGTTCCTGAA AGACTGTGCA 
GAGCGAATTA TAATTTTAAA GATTGTCCAT AGAAGGATAA TCAACAGATT CCACTCCTTT 
TTACTCTTTA TGGGCCATCC ACCTTATGCA ATTCGGGAAG TGAACATAAA CAAATTCTGC 
AGGATTATTA GTGAATTTGC ACTAGAGTAT CGCACAACCA GGGAAAGGGT TTTGCAGCAG 
AAACAGAAAC GGGCCAACCA CAGAGAGAGA AATAAGACCA GAGGGAAGAT GATCACCGAT 
ACTGATGAGG AGGAGGAAGT TGAGTCTGGC AAGTTCTCCG GCAGTTCTCC GGCGCCCCCA 
AGCCAGCCGC AGGGTCTGAG CTATGCGGAG GACGCGGCTG AGCACGAGAA CATGAAGGCT 
GTGCTGAAAA CCTCGTCCCC CTCCGTGGAG GACGCCACCC CCGCGCTGGG CGTCCGCACA 
CGCAGCCGAG CAAGCCGAGG ATCCACTAGT TCCTGGACTA TGGGAACTGA TGACTCGCCC 
AATGTCACAG ATGATGCAGC TGATGAGATC ATGGACCGCA TCGTCAAGTC AGCCACCCAA 
GTGCCCAGTC AGCGAGTGGT GCCGAGGGAG AGGAAACGAT CCCGGGCCAA CCGGAAATCT 
TTGCGAAGAA CCCTGAAGAG CGGCCTGACC CCAGAAGAAG CCAGAGCCCT GGGCTTGGTT 
GGCACCTCGG AGTTGCAGCT GTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

FHOD3 ( XM_011526197.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011524499.1 Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X16, mRNA.

Price & Availability↑

CloneID	OHu72659
Clone ID Related Accession (Same CDS sequence)	XM_011526197.1
Accession Version	XM_011526197.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4830bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	FH1/FH2 domain-containing protein 3 isoform X16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGATAC AGCAATTTTG GCAATAACTC TTATCACTCC 
TCAAGACCCT CATCTGGATC CAGTGTGCCC ACCACCCCCA CATCATCCGT CTCACCCCCA 
CAGGAGGCCA GGTTGGAAAG ACAAAAATCT GAAACAAGAA GACCCGAGGC ATTCAGTGAT 
TTTCCCCAAG CATTGCCTAG GTCATCACCG AGTGGTCTTC TCACATCATC CTTCAGGCAG 
CACCAAGAGT CACTGGCAGC AGAGAGAGAG AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG 
CAGAGAATAG AGCGGGAAGA AAGAAACAAA TTCAGCCGAG ATTATTTAGA CAAAAGAGAG 
GAGCAAAGGC AAGCAAGAGA AGAAAGATAC AAATACTTGG AACAGTTGGC AGCTGAGGAG 
CACGAGAAGG AGCTGAGAAG CCGGAGTGTG AGCCGGGGCA GAGCCGACCT CTCCTTGGAC 
CTGACCTCGC CAGCAGCCCC AGCCTGCCTG GCTCCTCTGA GCCATAGCCC CTCATCTTCA 
GACTCTCAAG AGGCTCTCAC GGTGTCTGCC TCCTCCCCAG GAACCCCTCA CCATCCCCAA 
GCAAGTGCCG GGGATCCTGA ACCCGAATCA GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG 
GGGCAGGTTG CTGATGAAGC TGGCCAGGAC ATAGCCTCTG CCCACGAGGG TGCAGAGACT 
GAAGTGGAGC AGGCACTAGA GCAAGAGCCG GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG 
AGGCAGAACG AGGGGGTGAA CGAGAGGGAC AACTGCTCTG CCTCCAGCGT CTCGTCCTCC 
AGCAGCACGT TGGAGAGGGA GGAGAAGGAG GACAAGCTCT CCAGGGACAG GACAACTGGT 
TTGTGGCCCG CAGGTGTCCA GGATGCAGGT GTAAATGGAC AGTGTGGCGA CATCCTCACC 
AACAAACGGT TCATGCTTGA CATGCTGTAT GCCCATAACA GGAAGTCTCC GGATGATGAG 
GAGAAGGGGG ATGGGGAGGC TGGGAGGACC CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT 
GCTACCAGGA TATCCACCCT GCAGGCCAAC TCTCAGACCC AGGATGAGAG TGTCAGGAGG 
GTGGATGTCG GCTGTTTGGA CAATCGGGGC AGTGTGAAAG CATTTGCTGA GAAATTCAAC 
AGTGGGGACC TGGGGAGAGG TTCCATCTCC CCTGATGCTG AGCCCAATGA CAAGGTCCCA 
GAAACAGCGC CGGTGCAGCC GAAGACAGAG TCTGATTACA TCTGGGACCA GCTCATGGCC 
AATCCAAGAG AGCTCAGAAT CCAAGACATG GATTTCACTG ACCTGGGGGA GGAGGATGAC 
ATTGATGTCC TAGATGTGGA CCTGGGTCAC AGGGAGGCCC CTGGGCCACC TCCCCCACCC 
CCACCCACCT TTCTGGGTTT GCCGCCCCCA CCCCCTCCGC CCCTGTTGGA CAGCATTCCT 
CCCCCTCCTG TCCCTGGTAA TTTATTGGTT CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG 
GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT CAGCCCACAT TCACTAAGAA AAAGAAGACC 
ATCCGTTTGT TCTGGAATGA AGTTCGGCCT TTTGACTGGC CATGTAAAAA CAACCGACGC 
TGCAGAGAAT TCCTGTGGTC AAAACTGGAA CCCATTAAGG TGGACACTTC CAGACTGGAG 
CACCTGTTTG AGTCTAAATC CAAGGAACTG TCTGTCTCAA AGAAAACTGC TGCAGATGGA 
AAAAGGCAAG AGATCATTGT TCTGGATTCC AAGAGGAGTA ACGCCATCAA TATTGGTCTG 
ACGGTGCTGC CCCCTCCAAG GACGATTAAG ATCGCCATTT TGAATTTTGA TGAGTATGCC 
TTAAACAAAG AAGGAATCGA GAAAATTCTA ACGATGATTC CCACCGATGA GGAGAAGCAG 
AAAATCCAGG AAGCTCAGCT GGCCAACCCT GAAATCCCCC TGGGCAGTGC AGAGCAGTTC 
CTCCTCACCC TGTCCTCCAT CAGCGAGCTC TCTGCACGAC TTCACCTCTG GGCATTCAAA 
ATGGATTATG AAACTACAGA AAAGGAAGTA GCAGAACCAC TCCTGGACCT GAAGGAAGGA 
ATAGACCAGT TGGAGAACAA TAAAACCTTG GGCTTTATCC TGTCTACTCT CTTAGCCATT 
GGGAACTTTC TAAATGGAAC TAATGCCAAA GCGTTTGAGT TAAGCTACCT CGAGAAGGTT 
CCAGAAGTCA AAGACACAGT GCACAAGCAG TCGCTTCTCC ACCATGTGTG CACCATGGTG 
GTAGAAAACT TCCCAGACAG CTCCGATCTG TACTCGGAGA TCGGGGCCAT CACCAGGTCA 
GCCAAGGTTG ACTTTGATCA ACTTCAGGAT AATTTATGTC AGATGGAGAG AAGATGCAAA 
GCTTCATGGG ATCACCTCAA GGCAATTGCA AAACATGAAA TGAAACCAGT TTTAAAACAA 
CGGATGTCAG AGTTCCTGAA AGACTGTGCA GAGCGAATTA TAATTTTAAA GATTGTCCAT 
AGAAGGATAA TCAACAGATT CCACTCCTTT TTACTCTTTA TGGGCCATCC ACCTTATGCA 
ATTCGGGAAG TGAACATAAA CAAATTCTGC AGGATTATTA GTGAATTTGC ACTAGAGTAT 
CGCACAACCA GGGAAAGGGT TTTGCAGCAG AAACAGAAAC GGGCCAACCA CAGAGAGAGA 
AATAAGACCA GAGGGAAGAT GATCACCGAT TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG 
CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT GCGGAGGACG CGGCTGAGCA CGAGAACATG 
AAGGCTGTGC TGAAAACCTC GTCCCCCTCC GTGGAGGACG CCACCCCCGC GCTGGGCGTC 
CGCACACGCA GCCGAGCAAG CCGAGGATCC ACTAGTTCCT GGACTATGGG AACTGATGAC 
TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG ACCGCATCGT CAAGTCAGCC 
ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA AACGATCCCG GGCCAACCGG 
AAATCTTTGC GAAGAACCCT GAAGAGCGGC CTGACCCCAG AAGAAGCCAG AGCCCTGGGC 
TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011524499.1
CDS	123..4952
Translation	MATLACRVQFLDDTDPFNSTNFPEPSRPPLFTFREDLALGTQLAGVHRLLQAPHKLDDCTLQLSHNGAYLDLEATLAEQRDELEGFQDDAGRGKKHSIILRTQLSVRVHACIEKLYNSSGRDLRRALFSLKQIFQDDKDLVHEFVVAEGLTCLIKVGAEADQNYQNYILRALGQIMLYVDGMNGVINRNETIQWLYTLIGSKFRLVVKTALKLLLVFVEYSESNAPLLIQAVTAVDTKRGVKPWSNIMEILEEKDGVDTELLVYAMTLVNKTLSGLPDQDTFYDVVDCLEELGIAAVSQRHLNKKGTDLDLVEQLNIYEVALRHEDGDETTEPPPSGCRDRRRASVCSSGGGEHRGLDRRRSRRHSVQSIKSTLSAPTSPCSQSAPSFKPNQVRDLREKEEEEEEEQPITEPSSEEEREDDASCQGKDSKVGAASGQSPTGRDAAPKSSALPAVSNASSQGKPLLVGTAGGTTWHSGSSGSEATPSALLSPPASAARPSSATPGSLKVSPTIDKLPYVPHSPFHLFSYDFEDSSLSTKEKEAESQKENRYSNFGNNSYHSSRPSSGSSVPTTPTSSVSPPQEARLERQKSETRRPEAFSDFPQALPRSSPSGLLTSSFRQHQESLAAERERRRQEREERLQRIEREERNKFSRDYLDKREEQRQAREERYKYLEQLAAEEHEKELRSRSVSRGRADLSLDLTSPAAPACLAPLSHSPSSSDSQEALTVSASSPGTPHHPQASAGDPEPESEAEPEAEAGAGQVADEAGQDIASAHEGAETEVEQALEQEPEERASLSEKERQNEGVNERDNCSASSVSSSSSTLEREEKEDKLSRDRTTGLWPAGVQDAGVNGQCGDILTNKRFMLDMLYAHNRKSPDDEEKGDGEAGRTQQEAEAVASLATRISTLQANSQTQDESVRRVDVGCLDNRGSVKAFAEKFNSGDLGRGSISPDAEPNDKVPETAPVQPKTESDYIWDQLMANPRELRIQDMDFTDLGEEDDIDVLDVDLGHREAPGPPPPPPPTFLGLPPPPPPPLLDSIPPPPVPGNLLVPPPPVFNAPQGLGWSQVPRGQPTFTKKKKTIRLFWNEVRPFDWPCKNNRRCREFLWSKLEPIKVDTSRLEHLFESKSKELSVSKKTAADGKRQEIIVLDSKRSNAINIGLTVLPPPRTIKIAILNFDEYALNKEGIEKILTMIPTDEEKQKIQEAQLANPEIPLGSAEQFLLTLSSISELSARLHLWAFKMDYETTEKEVAEPLLDLKEGIDQLENNKTLGFILSTLLAIGNFLNGTNAKAFELSYLEKVPEVKDTVHKQSLLHHVCTMVVENFPDSSDLYSEIGAITRSAKVDFDQLQDNLCQMERRCKASWDHLKAIAKHEMKPVLKQRMSEFLKDCAERIIILKIVHRRIINRFHSFLLFMGHPPYAIREVNINKFCRIISEFALEYRTTRERVLQQKQKRANHRERNKTRGKMITDSGKFSGSSPAPPSQPQGLSYAEDAAEHENMKAVLKTSSPSVEDATPALGVRTRSRASRGSTSSWTMGTDDSPNVTDDAADEIMDRIVKSATQVPSQRVVPRERKRSRANRKSLRRTLKSGLTPEEARALGLVGTSELQL

Target ORF information:

RefSeq Version	XM_011526197.1
Organism	Homo sapiens(human)
Definition	Homo sapiens formin homology 2 domain containing 3 (FHOD3), transcript variant X16, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011526197.1

ORF Insert Sequence:

ATGGCCACGC TGGCTTGCCG GGTGCAGTTC TTGGACGACA CGGACCCTTT CAACAGCACC 
AACTTCCCCG AGCCCAGCCG GCCGCCGCTG TTCACGTTCC GCGAGGACCT CGCGCTCGGC 
ACCCAGCTGG CGGGGGTCCA TAGGCTGCTG CAGGCGCCGC ACAAGCTGGA TGACTGTACT 
CTGCAGCTCT CTCACAATGG CGCCTACCTG GATTTGGAGG CCACCCTGGC AGAGCAGCGG 
GATGAGTTGG AAGGCTTCCA GGATGACGCC GGGCGGGGCA AGAAGCACAG CATCATCCTA 
AGGACGCAGC TGTCTGTGAG GGTCCATGCC TGCATCGAAA AACTATACAA CTCCAGCGGA 
CGAGATTTGA GAAGGGCCCT CTTCTCCCTG AAGCAGATAT TTCAGGATGA CAAGGATTTG 
GTGCATGAAT TTGTAGTGGC TGAAGGTCTG ACATGTTTGA TCAAGGTGGG AGCTGAGGCT 
GATCAGAACT ATCAGAACTA CATCTTAAGG GCTTTGGGCC AGATTATGTT GTATGTGGAT 
GGAATGAATG GAGTAATAAA CCGCAATGAA ACCATTCAGT GGCTGTACAC TCTCATTGGG 
TCAAAGTTCC GCCTGGTGGT GAAGACAGCC CTGAAGCTGC TGCTCGTCTT TGTAGAGTAC 
TCGGAGTCCA ACGCACCTCT CCTAATTCAG GCTGTCACTG CTGTTGACAC GAAAAGAGGG 
GTCAAACCTT GGTCAAATAT CATGGAAATC CTGGAGGAAA AAGATGGAGT TGATACGGAG 
CTACTGGTTT ATGCAATGAC TTTGGTGAAC AAGACGTTAT CAGGACTACC AGACCAAGAC 
ACCTTCTACG ACGTCGTGGA CTGCCTGGAG GAGCTGGGCA TTGCTGCTGT GTCCCAGAGG 
CACTTGAACA AGAAAGGGAC TGACCTGGAC TTAGTGGAGC AACTCAACAT TTATGAGGTG 
GCGCTCAGGC ACGAGGATGG CGATGAGACC ACGGAGCCAC CCCCCAGTGG GTGCCGGGAC 
CGGAGGAGGG CCAGCGTGTG TTCCAGTGGC GGAGGCGAGC ACCGGGGCCT GGACCGCAGA 
AGGAGCCGCA GGCACTCGGT GCAGAGCATC AAGAGCACCC TGTCGGCCCC CACCAGTCCC 
TGCTCCCAGT CAGCTCCCAG CTTCAAGCCC AACCAAGTGC GAGATCTGCG TGAAAAGGAG 
GAGGAGGAGG AAGAGGAGCA GCCAATCACG GAGCCCAGTT CCGAAGAAGA GAGAGAGGAT 
GATGCTTCCT GTCAGGGCAA GGACAGCAAG GTCGGCGCTG CCTCAGGGCA GAGCCCCACT 
GGAAGGGATG CTGCTCCCAA GAGCTCTGCC CTCCCTGCTG TCTCGAATGC CAGCTCGCAG 
GGAAAGCCGC TTCTGGTTGG CACTGCAGGC GGGACCACCT GGCACAGTGG GTCCTCTGGG 
TCTGAGGCCA CCCCATCTGC CCTCCTGTCA CCCCCTGCCT CAGCTGCTCG GCCCTCCTCC 
GCCACACCAG GCTCCCTGAA GGTGTCACCG ACCATAGACA AGCTGCCCTA CGTGCCCCAC 
AGCCCCTTCC ACCTCTTCTC CTATGACTTT GAGGACTCCT CCCTGTCCAC CAAGGAGAAG 
GAAGCAGAGT CCCAGAAGGA AAACAGATAC AGCAATTTTG GCAATAACTC TTATCACTCC 
TCAAGACCCT CATCTGGATC CAGTGTGCCC ACCACCCCCA CATCATCCGT CTCACCCCCA 
CAGGAGGCCA GGTTGGAAAG ACAAAAATCT GAAACAAGAA GACCCGAGGC ATTCAGTGAT 
TTTCCCCAAG CATTGCCTAG GTCATCACCG AGTGGTCTTC TCACATCATC CTTCAGGCAG 
CACCAAGAGT CACTGGCAGC AGAGAGAGAG AGGCGGCGGC AGGAGAGAGA AGAAAGGTTG 
CAGAGAATAG AGCGGGAAGA AAGAAACAAA TTCAGCCGAG ATTATTTAGA CAAAAGAGAG 
GAGCAAAGGC AAGCAAGAGA AGAAAGATAC AAATACTTGG AACAGTTGGC AGCTGAGGAG 
CACGAGAAGG AGCTGAGAAG CCGGAGTGTG AGCCGGGGCA GAGCCGACCT CTCCTTGGAC 
CTGACCTCGC CAGCAGCCCC AGCCTGCCTG GCTCCTCTGA GCCATAGCCC CTCATCTTCA 
GACTCTCAAG AGGCTCTCAC GGTGTCTGCC TCCTCCCCAG GAACCCCTCA CCATCCCCAA 
GCAAGTGCCG GGGATCCTGA ACCCGAATCA GAGGCAGAAC CGGAAGCAGA GGCAGGGGCG 
GGGCAGGTTG CTGATGAAGC TGGCCAGGAC ATAGCCTCTG CCCACGAGGG TGCAGAGACT 
GAAGTGGAGC AGGCACTAGA GCAAGAGCCG GAAGAAAGAG CCTCCCTCAG TGAAAAAGAG 
AGGCAGAACG AGGGGGTGAA CGAGAGGGAC AACTGCTCTG CCTCCAGCGT CTCGTCCTCC 
AGCAGCACGT TGGAGAGGGA GGAGAAGGAG GACAAGCTCT CCAGGGACAG GACAACTGGT 
TTGTGGCCCG CAGGTGTCCA GGATGCAGGT GTAAATGGAC AGTGTGGCGA CATCCTCACC 
AACAAACGGT TCATGCTTGA CATGCTGTAT GCCCATAACA GGAAGTCTCC GGATGATGAG 
GAGAAGGGGG ATGGGGAGGC TGGGAGGACC CAGCAGGAGG CAGAGGCGGT AGCCAGCCTT 
GCTACCAGGA TATCCACCCT GCAGGCCAAC TCTCAGACCC AGGATGAGAG TGTCAGGAGG 
GTGGATGTCG GCTGTTTGGA CAATCGGGGC AGTGTGAAAG CATTTGCTGA GAAATTCAAC 
AGTGGGGACC TGGGGAGAGG TTCCATCTCC CCTGATGCTG AGCCCAATGA CAAGGTCCCA 
GAAACAGCGC CGGTGCAGCC GAAGACAGAG TCTGATTACA TCTGGGACCA GCTCATGGCC 
AATCCAAGAG AGCTCAGAAT CCAAGACATG GATTTCACTG ACCTGGGGGA GGAGGATGAC 
ATTGATGTCC TAGATGTGGA CCTGGGTCAC AGGGAGGCCC CTGGGCCACC TCCCCCACCC 
CCACCCACCT TTCTGGGTTT GCCGCCCCCA CCCCCTCCGC CCCTGTTGGA CAGCATTCCT 
CCCCCTCCTG TCCCTGGTAA TTTATTGGTT CCTCCTCCTC CAGTGTTCAA CGCTCCTCAG 
GGCTTAGGGT GGTCCCAGGT ACCCAGGGGT CAGCCCACAT TCACTAAGAA AAAGAAGACC 
ATCCGTTTGT TCTGGAATGA AGTTCGGCCT TTTGACTGGC CATGTAAAAA CAACCGACGC 
TGCAGAGAAT TCCTGTGGTC AAAACTGGAA CCCATTAAGG TGGACACTTC CAGACTGGAG 
CACCTGTTTG AGTCTAAATC CAAGGAACTG TCTGTCTCAA AGAAAACTGC TGCAGATGGA 
AAAAGGCAAG AGATCATTGT TCTGGATTCC AAGAGGAGTA ACGCCATCAA TATTGGTCTG 
ACGGTGCTGC CCCCTCCAAG GACGATTAAG ATCGCCATTT TGAATTTTGA TGAGTATGCC 
TTAAACAAAG AAGGAATCGA GAAAATTCTA ACGATGATTC CCACCGATGA GGAGAAGCAG 
AAAATCCAGG AAGCTCAGCT GGCCAACCCT GAAATCCCCC TGGGCAGTGC AGAGCAGTTC 
CTCCTCACCC TGTCCTCCAT CAGCGAGCTC TCTGCACGAC TTCACCTCTG GGCATTCAAA 
ATGGATTATG AAACTACAGA AAAGGAAGTA GCAGAACCAC TCCTGGACCT GAAGGAAGGA 
ATAGACCAGT TGGAGAACAA TAAAACCTTG GGCTTTATCC TGTCTACTCT CTTAGCCATT 
GGGAACTTTC TAAATGGAAC TAATGCCAAA GCGTTTGAGT TAAGCTACCT CGAGAAGGTT 
CCAGAAGTCA AAGACACAGT GCACAAGCAG TCGCTTCTCC ACCATGTGTG CACCATGGTG 
GTAGAAAACT TCCCAGACAG CTCCGATCTG TACTCGGAGA TCGGGGCCAT CACCAGGTCA 
GCCAAGGTTG ACTTTGATCA ACTTCAGGAT AATTTATGTC AGATGGAGAG AAGATGCAAA 
GCTTCATGGG ATCACCTCAA GGCAATTGCA AAACATGAAA TGAAACCAGT TTTAAAACAA 
CGGATGTCAG AGTTCCTGAA AGACTGTGCA GAGCGAATTA TAATTTTAAA GATTGTCCAT 
AGAAGGATAA TCAACAGATT CCACTCCTTT TTACTCTTTA TGGGCCATCC ACCTTATGCA 
ATTCGGGAAG TGAACATAAA CAAATTCTGC AGGATTATTA GTGAATTTGC ACTAGAGTAT 
CGCACAACCA GGGAAAGGGT TTTGCAGCAG AAACAGAAAC GGGCCAACCA CAGAGAGAGA 
AATAAGACCA GAGGGAAGAT GATCACCGAT TCTGGCAAGT TCTCCGGCAG TTCTCCGGCG 
CCCCCAAGCC AGCCGCAGGG TCTGAGCTAT GCGGAGGACG CGGCTGAGCA CGAGAACATG 
AAGGCTGTGC TGAAAACCTC GTCCCCCTCC GTGGAGGACG CCACCCCCGC GCTGGGCGTC 
CGCACACGCA GCCGAGCAAG CCGAGGATCC ACTAGTTCCT GGACTATGGG AACTGATGAC 
TCGCCCAATG TCACAGATGA TGCAGCTGAT GAGATCATGG ACCGCATCGT CAAGTCAGCC 
ACCCAAGTGC CCAGTCAGCG AGTGGTGCCG AGGGAGAGGA AACGATCCCG GGCCAACCGG 
AAATCTTTGC GAAGAACCCT GAAGAGCGGC CTGACCCCAG AAGAAGCCAG AGCCCTGGGC 
TTGGTTGGCA CCTCGGAGTT GCAGCTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Gene Symbol	FHOD3
Entrez Gene ID	80206
Full Name	formin homology 2 domain containing 3
Synonyms	FHOS2,Formactin2
General protein information	Preferred Names formin homology 2 domain containing 3 Names FH1/FH2 domain-containing protein 3 formactin-2 formin homolog overexpressed in spleen 2
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 18 Map Location: 18q12.2
Summary	The protein encoded by this gene is a member of the diaphanous-related formins (DRF), and contains multiple domains, including GBD (GTPase-binding domain), DID (diaphanous inhibitory domain), FH1 (formin homology 1), FH2 (formin homology 2), and DAD (diaphanous auto-regulatory domain) domains. This protein is thought to play a role in actin filament polymerization in cardiomyocytes. Mutations in this gene have been associated with dilated cardiomyopathy (DCM), characterized by dilation of the ventricular chamber, leading to impairment of systolic pump function and subsequent heart failure. Increased levels of the protein encoded by this gene have been observed in individuals with hypertrophic cardiomyopathy (HCM). Alternative splicing results in multiple transcript variants encoding different isoforms. A muscle-specific isoform has been shown to possess a casein kinase 2 (CK2) phosphorylation site at the C-terminal end of the FH2 domain. Phosphorylation of this site alters its interaction with sequestosome 1 (SQSTM1), and targets this isoform to myofibrils, while other isoforms form cytoplasmic aggregates. [provided by RefSeq, Aug 2015].
Disorder MIM:	609691

Bos taurus (cattle)	FHOD3	NP_001178144.1
Gallus gallus (chicken)	FHOD3	XP_419037.4
Canis lupus familiaris (dog)	FHOD3	XP_005623040.1
Rattus norvegicus (Norway rat)	Fhod3	NP_001258261.1
Mus musculus (house mouse)	Fhod3	NP_780485.2
Xenopus tropicalis (tropical clawed frog)	fhod3	XP_002941426.2
Pan troglodytes (chimpanzee)	FHOD3	XP_003315930.1
Danio rerio (zebrafish)	zgc:103746	XP_005158006.1
Homo sapiens (human)	FHOD3	NP_001268669.1
	FHOD3	XP_001106633.1

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

FHOD3 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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