dennd5b cDNA ORF clone, Anolis carolinensis(green anole)

Gene
Clones
gRNAs

Summary

Gene Symbol	dennd5b
Entrez Gene ID	100566874
Full Name	DENN domain containing 5B
Gene Type	protein-coding
Organism	Anolis carolinensis(green anole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_016993586.1	XP_016849075.1	DENN domain-containing protein 5B isoform X1
XM_003220821.3	XP_003220869.2	DENN domain-containing protein 5B isoform X2

Pathways from BioSystems
Gene Ontology

The following dennd5b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the dennd5b cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OAn35008	XM_016993586.1 Latest version!	Anolis carolinensis DENN domain containing 5B (dennd5b), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
OAn35009	XM_003220821.3 Latest version!	Anolis carolinensis DENN domain containing 5B (dennd5b), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

dennd5b ( XM_016993586.1 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_016849075.1 Anolis carolinensis DENN domain containing 5B (dennd5b), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAn35008
Clone ID Related Accession (Same CDS sequence)	XM_016993586.1
Accession Version	XM_016993586.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4014bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	DENN domain-containing protein 5B isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014780.1) and transcript sequence (GAFD01015628.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 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## ##RefSeq-Attributes-START## assembly gap :: added 346 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGAGTAGCC CCGCGGCGGC GCCGCCTCCT CCCCCGGGGC CTGGCTCCGG CTCGGGCTCG 
GCCTCTTGCC GCTTCGCCCA CTACTTCGTG CTCTGCGGGA TTGACGCCGA CAGCGGGCTG 
GAGCCGGACG AGTTGGCTGT CTTATACCAG TGGTTAGAAG CTGATCGCCT TGGCAAGAGC 
TCAGATACTG CAAACAGAAC AACAGGAGAA AACTTTGATC AGAGCCCCTT AAGAAGAACT 
TTCAAGTCAA AAGTCTTGGC TCATTACCCT CAGAACATTG AATGGAATCC GTTTGATCAA 
GATGCAGTCA ATATGCTGTG TATGCCCAAA GGGCTTTCCT TCAGGACTCA GACTGATAAT 
AGAGACCCCC AGTTCCACTC ATTTATTATT ACCCGGGAAG ATGGCTCCCG CACATACGGG 
TTTGTGCTTA CCTTTTTCGA GGAGGTCACA AGCAAGCAAA TTTGCACAGC CATGCAAACT 
CTGTATCAAA TGCACAATGC TGAGCAATGC AACAGCGTCT GTGCCTCGTC TTCGTGTAGC 
ATGGACTCCC TGGCCAGCAG TCTGGACGAA GGAGATGCCA CGTCGTTGGC CAAGATGCAA 
CGCTACAACT CGTATGACAT CAACAGGGAT ACGCTCTATG TCTCCAAATG TGTTTGCCTC 
ATTACTCCCT TGCCTTTCAT GCAAGCCTGC AAGAAATTCC TCATCCAGCT TTATAAGGCC 
GTCACATGTC AGCAACCCCC GCCTTTACCT CTGGAGAGCT ACATCCACAA CATCCTCTAT 
GAAGTGCCCC TTCCGCCCCC AGGAAGGTCG CTGAAATTCT ACGGGGTATA CGAGCCCATC 
ATTTGCCAGA GGCCTGGCCC CAATGAGCTC CCACTCTTTG ACTACGCTCT CCGGGAGACC 
TTTGAACTGC TGGGCTTGGA GAACCTCGTC CAGGTGTTTA CATGTGTTCT CCTAGAAATG 
CAGATCCTTC TTTATTCTCA AGACTACCAG CGCCTGATGA CGGTCGCAGA GGGGATCACC 
ACGCTGCTCT TCCCATTTCA GTGGCAACAC GTATATGTCC CTATTCTCCC TGCCTCTCTC 
CTGCATTTCC TTGATGCTCC TGTACCTTAC TTGATGGGTC TGCAATCCAA GGAAGGAACA 
GACCGTTCCA AACTTGAACT TCCCCAAGAG GCCAACCTCT GCTTTGTGGA TATTGATAAC 
CACTTTATCG AGTTGCCAGA GGAACTTCCT CAGTTTCCCA ACAAGCTAAA TTTCATCCAA 
GAAATCTCGG AGGTGCTCCT TCAGTTTGAA ATTCCCCTTG AAGGCAACTT CCATTGTAGC 
GAGAGTGCTA CCAAGTTGAA GAACCTCGTT CTGAATGACT TGGCCAATGA CAAAAAGAAT 
GGAAACATCC CCAGCAACAC CATCAACATG TACGAGCTCC TGAAAGGCAA TGAAACCATT 
GCTCGCCTCC AGGCGCTGGC CAAAAGGACA GGGATTGCAA TGGATAAGAT GAGCATTACT 
GCTCCTCTGG TAGAAAAAGA GAAAGACGTT AAGCTCCAGT GTGAAGATGG GGAGCTGAGG 
GACTACAAAC TGAATGTGCA GCTTCGGGAG GTCTTTGCTA ACCGCTTCAC GCAGATGTTT 
GCCGATTATG AAGCTTTTGT CATTCAAGCA GCACAGGATA GAGAATCGTG GCTGACAAAT 
AGGGAACAGA TGCAAAATTT TGACAAGGCT TCATTTCTGT CTGATCAGCC TGAGCCTTAC 
CTTCCATTCC TTTCACATTT CATTGAAACC CAAATGTTTG CAACGTTCAT CGACAATAAA 
ATTATGTCCC AGTGGGAAGA AAAAGATCCA TTTCTTAGAG TGTTTGACTC AAGGATAGAG 
AAGATAAGAC TGTATAATGT CAGGGCGCCT GCATTAAGAA CATCGATATA TCAGAAGTGC 
AACACCTTGA AAGAAGCAGC TCAAGCTATT GAACACCGTC TGTCGAAGAT AGATCACACA 
GCAATTCATC CGCACCTGCT TGATATGAAG ATAGGTCAAG GCAAATATGA GCAAGGTTTC 
TTCCCCAAGC TTCAATCTGA TGTGTTAGCA GCTGGACCTA CCAATAACAA TCGGTGGGTG 
AGTCGTAGTG CTACAGCACA GCGCCGGAAA GATCGCATCC GACAACATTC AGAGCACATT 
GGTTTGGATA ATGATTTAAG AGAGCCATCG GAGGAGTTCT TGATTCGTCA GAACTCAATG 
GCTTTCTGGG AGTGGGACCA GGGCCCGCCC CCTCCTGCAC GGCCACCTAA AAAATCATTC 
TCTGAATGTT GCCTGAAGTA CATGCAAGAA GCAAGGACTT TGGGGAAAAA TCTGAGGCAG 
CCCAAACTCT CTGATCTTTC TCCCGCTGTA ATTGCTCAGA CAAACTGGAA ATTTGTGGAG 
GGTTTACTCA AAGAATGTCG AATGAAGACC AAACGTATGC TGGTAGAGAA GATGGGCCAT 
GAAGCAGTGG AACTGGGACA TGGTGAAGCC AATATAACAG GACTGGAAGA AAATACACTC 
ATTGCTAGCC TTTGTGACCT GCTGGAAAGA ATTTGGAGCC ATGGACTACA AGTCAAACAG 
GGAAAATCTG CACTGTGGTC TCACTTAATT CAGTACCAGG AAAGAGAAGA GAAACAAGAG 
CAACTGGCAG AATCCCCAAT TGCTTCTGGA CCAGAAAGAA GGAAGTCTGA CACTGGGCTA 
ATGTTACCTA TCCTGAGAGT CTCAGTCATC AGCGATATGA GGCACATCCA GAACATGAGT 
GAGATAAAGA CTGATGTGGG TCGAGCTCGA GCTTGGATAA GGCTATCCCT TGAAAAGAAA 
CTATTGTCCC AACATCTCAA GCAGCTTCTT TCCAATCAAG CCTTGGCAAA GAAACTGTAC 
AAACGTTATG CCTTCCTGCG GTGTGAGGAA GAGCGGGAGC AGTTCCTCTA TCACCTGCTC 
TCCCTCAATG CTGTGAATTA CTTCTGCTTC ACAAGTGTCT TCACCACCAT CATGATTCCA 
TATAGGACAG TGATCATCCC CATCAAAAAG CTAAGCAATG CAATCACCAC ATCAAATCCA 
TGGATTTGTG TTTCGGGAGA ACTGGGAGAT ACTGGAATAA TGCAGATTCC AAAAAACCTC 
CTAGAAATGA CATTTGAGTG TCAGAACTTG GGAAAGCTGA CCACTGTTCA GATAGGTCAT 
GACAACTCTG GACTGTTAGC CAAATGGCTG GTGGACTGCG TCATGGTCAG GAACGAAATC 
ACAGGGCACA CCTATAAGTT TCCATGTGGA AGGTGGCTGG GGAAAGGTGT TGACGACGGA 
AGCCTGGAGA GGATTCTTAT CGGAGAGCTG ATTTCAACAT CATCAGATGA AGACCTTGGG 
AAGCAGTGCC GGACCCCTCC GCAGCAGAAA TCCCCAACCT CAGTTCGGAG ATTGAGCATC 
ACTTCCCTCA CAGGGAAAAA CACAAAACCC AATGCTGGAC AGATCCAAGA AGGAATTGGG 
GAAGCTGTGA ACAATATAGT GAAGCACTTC CATAAACCTG AGAAAGAGAG AGGAAGTTTC 
ACCGTTCTCT TGTGTGGAGA AAATGGCTTG GTTGTAGCAC TTGAGCAGGT CTTCCACCAT 
GGTTTCAAGT CGGCTCGCAT TTTCCATAAG AACGTTTTCA TCTGGGACTT CATAGAAAAG 
GCTGTTGCAT ACTTTGAGAC TACTGATCAG ATTGGGGACA GCGAAGAAGA TGTACTCCTC 
CAAAAATCCT CCTGCAAAAC ATTCTGCCAT TACGTAAATG CCATCAATAC TGCTCCAAGG 
AACATAGGAA AAGATGGCAA ATTTCAAATT CTAGTTTGCC TTGGAACCCG AGATCACTTG 
CTCCCGCAGT GGATTCCTTT GTTGGCAGAA TGTCCAGCCA TCACTCGTAT GTATGAAGAG 
AATGCTCTGC TACGCGACCG CATGGCAGTG AACTCCCTCA TCCGAGTCCT GCAGACTCTG 
CAGGATTTCA ACGTTACCCT GGAAGGATCG CTCATAAAAG GAGTGGATGT GTAG

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

RefSeq	XP_016849075.1
CDS	208..4221
Translation	MSSPAAAPPPPPGPGSGSGSASCRFAHYFVLCGIDADSGLEPDELAVLYQWLEADRLGKSSDTANRTTGENFDQSPLRRTFKSKVLAHYPQNIEWNPFDQDAVNMLCMPKGLSFRTQTDNRDPQFHSFIITREDGSRTYGFVLTFFEEVTSKQICTAMQTLYQMHNAEQCNSVCASSSCSMDSLASSLDEGDATSLAKMQRYNSYDINRDTLYVSKCVCLITPLPFMQACKKFLIQLYKAVTCQQPPPLPLESYIHNILYEVPLPPPGRSLKFYGVYEPIICQRPGPNELPLFDYALRETFELLGLENLVQVFTCVLLEMQILLYSQDYQRLMTVAEGITTLLFPFQWQHVYVPILPASLLHFLDAPVPYLMGLQSKEGTDRSKLELPQEANLCFVDIDNHFIELPEELPQFPNKLNFIQEISEVLLQFEIPLEGNFHCSESATKLKNLVLNDLANDKKNGNIPSNTINMYELLKGNETIARLQALAKRTGIAMDKMSITAPLVEKEKDVKLQCEDGELRDYKLNVQLREVFANRFTQMFADYEAFVIQAAQDRESWLTNREQMQNFDKASFLSDQPEPYLPFLSHFIETQMFATFIDNKIMSQWEEKDPFLRVFDSRIEKIRLYNVRAPALRTSIYQKCNTLKEAAQAIEHRLSKIDHTAIHPHLLDMKIGQGKYEQGFFPKLQSDVLAAGPTNNNRWVSRSATAQRRKDRIRQHSEHIGLDNDLREPSEEFLIRQNSMAFWEWDQGPPPPARPPKKSFSECCLKYMQEARTLGKNLRQPKLSDLSPAVIAQTNWKFVEGLLKECRMKTKRMLVEKMGHEAVELGHGEANITGLEENTLIASLCDLLERIWSHGLQVKQGKSALWSHLIQYQEREEKQEQLAESPIASGPERRKSDTGLMLPILRVSVISDMRHIQNMSEIKTDVGRARAWIRLSLEKKLLSQHLKQLLSNQALAKKLYKRYAFLRCEEEREQFLYHLLSLNAVNYFCFTSVFTTIMIPYRTVIIPIKKLSNAITTSNPWICVSGELGDTGIMQIPKNLLEMTFECQNLGKLTTVQIGHDNSGLLAKWLVDCVMVRNEITGHTYKFPCGRWLGKGVDDGSLERILIGELISTSSDEDLGKQCRTPPQQKSPTSVRRLSITSLTGKNTKPNAGQIQEGIGEAVNNIVKHFHKPEKERGSFTVLLCGENGLVVALEQVFHHGFKSARIFHKNVFIWDFIEKAVAYFETTDQIGDSEEDVLLQKSSCKTFCHYVNAINTAPRNIGKDGKFQILVCLGTRDHLLPQWIPLLAECPAITRMYEENALLRDRMAVNSLIRVLQTLQDFNVTLEGSLIKGVDV

Target ORF information:

RefSeq Version	XM_016993586.1
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis DENN domain containing 5B (dennd5b), transcript variant X1, mRNA.

Target ORF information:

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

XM_016993586.1

ORF Insert Sequence:

ATGAGTAGCC CCGCGGCGGC GCCGCCTCCT CCCCCGGGGC CTGGCTCCGG CTCGGGCTCG 
GCCTCTTGCC GCTTCGCCCA CTACTTCGTG CTCTGCGGGA TTGACGCCGA CAGCGGGCTG 
GAGCCGGACG AGTTGGCTGT CTTATACCAG TGGTTAGAAG CTGATCGCCT TGGCAAGAGC 
TCAGATACTG CAAACAGAAC AACAGGAGAA AACTTTGATC AGAGCCCCTT AAGAAGAACT 
TTCAAGTCAA AAGTCTTGGC TCATTACCCT CAGAACATTG AATGGAATCC GTTTGATCAA 
GATGCAGTCA ATATGCTGTG TATGCCCAAA GGGCTTTCCT TCAGGACTCA GACTGATAAT 
AGAGACCCCC AGTTCCACTC ATTTATTATT ACCCGGGAAG ATGGCTCCCG CACATACGGG 
TTTGTGCTTA CCTTTTTCGA GGAGGTCACA AGCAAGCAAA TTTGCACAGC CATGCAAACT 
CTGTATCAAA TGCACAATGC TGAGCAATGC AACAGCGTCT GTGCCTCGTC TTCGTGTAGC 
ATGGACTCCC TGGCCAGCAG TCTGGACGAA GGAGATGCCA CGTCGTTGGC CAAGATGCAA 
CGCTACAACT CGTATGACAT CAACAGGGAT ACGCTCTATG TCTCCAAATG TGTTTGCCTC 
ATTACTCCCT TGCCTTTCAT GCAAGCCTGC AAGAAATTCC TCATCCAGCT TTATAAGGCC 
GTCACATGTC AGCAACCCCC GCCTTTACCT CTGGAGAGCT ACATCCACAA CATCCTCTAT 
GAAGTGCCCC TTCCGCCCCC AGGAAGGTCG CTGAAATTCT ACGGGGTATA CGAGCCCATC 
ATTTGCCAGA GGCCTGGCCC CAATGAGCTC CCACTCTTTG ACTACGCTCT CCGGGAGACC 
TTTGAACTGC TGGGCTTGGA GAACCTCGTC CAGGTGTTTA CATGTGTTCT CCTAGAAATG 
CAGATCCTTC TTTATTCTCA AGACTACCAG CGCCTGATGA CGGTCGCAGA GGGGATCACC 
ACGCTGCTCT TCCCATTTCA GTGGCAACAC GTATATGTCC CTATTCTCCC TGCCTCTCTC 
CTGCATTTCC TTGATGCTCC TGTACCTTAC TTGATGGGTC TGCAATCCAA GGAAGGAACA 
GACCGTTCCA AACTTGAACT TCCCCAAGAG GCCAACCTCT GCTTTGTGGA TATTGATAAC 
CACTTTATCG AGTTGCCAGA GGAACTTCCT CAGTTTCCCA ACAAGCTAAA TTTCATCCAA 
GAAATCTCGG AGGTGCTCCT TCAGTTTGAA ATTCCCCTTG AAGGCAACTT CCATTGTAGC 
GAGAGTGCTA CCAAGTTGAA GAACCTCGTT CTGAATGACT TGGCCAATGA CAAAAAGAAT 
GGAAACATCC CCAGCAACAC CATCAACATG TACGAGCTCC TGAAAGGCAA TGAAACCATT 
GCTCGCCTCC AGGCGCTGGC CAAAAGGACA GGGATTGCAA TGGATAAGAT GAGCATTACT 
GCTCCTCTGG TAGAAAAAGA GAAAGACGTT AAGCTCCAGT GTGAAGATGG GGAGCTGAGG 
GACTACAAAC TGAATGTGCA GCTTCGGGAG GTCTTTGCTA ACCGCTTCAC GCAGATGTTT 
GCCGATTATG AAGCTTTTGT CATTCAAGCA GCACAGGATA GAGAATCGTG GCTGACAAAT 
AGGGAACAGA TGCAAAATTT TGACAAGGCT TCATTTCTGT CTGATCAGCC TGAGCCTTAC 
CTTCCATTCC TTTCACATTT CATTGAAACC CAAATGTTTG CAACGTTCAT CGACAATAAA 
ATTATGTCCC AGTGGGAAGA AAAAGATCCA TTTCTTAGAG TGTTTGACTC AAGGATAGAG 
AAGATAAGAC TGTATAATGT CAGGGCGCCT GCATTAAGAA CATCGATATA TCAGAAGTGC 
AACACCTTGA AAGAAGCAGC TCAAGCTATT GAACACCGTC TGTCGAAGAT AGATCACACA 
GCAATTCATC CGCACCTGCT TGATATGAAG ATAGGTCAAG GCAAATATGA GCAAGGTTTC 
TTCCCCAAGC TTCAATCTGA TGTGTTAGCA GCTGGACCTA CCAATAACAA TCGGTGGGTG 
AGTCGTAGTG CTACAGCACA GCGCCGGAAA GATCGCATCC GACAACATTC AGAGCACATT 
GGTTTGGATA ATGATTTAAG AGAGCCATCG GAGGAGTTCT TGATTCGTCA GAACTCAATG 
GCTTTCTGGG AGTGGGACCA GGGCCCGCCC CCTCCTGCAC GGCCACCTAA AAAATCATTC 
TCTGAATGTT GCCTGAAGTA CATGCAAGAA GCAAGGACTT TGGGGAAAAA TCTGAGGCAG 
CCCAAACTCT CTGATCTTTC TCCCGCTGTA ATTGCTCAGA CAAACTGGAA ATTTGTGGAG 
GGTTTACTCA AAGAATGTCG AATGAAGACC AAACGTATGC TGGTAGAGAA GATGGGCCAT 
GAAGCAGTGG AACTGGGACA TGGTGAAGCC AATATAACAG GACTGGAAGA AAATACACTC 
ATTGCTAGCC TTTGTGACCT GCTGGAAAGA ATTTGGAGCC ATGGACTACA AGTCAAACAG 
GGAAAATCTG CACTGTGGTC TCACTTAATT CAGTACCAGG AAAGAGAAGA GAAACAAGAG 
CAACTGGCAG AATCCCCAAT TGCTTCTGGA CCAGAAAGAA GGAAGTCTGA CACTGGGCTA 
ATGTTACCTA TCCTGAGAGT CTCAGTCATC AGCGATATGA GGCACATCCA GAACATGAGT 
GAGATAAAGA CTGATGTGGG TCGAGCTCGA GCTTGGATAA GGCTATCCCT TGAAAAGAAA 
CTATTGTCCC AACATCTCAA GCAGCTTCTT TCCAATCAAG CCTTGGCAAA GAAACTGTAC 
AAACGTTATG CCTTCCTGCG GTGTGAGGAA GAGCGGGAGC AGTTCCTCTA TCACCTGCTC 
TCCCTCAATG CTGTGAATTA CTTCTGCTTC ACAAGTGTCT TCACCACCAT CATGATTCCA 
TATAGGACAG TGATCATCCC CATCAAAAAG CTAAGCAATG CAATCACCAC ATCAAATCCA 
TGGATTTGTG TTTCGGGAGA ACTGGGAGAT ACTGGAATAA TGCAGATTCC AAAAAACCTC 
CTAGAAATGA CATTTGAGTG TCAGAACTTG GGAAAGCTGA CCACTGTTCA GATAGGTCAT 
GACAACTCTG GACTGTTAGC CAAATGGCTG GTGGACTGCG TCATGGTCAG GAACGAAATC 
ACAGGGCACA CCTATAAGTT TCCATGTGGA AGGTGGCTGG GGAAAGGTGT TGACGACGGA 
AGCCTGGAGA GGATTCTTAT CGGAGAGCTG ATTTCAACAT CATCAGATGA AGACCTTGGG 
AAGCAGTGCC GGACCCCTCC GCAGCAGAAA TCCCCAACCT CAGTTCGGAG ATTGAGCATC 
ACTTCCCTCA CAGGGAAAAA CACAAAACCC AATGCTGGAC AGATCCAAGA AGGAATTGGG 
GAAGCTGTGA ACAATATAGT GAAGCACTTC CATAAACCTG AGAAAGAGAG AGGAAGTTTC 
ACCGTTCTCT TGTGTGGAGA AAATGGCTTG GTTGTAGCAC TTGAGCAGGT CTTCCACCAT 
GGTTTCAAGT CGGCTCGCAT TTTCCATAAG AACGTTTTCA TCTGGGACTT CATAGAAAAG 
GCTGTTGCAT ACTTTGAGAC TACTGATCAG ATTGGGGACA GCGAAGAAGA TGTACTCCTC 
CAAAAATCCT CCTGCAAAAC ATTCTGCCAT TACGTAAATG CCATCAATAC TGCTCCAAGG 
AACATAGGAA AAGATGGCAA ATTTCAAATT CTAGTTTGCC TTGGAACCCG AGATCACTTG 
CTCCCGCAGT GGATTCCTTT GTTGGCAGAA TGTCCAGCCA TCACTCGTAT GTATGAAGAG 
AATGCTCTGC TACGCGACCG CATGGCAGTG AACTCCCTCA TCCGAGTCCT GCAGACTCTG 
CAGGATTTCA ACGTTACCCT GGAAGGATCG CTCATAAAAG GAGTGGATGT GTAG

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

dennd5b ( XM_003220821.3 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_003220869.2 Anolis carolinensis DENN domain containing 5B (dennd5b), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAn35009
Clone ID Related Accession (Same CDS sequence)	XM_003220821.3
Accession Version	XM_003220821.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3903bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	DENN domain-containing protein 5B isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014780.1) and transcript sequence (GAFD01015628.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_003220821.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 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## ##RefSeq-Attributes-START## assembly gap :: added 346 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGAGTAGCC CCGCGGCGGC GCCGCCTCCT CCCCCGGGGC CTGGCTCCGG CTCGGGCTCG 
GCCTCTTGCC GCTTCGCCCA CTACTTCGTG CTCTGCGGGA TTGACGCCGA CAGCGGGCTG 
GAGCCGGACG AGTTGGCTGT CTTATACCAG TGGTTAGAAG CTGATCGCCT TGGCAAGAGC 
TCAGATACTG CAAACAGAAC AACAGGAGAA AACTTTGATC AGAGCCCCTT AAGAAGAACT 
TTCAAGTCAA AAGTCTTGGC TCATTACCCT CAGAACATTG AATGGAATCC GTTTGATCAA 
GATGCAGTCA ATATGCTGTG TATGCCCAAA GGGCTTTCCT TCAGGACTCA GACTGATAAT 
AGAGACCCCC AGTTCCACTC ATTTATTATT ACCCGGGAAG ATGGCTCCCG CACATACGGG 
TTTGTGCTTA CCTTTTTCGA GGAGGTCACA AGCAAGCAAA TTTGCACAGC CATGCAAACT 
CTGTATCAAA TGCACAATGC TGAGCAATGC AACAGCGTCT GTGCCTCGTC TTCGTGTAGC 
ATGGACTCCC TGGCCAGCAG TCTGGACGAA GGAGATGCCA CGTCGTTGGC CAAGATGCAA 
CGCTACAACT CGTATGACAT CAACAGGGAT ACGCTCTATG TCTCCAAATG TGTTTGCCTC 
ATTACTCCCT TGCCTTTCAT GCAAGCCTGC AAGAAATTCC TCATCCAGCT TTATAAGGCC 
GTCACATGTC AGCAACCCCC GCCTTTACCT CTGGAGAGCT ACATCCACAA CATCCTCTAT 
GAAGTGCCCC TTCCGCCCCC AGGAAGGTCG CTGAAATTCT ACGGGGTATA CGAGCCCATC 
ATTTGCCAGA GGCCTGGCCC CAATGAGCTC CCACTCTTTG ACTACGCTCT CCGGGAGACC 
TTTGAACTGC TGGGCTTGGA GAACCTCGTC CAGGTGTTTA CATGTGTTCT CCTAGAAATG 
CAGATCCTTC TTTATTCTCA AGACTACCAG CGCCTGATGA CGGTCGCAGA GGGGATCACC 
ACGCTGCTCT TCCCATTTCA GTGGCAACAC GTATATGTCC CTATTCTCCC TGCCTCTCTC 
CTGCATTTCC TTGATGCTCC TGTACCTTAC TTGATGGGTC TGCAATCCAA GGAAGGAACA 
GACCGTTCCA AACTTGAACT TCCCCAAGAG GCCAACCTCT GCTTTGTGGA TATTGATAAC 
CACTTTATCG AGTTGCCAGA GGAACTTCCT CAGTTTCCCA ACAAGCTAAA TTTCATCCAA 
GAAATCTCGG AGGTGCTCCT TCAGTTTGAA ATTCCCCTTG AAGGCAACTT CCATTGTAGC 
GAGAGTGCTA CCAAGTTGAA GAACCTCGTT CTGAATGACT TGGCCAATGA CAAAAAGAAT 
GGAAACATCC CCAGCAACAC CATCAACATG TACGAGCTCC TGAAAGGCAA TGAAACCATT 
GCTCGCCTCC AGGCGCTGGC CAAAAGGACA GGGATTGCAA TGGATAAGAT GAGCATTACT 
GCTCCTCTGG TAGAAAAAGA GAAAGACGTT AAGCTCCAGT GTGAAGATGG GGAGCTGAGG 
GACTACAAAC TGAATGTGCA GCTTCGGGAG GTCTTTGCTA ACCGCTTCAC GCAGATGTTT 
GCCGATTATG AAGCTTTTGT CATTCAAGCA GCACAGGATA GAGAATCGTG GCTGACAAAT 
AGGGAACAGA TGCAAAATTT TGACAAGGCT TCATTTCTGT CTGATCAGCC TGAGCCTTAC 
CTTCCATTCC TTTCACATTT CATTGAAACC CAAATGTTTG CAACGTTCAT CGACAATAAA 
ATTATGTCCC AGTGGGAAGA AAAAGATCCA TTTCTTAGAG TGTTTGACTC AAGGATAGAG 
AAGATAAGAC TGTATAATGT CAGGGCGCCT GCATTAAGAA CATCGATATA TCAGAAGTGC 
AACACCTTGA AAGAAGCAGC TCAAGCTATT GAACACCGTC TGTCGAAGAT AGATCACACA 
GCAATTCATC CGCACCTGCT TGATATGAAG ATAGGTCAAG GCAAATATGA GCAAGGTTTC 
TTCCCCAAGC TTCAATCTGA TGTGTTAGCA GCTGGACCTA CCAATAACAA TCGGTGGGTG 
AGTCGTAGTG CTACAGCACA GCGCCGGAAA GATCGCATCC GACAACATTC AGAGCACATT 
GGTTTGGATA ATGATTTAAG AGAGAAGTAC ATGCAAGAAG CAAGGACTTT GGGGAAAAAT 
CTGAGGCAGC CCAAACTCTC TGATCTTTCT CCCGCTGTAA TTGCTCAGAC AAACTGGAAA 
TTTGTGGAGG GTTTACTCAA AGAATGTCGA ATGAAGACCA AACGTATGCT GGTAGAGAAG 
ATGGGCCATG AAGCAGTGGA ACTGGGACAT GGTGAAGCCA ATATAACAGG ACTGGAAGAA 
AATACACTCA TTGCTAGCCT TTGTGACCTG CTGGAAAGAA TTTGGAGCCA TGGACTACAA 
GTCAAACAGG GAAAATCTGC ACTGTGGTCT CACTTAATTC AGTACCAGGA AAGAGAAGAG 
AAACAAGAGC AACTGGCAGA ATCCCCAATT GCTTCTGGAC CAGAAAGAAG GAAGTCTGAC 
ACTGGGCTAA TGTTACCTAT CCTGAGAGTC TCAGTCATCA GCGATATGAG GCACATCCAG 
AACATGAGTG AGATAAAGAC TGATGTGGGT CGAGCTCGAG CTTGGATAAG GCTATCCCTT 
GAAAAGAAAC TATTGTCCCA ACATCTCAAG CAGCTTCTTT CCAATCAAGC CTTGGCAAAG 
AAACTGTACA AACGTTATGC CTTCCTGCGG TGTGAGGAAG AGCGGGAGCA GTTCCTCTAT 
CACCTGCTCT CCCTCAATGC TGTGAATTAC TTCTGCTTCA CAAGTGTCTT CACCACCATC 
ATGATTCCAT ATAGGACAGT GATCATCCCC ATCAAAAAGC TAAGCAATGC AATCACCACA 
TCAAATCCAT GGATTTGTGT TTCGGGAGAA CTGGGAGATA CTGGAATAAT GCAGATTCCA 
AAAAACCTCC TAGAAATGAC ATTTGAGTGT CAGAACTTGG GAAAGCTGAC CACTGTTCAG 
ATAGGTCATG ACAACTCTGG ACTGTTAGCC AAATGGCTGG TGGACTGCGT CATGGTCAGG 
AACGAAATCA CAGGGCACAC CTATAAGTTT CCATGTGGAA GGTGGCTGGG GAAAGGTGTT 
GACGACGGAA GCCTGGAGAG GATTCTTATC GGAGAGCTGA TTTCAACATC ATCAGATGAA 
GACCTTGGGA AGCAGTGCCG GACCCCTCCG CAGCAGAAAT CCCCAACCTC AGTTCGGAGA 
TTGAGCATCA CTTCCCTCAC AGGGAAAAAC ACAAAACCCA ATGCTGGACA GATCCAAGAA 
GGAATTGGGG AAGCTGTGAA CAATATAGTG AAGCACTTCC ATAAACCTGA GAAAGAGAGA 
GGAAGTTTCA CCGTTCTCTT GTGTGGAGAA AATGGCTTGG TTGTAGCACT TGAGCAGGTC 
TTCCACCATG GTTTCAAGTC GGCTCGCATT TTCCATAAGA ACGTTTTCAT CTGGGACTTC 
ATAGAAAAGG CTGTTGCATA CTTTGAGACT ACTGATCAGA TTGGGGACAG CGAAGAAGAT 
GTACTCCTCC AAAAATCCTC CTGCAAAACA TTCTGCCATT ACGTAAATGC CATCAATACT 
GCTCCAAGGA ACATAGGAAA AGATGGCAAA TTTCAAATTC TAGTTTGCCT TGGAACCCGA 
GATCACTTGC TCCCGCAGTG GATTCCTTTG TTGGCAGAAT GTCCAGCCAT CACTCGTATG 
TATGAAGAGA ATGCTCTGCT ACGCGACCGC ATGGCAGTGA ACTCCCTCAT CCGAGTCCTG 
CAGACTCTGC AGGATTTCAA CGTTACCCTG GAAGGATCGC TCATAAAAGG AGTGGATGTG 
TAG

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

RefSeq	XP_003220869.2
CDS	208..4110
Translation	MSSPAAAPPPPPGPGSGSGSASCRFAHYFVLCGIDADSGLEPDELAVLYQWLEADRLGKSSDTANRTTGENFDQSPLRRTFKSKVLAHYPQNIEWNPFDQDAVNMLCMPKGLSFRTQTDNRDPQFHSFIITREDGSRTYGFVLTFFEEVTSKQICTAMQTLYQMHNAEQCNSVCASSSCSMDSLASSLDEGDATSLAKMQRYNSYDINRDTLYVSKCVCLITPLPFMQACKKFLIQLYKAVTCQQPPPLPLESYIHNILYEVPLPPPGRSLKFYGVYEPIICQRPGPNELPLFDYALRETFELLGLENLVQVFTCVLLEMQILLYSQDYQRLMTVAEGITTLLFPFQWQHVYVPILPASLLHFLDAPVPYLMGLQSKEGTDRSKLELPQEANLCFVDIDNHFIELPEELPQFPNKLNFIQEISEVLLQFEIPLEGNFHCSESATKLKNLVLNDLANDKKNGNIPSNTINMYELLKGNETIARLQALAKRTGIAMDKMSITAPLVEKEKDVKLQCEDGELRDYKLNVQLREVFANRFTQMFADYEAFVIQAAQDRESWLTNREQMQNFDKASFLSDQPEPYLPFLSHFIETQMFATFIDNKIMSQWEEKDPFLRVFDSRIEKIRLYNVRAPALRTSIYQKCNTLKEAAQAIEHRLSKIDHTAIHPHLLDMKIGQGKYEQGFFPKLQSDVLAAGPTNNNRWVSRSATAQRRKDRIRQHSEHIGLDNDLREKYMQEARTLGKNLRQPKLSDLSPAVIAQTNWKFVEGLLKECRMKTKRMLVEKMGHEAVELGHGEANITGLEENTLIASLCDLLERIWSHGLQVKQGKSALWSHLIQYQEREEKQEQLAESPIASGPERRKSDTGLMLPILRVSVISDMRHIQNMSEIKTDVGRARAWIRLSLEKKLLSQHLKQLLSNQALAKKLYKRYAFLRCEEEREQFLYHLLSLNAVNYFCFTSVFTTIMIPYRTVIIPIKKLSNAITTSNPWICVSGELGDTGIMQIPKNLLEMTFECQNLGKLTTVQIGHDNSGLLAKWLVDCVMVRNEITGHTYKFPCGRWLGKGVDDGSLERILIGELISTSSDEDLGKQCRTPPQQKSPTSVRRLSITSLTGKNTKPNAGQIQEGIGEAVNNIVKHFHKPEKERGSFTVLLCGENGLVVALEQVFHHGFKSARIFHKNVFIWDFIEKAVAYFETTDQIGDSEEDVLLQKSSCKTFCHYVNAINTAPRNIGKDGKFQILVCLGTRDHLLPQWIPLLAECPAITRMYEENALLRDRMAVNSLIRVLQTLQDFNVTLEGSLIKGVDV

Target ORF information:

RefSeq Version	XM_003220821.3
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis DENN domain containing 5B (dennd5b), transcript variant X2, mRNA.

Target ORF information:

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

XM_003220821.3

ORF Insert Sequence:

ATGAGTAGCC CCGCGGCGGC GCCGCCTCCT CCCCCGGGGC CTGGCTCCGG CTCGGGCTCG 
GCCTCTTGCC GCTTCGCCCA CTACTTCGTG CTCTGCGGGA TTGACGCCGA CAGCGGGCTG 
GAGCCGGACG AGTTGGCTGT CTTATACCAG TGGTTAGAAG CTGATCGCCT TGGCAAGAGC 
TCAGATACTG CAAACAGAAC AACAGGAGAA AACTTTGATC AGAGCCCCTT AAGAAGAACT 
TTCAAGTCAA AAGTCTTGGC TCATTACCCT CAGAACATTG AATGGAATCC GTTTGATCAA 
GATGCAGTCA ATATGCTGTG TATGCCCAAA GGGCTTTCCT TCAGGACTCA GACTGATAAT 
AGAGACCCCC AGTTCCACTC ATTTATTATT ACCCGGGAAG ATGGCTCCCG CACATACGGG 
TTTGTGCTTA CCTTTTTCGA GGAGGTCACA AGCAAGCAAA TTTGCACAGC CATGCAAACT 
CTGTATCAAA TGCACAATGC TGAGCAATGC AACAGCGTCT GTGCCTCGTC TTCGTGTAGC 
ATGGACTCCC TGGCCAGCAG TCTGGACGAA GGAGATGCCA CGTCGTTGGC CAAGATGCAA 
CGCTACAACT CGTATGACAT CAACAGGGAT ACGCTCTATG TCTCCAAATG TGTTTGCCTC 
ATTACTCCCT TGCCTTTCAT GCAAGCCTGC AAGAAATTCC TCATCCAGCT TTATAAGGCC 
GTCACATGTC AGCAACCCCC GCCTTTACCT CTGGAGAGCT ACATCCACAA CATCCTCTAT 
GAAGTGCCCC TTCCGCCCCC AGGAAGGTCG CTGAAATTCT ACGGGGTATA CGAGCCCATC 
ATTTGCCAGA GGCCTGGCCC CAATGAGCTC CCACTCTTTG ACTACGCTCT CCGGGAGACC 
TTTGAACTGC TGGGCTTGGA GAACCTCGTC CAGGTGTTTA CATGTGTTCT CCTAGAAATG 
CAGATCCTTC TTTATTCTCA AGACTACCAG CGCCTGATGA CGGTCGCAGA GGGGATCACC 
ACGCTGCTCT TCCCATTTCA GTGGCAACAC GTATATGTCC CTATTCTCCC TGCCTCTCTC 
CTGCATTTCC TTGATGCTCC TGTACCTTAC TTGATGGGTC TGCAATCCAA GGAAGGAACA 
GACCGTTCCA AACTTGAACT TCCCCAAGAG GCCAACCTCT GCTTTGTGGA TATTGATAAC 
CACTTTATCG AGTTGCCAGA GGAACTTCCT CAGTTTCCCA ACAAGCTAAA TTTCATCCAA 
GAAATCTCGG AGGTGCTCCT TCAGTTTGAA ATTCCCCTTG AAGGCAACTT CCATTGTAGC 
GAGAGTGCTA CCAAGTTGAA GAACCTCGTT CTGAATGACT TGGCCAATGA CAAAAAGAAT 
GGAAACATCC CCAGCAACAC CATCAACATG TACGAGCTCC TGAAAGGCAA TGAAACCATT 
GCTCGCCTCC AGGCGCTGGC CAAAAGGACA GGGATTGCAA TGGATAAGAT GAGCATTACT 
GCTCCTCTGG TAGAAAAAGA GAAAGACGTT AAGCTCCAGT GTGAAGATGG GGAGCTGAGG 
GACTACAAAC TGAATGTGCA GCTTCGGGAG GTCTTTGCTA ACCGCTTCAC GCAGATGTTT 
GCCGATTATG AAGCTTTTGT CATTCAAGCA GCACAGGATA GAGAATCGTG GCTGACAAAT 
AGGGAACAGA TGCAAAATTT TGACAAGGCT TCATTTCTGT CTGATCAGCC TGAGCCTTAC 
CTTCCATTCC TTTCACATTT CATTGAAACC CAAATGTTTG CAACGTTCAT CGACAATAAA 
ATTATGTCCC AGTGGGAAGA AAAAGATCCA TTTCTTAGAG TGTTTGACTC AAGGATAGAG 
AAGATAAGAC TGTATAATGT CAGGGCGCCT GCATTAAGAA CATCGATATA TCAGAAGTGC 
AACACCTTGA AAGAAGCAGC TCAAGCTATT GAACACCGTC TGTCGAAGAT AGATCACACA 
GCAATTCATC CGCACCTGCT TGATATGAAG ATAGGTCAAG GCAAATATGA GCAAGGTTTC 
TTCCCCAAGC TTCAATCTGA TGTGTTAGCA GCTGGACCTA CCAATAACAA TCGGTGGGTG 
AGTCGTAGTG CTACAGCACA GCGCCGGAAA GATCGCATCC GACAACATTC AGAGCACATT 
GGTTTGGATA ATGATTTAAG AGAGAAGTAC ATGCAAGAAG CAAGGACTTT GGGGAAAAAT 
CTGAGGCAGC CCAAACTCTC TGATCTTTCT CCCGCTGTAA TTGCTCAGAC AAACTGGAAA 
TTTGTGGAGG GTTTACTCAA AGAATGTCGA ATGAAGACCA AACGTATGCT GGTAGAGAAG 
ATGGGCCATG AAGCAGTGGA ACTGGGACAT GGTGAAGCCA ATATAACAGG ACTGGAAGAA 
AATACACTCA TTGCTAGCCT TTGTGACCTG CTGGAAAGAA TTTGGAGCCA TGGACTACAA 
GTCAAACAGG GAAAATCTGC ACTGTGGTCT CACTTAATTC AGTACCAGGA AAGAGAAGAG 
AAACAAGAGC AACTGGCAGA ATCCCCAATT GCTTCTGGAC CAGAAAGAAG GAAGTCTGAC 
ACTGGGCTAA TGTTACCTAT CCTGAGAGTC TCAGTCATCA GCGATATGAG GCACATCCAG 
AACATGAGTG AGATAAAGAC TGATGTGGGT CGAGCTCGAG CTTGGATAAG GCTATCCCTT 
GAAAAGAAAC TATTGTCCCA ACATCTCAAG CAGCTTCTTT CCAATCAAGC CTTGGCAAAG 
AAACTGTACA AACGTTATGC CTTCCTGCGG TGTGAGGAAG AGCGGGAGCA GTTCCTCTAT 
CACCTGCTCT CCCTCAATGC TGTGAATTAC TTCTGCTTCA CAAGTGTCTT CACCACCATC 
ATGATTCCAT ATAGGACAGT GATCATCCCC ATCAAAAAGC TAAGCAATGC AATCACCACA 
TCAAATCCAT GGATTTGTGT TTCGGGAGAA CTGGGAGATA CTGGAATAAT GCAGATTCCA 
AAAAACCTCC TAGAAATGAC ATTTGAGTGT CAGAACTTGG GAAAGCTGAC CACTGTTCAG 
ATAGGTCATG ACAACTCTGG ACTGTTAGCC AAATGGCTGG TGGACTGCGT CATGGTCAGG 
AACGAAATCA CAGGGCACAC CTATAAGTTT CCATGTGGAA GGTGGCTGGG GAAAGGTGTT 
GACGACGGAA GCCTGGAGAG GATTCTTATC GGAGAGCTGA TTTCAACATC ATCAGATGAA 
GACCTTGGGA AGCAGTGCCG GACCCCTCCG CAGCAGAAAT CCCCAACCTC AGTTCGGAGA 
TTGAGCATCA CTTCCCTCAC AGGGAAAAAC ACAAAACCCA ATGCTGGACA GATCCAAGAA 
GGAATTGGGG AAGCTGTGAA CAATATAGTG AAGCACTTCC ATAAACCTGA GAAAGAGAGA 
GGAAGTTTCA CCGTTCTCTT GTGTGGAGAA AATGGCTTGG TTGTAGCACT TGAGCAGGTC 
TTCCACCATG GTTTCAAGTC GGCTCGCATT TTCCATAAGA ACGTTTTCAT CTGGGACTTC 
ATAGAAAAGG CTGTTGCATA CTTTGAGACT ACTGATCAGA TTGGGGACAG CGAAGAAGAT 
GTACTCCTCC AAAAATCCTC CTGCAAAACA TTCTGCCATT ACGTAAATGC CATCAATACT 
GCTCCAAGGA ACATAGGAAA AGATGGCAAA TTTCAAATTC TAGTTTGCCT TGGAACCCGA 
GATCACTTGC TCCCGCAGTG GATTCCTTTG TTGGCAGAAT GTCCAGCCAT CACTCGTATG 
TATGAAGAGA ATGCTCTGCT ACGCGACCGC ATGGCAGTGA ACTCCCTCAT CCGAGTCCTG 
CAGACTCTGC AGGATTTCAA CGTTACCCTG GAAGGATCGC TCATAAAAGG AGTGGATGTG 
TAG