ITGAD gene cDNA ORF clone, Homo sapiens(human)

mRNA	Protein	Name
XM_011545843.2	XP_011544145.1	integrin alpha-D isoform X9
XM_011545835.2	XP_011544137.1	integrin alpha-D isoform X1
XM_011545839.2	XP_011544141.1	integrin alpha-D isoform X5
XM_011545841.2	XP_011544143.1	integrin alpha-D isoform X7
XM_011545842.3	XP_011544144.1	integrin alpha-D isoform X8
NM_005353.3	NP_005344.2	integrin alpha-D isoform 2 precursor
NM_001318185.1	NP_001305114.1	integrin alpha-D isoform 1 precursor
XM_011545836.2	XP_011544138.1	integrin alpha-D isoform X2
XM_017023215.1	XP_016878704.1	integrin alpha-D isoform X6
XM_011545836.3	XP_011544138.1	integrin alpha-D isoform X2
XM_011545847.3	XP_011544149.1	integrin alpha-D isoform X13
XM_011545848.3	XP_011544150.1	integrin alpha-D isoform X14
XM_011545846.2	XP_011544148.1	integrin alpha-D isoform X12
XM_011545842.2	XP_011544144.1	integrin alpha-D isoform X8
XM_011545844.2	XP_011544146.1	integrin alpha-D isoform X10
XM_011545835.3	XP_011544137.1	integrin alpha-D isoform X1
XM_017023215.2	XP_016878704.1	integrin alpha-D isoform X6
XM_011545843.3	XP_011544145.1	integrin alpha-D isoform X9
XM_011545844.3	XP_011544146.1	integrin alpha-D isoform X10
XM_011545848.2	XP_011544150.1	integrin alpha-D isoform X14
XM_011545845.2	XP_011544147.1	integrin alpha-D isoform X11
XM_011545847.2	XP_011544149.1	integrin alpha-D isoform X13
XM_011545838.2	XP_011544140.1	integrin alpha-D isoform X4
XM_011545845.3	XP_011544147.1	integrin alpha-D isoform X11
XM_011545846.3	XP_011544148.1	integrin alpha-D isoform X12
NM_001318185.2	NP_001305114.1	integrin alpha-D isoform 1 precursor
NM_005353.2	NP_005344.2	integrin alpha-D isoform 2 precursor
XM_011545837.2	XP_011544139.1	integrin alpha-D isoform X3

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu82927	NM_001318185.1 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$399.50-$559.30 $799.00
OHu58494	XM_011545844.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu58495	XM_011545845.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu58496	XM_011545846.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu58497	XM_011545847.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu58498	XM_011545848.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu108124	NM_005353.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu58490	NM_001318185.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu86024	XM_017023215.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu04915	NM_005353.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$818.30 $1169.00
OHu58485	XM_011545835.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu58486	XM_011545836.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu58487	XM_011545837.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu58488	XM_011545838.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu58489	XM_011545839.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu58491	XM_011545841.2 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu58492	XM_011545842.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu58493	XM_011545843.3 Latest version!	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
View Old Accession Versions >>
OHu58486	XM_011545836.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu58492	XM_011545842.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu58485	XM_011545835.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu86024	XM_017023215.1	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu58493	XM_011545843.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu58494	XM_011545844.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu58498	XM_011545848.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu58497	XM_011545847.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu58495	XM_011545845.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu58496	XM_011545846.2	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
Hide Old Accession Versions >>

ITGAD ( NM_001318185.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001305114.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu82927
Clone ID Related Accession (Same CDS sequence)	NM_001318185.1
Accession Version	NM_001318185.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3489bp) 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	integrin alpha-D isoform 1 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB208945.1 and U37028.1. On Dec 31, 2015 this sequence version replaced XM_011545840.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer 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 :: U37028.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2146236 [ECO:0000348] ##Evidence-Data-END##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCCG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGCAG 
AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC CGTGGTGAGC AGGGCCACCC CTGGGGCCGC 
TTTGGGGCAG CCCTGACAGT GTTGGGGGAT GTGAATGAGG ACAAGCTGAT AGACGTGGCC 
ATTGGGGCCC CGGGAGAGCA GGAGAACCGG GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA 
GAATCCGGCA TCAGCCCCTC CCACAGCCAG CGGATTGCCA GCTCCCAGCT CTCCCCCAGG 
CTGCAGTATT TTGGGCAGGC GCTGAGTGGG GGTCAGGACC TCACCCAGGA TGGACTGATG 
GACCTGGCCG TGGGGGCCCG GGGCCAGGTG CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA 
GTGGGGGTGG CCATGAGATT CAGCCCTGTG GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG 
GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG GACGCCACCG TCTGTCTCAC CATCCAGAAA 
AGCTCACTGG ACCAGCTAGG TGACATCCAA AGCTCTGTCA GGTTTGATCT GGCACTGGAC 
CCAGGTCGTC TGACTTCTCG TGCCATTTTC AATGAAACCA AGAACCCCAC TTTGACTCGA 
AGAAAAACCC TGGGACTGGG GATTCACTGT GAAACCCTGA AGCTGCTTTT GCCAGATTGT 
GTGGAGGATG TGGTGAGCCC CATCATTCTG CACCTCAACT TCTCACTGGT GAGAGAGCCC 
ATCCCCTCCC CCCAGAACCT GCGTCCTGTG CTGGCCGTGG GCTCACAAGA CCTCTTCACT 
GCTTCTCTCC CCTTCGAGAA GAACTGTGGG CAAGATGGCC TCTGTGAAGG GGACCTGGGT 
GTCACCCTCA GCTTCTCAGG CCTGCAGACC CTGACCGTGG GGAGCTCCCT GGAGCTCAAC 
GTGATTGTGA CTGTGTGGAA CGCAGGTGAG GATTCCTACG GAACCGTGGT CAGCCTCTAC 
TATCCAGCAG GGCTGTCGCA CCGACGGGTG TCAGGAGCCC AGAAGCAGCC CCATCAGAGT 
GCCCTGCGCC TGGCATGTGA GACAGTGCCC ACTGAGGATG AGGGCCTAAG AAGCAGCCGC 
TGCAGTGTCA ACCACCCCAT CTTCCATGAG GGCTCTAACG GCACCTTCAT AGTCACATTC 
GATGTCTCCT ACAAGGCCAC CCTGGGAGAC AGGATGCTTA TGAGGGCCAG TGCAAGCAGT 
GAGAACAATA AGGCTTCAAG CAGCAAGGCC ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT 
GCAGTCTACA CCATGATCAG CAGGCAGGAA GAATCCACCA AGTACTTCAA CTTTGCAACC 
TCCGATGAGA AGAAAATGAA AGAGGCTGAG CATCGATACC GTGTGAATAA CCTCAGCCAG 
CGAGATCTGG CCATCAGCAT TAACTTCTGG GTTCCTGTCC TGCTGAACGG GGTGGCTGTG 
TGGGATGTGG TCATGGAGGC CCCATCTCAG AGTCTCCCCT GTGTTTCAGA GAGAAAACCT 
CCCCAGCATT CTGACTTCCT GACCCAGATT TCAAGAAGTC CCATGCTGGA CTGCTCCATT 
GCTGACTGCC TGCAGTTCCG CTGTGACGTC CCCTCCTTCA GCGTCCAGGA GGAGCTGGAT 
TTCACCCTGA AGGGCAATCT CAGTTTCGGC TGGGTCCGCG AGACATTGCA GAAGAAGGTG 
TTGGTCGTGA GTGTGGCTGA AATTACGTTC GACACATCCG TGTACTCCCA GCTTCCAGGA 
CAGGAGGCAT TTATGAGAGC TCAGATGGAG ATGGTGCTAG AAGAAGACGA GGTCTACAAT 
GCCATTCCCA TCATCATGGG CAGCTCTGTG GGGGCTCTGC TACTGCTGGC GCTCATCACA 
GCCACACTGT ACAAGCTTGG CTTCTTCAAA CGCCACTACA AGGAAATGCT GGAGGACAAG 
CCTGAAGACA CTGCCACATT CAGTGGGGAC GATTTCAGCT GTGTGGCCCC AAATGTGCCT 
TTGTCCTAA

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

RefSeq	NP_001305114.1
CDS	50..3538
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	NM_001318185.1
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 1, mRNA.

Target ORF information:

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

NM_001318185.1

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCCG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGCAG 
AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC CGTGGTGAGC AGGGCCACCC CTGGGGCCGC 
TTTGGGGCAG CCCTGACAGT GTTGGGGGAT GTGAATGAGG ACAAGCTGAT AGACGTGGCC 
ATTGGGGCCC CGGGAGAGCA GGAGAACCGG GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA 
GAATCCGGCA TCAGCCCCTC CCACAGCCAG CGGATTGCCA GCTCCCAGCT CTCCCCCAGG 
CTGCAGTATT TTGGGCAGGC GCTGAGTGGG GGTCAGGACC TCACCCAGGA TGGACTGATG 
GACCTGGCCG TGGGGGCCCG GGGCCAGGTG CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA 
GTGGGGGTGG CCATGAGATT CAGCCCTGTG GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG 
GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG GACGCCACCG TCTGTCTCAC CATCCAGAAA 
AGCTCACTGG ACCAGCTAGG TGACATCCAA AGCTCTGTCA GGTTTGATCT GGCACTGGAC 
CCAGGTCGTC TGACTTCTCG TGCCATTTTC AATGAAACCA AGAACCCCAC TTTGACTCGA 
AGAAAAACCC TGGGACTGGG GATTCACTGT GAAACCCTGA AGCTGCTTTT GCCAGATTGT 
GTGGAGGATG TGGTGAGCCC CATCATTCTG CACCTCAACT TCTCACTGGT GAGAGAGCCC 
ATCCCCTCCC CCCAGAACCT GCGTCCTGTG CTGGCCGTGG GCTCACAAGA CCTCTTCACT 
GCTTCTCTCC CCTTCGAGAA GAACTGTGGG CAAGATGGCC TCTGTGAAGG GGACCTGGGT 
GTCACCCTCA GCTTCTCAGG CCTGCAGACC CTGACCGTGG GGAGCTCCCT GGAGCTCAAC 
GTGATTGTGA CTGTGTGGAA CGCAGGTGAG GATTCCTACG GAACCGTGGT CAGCCTCTAC 
TATCCAGCAG GGCTGTCGCA CCGACGGGTG TCAGGAGCCC AGAAGCAGCC CCATCAGAGT 
GCCCTGCGCC TGGCATGTGA GACAGTGCCC ACTGAGGATG AGGGCCTAAG AAGCAGCCGC 
TGCAGTGTCA ACCACCCCAT CTTCCATGAG GGCTCTAACG GCACCTTCAT AGTCACATTC 
GATGTCTCCT ACAAGGCCAC CCTGGGAGAC AGGATGCTTA TGAGGGCCAG TGCAAGCAGT 
GAGAACAATA AGGCTTCAAG CAGCAAGGCC ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT 
GCAGTCTACA CCATGATCAG CAGGCAGGAA GAATCCACCA AGTACTTCAA CTTTGCAACC 
TCCGATGAGA AGAAAATGAA AGAGGCTGAG CATCGATACC GTGTGAATAA CCTCAGCCAG 
CGAGATCTGG CCATCAGCAT TAACTTCTGG GTTCCTGTCC TGCTGAACGG GGTGGCTGTG 
TGGGATGTGG TCATGGAGGC CCCATCTCAG AGTCTCCCCT GTGTTTCAGA GAGAAAACCT 
CCCCAGCATT CTGACTTCCT GACCCAGATT TCAAGAAGTC CCATGCTGGA CTGCTCCATT 
GCTGACTGCC TGCAGTTCCG CTGTGACGTC CCCTCCTTCA GCGTCCAGGA GGAGCTGGAT 
TTCACCCTGA AGGGCAATCT CAGTTTCGGC TGGGTCCGCG AGACATTGCA GAAGAAGGTG 
TTGGTCGTGA GTGTGGCTGA AATTACGTTC GACACATCCG TGTACTCCCA GCTTCCAGGA 
CAGGAGGCAT TTATGAGAGC TCAGATGGAG ATGGTGCTAG AAGAAGACGA GGTCTACAAT 
GCCATTCCCA TCATCATGGG CAGCTCTGTG GGGGCTCTGC TACTGCTGGC GCTCATCACA 
GCCACACTGT ACAAGCTTGG CTTCTTCAAA CGCCACTACA AGGAAATGCT GGAGGACAAG 
CCTGAAGACA CTGCCACATT CAGTGGGGAC GATTTCAGCT GTGTGGCCCC AAATGTGCCT 
TTGTCCTAA

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

ITGAD ( XM_011545844.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544146.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X11, mRNA.

Price & Availability↑

CloneID	OHu58494
Clone ID Related Accession (Same CDS sequence)	XM_011545844.2 , XM_011545844.3
Accession Version	XM_011545844.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2997bp) 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	integrin alpha-D isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545844.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

RefSeq	XP_011544146.1
CDS	128..3124
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545844.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X11, mRNA.

Target ORF information:

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

XM_011545844.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

ITGAD ( XM_011545844.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544146.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X11, mRNA.

Price & Availability↑

CloneID	OHu58494
Clone ID Related Accession (Same CDS sequence)	XM_011545844.2 , XM_011545844.3
Accession Version	XM_011545844.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2997bp) 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	integrin alpha-D isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545844.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

RefSeq	XP_011544146.1
CDS	129..3125
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545844.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X11, mRNA.

Target ORF information:

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

XM_011545844.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

ITGAD ( XM_011545845.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544147.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X12, mRNA.

Price & Availability↑

CloneID	OHu58495
Clone ID Related Accession (Same CDS sequence)	XM_011545845.2 , XM_011545845.3
Accession Version	XM_011545845.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2442bp) 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	integrin alpha-D isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545845.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGTG AGGACTTTGG GTTCTGGGAA GGGGGAGAGA 
GGAGGAGCCC AAGGCTGGCC TGGAGCACCC CCGTTCTCTG CTGAGCGAGG ATTGTGTGGA 
GGATGTGGTG AGCCCCATCA TTCTGCACCT CAACTTCTCA CTGGTGAGAG AGCCCATCCC 
CTCCCCCCAG AACCTGCGTC CTGTGCTGGC CGTGGGCTCA CAAGACCTCT TCACTGCTTC 
TCTCCCCTTC GAGAAGAACT GTGGGCAAGA TGGCCTCTGT GA

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

RefSeq	XP_011544147.1
CDS	138..2579
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPVRTLGSGKGERGGAQGWPGAPPFSAERGLCGGCGEPHHSAPQLLTGERAHPLPPEPASCAGRGLTRPLHCFSPLREELWARWPL

Target ORF information:

RefSeq Version	XM_011545845.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X12, mRNA.

Target ORF information:

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

XM_011545845.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGTG AGGACTTTGG GTTCTGGGAA GGGGGAGAGA 
GGAGGAGCCC AAGGCTGGCC TGGAGCACCC CCGTTCTCTG CTGAGCGAGG ATTGTGTGGA 
GGATGTGGTG AGCCCCATCA TTCTGCACCT CAACTTCTCA CTGGTGAGAG AGCCCATCCC 
CTCCCCCCAG AACCTGCGTC CTGTGCTGGC CGTGGGCTCA CAAGACCTCT TCACTGCTTC 
TCTCCCCTTC GAGAAGAACT GTGGGCAAGA TGGCCTCTGT GA

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

ITGAD ( XM_011545845.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544147.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X12, mRNA.

Price & Availability↑

CloneID	OHu58495
Clone ID Related Accession (Same CDS sequence)	XM_011545845.2 , XM_011545845.3
Accession Version	XM_011545845.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2442bp) 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	integrin alpha-D isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545845.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGTG AGGACTTTGG GTTCTGGGAA GGGGGAGAGA 
GGAGGAGCCC AAGGCTGGCC TGGAGCACCC CCGTTCTCTG CTGAGCGAGG ATTGTGTGGA 
GGATGTGGTG AGCCCCATCA TTCTGCACCT CAACTTCTCA CTGGTGAGAG AGCCCATCCC 
CTCCCCCCAG AACCTGCGTC CTGTGCTGGC CGTGGGCTCA CAAGACCTCT TCACTGCTTC 
TCTCCCCTTC GAGAAGAACT GTGGGCAAGA TGGCCTCTGT GA

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

RefSeq	XP_011544147.1
CDS	139..2580
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPVRTLGSGKGERGGAQGWPGAPPFSAERGLCGGCGEPHHSAPQLLTGERAHPLPPEPASCAGRGLTRPLHCFSPLREELWARWPL

Target ORF information:

RefSeq Version	XM_011545845.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X12, mRNA.

Target ORF information:

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

XM_011545845.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGTG AGGACTTTGG GTTCTGGGAA GGGGGAGAGA 
GGAGGAGCCC AAGGCTGGCC TGGAGCACCC CCGTTCTCTG CTGAGCGAGG ATTGTGTGGA 
GGATGTGGTG AGCCCCATCA TTCTGCACCT CAACTTCTCA CTGGTGAGAG AGCCCATCCC 
CTCCCCCCAG AACCTGCGTC CTGTGCTGGC CGTGGGCTCA CAAGACCTCT TCACTGCTTC 
TCTCCCCTTC GAGAAGAACT GTGGGCAAGA TGGCCTCTGT GA

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

ITGAD ( XM_011545846.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544148.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OHu58496
Clone ID Related Accession (Same CDS sequence)	XM_011545846.2 , XM_011545846.3
Accession Version	XM_011545846.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2373bp) 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	integrin alpha-D isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545846.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC AAAGTGCTGG GGGCAGTGGC 
TTAGTAATGC TCAATGTTGG AGAGTGCTTC TAA

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

RefSeq	XP_011544148.1
CDS	136..2508
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASQSAGGSGLVMLNVGECF

Target ORF information:

RefSeq Version	XM_011545846.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X13, mRNA.

Target ORF information:

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

XM_011545846.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC AAAGTGCTGG GGGCAGTGGC 
TTAGTAATGC TCAATGTTGG AGAGTGCTTC TAA

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

ITGAD ( XM_011545846.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544148.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OHu58496
Clone ID Related Accession (Same CDS sequence)	XM_011545846.2 , XM_011545846.3
Accession Version	XM_011545846.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2373bp) 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	integrin alpha-D isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545846.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC AAAGTGCTGG GGGCAGTGGC 
TTAGTAATGC TCAATGTTGG AGAGTGCTTC TAA

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

RefSeq	XP_011544148.1
CDS	137..2509
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASQSAGGSGLVMLNVGECF

Target ORF information:

RefSeq Version	XM_011545846.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X13, mRNA.

Target ORF information:

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

XM_011545846.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC AAAGTGCTGG GGGCAGTGGC 
TTAGTAATGC TCAATGTTGG AGAGTGCTTC TAA

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

ITGAD ( XM_011545847.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544149.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X14, mRNA.

Price & Availability↑

CloneID	OHu58497
Clone ID Related Accession (Same CDS sequence)	XM_011545847.3 , XM_011545847.2
Accession Version	XM_011545847.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2337bp) 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	integrin alpha-D isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545847.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

RefSeq	XP_011544149.1
CDS	127..2463
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545847.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X14, mRNA.

Target ORF information:

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

XM_011545847.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

ITGAD ( XM_011545847.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544149.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X14, mRNA.

Price & Availability↑

CloneID	OHu58497
Clone ID Related Accession (Same CDS sequence)	XM_011545847.3 , XM_011545847.2
Accession Version	XM_011545847.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2337bp) 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	integrin alpha-D isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545847.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

RefSeq	XP_011544149.1
CDS	126..2462
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545847.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X14, mRNA.

Target ORF information:

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

XM_011545847.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GTGCCCAGTC CCTGGCCTTC CCCTTGGACC TCTGGCCTTC 
CTCTATGCCT GGCAGGAAGA ATCCACCAAG TACTTCAACT TTGCAACCTC CGATGAGAAG 
AAAATGAAAG AGGCTGAGCA TCGATACCGT GTGAATAACC TCAGCCAGCG AGATCTGGCC 
ATCAGCATTA ACTTCTGGGT TCCTGTCCTG CTGAACGGGG TGGCTGTGTG GGATGTGGTC 
ATGGAGGCCC CATCTCAGAG TCTCCCCTGT GTTTCAGAGA GAAAACCTCC CCAGCATTCT 
GACTTCCTGA CCCAGATTTC AAGAAGTCCC ATGCTGGACT GCTCCATTGC TGACTGCCTG 
CAGTTCCGCT GTGACGTCCC CTCCTTCAGC GTCCAGGAGG AGCTGGATTT CACCCTGAAG 
GGCAATCTCA GTTTCGGCTG GGTCCGCGAG ACATTGCAGA AGAAGGTGTT GGTCGTGAGT 
GTGGCTGAAA TTACGTTCGA CACATCCGTG TACTCCCAGC TTCCAGGACA GGAGGCATTT 
ATGAGAGCTC AGATGGAGAT GGTGCTAGAA GAAGACGAGG TCTACAATGC CATTCCCATC 
ATCATGGGCA GCTCTGTGGG GGCTCTGCTA CTGCTGGCGC TCATCACAGC CACACTGTAC 
AAGCTTGGCT TCTTCAAACG CCACTACAAG GAAATGCTGG AGGACAAGCC TGAAGACACT 
GCCACATTCA GTGGGGACGA TTTCAGCTGT GTGGCCCCAA ATGTGCCTTT GTCCTAA

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

ITGAD ( XM_011545848.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544150.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X15, mRNA.

Price & Availability↑

CloneID	OHu58498
Clone ID Related Accession (Same CDS sequence)	XM_011545848.3 , XM_011545848.2
Accession Version	XM_011545848.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2073bp) 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	integrin alpha-D isoform X14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545848.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGCTCCCCTT 
CGAGAAGAAC TGTGGGCAAG ATGGCCTCTG TGA

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

RefSeq	XP_011544150.1
CDS	138..2210
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLAPLREELWARWPL

Target ORF information:

RefSeq Version	XM_011545848.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X15, mRNA.

Target ORF information:

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

XM_011545848.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGCTCCCCTT 
CGAGAAGAAC TGTGGGCAAG ATGGCCTCTG TGA

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

ITGAD ( XM_011545848.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544150.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X15, mRNA.

Price & Availability↑

CloneID	OHu58498
Clone ID Related Accession (Same CDS sequence)	XM_011545848.3 , XM_011545848.2
Accession Version	XM_011545848.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2073bp) 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	integrin alpha-D isoform X14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545848.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGCTCCCCTT 
CGAGAAGAAC TGTGGGCAAG ATGGCCTCTG TGA

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

RefSeq	XP_011544150.1
CDS	137..2209
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLAPLREELWARWPL

Target ORF information:

RefSeq Version	XM_011545848.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X15, mRNA.

Target ORF information:

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

XM_011545848.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGCTCCCCTT 
CGAGAAGAAC TGTGGGCAAG ATGGCCTCTG TGA

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

ITGAD ( NM_005353.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_005344.2 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu108124
Clone ID Related Accession (Same CDS sequence)	NM_005353.3
Accession Version	NM_005353.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3486bp) 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	2020-01-01
Organism	Homo sapiens(human)
Product	integrin alpha-D isoform 2 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC093520.4 and AC026471.6. On May 17, 2019 this sequence version replaced NM_005353.2. Transcript Variant: This variant (2) contains an alternate in-frame splice site in the 5' coding region, compared to variant 1. It encodes isoform 2, which is shorter by an amino acid, 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 :: AB208945.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000389202.3/ ENSP00000373854.2 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGAGG 
GTGCAGTGGC AGTGTGACGC TGTTCTCCGT GGTGAGCAGG GCCACCCCTG GGGCCGCTTT 
GGGGCAGCCC TGACAGTGTT GGGGGATGTG AATGAGGACA AGCTGATAGA CGTGGCCATT 
GGGGCCCCGG GAGAGCAGGA GAACCGGGGT GCTGTCTACC TGTTTCACGG AGCCTCAGAA 
TCCGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCCAGCT CCCAGCTCTC CCCCAGGCTG 
CAGTATTTTG GGCAGGCGCT GAGTGGGGGT CAGGACCTCA CCCAGGATGG ACTGATGGAC 
CTGGCCGTGG GGGCCCGGGG CCAGGTGCTC CTGCTCAGGA GTCTGCCGGT GCTGAAAGTG 
GGGGTGGCCA TGAGATTCAG CCCTGTGGAG GTGGCCAAGG CTGTGTACCG GTGCTGGGAA 
GAGAAGCCCA GTGCCCTGGA AGCTGGGGAC GCCACCGTCT GTCTCACCAT CCAGAAAAGC 
TCACTGGACC AGCTAGGTGA CATCCAAAGC TCTGTCAGGT TTGATCTGGC ACTGGACCCA 
GGTCGTCTGA CTTCTCGTGC CATTTTCAAT GAAACCAAGA ACCCCACTTT GACTCGAAGA 
AAAACCCTGG GACTGGGGAT TCACTGTGAA ACCCTGAAGC TGCTTTTGCC AGATTGTGTG 
GAGGATGTGG TGAGCCCCAT CATTCTGCAC CTCAACTTCT CACTGGTGAG AGAGCCCATC 
CCCTCCCCCC AGAACCTGCG TCCTGTGCTG GCCGTGGGCT CACAAGACCT CTTCACTGCT 
TCTCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GCAGGAAGAA TCCACCAAGT ACTTCAACTT TGCAACCTCC 
GATGAGAAGA AAATGAAAGA GGCTGAGCAT CGATACCGTG TGAATAACCT CAGCCAGCGA 
GATCTGGCCA TCAGCATTAA CTTCTGGGTT CCTGTCCTGC TGAACGGGGT GGCTGTGTGG 
GATGTGGTCA TGGAGGCCCC ATCTCAGAGT CTCCCCTGTG TTTCAGAGAG AAAACCTCCC 
CAGCATTCTG ACTTCCTGAC CCAGATTTCA AGAAGTCCCA TGCTGGACTG CTCCATTGCT 
GACTGCCTGC AGTTCCGCTG TGACGTCCCC TCCTTCAGCG TCCAGGAGGA GCTGGATTTC 
ACCCTGAAGG GCAATCTCAG TTTCGGCTGG GTCCGCGAGA CATTGCAGAA GAAGGTGTTG 
GTCGTGAGTG TGGCTGAAAT TACGTTCGAC ACATCCGTGT ACTCCCAGCT TCCAGGACAG 
GAGGCATTTA TGAGAGCTCA GATGGAGATG GTGCTAGAAG AAGACGAGGT CTACAATGCC 
ATTCCCATCA TCATGGGCAG CTCTGTGGGG GCTCTGCTAC TGCTGGCGCT CATCACAGCC 
ACACTGTACA AGCTTGGCTT CTTCAAACGC CACTACAAGG AAATGCTGGA GGACAAGCCT 
GAAGACACTG CCACATTCAG TGGGGACGAT TTCAGCTGTG TGGCCCCAAA TGTGCCTTTG 
TCCTAA

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

RefSeq	NP_005344.2
CDS	27..3512
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	NM_005353.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 2, mRNA.

Target ORF information:

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

NM_005353.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGAGG 
GTGCAGTGGC AGTGTGACGC TGTTCTCCGT GGTGAGCAGG GCCACCCCTG GGGCCGCTTT 
GGGGCAGCCC TGACAGTGTT GGGGGATGTG AATGAGGACA AGCTGATAGA CGTGGCCATT 
GGGGCCCCGG GAGAGCAGGA GAACCGGGGT GCTGTCTACC TGTTTCACGG AGCCTCAGAA 
TCCGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCCAGCT CCCAGCTCTC CCCCAGGCTG 
CAGTATTTTG GGCAGGCGCT GAGTGGGGGT CAGGACCTCA CCCAGGATGG ACTGATGGAC 
CTGGCCGTGG GGGCCCGGGG CCAGGTGCTC CTGCTCAGGA GTCTGCCGGT GCTGAAAGTG 
GGGGTGGCCA TGAGATTCAG CCCTGTGGAG GTGGCCAAGG CTGTGTACCG GTGCTGGGAA 
GAGAAGCCCA GTGCCCTGGA AGCTGGGGAC GCCACCGTCT GTCTCACCAT CCAGAAAAGC 
TCACTGGACC AGCTAGGTGA CATCCAAAGC TCTGTCAGGT TTGATCTGGC ACTGGACCCA 
GGTCGTCTGA CTTCTCGTGC CATTTTCAAT GAAACCAAGA ACCCCACTTT GACTCGAAGA 
AAAACCCTGG GACTGGGGAT TCACTGTGAA ACCCTGAAGC TGCTTTTGCC AGATTGTGTG 
GAGGATGTGG TGAGCCCCAT CATTCTGCAC CTCAACTTCT CACTGGTGAG AGAGCCCATC 
CCCTCCCCCC AGAACCTGCG TCCTGTGCTG GCCGTGGGCT CACAAGACCT CTTCACTGCT 
TCTCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GCAGGAAGAA TCCACCAAGT ACTTCAACTT TGCAACCTCC 
GATGAGAAGA AAATGAAAGA GGCTGAGCAT CGATACCGTG TGAATAACCT CAGCCAGCGA 
GATCTGGCCA TCAGCATTAA CTTCTGGGTT CCTGTCCTGC TGAACGGGGT GGCTGTGTGG 
GATGTGGTCA TGGAGGCCCC ATCTCAGAGT CTCCCCTGTG TTTCAGAGAG AAAACCTCCC 
CAGCATTCTG ACTTCCTGAC CCAGATTTCA AGAAGTCCCA TGCTGGACTG CTCCATTGCT 
GACTGCCTGC AGTTCCGCTG TGACGTCCCC TCCTTCAGCG TCCAGGAGGA GCTGGATTTC 
ACCCTGAAGG GCAATCTCAG TTTCGGCTGG GTCCGCGAGA CATTGCAGAA GAAGGTGTTG 
GTCGTGAGTG TGGCTGAAAT TACGTTCGAC ACATCCGTGT ACTCCCAGCT TCCAGGACAG 
GAGGCATTTA TGAGAGCTCA GATGGAGATG GTGCTAGAAG AAGACGAGGT CTACAATGCC 
ATTCCCATCA TCATGGGCAG CTCTGTGGGG GCTCTGCTAC TGCTGGCGCT CATCACAGCC 
ACACTGTACA AGCTTGGCTT CTTCAAACGC CACTACAAGG AAATGCTGGA GGACAAGCCT 
GAAGACACTG CCACATTCAG TGGGGACGAT TTCAGCTGTG TGGCCCCAAA TGTGCCTTTG 
TCCTAA

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

ITGAD ( NM_001318185.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001305114.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu58490
Clone ID Related Accession (Same CDS sequence)	NM_001318185.2
Accession Version	NM_001318185.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3489bp) 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	integrin alpha-D isoform 1 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC093520.4 and AC026471.6. On Jun 2, 2019 this sequence version replaced NM_001318185.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer 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 :: U37028.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2146236 [ECO:0000348] ##Evidence-Data-END##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGCAG 
AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC CGTGGTGAGC AGGGCCACCC CTGGGGCCGC 
TTTGGGGCAG CCCTGACAGT GTTGGGGGAT GTGAATGAGG ACAAGCTGAT AGACGTGGCC 
ATTGGGGCCC CGGGAGAGCA GGAGAACCGG GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA 
GAATCCGGCA TCAGCCCCTC CCACAGCCAG CGGATTGCCA GCTCCCAGCT CTCCCCCAGG 
CTGCAGTATT TTGGGCAGGC GCTGAGTGGG GGTCAGGACC TCACCCAGGA TGGACTGATG 
GACCTGGCCG TGGGGGCCCG GGGCCAGGTG CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA 
GTGGGGGTGG CCATGAGATT CAGCCCTGTG GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG 
GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG GACGCCACCG TCTGTCTCAC CATCCAGAAA 
AGCTCACTGG ACCAGCTAGG TGACATCCAA AGCTCTGTCA GGTTTGATCT GGCACTGGAC 
CCAGGTCGTC TGACTTCTCG TGCCATTTTC AATGAAACCA AGAACCCCAC TTTGACTCGA 
AGAAAAACCC TGGGACTGGG GATTCACTGT GAAACCCTGA AGCTGCTTTT GCCAGATTGT 
GTGGAGGATG TGGTGAGCCC CATCATTCTG CACCTCAACT TCTCACTGGT GAGAGAGCCC 
ATCCCCTCCC CCCAGAACCT GCGTCCTGTG CTGGCCGTGG GCTCACAAGA CCTCTTCACT 
GCTTCTCTCC CCTTCGAGAA GAACTGTGGG CAAGATGGCC TCTGTGAAGG GGACCTGGGT 
GTCACCCTCA GCTTCTCAGG CCTGCAGACC CTGACCGTGG GGAGCTCCCT GGAGCTCAAC 
GTGATTGTGA CTGTGTGGAA CGCAGGTGAG GATTCCTACG GAACCGTGGT CAGCCTCTAC 
TATCCAGCAG GGCTGTCGCA CCGACGGGTG TCAGGAGCCC AGAAGCAGCC CCATCAGAGT 
GCCCTGCGCC TGGCATGTGA GACAGTGCCC ACTGAGGATG AGGGCCTAAG AAGCAGCCGC 
TGCAGTGTCA ACCACCCCAT CTTCCATGAG GGCTCTAACG GCACCTTCAT AGTCACATTC 
GATGTCTCCT ACAAGGCCAC CCTGGGAGAC AGGATGCTTA TGAGGGCCAG TGCAAGCAGT 
GAGAACAATA AGGCTTCAAG CAGCAAGGCC ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT 
GCAGTCTACA CCATGATCAG CAGGCAGGAA GAATCCACCA AGTACTTCAA CTTTGCAACC 
TCCGATGAGA AGAAAATGAA AGAGGCTGAG CATCGATACC GTGTGAATAA CCTCAGCCAG 
CGAGATCTGG CCATCAGCAT TAACTTCTGG GTTCCTGTCC TGCTGAACGG GGTGGCTGTG 
TGGGATGTGG TCATGGAGGC CCCATCTCAG AGTCTCCCCT GTGTTTCAGA GAGAAAACCT 
CCCCAGCATT CTGACTTCCT GACCCAGATT TCAAGAAGTC CCATGCTGGA CTGCTCCATT 
GCTGACTGCC TGCAGTTCCG CTGTGACGTC CCCTCCTTCA GCGTCCAGGA GGAGCTGGAT 
TTCACCCTGA AGGGCAATCT CAGTTTCGGC TGGGTCCGCG AGACATTGCA GAAGAAGGTG 
TTGGTCGTGA GTGTGGCTGA AATTACGTTC GACACATCCG TGTACTCCCA GCTTCCAGGA 
CAGGAGGCAT TTATGAGAGC TCAGATGGAG ATGGTGCTAG AAGAAGACGA GGTCTACAAT 
GCCATTCCCA TCATCATGGG CAGCTCTGTG GGGGCTCTGC TACTGCTGGC GCTCATCACA 
GCCACACTGT ACAAGCTTGG CTTCTTCAAA CGCCACTACA AGGAAATGCT GGAGGACAAG 
CCTGAAGACA CTGCCACATT CAGTGGGGAC GATTTCAGCT GTGTGGCCCC AAATGTGCCT 
TTGTCCTAA

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

RefSeq	NP_001305114.1
CDS	27..3515
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	NM_001318185.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 1, mRNA.

Target ORF information:

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

NM_001318185.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGCAG 
AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC CGTGGTGAGC AGGGCCACCC CTGGGGCCGC 
TTTGGGGCAG CCCTGACAGT GTTGGGGGAT GTGAATGAGG ACAAGCTGAT AGACGTGGCC 
ATTGGGGCCC CGGGAGAGCA GGAGAACCGG GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA 
GAATCCGGCA TCAGCCCCTC CCACAGCCAG CGGATTGCCA GCTCCCAGCT CTCCCCCAGG 
CTGCAGTATT TTGGGCAGGC GCTGAGTGGG GGTCAGGACC TCACCCAGGA TGGACTGATG 
GACCTGGCCG TGGGGGCCCG GGGCCAGGTG CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA 
GTGGGGGTGG CCATGAGATT CAGCCCTGTG GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG 
GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG GACGCCACCG TCTGTCTCAC CATCCAGAAA 
AGCTCACTGG ACCAGCTAGG TGACATCCAA AGCTCTGTCA GGTTTGATCT GGCACTGGAC 
CCAGGTCGTC TGACTTCTCG TGCCATTTTC AATGAAACCA AGAACCCCAC TTTGACTCGA 
AGAAAAACCC TGGGACTGGG GATTCACTGT GAAACCCTGA AGCTGCTTTT GCCAGATTGT 
GTGGAGGATG TGGTGAGCCC CATCATTCTG CACCTCAACT TCTCACTGGT GAGAGAGCCC 
ATCCCCTCCC CCCAGAACCT GCGTCCTGTG CTGGCCGTGG GCTCACAAGA CCTCTTCACT 
GCTTCTCTCC CCTTCGAGAA GAACTGTGGG CAAGATGGCC TCTGTGAAGG GGACCTGGGT 
GTCACCCTCA GCTTCTCAGG CCTGCAGACC CTGACCGTGG GGAGCTCCCT GGAGCTCAAC 
GTGATTGTGA CTGTGTGGAA CGCAGGTGAG GATTCCTACG GAACCGTGGT CAGCCTCTAC 
TATCCAGCAG GGCTGTCGCA CCGACGGGTG TCAGGAGCCC AGAAGCAGCC CCATCAGAGT 
GCCCTGCGCC TGGCATGTGA GACAGTGCCC ACTGAGGATG AGGGCCTAAG AAGCAGCCGC 
TGCAGTGTCA ACCACCCCAT CTTCCATGAG GGCTCTAACG GCACCTTCAT AGTCACATTC 
GATGTCTCCT ACAAGGCCAC CCTGGGAGAC AGGATGCTTA TGAGGGCCAG TGCAAGCAGT 
GAGAACAATA AGGCTTCAAG CAGCAAGGCC ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT 
GCAGTCTACA CCATGATCAG CAGGCAGGAA GAATCCACCA AGTACTTCAA CTTTGCAACC 
TCCGATGAGA AGAAAATGAA AGAGGCTGAG CATCGATACC GTGTGAATAA CCTCAGCCAG 
CGAGATCTGG CCATCAGCAT TAACTTCTGG GTTCCTGTCC TGCTGAACGG GGTGGCTGTG 
TGGGATGTGG TCATGGAGGC CCCATCTCAG AGTCTCCCCT GTGTTTCAGA GAGAAAACCT 
CCCCAGCATT CTGACTTCCT GACCCAGATT TCAAGAAGTC CCATGCTGGA CTGCTCCATT 
GCTGACTGCC TGCAGTTCCG CTGTGACGTC CCCTCCTTCA GCGTCCAGGA GGAGCTGGAT 
TTCACCCTGA AGGGCAATCT CAGTTTCGGC TGGGTCCGCG AGACATTGCA GAAGAAGGTG 
TTGGTCGTGA GTGTGGCTGA AATTACGTTC GACACATCCG TGTACTCCCA GCTTCCAGGA 
CAGGAGGCAT TTATGAGAGC TCAGATGGAG ATGGTGCTAG AAGAAGACGA GGTCTACAAT 
GCCATTCCCA TCATCATGGG CAGCTCTGTG GGGGCTCTGC TACTGCTGGC GCTCATCACA 
GCCACACTGT ACAAGCTTGG CTTCTTCAAA CGCCACTACA AGGAAATGCT GGAGGACAAG 
CCTGAAGACA CTGCCACATT CAGTGGGGAC GATTTCAGCT GTGTGGCCCC AAATGTGCCT 
TTGTCCTAA

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

ITGAD ( XM_017023215.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878704.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu86024
Clone ID Related Accession (Same CDS sequence)	XM_017023215.1 , XM_017023215.2
Accession Version	XM_017023215.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3495bp) 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	integrin alpha-D isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) 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 :: 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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGGACTGC 
TCCATTGCTG ACTGCCTGCA GTTCCGCTGT GACGTCCCCT CCTTCAGCGT CCAGGAGGAG 
CTGGATTTCA CCCTGAAGGG CAATCTCAGT TTCGGCTGGG TCCGCGAGAC ATTGCAGAAG 
AAGGTGTTGG TCGTGAGTGT GGCTGAAATT ACGTTCGACA CATCCGTGTA CTCCCAGCTT 
CCAGGACAGG AGGCATTTAT GAGAGCTCAG ATGGAGATGG TGCTAGAAGA AGACGAGGTC 
TACAATGCCA TTCCCATCAT CATGGGCAGC TCTGTGGGGG CTCTGCTACT GCTGGCGCTC 
ATCACAGCCA CACTGTACAA GCTTGGCTTC TTCAAACGCC ACTACAAGGA AATGCTGGAG 
GACAAGCCTG AAGACACTGC CACATTCAGT GGGGACGATT TCAGCTGTGT GGCCCCAAAT 
GTGCCTTTGT CCTAA

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

RefSeq	XP_016878704.1
CDS	129..3623
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_017023215.1
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X6, mRNA.

Target ORF information:

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

XM_017023215.1

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGGACTGC 
TCCATTGCTG ACTGCCTGCA GTTCCGCTGT GACGTCCCCT CCTTCAGCGT CCAGGAGGAG 
CTGGATTTCA CCCTGAAGGG CAATCTCAGT TTCGGCTGGG TCCGCGAGAC ATTGCAGAAG 
AAGGTGTTGG TCGTGAGTGT GGCTGAAATT ACGTTCGACA CATCCGTGTA CTCCCAGCTT 
CCAGGACAGG AGGCATTTAT GAGAGCTCAG ATGGAGATGG TGCTAGAAGA AGACGAGGTC 
TACAATGCCA TTCCCATCAT CATGGGCAGC TCTGTGGGGG CTCTGCTACT GCTGGCGCTC 
ATCACAGCCA CACTGTACAA GCTTGGCTTC TTCAAACGCC ACTACAAGGA AATGCTGGAG 
GACAAGCCTG AAGACACTGC CACATTCAGT GGGGACGATT TCAGCTGTGT GGCCCCAAAT 
GTGCCTTTGT CCTAA

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

ITGAD ( XM_017023215.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016878704.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu86024
Clone ID Related Accession (Same CDS sequence)	XM_017023215.1 , XM_017023215.2
Accession Version	XM_017023215.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3495bp) 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	integrin alpha-D isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017023215.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGGACTGC 
TCCATTGCTG ACTGCCTGCA GTTCCGCTGT GACGTCCCCT CCTTCAGCGT CCAGGAGGAG 
CTGGATTTCA CCCTGAAGGG CAATCTCAGT TTCGGCTGGG TCCGCGAGAC ATTGCAGAAG 
AAGGTGTTGG TCGTGAGTGT GGCTGAAATT ACGTTCGACA CATCCGTGTA CTCCCAGCTT 
CCAGGACAGG AGGCATTTAT GAGAGCTCAG ATGGAGATGG TGCTAGAAGA AGACGAGGTC 
TACAATGCCA TTCCCATCAT CATGGGCAGC TCTGTGGGGG CTCTGCTACT GCTGGCGCTC 
ATCACAGCCA CACTGTACAA GCTTGGCTTC TTCAAACGCC ACTACAAGGA AATGCTGGAG 
GACAAGCCTG AAGACACTGC CACATTCAGT GGGGACGATT TCAGCTGTGT GGCCCCAAAT 
GTGCCTTTGT CCTAA

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

RefSeq	XP_016878704.1
CDS	130..3624
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_017023215.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X6, mRNA.

Target ORF information:

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

XM_017023215.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGGACTGC 
TCCATTGCTG ACTGCCTGCA GTTCCGCTGT GACGTCCCCT CCTTCAGCGT CCAGGAGGAG 
CTGGATTTCA CCCTGAAGGG CAATCTCAGT TTCGGCTGGG TCCGCGAGAC ATTGCAGAAG 
AAGGTGTTGG TCGTGAGTGT GGCTGAAATT ACGTTCGACA CATCCGTGTA CTCCCAGCTT 
CCAGGACAGG AGGCATTTAT GAGAGCTCAG ATGGAGATGG TGCTAGAAGA AGACGAGGTC 
TACAATGCCA TTCCCATCAT CATGGGCAGC TCTGTGGGGG CTCTGCTACT GCTGGCGCTC 
ATCACAGCCA CACTGTACAA GCTTGGCTTC TTCAAACGCC ACTACAAGGA AATGCTGGAG 
GACAAGCCTG AAGACACTGC CACATTCAGT GGGGACGATT TCAGCTGTGT GGCCCCAAAT 
GTGCCTTTGT CCTAA

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

ITGAD ( NM_005353.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_005344.2 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu04915
Clone ID Related Accession (Same CDS sequence)	NM_005353.2
Accession Version	NM_005353.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3486bp) 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	2019-02-16
Organism	Homo sapiens(human)
Product	integrin alpha-D isoform 2 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB208945.1. This sequence is a reference standard in the RefSeqGene project. On or before Apr 15, 2005 this sequence version replaced XM_496142.1, NM_005353.1. Transcript Variant: This variant (2) contains an alternate in-frame splice site in the 5' coding region, compared to variant 1. It encodes isoform 2, which is shorter by an amino acid, 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 :: AB208945.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCCG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGAGG 
GTGCAGTGGC AGTGTGACGC TGTTCTCCGT GGTGAGCAGG GCCACCCCTG GGGCCGCTTT 
GGGGCAGCCC TGACAGTGTT GGGGGATGTG AATGAGGACA AGCTGATAGA CGTGGCCATT 
GGGGCCCCGG GAGAGCAGGA GAACCGGGGT GCTGTCTACC TGTTTCACGG AGCCTCAGAA 
TCCGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCCAGCT CCCAGCTCTC CCCCAGGCTG 
CAGTATTTTG GGCAGGCGCT GAGTGGGGGT CAGGACCTCA CCCAGGATGG ACTGATGGAC 
CTGGCCGTGG GGGCCCGGGG CCAGGTGCTC CTGCTCAGGA GTCTGCCGGT GCTGAAAGTG 
GGGGTGGCCA TGAGATTCAG CCCTGTGGAG GTGGCCAAGG CTGTGTACCG GTGCTGGGAA 
GAGAAGCCCA GTGCCCTGGA AGCTGGGGAC GCCACCGTCT GTCTCACCAT CCAGAAAAGC 
TCACTGGACC AGCTAGGTGA CATCCAAAGC TCTGTCAGGT TTGATCTGGC ACTGGACCCA 
GGTCGTCTGA CTTCTCGTGC CATTTTCAAT GAAACCAAGA ACCCCACTTT GACTCGAAGA 
AAAACCCTGG GACTGGGGAT TCACTGTGAA ACCCTGAAGC TGCTTTTGCC AGATTGTGTG 
GAGGATGTGG TGAGCCCCAT CATTCTGCAC CTCAACTTCT CACTGGTGAG AGAGCCCATC 
CCCTCCCCCC AGAACCTGCG TCCTGTGCTG GCCGTGGGCT CACAAGACCT CTTCACTGCT 
TCTCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GCAGGAAGAA TCCACCAAGT ACTTCAACTT TGCAACCTCC 
GATGAGAAGA AAATGAAAGA GGCTGAGCAT CGATACCGTG TGAATAACCT CAGCCAGCGA 
GATCTGGCCA TCAGCATTAA CTTCTGGGTT CCTGTCCTGC TGAACGGGGT GGCTGTGTGG 
GATGTGGTCA TGGAGGCCCC ATCTCAGAGT CTCCCCTGTG TTTCAGAGAG AAAACCTCCC 
CAGCATTCTG ACTTCCTGAC CCAGATTTCA AGAAGTCCCA TGCTGGACTG CTCCATTGCT 
GACTGCCTGC AGTTCCGCTG TGACGTCCCC TCCTTCAGCG TCCAGGAGGA GCTGGATTTC 
ACCCTGAAGG GCAATCTCAG TTTCGGCTGG GTCCGCGAGA CATTGCAGAA GAAGGTGTTG 
GTCGTGAGTG TGGCTGAAAT TACGTTCGAC ACATCCGTGT ACTCCCAGCT TCCAGGACAG 
GAGGCATTTA TGAGAGCTCA GATGGAGATG GTGCTAGAAG AAGACGAGGT CTACAATGCC 
ATTCCCATCA TCATGGGCAG CTCTGTGGGG GCTCTGCTAC TGCTGGCGCT CATCACAGCC 
ACACTGTACA AGCTTGGCTT CTTCAAACGC CACTACAAGG AAATGCTGGA GGACAAGCCT 
GAAGACACTG CCACATTCAG TGGGGACGAT TTCAGCTGTG TGGCCCCAAA TGTGCCTTTG 
TCCTAA

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

RefSeq	NP_005344.2
CDS	50..3535
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	NM_005353.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant 2, mRNA.

Target ORF information:

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

NM_005353.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCCG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGAGG 
GTGCAGTGGC AGTGTGACGC TGTTCTCCGT GGTGAGCAGG GCCACCCCTG GGGCCGCTTT 
GGGGCAGCCC TGACAGTGTT GGGGGATGTG AATGAGGACA AGCTGATAGA CGTGGCCATT 
GGGGCCCCGG GAGAGCAGGA GAACCGGGGT GCTGTCTACC TGTTTCACGG AGCCTCAGAA 
TCCGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCCAGCT CCCAGCTCTC CCCCAGGCTG 
CAGTATTTTG GGCAGGCGCT GAGTGGGGGT CAGGACCTCA CCCAGGATGG ACTGATGGAC 
CTGGCCGTGG GGGCCCGGGG CCAGGTGCTC CTGCTCAGGA GTCTGCCGGT GCTGAAAGTG 
GGGGTGGCCA TGAGATTCAG CCCTGTGGAG GTGGCCAAGG CTGTGTACCG GTGCTGGGAA 
GAGAAGCCCA GTGCCCTGGA AGCTGGGGAC GCCACCGTCT GTCTCACCAT CCAGAAAAGC 
TCACTGGACC AGCTAGGTGA CATCCAAAGC TCTGTCAGGT TTGATCTGGC ACTGGACCCA 
GGTCGTCTGA CTTCTCGTGC CATTTTCAAT GAAACCAAGA ACCCCACTTT GACTCGAAGA 
AAAACCCTGG GACTGGGGAT TCACTGTGAA ACCCTGAAGC TGCTTTTGCC AGATTGTGTG 
GAGGATGTGG TGAGCCCCAT CATTCTGCAC CTCAACTTCT CACTGGTGAG AGAGCCCATC 
CCCTCCCCCC AGAACCTGCG TCCTGTGCTG GCCGTGGGCT CACAAGACCT CTTCACTGCT 
TCTCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGA AGCAGCCCCA TCAGAGTGCC 
CTGCGCCTGG CATGTGAGAC AGTGCCCACT GAGGATGAGG GCCTAAGAAG CAGCCGCTGC 
AGTGTCAACC ACCCCATCTT CCATGAGGGC TCTAACGGCA CCTTCATAGT CACATTCGAT 
GTCTCCTACA AGGCCACCCT GGGAGACAGG ATGCTTATGA GGGCCAGTGC AAGCAGTGAG 
AACAATAAGG CTTCAAGCAG CAAGGCCACC TTCCAGCTGG AGCTCCCGGT GAAGTATGCA 
GTCTACACCA TGATCAGCAG GCAGGAAGAA TCCACCAAGT ACTTCAACTT TGCAACCTCC 
GATGAGAAGA AAATGAAAGA GGCTGAGCAT CGATACCGTG TGAATAACCT CAGCCAGCGA 
GATCTGGCCA TCAGCATTAA CTTCTGGGTT CCTGTCCTGC TGAACGGGGT GGCTGTGTGG 
GATGTGGTCA TGGAGGCCCC ATCTCAGAGT CTCCCCTGTG TTTCAGAGAG AAAACCTCCC 
CAGCATTCTG ACTTCCTGAC CCAGATTTCA AGAAGTCCCA TGCTGGACTG CTCCATTGCT 
GACTGCCTGC AGTTCCGCTG TGACGTCCCC TCCTTCAGCG TCCAGGAGGA GCTGGATTTC 
ACCCTGAAGG GCAATCTCAG TTTCGGCTGG GTCCGCGAGA CATTGCAGAA GAAGGTGTTG 
GTCGTGAGTG TGGCTGAAAT TACGTTCGAC ACATCCGTGT ACTCCCAGCT TCCAGGACAG 
GAGGCATTTA TGAGAGCTCA GATGGAGATG GTGCTAGAAG AAGACGAGGT CTACAATGCC 
ATTCCCATCA TCATGGGCAG CTCTGTGGGG GCTCTGCTAC TGCTGGCGCT CATCACAGCC 
ACACTGTACA AGCTTGGCTT CTTCAAACGC CACTACAAGG AAATGCTGGA GGACAAGCCT 
GAAGACACTG CCACATTCAG TGGGGACGAT TTCAGCTGTG TGGCCCCAAA TGTGCCTTTG 
TCCTAA

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

ITGAD ( XM_011545835.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544137.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu58485
Clone ID Related Accession (Same CDS sequence)	XM_011545835.2 , XM_011545835.3
Accession Version	XM_011545835.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3573bp) 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	integrin alpha-D isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545835.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGTCTC 
CCCTGTGTTT CAGAGAGAAA ACCTCCCCAG CATTCTGACT TCCTGACCCA GATTTCAAGA 
AGTCCCATGC TGGACTGCTC CATTGCTGAC TGCCTGCAGT TCCGCTGTGA CGTCCCCTCC 
TTCAGCGTCC AGGAGGAGCT GGATTTCACC CTGAAGGGCA ATCTCAGTTT CGGCTGGGTC 
CGCGAGACAT TGCAGAAGAA GGTGTTGGTC GTGAGTGTGG CTGAAATTAC GTTCGACACA 
TCCGTGTACT CCCAGCTTCC AGGACAGGAG GCATTTATGA GAGCTCAGAT GGAGATGGTG 
CTAGAAGAAG ACGAGGTCTA CAATGCCATT CCCATCATCA TGGGCAGCTC TGTGGGGGCT 
CTGCTACTGC TGGCGCTCAT CACAGCCACA CTGTACAAGC TTGGCTTCTT CAAACGCCAC 
TACAAGGAAA TGCTGGAGGA CAAGCCTGAA GACACTGCCA CATTCAGTGG GGACGATTTC 
AGCTGTGTGG CCCCAAATGT GCCTTTGTCC TAA

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

RefSeq	XP_011544137.1
CDS	127..3699
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545835.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X1, mRNA.

Target ORF information:

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

XM_011545835.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGTCTC 
CCCTGTGTTT CAGAGAGAAA ACCTCCCCAG CATTCTGACT TCCTGACCCA GATTTCAAGA 
AGTCCCATGC TGGACTGCTC CATTGCTGAC TGCCTGCAGT TCCGCTGTGA CGTCCCCTCC 
TTCAGCGTCC AGGAGGAGCT GGATTTCACC CTGAAGGGCA ATCTCAGTTT CGGCTGGGTC 
CGCGAGACAT TGCAGAAGAA GGTGTTGGTC GTGAGTGTGG CTGAAATTAC GTTCGACACA 
TCCGTGTACT CCCAGCTTCC AGGACAGGAG GCATTTATGA GAGCTCAGAT GGAGATGGTG 
CTAGAAGAAG ACGAGGTCTA CAATGCCATT CCCATCATCA TGGGCAGCTC TGTGGGGGCT 
CTGCTACTGC TGGCGCTCAT CACAGCCACA CTGTACAAGC TTGGCTTCTT CAAACGCCAC 
TACAAGGAAA TGCTGGAGGA CAAGCCTGAA GACACTGCCA CATTCAGTGG GGACGATTTC 
AGCTGTGTGG CCCCAAATGT GCCTTTGTCC TAA

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

ITGAD ( XM_011545835.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544137.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu58485
Clone ID Related Accession (Same CDS sequence)	XM_011545835.2 , XM_011545835.3
Accession Version	XM_011545835.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3573bp) 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	integrin alpha-D isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545835.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGTCTC 
CCCTGTGTTT CAGAGAGAAA ACCTCCCCAG CATTCTGACT TCCTGACCCA GATTTCAAGA 
AGTCCCATGC TGGACTGCTC CATTGCTGAC TGCCTGCAGT TCCGCTGTGA CGTCCCCTCC 
TTCAGCGTCC AGGAGGAGCT GGATTTCACC CTGAAGGGCA ATCTCAGTTT CGGCTGGGTC 
CGCGAGACAT TGCAGAAGAA GGTGTTGGTC GTGAGTGTGG CTGAAATTAC GTTCGACACA 
TCCGTGTACT CCCAGCTTCC AGGACAGGAG GCATTTATGA GAGCTCAGAT GGAGATGGTG 
CTAGAAGAAG ACGAGGTCTA CAATGCCATT CCCATCATCA TGGGCAGCTC TGTGGGGGCT 
CTGCTACTGC TGGCGCTCAT CACAGCCACA CTGTACAAGC TTGGCTTCTT CAAACGCCAC 
TACAAGGAAA TGCTGGAGGA CAAGCCTGAA GACACTGCCA CATTCAGTGG GGACGATTTC 
AGCTGTGTGG CCCCAAATGT GCCTTTGTCC TAA

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

RefSeq	XP_011544137.1
CDS	128..3700
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545835.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X1, mRNA.

Target ORF information:

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

XM_011545835.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGTCTC 
CCCTGTGTTT CAGAGAGAAA ACCTCCCCAG CATTCTGACT TCCTGACCCA GATTTCAAGA 
AGTCCCATGC TGGACTGCTC CATTGCTGAC TGCCTGCAGT TCCGCTGTGA CGTCCCCTCC 
TTCAGCGTCC AGGAGGAGCT GGATTTCACC CTGAAGGGCA ATCTCAGTTT CGGCTGGGTC 
CGCGAGACAT TGCAGAAGAA GGTGTTGGTC GTGAGTGTGG CTGAAATTAC GTTCGACACA 
TCCGTGTACT CCCAGCTTCC AGGACAGGAG GCATTTATGA GAGCTCAGAT GGAGATGGTG 
CTAGAAGAAG ACGAGGTCTA CAATGCCATT CCCATCATCA TGGGCAGCTC TGTGGGGGCT 
CTGCTACTGC TGGCGCTCAT CACAGCCACA CTGTACAAGC TTGGCTTCTT CAAACGCCAC 
TACAAGGAAA TGCTGGAGGA CAAGCCTGAA GACACTGCCA CATTCAGTGG GGACGATTTC 
AGCTGTGTGG CCCCAAATGT GCCTTTGTCC TAA

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

ITGAD ( XM_011545836.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544138.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu58486
Clone ID Related Accession (Same CDS sequence)	XM_011545836.2 , XM_011545836.3
Accession Version	XM_011545836.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3570bp) 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	integrin alpha-D isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545836.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC 
CGTGGTGAGC AGGGCCACCC CTGGGGCCGC TTTGGGGCAG CCCTGACAGT GTTGGGGGAT 
GTGAATGAGG ACAAGCTGAT AGACGTGGCC ATTGGGGCCC CGGGAGAGCA GGAGAACCGG 
GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA GAATCCGGCA TCAGCCCCTC CCACAGCCAG 
CGGATTGCCA GCTCCCAGCT CTCCCCCAGG CTGCAGTATT TTGGGCAGGC GCTGAGTGGG 
GGTCAGGACC TCACCCAGGA TGGACTGATG GACCTGGCCG TGGGGGCCCG GGGCCAGGTG 
CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA GTGGGGGTGG CCATGAGATT CAGCCCTGTG 
GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG 
GACGCCACCG TCTGTCTCAC CATCCAGAAA AGCTCACTGG ACCAGCTAGG TGACATCCAA 
AGCTCTGTCA GGTTTGATCT GGCACTGGAC CCAGGTCGTC TGACTTCTCG TGCCATTTTC 
AATGAAACCA AGAACCCCAC TTTGACTCGA AGAAAAACCC TGGGACTGGG GATTCACTGT 
GAAACCCTGA AGCTGCTTTT GCCAGATTGT GTGGAGGATG TGGTGAGCCC CATCATTCTG 
CACCTCAACT TCTCACTGGT GAGAGAGCCC ATCCCCTCCC CCCAGAACCT GCGTCCTGTG 
CTGGCCGTGG GCTCACAAGA CCTCTTCACT GCTTCTCTCC CCTTCGAGAA GAACTGTGGG 
CAAGATGGCC TCTGTGAAGG GGACCTGGGT GTCACCCTCA GCTTCTCAGG CCTGCAGACC 
CTGACCGTGG GGAGCTCCCT GGAGCTCAAC GTGATTGTGA CTGTGTGGAA CGCAGGTGAG 
GATTCCTACG GAACCGTGGT CAGCCTCTAC TATCCAGCAG GGCTGTCGCA CCGACGGGTG 
TCAGGAGCCC AGAAGCAGCC CCATCAGAGT GCCCTGCGCC TGGCATGTGA GACAGTGCCC 
ACTGAGGATG AGGGCCTAAG AAGCAGCCGC TGCAGTGTCA ACCACCCCAT CTTCCATGAG 
GGCTCTAACG GCACCTTCAT AGTCACATTC GATGTCTCCT ACAAGGCCAC CCTGGGAGAC 
AGGATGCTTA TGAGGGCCAG TGCAAGCAGT GAGAACAATA AGGCTTCAAG CAGCAAGGCC 
ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT GCAGTCTACA CCATGATCAG CAGGTGCCCA 
GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC TTCCTCTATG CCTGGCAGGA AGAATCCACC 
AAGTACTTCA ACTTTGCAAC CTCCGATGAG AAGAAAATGA AAGAGGCTGA GCATCGATAC 
CGTGTGAATA ACCTCAGCCA GCGAGATCTG GCCATCAGCA TTAACTTCTG GGTTCCTGTC 
CTGCTGAACG GGGTGGCTGT GTGGGATGTG GTCATGGAGG CCCCATCTCA GAGTCTCCCC 
TGTGTTTCAG AGAGAAAACC TCCCCAGCAT TCTGACTTCC TGACCCAGAT TTCAAGAAGT 
CCCATGCTGG ACTGCTCCAT TGCTGACTGC CTGCAGTTCC GCTGTGACGT CCCCTCCTTC 
AGCGTCCAGG AGGAGCTGGA TTTCACCCTG AAGGGCAATC TCAGTTTCGG CTGGGTCCGC 
GAGACATTGC AGAAGAAGGT GTTGGTCGTG AGTGTGGCTG AAATTACGTT CGACACATCC 
GTGTACTCCC AGCTTCCAGG ACAGGAGGCA TTTATGAGAG CTCAGATGGA GATGGTGCTA 
GAAGAAGACG AGGTCTACAA TGCCATTCCC ATCATCATGG GCAGCTCTGT GGGGGCTCTG 
CTACTGCTGG CGCTCATCAC AGCCACACTG TACAAGCTTG GCTTCTTCAA ACGCCACTAC 
AAGGAAATGC TGGAGGACAA GCCTGAAGAC ACTGCCACAT TCAGTGGGGA CGATTTCAGC 
TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

RefSeq	XP_011544138.1
CDS	126..3695
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545836.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X2, mRNA.

Target ORF information:

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

XM_011545836.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC 
CGTGGTGAGC AGGGCCACCC CTGGGGCCGC TTTGGGGCAG CCCTGACAGT GTTGGGGGAT 
GTGAATGAGG ACAAGCTGAT AGACGTGGCC ATTGGGGCCC CGGGAGAGCA GGAGAACCGG 
GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA GAATCCGGCA TCAGCCCCTC CCACAGCCAG 
CGGATTGCCA GCTCCCAGCT CTCCCCCAGG CTGCAGTATT TTGGGCAGGC GCTGAGTGGG 
GGTCAGGACC TCACCCAGGA TGGACTGATG GACCTGGCCG TGGGGGCCCG GGGCCAGGTG 
CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA GTGGGGGTGG CCATGAGATT CAGCCCTGTG 
GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG 
GACGCCACCG TCTGTCTCAC CATCCAGAAA AGCTCACTGG ACCAGCTAGG TGACATCCAA 
AGCTCTGTCA GGTTTGATCT GGCACTGGAC CCAGGTCGTC TGACTTCTCG TGCCATTTTC 
AATGAAACCA AGAACCCCAC TTTGACTCGA AGAAAAACCC TGGGACTGGG GATTCACTGT 
GAAACCCTGA AGCTGCTTTT GCCAGATTGT GTGGAGGATG TGGTGAGCCC CATCATTCTG 
CACCTCAACT TCTCACTGGT GAGAGAGCCC ATCCCCTCCC CCCAGAACCT GCGTCCTGTG 
CTGGCCGTGG GCTCACAAGA CCTCTTCACT GCTTCTCTCC CCTTCGAGAA GAACTGTGGG 
CAAGATGGCC TCTGTGAAGG GGACCTGGGT GTCACCCTCA GCTTCTCAGG CCTGCAGACC 
CTGACCGTGG GGAGCTCCCT GGAGCTCAAC GTGATTGTGA CTGTGTGGAA CGCAGGTGAG 
GATTCCTACG GAACCGTGGT CAGCCTCTAC TATCCAGCAG GGCTGTCGCA CCGACGGGTG 
TCAGGAGCCC AGAAGCAGCC CCATCAGAGT GCCCTGCGCC TGGCATGTGA GACAGTGCCC 
ACTGAGGATG AGGGCCTAAG AAGCAGCCGC TGCAGTGTCA ACCACCCCAT CTTCCATGAG 
GGCTCTAACG GCACCTTCAT AGTCACATTC GATGTCTCCT ACAAGGCCAC CCTGGGAGAC 
AGGATGCTTA TGAGGGCCAG TGCAAGCAGT GAGAACAATA AGGCTTCAAG CAGCAAGGCC 
ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT GCAGTCTACA CCATGATCAG CAGGTGCCCA 
GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC TTCCTCTATG CCTGGCAGGA AGAATCCACC 
AAGTACTTCA ACTTTGCAAC CTCCGATGAG AAGAAAATGA AAGAGGCTGA GCATCGATAC 
CGTGTGAATA ACCTCAGCCA GCGAGATCTG GCCATCAGCA TTAACTTCTG GGTTCCTGTC 
CTGCTGAACG GGGTGGCTGT GTGGGATGTG GTCATGGAGG CCCCATCTCA GAGTCTCCCC 
TGTGTTTCAG AGAGAAAACC TCCCCAGCAT TCTGACTTCC TGACCCAGAT TTCAAGAAGT 
CCCATGCTGG ACTGCTCCAT TGCTGACTGC CTGCAGTTCC GCTGTGACGT CCCCTCCTTC 
AGCGTCCAGG AGGAGCTGGA TTTCACCCTG AAGGGCAATC TCAGTTTCGG CTGGGTCCGC 
GAGACATTGC AGAAGAAGGT GTTGGTCGTG AGTGTGGCTG AAATTACGTT CGACACATCC 
GTGTACTCCC AGCTTCCAGG ACAGGAGGCA TTTATGAGAG CTCAGATGGA GATGGTGCTA 
GAAGAAGACG AGGTCTACAA TGCCATTCCC ATCATCATGG GCAGCTCTGT GGGGGCTCTG 
CTACTGCTGG CGCTCATCAC AGCCACACTG TACAAGCTTG GCTTCTTCAA ACGCCACTAC 
AAGGAAATGC TGGAGGACAA GCCTGAAGAC ACTGCCACAT TCAGTGGGGA CGATTTCAGC 
TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

ITGAD ( XM_011545836.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544138.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu58486
Clone ID Related Accession (Same CDS sequence)	XM_011545836.2 , XM_011545836.3
Accession Version	XM_011545836.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3570bp) 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	integrin alpha-D isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545836.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC 
CGTGGTGAGC AGGGCCACCC CTGGGGCCGC TTTGGGGCAG CCCTGACAGT GTTGGGGGAT 
GTGAATGAGG ACAAGCTGAT AGACGTGGCC ATTGGGGCCC CGGGAGAGCA GGAGAACCGG 
GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA GAATCCGGCA TCAGCCCCTC CCACAGCCAG 
CGGATTGCCA GCTCCCAGCT CTCCCCCAGG CTGCAGTATT TTGGGCAGGC GCTGAGTGGG 
GGTCAGGACC TCACCCAGGA TGGACTGATG GACCTGGCCG TGGGGGCCCG GGGCCAGGTG 
CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA GTGGGGGTGG CCATGAGATT CAGCCCTGTG 
GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG 
GACGCCACCG TCTGTCTCAC CATCCAGAAA AGCTCACTGG ACCAGCTAGG TGACATCCAA 
AGCTCTGTCA GGTTTGATCT GGCACTGGAC CCAGGTCGTC TGACTTCTCG TGCCATTTTC 
AATGAAACCA AGAACCCCAC TTTGACTCGA AGAAAAACCC TGGGACTGGG GATTCACTGT 
GAAACCCTGA AGCTGCTTTT GCCAGATTGT GTGGAGGATG TGGTGAGCCC CATCATTCTG 
CACCTCAACT TCTCACTGGT GAGAGAGCCC ATCCCCTCCC CCCAGAACCT GCGTCCTGTG 
CTGGCCGTGG GCTCACAAGA CCTCTTCACT GCTTCTCTCC CCTTCGAGAA GAACTGTGGG 
CAAGATGGCC TCTGTGAAGG GGACCTGGGT GTCACCCTCA GCTTCTCAGG CCTGCAGACC 
CTGACCGTGG GGAGCTCCCT GGAGCTCAAC GTGATTGTGA CTGTGTGGAA CGCAGGTGAG 
GATTCCTACG GAACCGTGGT CAGCCTCTAC TATCCAGCAG GGCTGTCGCA CCGACGGGTG 
TCAGGAGCCC AGAAGCAGCC CCATCAGAGT GCCCTGCGCC TGGCATGTGA GACAGTGCCC 
ACTGAGGATG AGGGCCTAAG AAGCAGCCGC TGCAGTGTCA ACCACCCCAT CTTCCATGAG 
GGCTCTAACG GCACCTTCAT AGTCACATTC GATGTCTCCT ACAAGGCCAC CCTGGGAGAC 
AGGATGCTTA TGAGGGCCAG TGCAAGCAGT GAGAACAATA AGGCTTCAAG CAGCAAGGCC 
ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT GCAGTCTACA CCATGATCAG CAGGTGCCCA 
GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC TTCCTCTATG CCTGGCAGGA AGAATCCACC 
AAGTACTTCA ACTTTGCAAC CTCCGATGAG AAGAAAATGA AAGAGGCTGA GCATCGATAC 
CGTGTGAATA ACCTCAGCCA GCGAGATCTG GCCATCAGCA TTAACTTCTG GGTTCCTGTC 
CTGCTGAACG GGGTGGCTGT GTGGGATGTG GTCATGGAGG CCCCATCTCA GAGTCTCCCC 
TGTGTTTCAG AGAGAAAACC TCCCCAGCAT TCTGACTTCC TGACCCAGAT TTCAAGAAGT 
CCCATGCTGG ACTGCTCCAT TGCTGACTGC CTGCAGTTCC GCTGTGACGT CCCCTCCTTC 
AGCGTCCAGG AGGAGCTGGA TTTCACCCTG AAGGGCAATC TCAGTTTCGG CTGGGTCCGC 
GAGACATTGC AGAAGAAGGT GTTGGTCGTG AGTGTGGCTG AAATTACGTT CGACACATCC 
GTGTACTCCC AGCTTCCAGG ACAGGAGGCA TTTATGAGAG CTCAGATGGA GATGGTGCTA 
GAAGAAGACG AGGTCTACAA TGCCATTCCC ATCATCATGG GCAGCTCTGT GGGGGCTCTG 
CTACTGCTGG CGCTCATCAC AGCCACACTG TACAAGCTTG GCTTCTTCAA ACGCCACTAC 
AAGGAAATGC TGGAGGACAA GCCTGAAGAC ACTGCCACAT TCAGTGGGGA CGATTTCAGC 
TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

RefSeq	XP_011544138.1
CDS	127..3696
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545836.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X2, mRNA.

Target ORF information:

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

XM_011545836.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC 
CGTGGTGAGC AGGGCCACCC CTGGGGCCGC TTTGGGGCAG CCCTGACAGT GTTGGGGGAT 
GTGAATGAGG ACAAGCTGAT AGACGTGGCC ATTGGGGCCC CGGGAGAGCA GGAGAACCGG 
GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA GAATCCGGCA TCAGCCCCTC CCACAGCCAG 
CGGATTGCCA GCTCCCAGCT CTCCCCCAGG CTGCAGTATT TTGGGCAGGC GCTGAGTGGG 
GGTCAGGACC TCACCCAGGA TGGACTGATG GACCTGGCCG TGGGGGCCCG GGGCCAGGTG 
CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA GTGGGGGTGG CCATGAGATT CAGCCCTGTG 
GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG 
GACGCCACCG TCTGTCTCAC CATCCAGAAA AGCTCACTGG ACCAGCTAGG TGACATCCAA 
AGCTCTGTCA GGTTTGATCT GGCACTGGAC CCAGGTCGTC TGACTTCTCG TGCCATTTTC 
AATGAAACCA AGAACCCCAC TTTGACTCGA AGAAAAACCC TGGGACTGGG GATTCACTGT 
GAAACCCTGA AGCTGCTTTT GCCAGATTGT GTGGAGGATG TGGTGAGCCC CATCATTCTG 
CACCTCAACT TCTCACTGGT GAGAGAGCCC ATCCCCTCCC CCCAGAACCT GCGTCCTGTG 
CTGGCCGTGG GCTCACAAGA CCTCTTCACT GCTTCTCTCC CCTTCGAGAA GAACTGTGGG 
CAAGATGGCC TCTGTGAAGG GGACCTGGGT GTCACCCTCA GCTTCTCAGG CCTGCAGACC 
CTGACCGTGG GGAGCTCCCT GGAGCTCAAC GTGATTGTGA CTGTGTGGAA CGCAGGTGAG 
GATTCCTACG GAACCGTGGT CAGCCTCTAC TATCCAGCAG GGCTGTCGCA CCGACGGGTG 
TCAGGAGCCC AGAAGCAGCC CCATCAGAGT GCCCTGCGCC TGGCATGTGA GACAGTGCCC 
ACTGAGGATG AGGGCCTAAG AAGCAGCCGC TGCAGTGTCA ACCACCCCAT CTTCCATGAG 
GGCTCTAACG GCACCTTCAT AGTCACATTC GATGTCTCCT ACAAGGCCAC CCTGGGAGAC 
AGGATGCTTA TGAGGGCCAG TGCAAGCAGT GAGAACAATA AGGCTTCAAG CAGCAAGGCC 
ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT GCAGTCTACA CCATGATCAG CAGGTGCCCA 
GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC TTCCTCTATG CCTGGCAGGA AGAATCCACC 
AAGTACTTCA ACTTTGCAAC CTCCGATGAG AAGAAAATGA AAGAGGCTGA GCATCGATAC 
CGTGTGAATA ACCTCAGCCA GCGAGATCTG GCCATCAGCA TTAACTTCTG GGTTCCTGTC 
CTGCTGAACG GGGTGGCTGT GTGGGATGTG GTCATGGAGG CCCCATCTCA GAGTCTCCCC 
TGTGTTTCAG AGAGAAAACC TCCCCAGCAT TCTGACTTCC TGACCCAGAT TTCAAGAAGT 
CCCATGCTGG ACTGCTCCAT TGCTGACTGC CTGCAGTTCC GCTGTGACGT CCCCTCCTTC 
AGCGTCCAGG AGGAGCTGGA TTTCACCCTG AAGGGCAATC TCAGTTTCGG CTGGGTCCGC 
GAGACATTGC AGAAGAAGGT GTTGGTCGTG AGTGTGGCTG AAATTACGTT CGACACATCC 
GTGTACTCCC AGCTTCCAGG ACAGGAGGCA TTTATGAGAG CTCAGATGGA GATGGTGCTA 
GAAGAAGACG AGGTCTACAA TGCCATTCCC ATCATCATGG GCAGCTCTGT GGGGGCTCTG 
CTACTGCTGG CGCTCATCAC AGCCACACTG TACAAGCTTG GCTTCTTCAA ACGCCACTAC 
AAGGAAATGC TGGAGGACAA GCCTGAAGAC ACTGCCACAT TCAGTGGGGA CGATTTCAGC 
TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

ITGAD ( XM_011545837.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544139.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu58487
Clone ID Related Accession (Same CDS sequence)	XM_011545837.2
Accession Version	XM_011545837.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3570bp) 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	integrin alpha-D isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545837.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGCAGCC CCATCAGAGT GCCCTGCGCC TGGCATGTGA GACAGTGCCC 
ACTGAGGATG AGGGCCTAAG AAGCAGCCGC TGCAGTGTCA ACCACCCCAT CTTCCATGAG 
GGCTCTAACG GCACCTTCAT AGTCACATTC GATGTCTCCT ACAAGGCCAC CCTGGGAGAC 
AGGATGCTTA TGAGGGCCAG TGCAAGCAGT GAGAACAATA AGGCTTCAAG CAGCAAGGCC 
ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT GCAGTCTACA CCATGATCAG CAGGTGCCCA 
GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC TTCCTCTATG CCTGGCAGGA AGAATCCACC 
AAGTACTTCA ACTTTGCAAC CTCCGATGAG AAGAAAATGA AAGAGGCTGA GCATCGATAC 
CGTGTGAATA ACCTCAGCCA GCGAGATCTG GCCATCAGCA TTAACTTCTG GGTTCCTGTC 
CTGCTGAACG GGGTGGCTGT GTGGGATGTG GTCATGGAGG CCCCATCTCA GAGTCTCCCC 
TGTGTTTCAG AGAGAAAACC TCCCCAGCAT TCTGACTTCC TGACCCAGAT TTCAAGAAGT 
CCCATGCTGG ACTGCTCCAT TGCTGACTGC CTGCAGTTCC GCTGTGACGT CCCCTCCTTC 
AGCGTCCAGG AGGAGCTGGA TTTCACCCTG AAGGGCAATC TCAGTTTCGG CTGGGTCCGC 
GAGACATTGC AGAAGAAGGT GTTGGTCGTG AGTGTGGCTG AAATTACGTT CGACACATCC 
GTGTACTCCC AGCTTCCAGG ACAGGAGGCA TTTATGAGAG CTCAGATGGA GATGGTGCTA 
GAAGAAGACG AGGTCTACAA TGCCATTCCC ATCATCATGG GCAGCTCTGT GGGGGCTCTG 
CTACTGCTGG CGCTCATCAC AGCCACACTG TACAAGCTTG GCTTCTTCAA ACGCCACTAC 
AAGGAAATGC TGGAGGACAA GCCTGAAGAC ACTGCCACAT TCAGTGGGGA CGATTTCAGC 
TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

RefSeq	XP_011544139.1
CDS	129..3698
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545837.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X3, mRNA.

Target ORF information:

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

XM_011545837.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGCAGCC CCATCAGAGT GCCCTGCGCC TGGCATGTGA GACAGTGCCC 
ACTGAGGATG AGGGCCTAAG AAGCAGCCGC TGCAGTGTCA ACCACCCCAT CTTCCATGAG 
GGCTCTAACG GCACCTTCAT AGTCACATTC GATGTCTCCT ACAAGGCCAC CCTGGGAGAC 
AGGATGCTTA TGAGGGCCAG TGCAAGCAGT GAGAACAATA AGGCTTCAAG CAGCAAGGCC 
ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT GCAGTCTACA CCATGATCAG CAGGTGCCCA 
GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC TTCCTCTATG CCTGGCAGGA AGAATCCACC 
AAGTACTTCA ACTTTGCAAC CTCCGATGAG AAGAAAATGA AAGAGGCTGA GCATCGATAC 
CGTGTGAATA ACCTCAGCCA GCGAGATCTG GCCATCAGCA TTAACTTCTG GGTTCCTGTC 
CTGCTGAACG GGGTGGCTGT GTGGGATGTG GTCATGGAGG CCCCATCTCA GAGTCTCCCC 
TGTGTTTCAG AGAGAAAACC TCCCCAGCAT TCTGACTTCC TGACCCAGAT TTCAAGAAGT 
CCCATGCTGG ACTGCTCCAT TGCTGACTGC CTGCAGTTCC GCTGTGACGT CCCCTCCTTC 
AGCGTCCAGG AGGAGCTGGA TTTCACCCTG AAGGGCAATC TCAGTTTCGG CTGGGTCCGC 
GAGACATTGC AGAAGAAGGT GTTGGTCGTG AGTGTGGCTG AAATTACGTT CGACACATCC 
GTGTACTCCC AGCTTCCAGG ACAGGAGGCA TTTATGAGAG CTCAGATGGA GATGGTGCTA 
GAAGAAGACG AGGTCTACAA TGCCATTCCC ATCATCATGG GCAGCTCTGT GGGGGCTCTG 
CTACTGCTGG CGCTCATCAC AGCCACACTG TACAAGCTTG GCTTCTTCAA ACGCCACTAC 
AAGGAAATGC TGGAGGACAA GCCTGAAGAC ACTGCCACAT TCAGTGGGGA CGATTTCAGC 
TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

ITGAD ( XM_011545838.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544140.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu58488
Clone ID Related Accession (Same CDS sequence)	XM_011545838.2
Accession Version	XM_011545838.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3540bp) 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	integrin alpha-D isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545838.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGCAG 
AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC CGTGGTGAGC AGGGCCACCC CTGGGGCCGC 
TTTGGGGCAG CCCTGACAGT GTTGGGGGAT GTGAATGAGG ACAAGCTGAT AGACGTGGCC 
ATTGGGGCCC CGGGAGAGCA GGAGAACCGG GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA 
GAATCCGGCA TCAGCCCCTC CCACAGCCAG CGGATTGCCA GCTCCCAGCT CTCCCCCAGG 
CTGCAGTATT TTGGGCAGGC GCTGAGTGGG GGTCAGGACC TCACCCAGGA TGGACTGATG 
GACCTGGCCG TGGGGGCCCG GGGCCAGGTG CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA 
GTGGGGGTGG CCATGAGATT CAGCCCTGTG GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG 
GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG GACGCCACCG TCTGTCTCAC CATCCAGAAA 
AGCTCACTGG ACCAGCTAGG TGACATCCAA AGCTCTGTCA GGTTTGATCT GGCACTGGAC 
CCAGGTCGTC TGACTTCTCG TGCCATTTTC AATGAAACCA AGAACCCCAC TTTGACTCGA 
AGAAAAACCC TGGGACTGGG GATTCACTGT GAAACCCTGA AGCTGCTTTT GCCAGATTGT 
GTGGAGGATG TGGTGAGCCC CATCATTCTG CACCTCAACT TCTCACTGGT GAGAGAGCCC 
ATCCCCTCCC CCCAGAACCT GCGTCCTGTG CTGGCCGTGG GCTCACAAGA CCTCTTCACT 
GCTTCTCTCC CCTTCGAGAA GAACTGTGGG CAAGATGGCC TCTGTGAAGG GGACCTGGGT 
GTCACCCTCA GCTTCTCAGG CCTGCAGACC CTGACCGTGG GGAGCTCCCT GGAGCTCAAC 
GTGATTGTGA CTGTGTGGAA CGCAGGTGAG GATTCCTACG GAACCGTGGT CAGCCTCTAC 
TATCCAGCAG GGCTGTCGCA CCGACGGGTG TCAGGAGCCC AGAAGCAGCC CCATCAGAGT 
GCCCTGCGCC TGGCATGTGA GACAGTGCCC ACTGAGGATG AGGGCCTAAG AAGCAGCCGC 
TGCAGTGTCA ACCACCCCAT CTTCCATGAG GGCTCTAACG GCACCTTCAT AGTCACATTC 
GATGTCTCCT ACAAGGCCAC CCTGGGAGAC AGGATGCTTA TGAGGGCCAG TGCAAGCAGT 
GAGAACAATA AGGCTTCAAG CAGCAAGGCC ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT 
GCAGTCTACA CCATGATCAG CAGGTGCCCA GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC 
TTCCTCTATG CCTGGCAGGA AGAATCCACC AAGTACTTCA ACTTTGCAAC CTCCGATGAG 
AAGAAAATGA AAGAGGCTGA GCATCGATAC CGTGTGAATA ACCTCAGCCA GCGAGATCTG 
GCCATCAGCA TTAACTTCTG GGTTCCTGTC CTGCTGAACG GGGTGGCTGT GTGGGATGTG 
GTCATGGAGG CCCCATCTCA GAGTCTCCCC TGTGTTTCAG AGAGAAAACC TCCCCAGCAT 
TCTGACTTCC TGACCCAGAT TTCAAGAAGT CCCATGCTGG ACTGCTCCAT TGCTGACTGC 
CTGCAGTTCC GCTGTGACGT CCCCTCCTTC AGCGTCCAGG AGGAGCTGGA TTTCACCCTG 
AAGGGCAATC TCAGTTTCGG CTGGGTCCGC GAGACATTGC AGAAGAAGGT GTTGGTCGTG 
AGTGTGGCTG AAATTACGTT CGACACATCC GTGTACTCCC AGCTTCCAGG ACAGGAGGCA 
TTTATGAGAG CTCAGATGGA GATGGTGCTA GAAGAAGACG AGGTCTACAA TGCCATTCCC 
ATCATCATGG GCAGCTCTGT GGGGGCTCTG CTACTGCTGG CGCTCATCAC AGCCACACTG 
TACAAGCTTG GCTTCTTCAA ACGCCACTAC AAGGAAATGC TGGAGGACAA GCCTGAAGAC 
ACTGCCACAT TCAGTGGGGA CGATTTCAGC TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

RefSeq	XP_011544140.1
CDS	126..3665
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545838.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X4, mRNA.

Target ORF information:

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

XM_011545838.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGCAG 
AGGGTGCAGT GGCAGTGTGA CGCTGTTCTC CGTGGTGAGC AGGGCCACCC CTGGGGCCGC 
TTTGGGGCAG CCCTGACAGT GTTGGGGGAT GTGAATGAGG ACAAGCTGAT AGACGTGGCC 
ATTGGGGCCC CGGGAGAGCA GGAGAACCGG GGTGCTGTCT ACCTGTTTCA CGGAGCCTCA 
GAATCCGGCA TCAGCCCCTC CCACAGCCAG CGGATTGCCA GCTCCCAGCT CTCCCCCAGG 
CTGCAGTATT TTGGGCAGGC GCTGAGTGGG GGTCAGGACC TCACCCAGGA TGGACTGATG 
GACCTGGCCG TGGGGGCCCG GGGCCAGGTG CTCCTGCTCA GGAGTCTGCC GGTGCTGAAA 
GTGGGGGTGG CCATGAGATT CAGCCCTGTG GAGGTGGCCA AGGCTGTGTA CCGGTGCTGG 
GAAGAGAAGC CCAGTGCCCT GGAAGCTGGG GACGCCACCG TCTGTCTCAC CATCCAGAAA 
AGCTCACTGG ACCAGCTAGG TGACATCCAA AGCTCTGTCA GGTTTGATCT GGCACTGGAC 
CCAGGTCGTC TGACTTCTCG TGCCATTTTC AATGAAACCA AGAACCCCAC TTTGACTCGA 
AGAAAAACCC TGGGACTGGG GATTCACTGT GAAACCCTGA AGCTGCTTTT GCCAGATTGT 
GTGGAGGATG TGGTGAGCCC CATCATTCTG CACCTCAACT TCTCACTGGT GAGAGAGCCC 
ATCCCCTCCC CCCAGAACCT GCGTCCTGTG CTGGCCGTGG GCTCACAAGA CCTCTTCACT 
GCTTCTCTCC CCTTCGAGAA GAACTGTGGG CAAGATGGCC TCTGTGAAGG GGACCTGGGT 
GTCACCCTCA GCTTCTCAGG CCTGCAGACC CTGACCGTGG GGAGCTCCCT GGAGCTCAAC 
GTGATTGTGA CTGTGTGGAA CGCAGGTGAG GATTCCTACG GAACCGTGGT CAGCCTCTAC 
TATCCAGCAG GGCTGTCGCA CCGACGGGTG TCAGGAGCCC AGAAGCAGCC CCATCAGAGT 
GCCCTGCGCC TGGCATGTGA GACAGTGCCC ACTGAGGATG AGGGCCTAAG AAGCAGCCGC 
TGCAGTGTCA ACCACCCCAT CTTCCATGAG GGCTCTAACG GCACCTTCAT AGTCACATTC 
GATGTCTCCT ACAAGGCCAC CCTGGGAGAC AGGATGCTTA TGAGGGCCAG TGCAAGCAGT 
GAGAACAATA AGGCTTCAAG CAGCAAGGCC ACCTTCCAGC TGGAGCTCCC GGTGAAGTAT 
GCAGTCTACA CCATGATCAG CAGGTGCCCA GTCCCTGGCC TTCCCCTTGG ACCTCTGGCC 
TTCCTCTATG CCTGGCAGGA AGAATCCACC AAGTACTTCA ACTTTGCAAC CTCCGATGAG 
AAGAAAATGA AAGAGGCTGA GCATCGATAC CGTGTGAATA ACCTCAGCCA GCGAGATCTG 
GCCATCAGCA TTAACTTCTG GGTTCCTGTC CTGCTGAACG GGGTGGCTGT GTGGGATGTG 
GTCATGGAGG CCCCATCTCA GAGTCTCCCC TGTGTTTCAG AGAGAAAACC TCCCCAGCAT 
TCTGACTTCC TGACCCAGAT TTCAAGAAGT CCCATGCTGG ACTGCTCCAT TGCTGACTGC 
CTGCAGTTCC GCTGTGACGT CCCCTCCTTC AGCGTCCAGG AGGAGCTGGA TTTCACCCTG 
AAGGGCAATC TCAGTTTCGG CTGGGTCCGC GAGACATTGC AGAAGAAGGT GTTGGTCGTG 
AGTGTGGCTG AAATTACGTT CGACACATCC GTGTACTCCC AGCTTCCAGG ACAGGAGGCA 
TTTATGAGAG CTCAGATGGA GATGGTGCTA GAAGAAGACG AGGTCTACAA TGCCATTCCC 
ATCATCATGG GCAGCTCTGT GGGGGCTCTG CTACTGCTGG CGCTCATCAC AGCCACACTG 
TACAAGCTTG GCTTCTTCAA ACGCCACTAC AAGGAAATGC TGGAGGACAA GCCTGAAGAC 
ACTGCCACAT TCAGTGGGGA CGATTTCAGC TGTGTGGCCC CAAATGTGCC TTTGTCCTAA

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

ITGAD ( XM_011545839.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544141.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu58489
Clone ID Related Accession (Same CDS sequence)	XM_011545839.2
Accession Version	XM_011545839.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3522bp) 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	integrin alpha-D isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545839.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGCAG 
GAAGAATCCA CCAAGTACTT CAACTTTGCA ACCTCCGATG AGAAGAAAAT GAAAGAGGCT 
GAGCATCGAT ACCGTGTGAA TAACCTCAGC CAGCGAGATC TGGCCATCAG CATTAACTTC 
TGGGTTCCTG TCCTGCTGAA CGGGGTGGCT GTGTGGGATG TGGTCATGGA GGCCCCATCT 
CAGAGTCTCC CCTGTGTTTC AGAGAGAAAA CCTCCCCAGC ATTCTGACTT CCTGACCCAG 
ATTTCAAGAA GTCCCATGCT GGACTGCTCC ATTGCTGACT GCCTGCAGTT CCGCTGTGAC 
GTCCCCTCCT TCAGCGTCCA GGAGGAGCTG GATTTCACCC TGAAGGGCAA TCTCAGTTTC 
GGCTGGGTCC GCGAGACATT GCAGAAGAAG GTGTTGGTCG TGAGTGTGGC TGAAATTACG 
TTCGACACAT CCGTGTACTC CCAGCTTCCA GGACAGGAGG CATTTATGAG AGCTCAGATG 
GAGATGGTGC TAGAAGAAGA CGAGGTCTAC AATGCCATTC CCATCATCAT GGGCAGCTCT 
GTGGGGGCTC TGCTACTGCT GGCGCTCATC ACAGCCACAC TGTACAAGCT TGGCTTCTTC 
AAACGCCACT ACAAGGAAAT GCTGGAGGAC AAGCCTGAAG ACACTGCCAC ATTCAGTGGG 
GACGATTTCA GCTGTGTGGC CCCAAATGTG CCTTTGTCCT AA

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

RefSeq	XP_011544141.1
CDS	126..3647
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545839.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X5, mRNA.

Target ORF information:

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

XM_011545839.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGCAG 
GAAGAATCCA CCAAGTACTT CAACTTTGCA ACCTCCGATG AGAAGAAAAT GAAAGAGGCT 
GAGCATCGAT ACCGTGTGAA TAACCTCAGC CAGCGAGATC TGGCCATCAG CATTAACTTC 
TGGGTTCCTG TCCTGCTGAA CGGGGTGGCT GTGTGGGATG TGGTCATGGA GGCCCCATCT 
CAGAGTCTCC CCTGTGTTTC AGAGAGAAAA CCTCCCCAGC ATTCTGACTT CCTGACCCAG 
ATTTCAAGAA GTCCCATGCT GGACTGCTCC ATTGCTGACT GCCTGCAGTT CCGCTGTGAC 
GTCCCCTCCT TCAGCGTCCA GGAGGAGCTG GATTTCACCC TGAAGGGCAA TCTCAGTTTC 
GGCTGGGTCC GCGAGACATT GCAGAAGAAG GTGTTGGTCG TGAGTGTGGC TGAAATTACG 
TTCGACACAT CCGTGTACTC CCAGCTTCCA GGACAGGAGG CATTTATGAG AGCTCAGATG 
GAGATGGTGC TAGAAGAAGA CGAGGTCTAC AATGCCATTC CCATCATCAT GGGCAGCTCT 
GTGGGGGCTC TGCTACTGCT GGCGCTCATC ACAGCCACAC TGTACAAGCT TGGCTTCTTC 
AAACGCCACT ACAAGGAAAT GCTGGAGGAC AAGCCTGAAG ACACTGCCAC ATTCAGTGGG 
GACGATTTCA GCTGTGTGGC CCCAAATGTG CCTTTGTCCT AA

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

ITGAD ( XM_011545841.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544143.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OHu58491
Clone ID Related Accession (Same CDS sequence)	XM_011545841.2
Accession Version	XM_011545841.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3483bp) 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	integrin alpha-D isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545841.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGAGG 
GTGCAGTGGC AGTGTGACGC TGTTCTCCGT GGTGAGCAGG GCCACCCCTG GGGCCGCTTT 
GGGGCAGCCC TGACAGTGTT GGGGGATGTG AATGAGGACA AGCTGATAGA CGTGGCCATT 
GGGGCCCCGG GAGAGCAGGA GAACCGGGGT GCTGTCTACC TGTTTCACGG AGCCTCAGAA 
TCCGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCCAGCT CCCAGCTCTC CCCCAGGCTG 
CAGTATTTTG GGCAGGCGCT GAGTGGGGGT CAGGACCTCA CCCAGGATGG ACTGATGGAC 
CTGGCCGTGG GGGCCCGGGG CCAGGTGCTC CTGCTCAGGA GTCTGCCGGT GCTGAAAGTG 
GGGGTGGCCA TGAGATTCAG CCCTGTGGAG GTGGCCAAGG CTGTGTACCG GTGCTGGGAA 
GAGAAGCCCA GTGCCCTGGA AGCTGGGGAC GCCACCGTCT GTCTCACCAT CCAGAAAAGC 
TCACTGGACC AGCTAGGTGA CATCCAAAGC TCTGTCAGGT TTGATCTGGC ACTGGACCCA 
GGTCGTCTGA CTTCTCGTGC CATTTTCAAT GAAACCAAGA ACCCCACTTT GACTCGAAGA 
AAAACCCTGG GACTGGGGAT TCACTGTGAA ACCCTGAAGC TGCTTTTGCC AGATTGTGTG 
GAGGATGTGG TGAGCCCCAT CATTCTGCAC CTCAACTTCT CACTGGTGAG AGAGCCCATC 
CCCTCCCCCC AGAACCTGCG TCCTGTGCTG GCCGTGGGCT CACAAGACCT CTTCACTGCT 
TCTCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGC AGCCCCATCA GAGTGCCCTG 
CGCCTGGCAT GTGAGACAGT GCCCACTGAG GATGAGGGCC TAAGAAGCAG CCGCTGCAGT 
GTCAACCACC CCATCTTCCA TGAGGGCTCT AACGGCACCT TCATAGTCAC ATTCGATGTC 
TCCTACAAGG CCACCCTGGG AGACAGGATG CTTATGAGGG CCAGTGCAAG CAGTGAGAAC 
AATAAGGCTT CAAGCAGCAA GGCCACCTTC CAGCTGGAGC TCCCGGTGAA GTATGCAGTC 
TACACCATGA TCAGCAGGCA GGAAGAATCC ACCAAGTACT TCAACTTTGC AACCTCCGAT 
GAGAAGAAAA TGAAAGAGGC TGAGCATCGA TACCGTGTGA ATAACCTCAG CCAGCGAGAT 
CTGGCCATCA GCATTAACTT CTGGGTTCCT GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT 
GTGGTCATGG AGGCCCCATC TCAGAGTCTC CCCTGTGTTT CAGAGAGAAA ACCTCCCCAG 
CATTCTGACT TCCTGACCCA GATTTCAAGA AGTCCCATGC TGGACTGCTC CATTGCTGAC 
TGCCTGCAGT TCCGCTGTGA CGTCCCCTCC TTCAGCGTCC AGGAGGAGCT GGATTTCACC 
CTGAAGGGCA ATCTCAGTTT CGGCTGGGTC CGCGAGACAT TGCAGAAGAA GGTGTTGGTC 
GTGAGTGTGG CTGAAATTAC GTTCGACACA TCCGTGTACT CCCAGCTTCC AGGACAGGAG 
GCATTTATGA GAGCTCAGAT GGAGATGGTG CTAGAAGAAG ACGAGGTCTA CAATGCCATT 
CCCATCATCA TGGGCAGCTC TGTGGGGGCT CTGCTACTGC TGGCGCTCAT CACAGCCACA 
CTGTACAAGC TTGGCTTCTT CAAACGCCAC TACAAGGAAA TGCTGGAGGA CAAGCCTGAA 
GACACTGCCA CATTCAGTGG GGACGATTTC AGCTGTGTGG CCCCAAATGT GCCTTTGTCC 
TAA

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

RefSeq	XP_011544143.1
CDS	125..3607
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545841.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X7, mRNA.

Target ORF information:

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

XM_011545841.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGATGGCC TCTTCCTGGG GGCTGTGGGG AGCTTTAGCT GGTCTGGAGG TGCCTTCCTG 
TATCCCCCAA ATATGAGCCC CACCTTCATC AACATGTCTC AGGAGAATGT GGACATGAGG 
GACTCTTACC TGGGTTACTC CACCGAGCTA GCCCTGTGGA AGGGGGTACA GAACCTGGTC 
CTGGGGGCCC CCCGCTACCA GCATACCGGG AAGGCTGTCA TCTTCACCCA GGTGTCCAGG 
CAATGGAGGA AGAAGGCCGA AGTCACAGGG ACGCAGATCG GCTCCTACTT CGGGGCCTCC 
CTCTGCTCTG TGGATGTGGA CAGCGATGGC AGCACCGACC TGATCCTCAT TGGGGCCCCC 
CATTACTATG AGCAGACCCG AGGGGGCCAG GTGTCCGTGT GTCCCTTGCC TAGGGGGAGG 
GTGCAGTGGC AGTGTGACGC TGTTCTCCGT GGTGAGCAGG GCCACCCCTG GGGCCGCTTT 
GGGGCAGCCC TGACAGTGTT GGGGGATGTG AATGAGGACA AGCTGATAGA CGTGGCCATT 
GGGGCCCCGG GAGAGCAGGA GAACCGGGGT GCTGTCTACC TGTTTCACGG AGCCTCAGAA 
TCCGGCATCA GCCCCTCCCA CAGCCAGCGG ATTGCCAGCT CCCAGCTCTC CCCCAGGCTG 
CAGTATTTTG GGCAGGCGCT GAGTGGGGGT CAGGACCTCA CCCAGGATGG ACTGATGGAC 
CTGGCCGTGG GGGCCCGGGG CCAGGTGCTC CTGCTCAGGA GTCTGCCGGT GCTGAAAGTG 
GGGGTGGCCA TGAGATTCAG CCCTGTGGAG GTGGCCAAGG CTGTGTACCG GTGCTGGGAA 
GAGAAGCCCA GTGCCCTGGA AGCTGGGGAC GCCACCGTCT GTCTCACCAT CCAGAAAAGC 
TCACTGGACC AGCTAGGTGA CATCCAAAGC TCTGTCAGGT TTGATCTGGC ACTGGACCCA 
GGTCGTCTGA CTTCTCGTGC CATTTTCAAT GAAACCAAGA ACCCCACTTT GACTCGAAGA 
AAAACCCTGG GACTGGGGAT TCACTGTGAA ACCCTGAAGC TGCTTTTGCC AGATTGTGTG 
GAGGATGTGG TGAGCCCCAT CATTCTGCAC CTCAACTTCT CACTGGTGAG AGAGCCCATC 
CCCTCCCCCC AGAACCTGCG TCCTGTGCTG GCCGTGGGCT CACAAGACCT CTTCACTGCT 
TCTCTCCCCT TCGAGAAGAA CTGTGGGCAA GATGGCCTCT GTGAAGGGGA CCTGGGTGTC 
ACCCTCAGCT TCTCAGGCCT GCAGACCCTG ACCGTGGGGA GCTCCCTGGA GCTCAACGTG 
ATTGTGACTG TGTGGAACGC AGGTGAGGAT TCCTACGGAA CCGTGGTCAG CCTCTACTAT 
CCAGCAGGGC TGTCGCACCG ACGGGTGTCA GGAGCCCAGC AGCCCCATCA GAGTGCCCTG 
CGCCTGGCAT GTGAGACAGT GCCCACTGAG GATGAGGGCC TAAGAAGCAG CCGCTGCAGT 
GTCAACCACC CCATCTTCCA TGAGGGCTCT AACGGCACCT TCATAGTCAC ATTCGATGTC 
TCCTACAAGG CCACCCTGGG AGACAGGATG CTTATGAGGG CCAGTGCAAG CAGTGAGAAC 
AATAAGGCTT CAAGCAGCAA GGCCACCTTC CAGCTGGAGC TCCCGGTGAA GTATGCAGTC 
TACACCATGA TCAGCAGGCA GGAAGAATCC ACCAAGTACT TCAACTTTGC AACCTCCGAT 
GAGAAGAAAA TGAAAGAGGC TGAGCATCGA TACCGTGTGA ATAACCTCAG CCAGCGAGAT 
CTGGCCATCA GCATTAACTT CTGGGTTCCT GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT 
GTGGTCATGG AGGCCCCATC TCAGAGTCTC CCCTGTGTTT CAGAGAGAAA ACCTCCCCAG 
CATTCTGACT TCCTGACCCA GATTTCAAGA AGTCCCATGC TGGACTGCTC CATTGCTGAC 
TGCCTGCAGT TCCGCTGTGA CGTCCCCTCC TTCAGCGTCC AGGAGGAGCT GGATTTCACC 
CTGAAGGGCA ATCTCAGTTT CGGCTGGGTC CGCGAGACAT TGCAGAAGAA GGTGTTGGTC 
GTGAGTGTGG CTGAAATTAC GTTCGACACA TCCGTGTACT CCCAGCTTCC AGGACAGGAG 
GCATTTATGA GAGCTCAGAT GGAGATGGTG CTAGAAGAAG ACGAGGTCTA CAATGCCATT 
CCCATCATCA TGGGCAGCTC TGTGGGGGCT CTGCTACTGC TGGCGCTCAT CACAGCCACA 
CTGTACAAGC TTGGCTTCTT CAAACGCCAC TACAAGGAAA TGCTGGAGGA CAAGCCTGAA 
GACACTGCCA CATTCAGTGG GGACGATTTC AGCTGTGTGG CCCCAAATGT GCCTTTGTCC 
TAA

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

ITGAD ( XM_011545842.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544144.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OHu58492
Clone ID Related Accession (Same CDS sequence)	XM_011545842.3 , XM_011545842.2
Accession Version	XM_011545842.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3312bp) 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	integrin alpha-D isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545842.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGTGTCCA GGCAATGGAG GAAGAAGGCC GAAGTCACAG GGACGCAGAT CGGCTCCTAC 
TTCGGGGCCT CCCTCTGCTC TGTGGATGTG GACAGCGATG GCAGCACCGA CCTGATCCTC 
ATTGGGGCCC CCCATTACTA TGAGCAGACC CGAGGGGGCC AGGTGTCCGT GTGTCCCTTG 
CCTAGGGGGC AGAGGGTGCA GTGGCAGTGT GACGCTGTTC TCCGTGGTGA GCAGGGCCAC 
CCCTGGGGCC GCTTTGGGGC AGCCCTGACA GTGTTGGGGG ATGTGAATGA GGACAAGCTG 
ATAGACGTGG CCATTGGGGC CCCGGGAGAG CAGGAGAACC GGGGTGCTGT CTACCTGTTT 
CACGGAGCCT CAGAATCCGG CATCAGCCCC TCCCACAGCC AGCGGATTGC CAGCTCCCAG 
CTCTCCCCCA GGCTGCAGTA TTTTGGGCAG GCGCTGAGTG GGGGTCAGGA CCTCACCCAG 
GATGGACTGA TGGACCTGGC CGTGGGGGCC CGGGGCCAGG TGCTCCTGCT CAGGAGTCTG 
CCGGTGCTGA AAGTGGGGGT GGCCATGAGA TTCAGCCCTG TGGAGGTGGC CAAGGCTGTG 
TACCGGTGCT GGGAAGAGAA GCCCAGTGCC CTGGAAGCTG GGGACGCCAC CGTCTGTCTC 
ACCATCCAGA AAAGCTCACT GGACCAGCTA GGTGACATCC AAAGCTCTGT CAGGTTTGAT 
CTGGCACTGG ACCCAGGTCG TCTGACTTCT CGTGCCATTT TCAATGAAAC CAAGAACCCC 
ACTTTGACTC GAAGAAAAAC CCTGGGACTG GGGATTCACT GTGAAACCCT GAAGCTGCTT 
TTGCCAGATT GTGTGGAGGA TGTGGTGAGC CCCATCATTC TGCACCTCAA CTTCTCACTG 
GTGAGAGAGC CCATCCCCTC CCCCCAGAAC CTGCGTCCTG TGCTGGCCGT GGGCTCACAA 
GACCTCTTCA CTGCTTCTCT CCCCTTCGAG AAGAACTGTG GGCAAGATGG CCTCTGTGAA 
GGGGACCTGG GTGTCACCCT CAGCTTCTCA GGCCTGCAGA CCCTGACCGT GGGGAGCTCC 
CTGGAGCTCA ACGTGATTGT GACTGTGTGG AACGCAGGTG AGGATTCCTA CGGAACCGTG 
GTCAGCCTCT ACTATCCAGC AGGGCTGTCG CACCGACGGG TGTCAGGAGC CCAGAAGCAG 
CCCCATCAGA GTGCCCTGCG CCTGGCATGT GAGACAGTGC CCACTGAGGA TGAGGGCCTA 
AGAAGCAGCC GCTGCAGTGT CAACCACCCC ATCTTCCATG AGGGCTCTAA CGGCACCTTC 
ATAGTCACAT TCGATGTCTC CTACAAGGCC ACCCTGGGAG ACAGGATGCT TATGAGGGCC 
AGTGCAAGCA GTGAGAACAA TAAGGCTTCA AGCAGCAAGG CCACCTTCCA GCTGGAGCTC 
CCGGTGAAGT ATGCAGTCTA CACCATGATC AGCAGGTGCC CAGTCCCTGG CCTTCCCCTT 
GGACCTCTGG CCTTCCTCTA TGCCTGGCAG GAAGAATCCA CCAAGTACTT CAACTTTGCA 
ACCTCCGATG AGAAGAAAAT GAAAGAGGCT GAGCATCGAT ACCGTGTGAA TAACCTCAGC 
CAGCGAGATC TGGCCATCAG CATTAACTTC TGGGTTCCTG TCCTGCTGAA CGGGGTGGCT 
GTGTGGGATG TGGTCATGGA GGCCCCATCT CAGAGTCTCC CCTGTGTTTC AGAGAGAAAA 
CCTCCCCAGC ATTCTGACTT CCTGACCCAG ATTTCAAGAA GTCCCATGCT GGACTGCTCC 
ATTGCTGACT GCCTGCAGTT CCGCTGTGAC GTCCCCTCCT TCAGCGTCCA GGAGGAGCTG 
GATTTCACCC TGAAGGGCAA TCTCAGTTTC GGCTGGGTCC GCGAGACATT GCAGAAGAAG 
GTGTTGGTCG TGAGTGTGGC TGAAATTACG TTCGACACAT CCGTGTACTC CCAGCTTCCA 
GGACAGGAGG CATTTATGAG AGCTCAGATG GAGATGGTGC TAGAAGAAGA CGAGGTCTAC 
AATGCCATTC CCATCATCAT GGGCAGCTCT GTGGGGGCTC TGCTACTGCT GGCGCTCATC 
ACAGCCACAC TGTACAAGCT TGGCTTCTTC AAACGCCACT ACAAGGAAAT GCTGGAGGAC 
AAGCCTGAAG ACACTGCCAC ATTCAGTGGG GACGATTTCA GCTGTGTGGC CCCAAATGTG 
CCTTTGTCCT AA

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

RefSeq	XP_011544144.1
CDS	130..3441
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545842.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X9, mRNA.

Target ORF information:

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

XM_011545842.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGTGTCCA GGCAATGGAG GAAGAAGGCC GAAGTCACAG GGACGCAGAT CGGCTCCTAC 
TTCGGGGCCT CCCTCTGCTC TGTGGATGTG GACAGCGATG GCAGCACCGA CCTGATCCTC 
ATTGGGGCCC CCCATTACTA TGAGCAGACC CGAGGGGGCC AGGTGTCCGT GTGTCCCTTG 
CCTAGGGGGC AGAGGGTGCA GTGGCAGTGT GACGCTGTTC TCCGTGGTGA GCAGGGCCAC 
CCCTGGGGCC GCTTTGGGGC AGCCCTGACA GTGTTGGGGG ATGTGAATGA GGACAAGCTG 
ATAGACGTGG CCATTGGGGC CCCGGGAGAG CAGGAGAACC GGGGTGCTGT CTACCTGTTT 
CACGGAGCCT CAGAATCCGG CATCAGCCCC TCCCACAGCC AGCGGATTGC CAGCTCCCAG 
CTCTCCCCCA GGCTGCAGTA TTTTGGGCAG GCGCTGAGTG GGGGTCAGGA CCTCACCCAG 
GATGGACTGA TGGACCTGGC CGTGGGGGCC CGGGGCCAGG TGCTCCTGCT CAGGAGTCTG 
CCGGTGCTGA AAGTGGGGGT GGCCATGAGA TTCAGCCCTG TGGAGGTGGC CAAGGCTGTG 
TACCGGTGCT GGGAAGAGAA GCCCAGTGCC CTGGAAGCTG GGGACGCCAC CGTCTGTCTC 
ACCATCCAGA AAAGCTCACT GGACCAGCTA GGTGACATCC AAAGCTCTGT CAGGTTTGAT 
CTGGCACTGG ACCCAGGTCG TCTGACTTCT CGTGCCATTT TCAATGAAAC CAAGAACCCC 
ACTTTGACTC GAAGAAAAAC CCTGGGACTG GGGATTCACT GTGAAACCCT GAAGCTGCTT 
TTGCCAGATT GTGTGGAGGA TGTGGTGAGC CCCATCATTC TGCACCTCAA CTTCTCACTG 
GTGAGAGAGC CCATCCCCTC CCCCCAGAAC CTGCGTCCTG TGCTGGCCGT GGGCTCACAA 
GACCTCTTCA CTGCTTCTCT CCCCTTCGAG AAGAACTGTG GGCAAGATGG CCTCTGTGAA 
GGGGACCTGG GTGTCACCCT CAGCTTCTCA GGCCTGCAGA CCCTGACCGT GGGGAGCTCC 
CTGGAGCTCA ACGTGATTGT GACTGTGTGG AACGCAGGTG AGGATTCCTA CGGAACCGTG 
GTCAGCCTCT ACTATCCAGC AGGGCTGTCG CACCGACGGG TGTCAGGAGC CCAGAAGCAG 
CCCCATCAGA GTGCCCTGCG CCTGGCATGT GAGACAGTGC CCACTGAGGA TGAGGGCCTA 
AGAAGCAGCC GCTGCAGTGT CAACCACCCC ATCTTCCATG AGGGCTCTAA CGGCACCTTC 
ATAGTCACAT TCGATGTCTC CTACAAGGCC ACCCTGGGAG ACAGGATGCT TATGAGGGCC 
AGTGCAAGCA GTGAGAACAA TAAGGCTTCA AGCAGCAAGG CCACCTTCCA GCTGGAGCTC 
CCGGTGAAGT ATGCAGTCTA CACCATGATC AGCAGGTGCC CAGTCCCTGG CCTTCCCCTT 
GGACCTCTGG CCTTCCTCTA TGCCTGGCAG GAAGAATCCA CCAAGTACTT CAACTTTGCA 
ACCTCCGATG AGAAGAAAAT GAAAGAGGCT GAGCATCGAT ACCGTGTGAA TAACCTCAGC 
CAGCGAGATC TGGCCATCAG CATTAACTTC TGGGTTCCTG TCCTGCTGAA CGGGGTGGCT 
GTGTGGGATG TGGTCATGGA GGCCCCATCT CAGAGTCTCC CCTGTGTTTC AGAGAGAAAA 
CCTCCCCAGC ATTCTGACTT CCTGACCCAG ATTTCAAGAA GTCCCATGCT GGACTGCTCC 
ATTGCTGACT GCCTGCAGTT CCGCTGTGAC GTCCCCTCCT TCAGCGTCCA GGAGGAGCTG 
GATTTCACCC TGAAGGGCAA TCTCAGTTTC GGCTGGGTCC GCGAGACATT GCAGAAGAAG 
GTGTTGGTCG TGAGTGTGGC TGAAATTACG TTCGACACAT CCGTGTACTC CCAGCTTCCA 
GGACAGGAGG CATTTATGAG AGCTCAGATG GAGATGGTGC TAGAAGAAGA CGAGGTCTAC 
AATGCCATTC CCATCATCAT GGGCAGCTCT GTGGGGGCTC TGCTACTGCT GGCGCTCATC 
ACAGCCACAC TGTACAAGCT TGGCTTCTTC AAACGCCACT ACAAGGAAAT GCTGGAGGAC 
AAGCCTGAAG ACACTGCCAC ATTCAGTGGG GACGATTTCA GCTGTGTGGC CCCAAATGTG 
CCTTTGTCCT AA

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

ITGAD ( XM_011545842.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544144.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OHu58492
Clone ID Related Accession (Same CDS sequence)	XM_011545842.3 , XM_011545842.2
Accession Version	XM_011545842.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3312bp) 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	integrin alpha-D isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545842.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGTGTCCA GGCAATGGAG GAAGAAGGCC GAAGTCACAG GGACGCAGAT CGGCTCCTAC 
TTCGGGGCCT CCCTCTGCTC TGTGGATGTG GACAGCGATG GCAGCACCGA CCTGATCCTC 
ATTGGGGCCC CCCATTACTA TGAGCAGACC CGAGGGGGCC AGGTGTCCGT GTGTCCCTTG 
CCTAGGGGGC AGAGGGTGCA GTGGCAGTGT GACGCTGTTC TCCGTGGTGA GCAGGGCCAC 
CCCTGGGGCC GCTTTGGGGC AGCCCTGACA GTGTTGGGGG ATGTGAATGA GGACAAGCTG 
ATAGACGTGG CCATTGGGGC CCCGGGAGAG CAGGAGAACC GGGGTGCTGT CTACCTGTTT 
CACGGAGCCT CAGAATCCGG CATCAGCCCC TCCCACAGCC AGCGGATTGC CAGCTCCCAG 
CTCTCCCCCA GGCTGCAGTA TTTTGGGCAG GCGCTGAGTG GGGGTCAGGA CCTCACCCAG 
GATGGACTGA TGGACCTGGC CGTGGGGGCC CGGGGCCAGG TGCTCCTGCT CAGGAGTCTG 
CCGGTGCTGA AAGTGGGGGT GGCCATGAGA TTCAGCCCTG TGGAGGTGGC CAAGGCTGTG 
TACCGGTGCT GGGAAGAGAA GCCCAGTGCC CTGGAAGCTG GGGACGCCAC CGTCTGTCTC 
ACCATCCAGA AAAGCTCACT GGACCAGCTA GGTGACATCC AAAGCTCTGT CAGGTTTGAT 
CTGGCACTGG ACCCAGGTCG TCTGACTTCT CGTGCCATTT TCAATGAAAC CAAGAACCCC 
ACTTTGACTC GAAGAAAAAC CCTGGGACTG GGGATTCACT GTGAAACCCT GAAGCTGCTT 
TTGCCAGATT GTGTGGAGGA TGTGGTGAGC CCCATCATTC TGCACCTCAA CTTCTCACTG 
GTGAGAGAGC CCATCCCCTC CCCCCAGAAC CTGCGTCCTG TGCTGGCCGT GGGCTCACAA 
GACCTCTTCA CTGCTTCTCT CCCCTTCGAG AAGAACTGTG GGCAAGATGG CCTCTGTGAA 
GGGGACCTGG GTGTCACCCT CAGCTTCTCA GGCCTGCAGA CCCTGACCGT GGGGAGCTCC 
CTGGAGCTCA ACGTGATTGT GACTGTGTGG AACGCAGGTG AGGATTCCTA CGGAACCGTG 
GTCAGCCTCT ACTATCCAGC AGGGCTGTCG CACCGACGGG TGTCAGGAGC CCAGAAGCAG 
CCCCATCAGA GTGCCCTGCG CCTGGCATGT GAGACAGTGC CCACTGAGGA TGAGGGCCTA 
AGAAGCAGCC GCTGCAGTGT CAACCACCCC ATCTTCCATG AGGGCTCTAA CGGCACCTTC 
ATAGTCACAT TCGATGTCTC CTACAAGGCC ACCCTGGGAG ACAGGATGCT TATGAGGGCC 
AGTGCAAGCA GTGAGAACAA TAAGGCTTCA AGCAGCAAGG CCACCTTCCA GCTGGAGCTC 
CCGGTGAAGT ATGCAGTCTA CACCATGATC AGCAGGTGCC CAGTCCCTGG CCTTCCCCTT 
GGACCTCTGG CCTTCCTCTA TGCCTGGCAG GAAGAATCCA CCAAGTACTT CAACTTTGCA 
ACCTCCGATG AGAAGAAAAT GAAAGAGGCT GAGCATCGAT ACCGTGTGAA TAACCTCAGC 
CAGCGAGATC TGGCCATCAG CATTAACTTC TGGGTTCCTG TCCTGCTGAA CGGGGTGGCT 
GTGTGGGATG TGGTCATGGA GGCCCCATCT CAGAGTCTCC CCTGTGTTTC AGAGAGAAAA 
CCTCCCCAGC ATTCTGACTT CCTGACCCAG ATTTCAAGAA GTCCCATGCT GGACTGCTCC 
ATTGCTGACT GCCTGCAGTT CCGCTGTGAC GTCCCCTCCT TCAGCGTCCA GGAGGAGCTG 
GATTTCACCC TGAAGGGCAA TCTCAGTTTC GGCTGGGTCC GCGAGACATT GCAGAAGAAG 
GTGTTGGTCG TGAGTGTGGC TGAAATTACG TTCGACACAT CCGTGTACTC CCAGCTTCCA 
GGACAGGAGG CATTTATGAG AGCTCAGATG GAGATGGTGC TAGAAGAAGA CGAGGTCTAC 
AATGCCATTC CCATCATCAT GGGCAGCTCT GTGGGGGCTC TGCTACTGCT GGCGCTCATC 
ACAGCCACAC TGTACAAGCT TGGCTTCTTC AAACGCCACT ACAAGGAAAT GCTGGAGGAC 
AAGCCTGAAG ACACTGCCAC ATTCAGTGGG GACGATTTCA GCTGTGTGGC CCCAAATGTG 
CCTTTGTCCT AA

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

RefSeq	XP_011544144.1
CDS	129..3440
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQSLPCVSERKPPQHSDFLTQISRSPMLDCSIADCLQFRCDVPSFSVQEELDFTLKGNLSFGWVRETLQKKVLVVSVAEITFDTSVYSQLPGQEAFMRAQMEMVLEEDEVYNAIPIIMGSSVGALLLLALITATLYKLGFFKRHYKEMLEDKPEDTATFSGDDFSCVAPNVPLS

Target ORF information:

RefSeq Version	XM_011545842.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X9, mRNA.

Target ORF information:

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

XM_011545842.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGGTGTCCA GGCAATGGAG GAAGAAGGCC GAAGTCACAG GGACGCAGAT CGGCTCCTAC 
TTCGGGGCCT CCCTCTGCTC TGTGGATGTG GACAGCGATG GCAGCACCGA CCTGATCCTC 
ATTGGGGCCC CCCATTACTA TGAGCAGACC CGAGGGGGCC AGGTGTCCGT GTGTCCCTTG 
CCTAGGGGGC AGAGGGTGCA GTGGCAGTGT GACGCTGTTC TCCGTGGTGA GCAGGGCCAC 
CCCTGGGGCC GCTTTGGGGC AGCCCTGACA GTGTTGGGGG ATGTGAATGA GGACAAGCTG 
ATAGACGTGG CCATTGGGGC CCCGGGAGAG CAGGAGAACC GGGGTGCTGT CTACCTGTTT 
CACGGAGCCT CAGAATCCGG CATCAGCCCC TCCCACAGCC AGCGGATTGC CAGCTCCCAG 
CTCTCCCCCA GGCTGCAGTA TTTTGGGCAG GCGCTGAGTG GGGGTCAGGA CCTCACCCAG 
GATGGACTGA TGGACCTGGC CGTGGGGGCC CGGGGCCAGG TGCTCCTGCT CAGGAGTCTG 
CCGGTGCTGA AAGTGGGGGT GGCCATGAGA TTCAGCCCTG TGGAGGTGGC CAAGGCTGTG 
TACCGGTGCT GGGAAGAGAA GCCCAGTGCC CTGGAAGCTG GGGACGCCAC CGTCTGTCTC 
ACCATCCAGA AAAGCTCACT GGACCAGCTA GGTGACATCC AAAGCTCTGT CAGGTTTGAT 
CTGGCACTGG ACCCAGGTCG TCTGACTTCT CGTGCCATTT TCAATGAAAC CAAGAACCCC 
ACTTTGACTC GAAGAAAAAC CCTGGGACTG GGGATTCACT GTGAAACCCT GAAGCTGCTT 
TTGCCAGATT GTGTGGAGGA TGTGGTGAGC CCCATCATTC TGCACCTCAA CTTCTCACTG 
GTGAGAGAGC CCATCCCCTC CCCCCAGAAC CTGCGTCCTG TGCTGGCCGT GGGCTCACAA 
GACCTCTTCA CTGCTTCTCT CCCCTTCGAG AAGAACTGTG GGCAAGATGG CCTCTGTGAA 
GGGGACCTGG GTGTCACCCT CAGCTTCTCA GGCCTGCAGA CCCTGACCGT GGGGAGCTCC 
CTGGAGCTCA ACGTGATTGT GACTGTGTGG AACGCAGGTG AGGATTCCTA CGGAACCGTG 
GTCAGCCTCT ACTATCCAGC AGGGCTGTCG CACCGACGGG TGTCAGGAGC CCAGAAGCAG 
CCCCATCAGA GTGCCCTGCG CCTGGCATGT GAGACAGTGC CCACTGAGGA TGAGGGCCTA 
AGAAGCAGCC GCTGCAGTGT CAACCACCCC ATCTTCCATG AGGGCTCTAA CGGCACCTTC 
ATAGTCACAT TCGATGTCTC CTACAAGGCC ACCCTGGGAG ACAGGATGCT TATGAGGGCC 
AGTGCAAGCA GTGAGAACAA TAAGGCTTCA AGCAGCAAGG CCACCTTCCA GCTGGAGCTC 
CCGGTGAAGT ATGCAGTCTA CACCATGATC AGCAGGTGCC CAGTCCCTGG CCTTCCCCTT 
GGACCTCTGG CCTTCCTCTA TGCCTGGCAG GAAGAATCCA CCAAGTACTT CAACTTTGCA 
ACCTCCGATG AGAAGAAAAT GAAAGAGGCT GAGCATCGAT ACCGTGTGAA TAACCTCAGC 
CAGCGAGATC TGGCCATCAG CATTAACTTC TGGGTTCCTG TCCTGCTGAA CGGGGTGGCT 
GTGTGGGATG TGGTCATGGA GGCCCCATCT CAGAGTCTCC CCTGTGTTTC AGAGAGAAAA 
CCTCCCCAGC ATTCTGACTT CCTGACCCAG ATTTCAAGAA GTCCCATGCT GGACTGCTCC 
ATTGCTGACT GCCTGCAGTT CCGCTGTGAC GTCCCCTCCT TCAGCGTCCA GGAGGAGCTG 
GATTTCACCC TGAAGGGCAA TCTCAGTTTC GGCTGGGTCC GCGAGACATT GCAGAAGAAG 
GTGTTGGTCG TGAGTGTGGC TGAAATTACG TTCGACACAT CCGTGTACTC CCAGCTTCCA 
GGACAGGAGG CATTTATGAG AGCTCAGATG GAGATGGTGC TAGAAGAAGA CGAGGTCTAC 
AATGCCATTC CCATCATCAT GGGCAGCTCT GTGGGGGCTC TGCTACTGCT GGCGCTCATC 
ACAGCCACAC TGTACAAGCT TGGCTTCTTC AAACGCCACT ACAAGGAAAT GCTGGAGGAC 
AAGCCTGAAG ACACTGCCAC ATTCAGTGGG GACGATTTCA GCTGTGTGGC CCCAAATGTG 
CCTTTGTCCT AA

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

ITGAD ( XM_011545843.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544145.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OHu58493
Clone ID Related Accession (Same CDS sequence)	XM_011545843.2 , XM_011545843.3
Accession Version	XM_011545843.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3087bp) 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	integrin alpha-D isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545843.1. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGAGAA 
AACCTCCCCA GCATTCTGAC TTCCTGA

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

RefSeq	XP_011544145.1
CDS	133..3219
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQRENLPSILTS

Target ORF information:

RefSeq Version	XM_011545843.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X10, mRNA.

Target ORF information:

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

XM_011545843.2

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGAGAA 
AACCTCCCCA GCATTCTGAC TTCCTGA

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

ITGAD ( XM_011545843.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011544145.1 Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OHu58493
Clone ID Related Accession (Same CDS sequence)	XM_011545843.2 , XM_011545843.3
Accession Version	XM_011545843.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3087bp) 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	integrin alpha-D isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011545843.2. ##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##

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGAGAA 
AACCTCCCCA GCATTCTGAC TTCCTGA

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

RefSeq	XP_011544145.1
CDS	134..3220
Translation	MTFGTVLLLSVLASYHGFNLDVEEPTIFQEDAGGFGQSVVQFGGSRLVVGAPLEVVAANQTGRLYDCAAATGMCQPIPLHIRPEAVNMSLGLTLAASTNGSRLLACGPTLHRVCGENSYSKGSCLLLGSRWEIIQTVPDATPECPHQEMDIVFLIDGSGSIDQNDFNQMKGFVQAVMGQFEGTDTLFALMQYSNLLKIHFTFTQFRTSPSQQSLVDPIVQLKGLTFTATGILTVVTQLFHHKNGARKSAKKILIVITDGQKYKDPLEYSDVIPQAEKAGIIRYAIGVGHAFQGPTARQELNTISSAPPQDHVFKVDNFAALGSIQKQLQEKIYAVEGTQSRASSSFQHEMSQEGFSTALTMSLPSPGILSSQDGLFLGAVGSFSWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQNLVLGAPRYQHTGKAVIFTQVSRQWRKKAEVTGTQIGSYFGASLCSVDVDSDGSTDLILIGAPHYYEQTRGGQVSVCPLPRGQRVQWQCDAVLRGEQGHPWGRFGAALTVLGDVNEDKLIDVAIGAPGEQENRGAVYLFHGASESGISPSHSQRIASSQLSPRLQYFGQALSGGQDLTQDGLMDLAVGARGQVLLLRSLPVLKVGVAMRFSPVEVAKAVYRCWEEKPSALEAGDATVCLTIQKSSLDQLGDIQSSVRFDLALDPGRLTSRAIFNETKNPTLTRRKTLGLGIHCETLKLLLPDCVEDVVSPIILHLNFSLVREPIPSPQNLRPVLAVGSQDLFTASLPFEKNCGQDGLCEGDLGVTLSFSGLQTLTVGSSLELNVIVTVWNAGEDSYGTVVSLYYPAGLSHRRVSGAQKQPHQSALRLACETVPTEDEGLRSSRCSVNHPIFHEGSNGTFIVTFDVSYKATLGDRMLMRASASSENNKASSSKATFQLELPVKYAVYTMISRCPVPGLPLGPLAFLYAWQEESTKYFNFATSDEKKMKEAEHRYRVNNLSQRDLAISINFWVPVLLNGVAVWDVVMEAPSQRENLPSILTS

Target ORF information:

RefSeq Version	XM_011545843.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha D (ITGAD), transcript variant X10, mRNA.

Target ORF information:

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

XM_011545843.3

ORF Insert Sequence:

ATGACCTTCG GCACTGTGCT TCTTCTGAGT GTCCTGGCTT CTTATCATGG ATTCAACCTG 
GATGTGGAGG AGCCTACGAT CTTCCAGGAG GATGCAGGCG GCTTTGGGCA GAGCGTGGTG 
CAGTTCGGTG GATCTCGACT CGTGGTGGGA GCACCCCTGG AGGTGGTGGC GGCCAACCAG 
ACGGGACGGC TGTATGACTG CGCAGCTGCC ACCGGCATGT GCCAGCCCAT CCCGCTGCAC 
ATCCGCCCTG AGGCCGTGAA CATGTCCTTG GGCCTGACCC TGGCAGCCTC CACCAACGGC 
TCCCGGCTCC TGGCCTGTGG CCCGACCCTG CACAGAGTCT GTGGGGAGAA CTCATACTCA 
AAGGGTTCCT GCCTCCTGCT GGGCTCGCGC TGGGAGATCA TCCAGACAGT CCCCGACGCC 
ACGCCAGAGT GTCCACATCA AGAGATGGAC ATCGTCTTCC TGATTGACGG CTCTGGAAGC 
ATTGACCAAA ATGACTTTAA CCAGATGAAG GGCTTTGTCC AAGCTGTCAT GGGCCAGTTT 
GAGGGCACTG ACACCCTGTT TGCACTGATG CAGTACTCAA ACCTCCTGAA GATCCACTTC 
ACCTTCACCC AATTCCGGAC CAGCCCGAGC CAGCAGAGCC TGGTGGATCC CATCGTCCAA 
CTGAAAGGCC TGACGTTCAC GGCCACGGGC ATCCTGACAG TGGTGACACA GCTATTTCAT 
CATAAGAATG GGGCCCGAAA AAGTGCCAAG AAGATCCTCA TTGTCATCAC AGATGGGCAG 
AAGTACAAAG ACCCCCTGGA ATACAGTGAT GTCATCCCCC AGGCAGAGAA GGCTGGCATC 
ATCCGCTACG CTATCGGGGT GGGACACGCT TTCCAGGGAC CCACTGCCAG GCAGGAGCTG 
AATACCATCA GCTCAGCGCC TCCGCAGGAC CACGTGTTCA AGGTGGACAA CTTTGCAGCC 
CTTGGCAGCA TCCAGAAGCA GCTGCAGGAG AAGATCTATG CAGTTGAGGG AACCCAGTCC 
AGGGCAAGCA GCTCCTTCCA GCACGAGATG TCCCAAGAAG GCTTCAGCAC AGCCCTCACA 
ATGTCTCTGC CCAGCCCTGG AATTCTTTCC TCCCAGGATG GCCTCTTCCT GGGGGCTGTG 
GGGAGCTTTA GCTGGTCTGG AGGTGCCTTC CTGTATCCCC CAAATATGAG CCCCACCTTC 
ATCAACATGT CTCAGGAGAA TGTGGACATG AGGGACTCTT ACCTGGGTTA CTCCACCGAG 
CTAGCCCTGT GGAAGGGGGT ACAGAACCTG GTCCTGGGGG CCCCCCGCTA CCAGCATACC 
GGGAAGGCTG TCATCTTCAC CCAGGTGTCC AGGCAATGGA GGAAGAAGGC CGAAGTCACA 
GGGACGCAGA TCGGCTCCTA CTTCGGGGCC TCCCTCTGCT CTGTGGATGT GGACAGCGAT 
GGCAGCACCG ACCTGATCCT CATTGGGGCC CCCCATTACT ATGAGCAGAC CCGAGGGGGC 
CAGGTGTCCG TGTGTCCCTT GCCTAGGGGG CAGAGGGTGC AGTGGCAGTG TGACGCTGTT 
CTCCGTGGTG AGCAGGGCCA CCCCTGGGGC CGCTTTGGGG CAGCCCTGAC AGTGTTGGGG 
GATGTGAATG AGGACAAGCT GATAGACGTG GCCATTGGGG CCCCGGGAGA GCAGGAGAAC 
CGGGGTGCTG TCTACCTGTT TCACGGAGCC TCAGAATCCG GCATCAGCCC CTCCCACAGC 
CAGCGGATTG CCAGCTCCCA GCTCTCCCCC AGGCTGCAGT ATTTTGGGCA GGCGCTGAGT 
GGGGGTCAGG ACCTCACCCA GGATGGACTG ATGGACCTGG CCGTGGGGGC CCGGGGCCAG 
GTGCTCCTGC TCAGGAGTCT GCCGGTGCTG AAAGTGGGGG TGGCCATGAG ATTCAGCCCT 
GTGGAGGTGG CCAAGGCTGT GTACCGGTGC TGGGAAGAGA AGCCCAGTGC CCTGGAAGCT 
GGGGACGCCA CCGTCTGTCT CACCATCCAG AAAAGCTCAC TGGACCAGCT AGGTGACATC 
CAAAGCTCTG TCAGGTTTGA TCTGGCACTG GACCCAGGTC GTCTGACTTC TCGTGCCATT 
TTCAATGAAA CCAAGAACCC CACTTTGACT CGAAGAAAAA CCCTGGGACT GGGGATTCAC 
TGTGAAACCC TGAAGCTGCT TTTGCCAGAT TGTGTGGAGG ATGTGGTGAG CCCCATCATT 
CTGCACCTCA ACTTCTCACT GGTGAGAGAG CCCATCCCCT CCCCCCAGAA CCTGCGTCCT 
GTGCTGGCCG TGGGCTCACA AGACCTCTTC ACTGCTTCTC TCCCCTTCGA GAAGAACTGT 
GGGCAAGATG GCCTCTGTGA AGGGGACCTG GGTGTCACCC TCAGCTTCTC AGGCCTGCAG 
ACCCTGACCG TGGGGAGCTC CCTGGAGCTC AACGTGATTG TGACTGTGTG GAACGCAGGT 
GAGGATTCCT ACGGAACCGT GGTCAGCCTC TACTATCCAG CAGGGCTGTC GCACCGACGG 
GTGTCAGGAG CCCAGAAGCA GCCCCATCAG AGTGCCCTGC GCCTGGCATG TGAGACAGTG 
CCCACTGAGG ATGAGGGCCT AAGAAGCAGC CGCTGCAGTG TCAACCACCC CATCTTCCAT 
GAGGGCTCTA ACGGCACCTT CATAGTCACA TTCGATGTCT CCTACAAGGC CACCCTGGGA 
GACAGGATGC TTATGAGGGC CAGTGCAAGC AGTGAGAACA ATAAGGCTTC AAGCAGCAAG 
GCCACCTTCC AGCTGGAGCT CCCGGTGAAG TATGCAGTCT ACACCATGAT CAGCAGGTGC 
CCAGTCCCTG GCCTTCCCCT TGGACCTCTG GCCTTCCTCT ATGCCTGGCA GGAAGAATCC 
ACCAAGTACT TCAACTTTGC AACCTCCGAT GAGAAGAAAA TGAAAGAGGC TGAGCATCGA 
TACCGTGTGA ATAACCTCAG CCAGCGAGAT CTGGCCATCA GCATTAACTT CTGGGTTCCT 
GTCCTGCTGA ACGGGGTGGC TGTGTGGGAT GTGGTCATGG AGGCCCCATC TCAGAGAGAA 
AACCTCCCCA GCATTCTGAC TTCCTGA

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

Gene Symbol	ITGAD
Entrez Gene ID	3681
Full Name	integrin subunit alpha D
Synonyms	ADB2,CD11D
General protein information	Preferred Names integrin subunit alpha D Names integrin alpha-D CD11 antigen-like family member D beta-2 integrin alphaD subunit leukointegrin alpha D
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 16 Map Location: 16p11.2
Summary	This gene belongs to the beta-2 integrin family of membrane glycoproteins, which are are composed of non-covalently linked alpha and beta subunits to form a heterodimer. It encodes the alpha subunit of the cell surface heterodimers and is involved in the activation and adhesion functions of leukocytes. The gene is located about 11kb downstream of the integrin subunit alpha X gene, another member of the integrin family. It is expressed in the tissue and circulating myeloid leukocytes. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Dec 2015].
Disorder MIM:	602453

Homo sapiens (human)	ITGAD	NP_005344.2
Canis lupus familiaris (dog)	LOC607096	XP_005621290.1
Bos taurus (cattle)	ITGAD	NP_001095966.1
Canis lupus familiaris (dog)	ITGAD	NP_001104272.1
Pan troglodytes (chimpanzee)	ITGAD	XP_003952883.1
	LOC714931	XP_001104925.2
Mus musculus (house mouse)	Itgad	NP_001025043.3
Rattus norvegicus (Norway rat)	Itgad	NP_113879.1

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

ITGAD cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence: