ITGA8 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	ITGA8
Entrez Gene ID	100232593
Full Name	integrin subunit alpha 8
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030264613.1	XP_030120473.1	integrin alpha-8
XM_004175532.2	XP_004175580.1	LOW QUALITY PROTEIN: integrin alpha-8

Pathways from BioSystems
Gene Ontology

The following ITGA8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ITGA8 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OTd07014	XM_004175532.2 Latest version!	Taeniopygia guttata integrin, alpha 8 (ITGA8), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd34581	XM_030264613.1 Latest version!	Taeniopygia guttata integrin subunit alpha 8 (ITGA8), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

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

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

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

Reference Sequences (Refseq)

ITGA8 ( XM_004175532.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_004175580.1 Taeniopygia guttata integrin, alpha 8 (ITGA8), mRNA.

Price & Availability↑

CloneID	OTd07014
Clone ID Related Accession (Same CDS sequence)	XM_004175532.2
Accession Version	XM_004175532.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3642bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	LOW QUALITY PROTEIN: integrin alpha-8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198269.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_004175532.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 14% of CDS bases frameshifts :: corrected 2 indels ##RefSeq-Attributes-END##

ATGTGTTTTC TAACCGAAAA GCAGAGCTGT GCTCTGCCCC AGAGCGAGGG GCCCCTCCAG 
CTCATTAAAG CTCCGCGTAG CCGGGCACGG ACAGTGAAAC TTCGAGAGAA CAGAGGAATC 
GCATCTTCTA ACGCGTTCTG GACTCTGTGC CCGGGTCTGC ATCTTTCCCG TGGTTTTATC 
GTTGCTGGGT TTCCTAAAAG AGATTTTCGA GTACCAGGCT CTTCAGTTCA AACCCTTGAA 
AATTCTGGAA GTCGAGAGAA ATTCAACTCG AAACCACCAG CCCACACTCC GGCATCTCCC 
GCCGTGAACA CGACCGCCCC ACGGCAGGCA CCGGTAGCTG CGGGGCAGTC ACGGGGTGTC 
CGCTCAGCCG GCGTTTGTGG CGGGTTCACC GGCGGAGCTC CCGCCGCTCG CCTTCCGCAG 
GCGCGGCCCG GAATCAGCTT TCACGATGGC CACTATAACA GAGAGCGGAC CGCGAAAGAC 
GGCGAAGATT TCCCCTTCAG CCGCGGGCGT CCCCACCGAT GGCAGCACCC GCTGCTCCTC 
CTTTCAGCGC TGCTATGGGC GCCGCCGCTG GAGACTTTCA ACCTGGACGA GGAGAAGTTG 
ACTGTGTACA GCGGGNCCCC AGGCAGCTAC TTCGGGTACT CGGTGGACTT CTACATCCCC 
AACCCCAGCA CGGTCAGTGT CCTGGTGGGA GCTCCCAAAG CCAACACCAC GCAGCCAGAC 
ATCGTGGAAG GAGGAGCGGT GTATTACTGC TCCTGGCCCG CAGCCCGGTG CCGGCAGATC 
CCCTTCGACA ACACCAACAA CAGGAAAATT AAAGTCAATG GCACCAGGGA ACCTATTGAA 
TTTAAGACAA ATCAGTGGTT TGGGGCAACA GTCAAAGCTC ATAAAGAGAA AGTTGTGGCT 
TGTGCTCCTT TGTATCATTG GAGAACCCTT AAAGACAGCC CTGAGAAGGA CCCTGTTGGC 
ACCTGCTATG TAGCAATTCA GAACTTCAGT GCCTATGCTG AATATTCACC TTGTCGTAAC 
AGCAATGCAG ATCCTGAAGG ACAAGGCTTT TGTCAAGCAG GTTTCAGCTT AGATTTTTAC 
AAGAATGGAG ACCTGATAGT AGGCGGGCCC GGTAGTTTTT ATTGGCAAGG TCAGGTAATT 
ACTGCAAGCA TTGCGGACAT CATTGCAAAT TATTCCTTCA AGGATATTCT GAGGAAACTA 
GCACGAGAGA AGCAAACAGG AGTGGCCCCA CCCTCATATG ACGACAATTA CATGGGTTAC 
TCAGTGGCTG CCGGGGAATT TACTGGGGAT TCTGAACAAG AGTTGGTTGC TGGAGTCCCA 
AGGGGAGCAC AGAACTTTGG CTATGTCTCA ATTATTAATT CTTCTGACTT GACCTTTATC 
CAGAACTTCA CTGGTGAGCA GATGGCATCC TATTTTGGGT ACACAGTTGC GGTATCTGAT 
GTTAACAATG ATGGTTTAGA TGATATCCTA GTTGGTGCCC CTCTTTTTAT GGAACGAGAA 
TTTGAGAGCA AGCCTAAAGA AGTTGGGCAA GTTTATCTGT ACCTACAAGA AAATGCATTC 
CTCTTCCAAG ATGCACAAAT TCTGACAGGC ACTGAAGTGT TTGGTAGATT TGGCAGTGCA 
ATCACACACC TTGGAGATCT CAATCAAGAT GGATATAATG ACATTGCTAT TGGTGCACCA 
TTTGCAGGAG AAGACAGGAG AGGGAAAGTG CTCATTTACA ATGGATACAG TAATGGGTTA 
AACCCTAACC CTTCCCAGGT TCTCAGTGGA GCCTGGGCCT CACAGTCCAT GCCTTCGGGA 
TTTGGCTTCA CTCTAAGAGG AGACTCAGAT GTAGACAAGA ATGATTACCC AGATTTAATT 
GTGGGTGCAT TTGGAGCTGG AAAAGCAGTT GTTTACAGAG CCAGACCTGT TGTGACAGTG 
AATGCTCATC TTATTCTGAA CCCCACGATT GTGAATCCAG ACAATAAAAC CTGTCAGCTC 
CCCGGCCCTC AGCTTTTGGT AGCCTGCTTT ACTGTAAGAG TCTGCGCAGA CTTTGAAGGT 
CAAAGTATTT CAGATGAGAT AGTGCTGAAG GGTGAATTGC AATTAGATTC ATTGAAACAG 
AAAGGAGCTG TTAAGAGGAC CCTCTTCTTT GATTACCATC AGTCACATCA CTACTTCTCC 
ATTGTGATAG AAAGACAGAA ACAACTCCAT TGCCAGGACT TTCTTGTTTA TCTCAGAGAT 
GAAACAGAAT TTAGAGATAA ATTATCTCCC ATCAATATAA ACTTCAATTA TAGTTTGGAT 
GAGTCCAGTT TTGAAGATAG TTTGACTGTG AAGCCAATAC TGAACTATTA CCAGAAAAAC 
TCACTCGCAG AGCAGGCTTA CATTCTGGTT GACTGTGGGG AGGACAACTT ATGTATTCCT 
GACTTGCAAC TTTCTGCAGT GCCGGATACA GATCAGCTAA TAATTGGAGA AGAAAACTGT 
GTCATGCTCA TAATAAATCC AAGGAATGAT GGGGAAGGAG CCTATGAAGC TGAGCTACAT 
ATAAAGATTC CGCCTGAAGC AGATTACACT GGGGTTGAAC GTAACAACAA GGCACTGCGT 
GTGTTGAGCT GTGATTACAA GATGGAAAAT GAAACTAGAA TGGTGGTTTG TGATCTTGGG 
AACCCCATGG TGGCTGGCGC AAACTTCTCC ACAGGCATTC GATTTTCTGT TCAGCATTTT 
GAAAATTCAG ATTTCAGCAT AAATTTTGAG CTGCAAATAA AAAGTTCTAA CAAGATAAAT 
CCCACTAGCA ACTTAGTGAA CCTCCATATC AACATCAGTG CTGTGGCTCA AGTACAGATC 
AGAGGAGTGT CTCACCCCCC AACAATTATT TTGCCTCTTC ACAACTGGGA GCCCAAAGAT 
GAACCTACAA AAGAAGAAGA AGTTGGTCCT TTAGTAGAAC ACATCTATGA GCTGCACAAT 
ATAGGACCAA GTGCCATCAA CAATACAGTT CTCCATGTTG GTTGGCCTGT GTCCAGTAGA 
GAGGAATTTC TTCTTTATAT CCTTCACATT CAGACACACG GACCATTGCA CTGTCAAACA 
AGCTCTCCTA TTAATACAAT GCAAATAAAG TTTGCTGTTC CAGAAGACAC TCCTGAACTT 
GCTGCTTTTT TATATAATTC CACAATTTCT CATTACATCA GGAGAAGGGA TGTCGCAGTG 
GCAGAACCTC ACAGGAAAAA CTCTGCGAAA ATATTGAACT GTACAAATGT GAAGTGTGTC 
TTAATTTCAT GCACTGTGGG ACAGCTGGAA AGAGGAAAGA GTGCAGCACT AAAAATCAGG 
TCCCGGCTCT GGGCACAAAC ATTCCTGGAG AGAAAGAATG ATCTATACAG TCTTTCTTCC 
AGTGTTTCCT TTGAAGTTAA GAGCATGCCA TATAAAGTGC AACCAGCAAA GCTCCCTGAG 
GGAAGCATAG CAATCAGAAC ATCTGTCATT TGGTCCACCC CAAATGTCTC CTTTGAGATC 
CCTTTATGGG TTATAATACT AGCCATACTT CTTGGACTAC TAGTACTAGC TCTGCTGACC 
CTAGCTTTAT GGAAGTGTGG CTTCTTTGAC AGAGCTAGAC CTCCTCAAGA TGACATGGCT 
GACAGGCAAC AGCTGACAAA TAACAAGACT ACTGATGCAT AA

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

RefSeq	XP_004175580.1
CDS	1..3642
Translation	MCFLTEKQSCALPQSEGPLQLIKAPRSRARTVKLRENRGIASSNAFWTLCPGLHLSRGFIVAGFPKRDFRVPGSSVQTLENSGSREKFNSKPPAHTPASPAVNTTAPRQAPVAAGQSRGVRSAGVCGGFTGGAPAARLPQARPGISFHDGHYNRERTAKDGEDFPFSRGRPHRWQHPLLLLSALLWAPPLETFNLDEEKLTVYSGnullPGSYFGYSVDFYIPNPSTVSVLVGAPKANTTQPDIVEGGAVYYCSWPAARCRQIPFDNTNNRKIKVNGTREPIEFKTNQWFGATVKAHKEKVVACAPLYHWRTLKDSPEKDPVGTCYVAIQNFSAYAEYSPCRNSNADPEGQGFCQAGFSLDFYKNGDLIVGGPGSFYWQGQVITASIADIIANYSFKDILRKLAREKQTGVAPPSYDDNYMGYSVAAGEFTGDSEQELVAGVPRGAQNFGYVSIINSSDLTFIQNFTGEQMASYFGYTVAVSDVNNDGLDDILVGAPLFMEREFESKPKEVGQVYLYLQENAFLFQDAQILTGTEVFGRFGSAITHLGDLNQDGYNDIAIGAPFAGEDRRGKVLIYNGYSNGLNPNPSQVLSGAWASQSMPSGFGFTLRGDSDVDKNDYPDLIVGAFGAGKAVVYRARPVVTVNAHLILNPTIVNPDNKTCQLPGPQLLVACFTVRVCADFEGQSISDEIVLKGELQLDSLKQKGAVKRTLFFDYHQSHHYFSIVIERQKQLHCQDFLVYLRDETEFRDKLSPININFNYSLDESSFEDSLTVKPILNYYQKNSLAEQAYILVDCGEDNLCIPDLQLSAVPDTDQLIIGEENCVMLIINPRNDGEGAYEAELHIKIPPEADYTGVERNNKALRVLSCDYKMENETRMVVCDLGNPMVAGANFSTGIRFSVQHFENSDFSINFELQIKSSNKINPTSNLVNLHINISAVAQVQIRGVSHPPTIILPLHNWEPKDEPTKEEEVGPLVEHIYELHNIGPSAINNTVLHVGWPVSSREEFLLYILHIQTHGPLHCQTSSPINTMQIKFAVPEDTPELAAFLYNSTISHYIRRRDVAVAEPHRKNSAKILNCTNVKCVLISCTVGQLERGKSAALKIRSRLWAQTFLERKNDLYSLSSSVSFEVKSMPYKVQPAKLPEGSIAIRTSVIWSTPNVSFEIPLWVIILAILLGLLVLALLTLALWKCGFFDRARPPQDDMADRQQLTNNKTTDA

Target ORF information:

RefSeq Version	XM_004175532.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata integrin, alpha 8 (ITGA8), mRNA.

Target ORF information:

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

XM_004175532.2

ORF Insert Sequence:

ATGTGTTTTC TAACCGAAAA GCAGAGCTGT GCTCTGCCCC AGAGCGAGGG GCCCCTCCAG 
CTCATTAAAG CTCCGCGTAG CCGGGCACGG ACAGTGAAAC TTCGAGAGAA CAGAGGAATC 
GCATCTTCTA ACGCGTTCTG GACTCTGTGC CCGGGTCTGC ATCTTTCCCG TGGTTTTATC 
GTTGCTGGGT TTCCTAAAAG AGATTTTCGA GTACCAGGCT CTTCAGTTCA AACCCTTGAA 
AATTCTGGAA GTCGAGAGAA ATTCAACTCG AAACCACCAG CCCACACTCC GGCATCTCCC 
GCCGTGAACA CGACCGCCCC ACGGCAGGCA CCGGTAGCTG CGGGGCAGTC ACGGGGTGTC 
CGCTCAGCCG GCGTTTGTGG CGGGTTCACC GGCGGAGCTC CCGCCGCTCG CCTTCCGCAG 
GCGCGGCCCG GAATCAGCTT TCACGATGGC CACTATAACA GAGAGCGGAC CGCGAAAGAC 
GGCGAAGATT TCCCCTTCAG CCGCGGGCGT CCCCACCGAT GGCAGCACCC GCTGCTCCTC 
CTTTCAGCGC TGCTATGGGC GCCGCCGCTG GAGACTTTCA ACCTGGACGA GGAGAAGTTG 
ACTGTGTACA GCGGGNCCCC AGGCAGCTAC TTCGGGTACT CGGTGGACTT CTACATCCCC 
AACCCCAGCA CGGTCAGTGT CCTGGTGGGA GCTCCCAAAG CCAACACCAC GCAGCCAGAC 
ATCGTGGAAG GAGGAGCGGT GTATTACTGC TCCTGGCCCG CAGCCCGGTG CCGGCAGATC 
CCCTTCGACA ACACCAACAA CAGGAAAATT AAAGTCAATG GCACCAGGGA ACCTATTGAA 
TTTAAGACAA ATCAGTGGTT TGGGGCAACA GTCAAAGCTC ATAAAGAGAA AGTTGTGGCT 
TGTGCTCCTT TGTATCATTG GAGAACCCTT AAAGACAGCC CTGAGAAGGA CCCTGTTGGC 
ACCTGCTATG TAGCAATTCA GAACTTCAGT GCCTATGCTG AATATTCACC TTGTCGTAAC 
AGCAATGCAG ATCCTGAAGG ACAAGGCTTT TGTCAAGCAG GTTTCAGCTT AGATTTTTAC 
AAGAATGGAG ACCTGATAGT AGGCGGGCCC GGTAGTTTTT ATTGGCAAGG TCAGGTAATT 
ACTGCAAGCA TTGCGGACAT CATTGCAAAT TATTCCTTCA AGGATATTCT GAGGAAACTA 
GCACGAGAGA AGCAAACAGG AGTGGCCCCA CCCTCATATG ACGACAATTA CATGGGTTAC 
TCAGTGGCTG CCGGGGAATT TACTGGGGAT TCTGAACAAG AGTTGGTTGC TGGAGTCCCA 
AGGGGAGCAC AGAACTTTGG CTATGTCTCA ATTATTAATT CTTCTGACTT GACCTTTATC 
CAGAACTTCA CTGGTGAGCA GATGGCATCC TATTTTGGGT ACACAGTTGC GGTATCTGAT 
GTTAACAATG ATGGTTTAGA TGATATCCTA GTTGGTGCCC CTCTTTTTAT GGAACGAGAA 
TTTGAGAGCA AGCCTAAAGA AGTTGGGCAA GTTTATCTGT ACCTACAAGA AAATGCATTC 
CTCTTCCAAG ATGCACAAAT TCTGACAGGC ACTGAAGTGT TTGGTAGATT TGGCAGTGCA 
ATCACACACC TTGGAGATCT CAATCAAGAT GGATATAATG ACATTGCTAT TGGTGCACCA 
TTTGCAGGAG AAGACAGGAG AGGGAAAGTG CTCATTTACA ATGGATACAG TAATGGGTTA 
AACCCTAACC CTTCCCAGGT TCTCAGTGGA GCCTGGGCCT CACAGTCCAT GCCTTCGGGA 
TTTGGCTTCA CTCTAAGAGG AGACTCAGAT GTAGACAAGA ATGATTACCC AGATTTAATT 
GTGGGTGCAT TTGGAGCTGG AAAAGCAGTT GTTTACAGAG CCAGACCTGT TGTGACAGTG 
AATGCTCATC TTATTCTGAA CCCCACGATT GTGAATCCAG ACAATAAAAC CTGTCAGCTC 
CCCGGCCCTC AGCTTTTGGT AGCCTGCTTT ACTGTAAGAG TCTGCGCAGA CTTTGAAGGT 
CAAAGTATTT CAGATGAGAT AGTGCTGAAG GGTGAATTGC AATTAGATTC ATTGAAACAG 
AAAGGAGCTG TTAAGAGGAC CCTCTTCTTT GATTACCATC AGTCACATCA CTACTTCTCC 
ATTGTGATAG AAAGACAGAA ACAACTCCAT TGCCAGGACT TTCTTGTTTA TCTCAGAGAT 
GAAACAGAAT TTAGAGATAA ATTATCTCCC ATCAATATAA ACTTCAATTA TAGTTTGGAT 
GAGTCCAGTT TTGAAGATAG TTTGACTGTG AAGCCAATAC TGAACTATTA CCAGAAAAAC 
TCACTCGCAG AGCAGGCTTA CATTCTGGTT GACTGTGGGG AGGACAACTT ATGTATTCCT 
GACTTGCAAC TTTCTGCAGT GCCGGATACA GATCAGCTAA TAATTGGAGA AGAAAACTGT 
GTCATGCTCA TAATAAATCC AAGGAATGAT GGGGAAGGAG CCTATGAAGC TGAGCTACAT 
ATAAAGATTC CGCCTGAAGC AGATTACACT GGGGTTGAAC GTAACAACAA GGCACTGCGT 
GTGTTGAGCT GTGATTACAA GATGGAAAAT GAAACTAGAA TGGTGGTTTG TGATCTTGGG 
AACCCCATGG TGGCTGGCGC AAACTTCTCC ACAGGCATTC GATTTTCTGT TCAGCATTTT 
GAAAATTCAG ATTTCAGCAT AAATTTTGAG CTGCAAATAA AAAGTTCTAA CAAGATAAAT 
CCCACTAGCA ACTTAGTGAA CCTCCATATC AACATCAGTG CTGTGGCTCA AGTACAGATC 
AGAGGAGTGT CTCACCCCCC AACAATTATT TTGCCTCTTC ACAACTGGGA GCCCAAAGAT 
GAACCTACAA AAGAAGAAGA AGTTGGTCCT TTAGTAGAAC ACATCTATGA GCTGCACAAT 
ATAGGACCAA GTGCCATCAA CAATACAGTT CTCCATGTTG GTTGGCCTGT GTCCAGTAGA 
GAGGAATTTC TTCTTTATAT CCTTCACATT CAGACACACG GACCATTGCA CTGTCAAACA 
AGCTCTCCTA TTAATACAAT GCAAATAAAG TTTGCTGTTC CAGAAGACAC TCCTGAACTT 
GCTGCTTTTT TATATAATTC CACAATTTCT CATTACATCA GGAGAAGGGA TGTCGCAGTG 
GCAGAACCTC ACAGGAAAAA CTCTGCGAAA ATATTGAACT GTACAAATGT GAAGTGTGTC 
TTAATTTCAT GCACTGTGGG ACAGCTGGAA AGAGGAAAGA GTGCAGCACT AAAAATCAGG 
TCCCGGCTCT GGGCACAAAC ATTCCTGGAG AGAAAGAATG ATCTATACAG TCTTTCTTCC 
AGTGTTTCCT TTGAAGTTAA GAGCATGCCA TATAAAGTGC AACCAGCAAA GCTCCCTGAG 
GGAAGCATAG CAATCAGAAC ATCTGTCATT TGGTCCACCC CAAATGTCTC CTTTGAGATC 
CCTTTATGGG TTATAATACT AGCCATACTT CTTGGACTAC TAGTACTAGC TCTGCTGACC 
CTAGCTTTAT GGAAGTGTGG CTTCTTTGAC AGAGCTAGAC CTCCTCAAGA TGACATGGCT 
GACAGGCAAC AGCTGACAAA TAACAAGACT ACTGATGCAT AA

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

ITGA8 ( XM_030264613.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030120473.1 Taeniopygia guttata integrin subunit alpha 8 (ITGA8), mRNA.

Price & Availability↑

CloneID	OTd34581
Clone ID Related Accession (Same CDS sequence)	XM_030264613.1
Accession Version	XM_030264613.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3156bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	integrin alpha-8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGCCCC TCAGCCGCGG GCGGCCCCGC CGCTGGCAGC ACCCGCTGCT CCTCCTGTCA 
GCGCTGCTCT GGGCGCCGGC GGTGGTGGCT TTCAACCTGG ACGAGGAGAA GCTGACCGTG 
TACAGCGGGC CCCCAGGCAG CTACTTCGGG TACTCCGTGG ACTTCTACAT CCCCAACCCC 
AGCACGGTCA GTGTCCTGGT GGGAGCTCCC AAAGCCAACA CCACGCAGCC AGACATCGTG 
GAAGGAGGAG CGGTGTATTA CTGCTCCTGG CCCGCAGCCC GGTGCAGGCA GATCCCCTTC 
GACAACACCA ACAACAGGAA AATTAAAGTC AATGGCACCA GGGAACCTAT TGAATTTAAG 
ACAAATCAGT GGTTTGGGGC AACAGTCAAA GCTCATAAAG AGAAAGTTGT GGCTTGTGCT 
CCTTTGTATC ATTGGAGAAC CCTTAAAGAC AGCCCTGAGA AGGACCCTGT TGGCACCTGC 
TATGTAGCAA TTCAGAACTT CAGTGCCTAT GCTGAATATT CACCTTGTCG TAACAGCAAT 
GCAGATCCTG AAGGACAAGG CTTTTGTCAA GCAGGTTTCA GCTTAGATTT TTACAAGAAT 
GGAGACCTGA TAGTAGGCGG GCCCGGTAGT TTTTATTGGC AAGGTCAGGT AATTACTGCA 
AGCATTGCGG ACATCATTGC AAATTATTCC TTCAAGGATA TTCTGAGGAA ACTAGCACGA 
GAGAAGCAAA CAGGAGTGGC CCCACCCTCA TATGACGACA ATTACATGGG TTACTCAGTG 
GCTGCCGGGG AATTTACTGG GGATTCTGAA CAAGAGTTGG TTGCTGGAGT CCCAAGGGGA 
GCACAGAACT TTGGCTATGT CTCAATTATT AATTCTTCTG ACTTGACCTT TATCCAGAAC 
TTCACTGGTG AGCAGATGGC ATCCTATTTT GGGTACACAG TTGCGGTATC TGATGTTAAC 
AATGATGGTT TAGATGATAT CCTAGTTGGT GCCCCTCTTT TTATGGAACG AGAATTTGAG 
AGCAAGCCTA AAGAAGTTGG ACAAGTTTAT CTGTACCTGC AAGAAAATGC ATTCCTCTTC 
CAAGATGCAC AAATTCTGAC AGGCACTGAA GTGTTTGGTA GATTTGGCAG TGCAATCACA 
CACCTTGGAG ATCTCAATCA AGATGGATAT AATGACATTG CTATTGGTGC ACCATTTGCA 
GGAGAAGACA GGAGAGGGAA AGTGCTCATT TACAATGGAT ACAGTAATGG GTTAAACCCT 
AACCCTTCCC AGGTTCTCAG TGGAGCCTGG GCCTCACAGT CCATGCCTTC GGGATTTGGC 
TTCACTCTAA GAGGAGACTC AGATGTAGAC AAGAATGATT ACCCAGATTT AATTGTGGGT 
GCATTTGGAG CTGGAAAAGC AGTTGTTTAC AGAGCCAGAC CTGTTGTGAC AGTGAATGCT 
CATCTTATTC TGAACCCCAC GATTGTGAAT CCAGACAATA AAACCTGTCA GCTCCCCGGC 
CCTCAGCTTT TGGTAGCCTG CTTTACTGTA AGAGTCTGCG CAGACTTTGA AGGTCAAAGT 
ATTTCAGATG AGATAGTGCT GAAGGGTGAA TTGCAATTAG ATTCATTGAA ACAGAAAGGA 
GCTGTTAAGA GGACCCTCTT CTTTGATTAC CATCAGTCAC ATCACTACTT CTCCATTGTG 
ATAGAAAGAC AGAAACAACT CCATTGCCAG GACTTTCTTG TTTATCTCAG AGATGAAACA 
GAATTTAGAG ATAAATTATC TCCCATCAAT ATAAACTTCA ATTATAGTTT GGATGAGTCC 
AGTTTTGAAG ATAGTTTGAC TGTGAAGCCA ATACTGAACT ATTACCAGAA AAACTCACTC 
GCAGAGCAGG CTTACATTCT GGTTGACTGT GGGGAGGACA ACTTATGTAT TCCTGACTTG 
CAACTTTCTG CAGTGCCGGA TACAGATCAG CTAATAATTG GAGAAGAAAA CTGTGTCATG 
CTCATAATAA ATCCAAGGAA TGATGGGGAA GGAGCCTATG AAGCTGAGCT ACATATAAAG 
ATTCCGCCTG AAGCAGATTA CACTGGGGTT GAACGTAACA ACAAGGCACT GCGTGTGTTG 
AGCTGTGATT ACAAGATGGA AAATGAAACT AGAATGGTGG TTTGTGATCT TGGGAACCCC 
ATGGTGGCTG GCGCAAACTT CTCCACAGGC ATTCGATTTT CTGTTCAGCA TTTTGAAAAT 
TCAGATTTCA GCATAAATTT TGAGCTGCAA ATAAAAAGTT CTAACAAGAT AAATCCCACT 
AGCAACTTAG TGAACCTCCA TATCAACATC AGTGCTGTGG CTCAAGTACA GATCAGAGGA 
GTGTCTCACC CCCCAACAAT TATTTTGCCT CTTCACAACT GGGAGCCCAA AGATGAACCT 
ACAAAAGAAG AAGAAGTTGG TCCTTTAGTA GAACACATCT ATGAGCTGCA CAATATAGGA 
CCAAGTGCCA TCAACAATAC AGTTCTCCAT GTTGGTTGGC CTGTGTCCAG TAGAGAGGAA 
TTTCTTCTTT ATATCCTTCA CATTCAGACA CACGGACCAT TGCACTGTCA AACAAGCTCT 
CCTATTAATA CAATGCAAAT AAAGTTTGCT GTTCCAGAAG ACACTCCTGA ACTTGCTGCT 
TTTTTATATA ATTCCACAAT TTCTCATTAC ATCAGGAGAA GGGATGTCGC AGTGGCAGAA 
CCTCACAGGA AAAACTCTGC GAAAATATTG AACTGTACAA ATGTGAAGTG TGTCTTAATT 
TCATGCACTG TGGGACAGCT GGAAAGAGGA AAGAGTGCAG CACTAAAAAT CAGGTCCCGG 
CTCTGGGCAC AAACATTCCT GGAGAGAAAG AATGATCTAT ACAGTCTTTC TTCCAGTGTT 
TCCTTTGAAG TTAAGAGCAT GCCATATAAA GTGCAACCAG CAAAGCTCCC TGAGGGAAGC 
ATAGCAATCA GAACATCTGT CATTTGGTCC ACCCCAAATG TCTCCTTTGA GATCCCTTTA 
TGGGTTATAA TACTAGCCAT ACTTCTTGGA CTACTAGTAC TAGCTCTGCT GACCCTAGCT 
TTATGGAAGT GTGGCTTCTT TGACAGAGCT AGACCTCCTC AAGATGACAT GGCTGACAGG 
CAACAGCTGA CAAATAACAA GACTACTGAT GCATAA

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

RefSeq	XP_030120473.1
CDS	84..3239
Translation	MLPLSRGRPRRWQHPLLLLSALLWAPAVVAFNLDEEKLTVYSGPPGSYFGYSVDFYIPNPSTVSVLVGAPKANTTQPDIVEGGAVYYCSWPAARCRQIPFDNTNNRKIKVNGTREPIEFKTNQWFGATVKAHKEKVVACAPLYHWRTLKDSPEKDPVGTCYVAIQNFSAYAEYSPCRNSNADPEGQGFCQAGFSLDFYKNGDLIVGGPGSFYWQGQVITASIADIIANYSFKDILRKLAREKQTGVAPPSYDDNYMGYSVAAGEFTGDSEQELVAGVPRGAQNFGYVSIINSSDLTFIQNFTGEQMASYFGYTVAVSDVNNDGLDDILVGAPLFMEREFESKPKEVGQVYLYLQENAFLFQDAQILTGTEVFGRFGSAITHLGDLNQDGYNDIAIGAPFAGEDRRGKVLIYNGYSNGLNPNPSQVLSGAWASQSMPSGFGFTLRGDSDVDKNDYPDLIVGAFGAGKAVVYRARPVVTVNAHLILNPTIVNPDNKTCQLPGPQLLVACFTVRVCADFEGQSISDEIVLKGELQLDSLKQKGAVKRTLFFDYHQSHHYFSIVIERQKQLHCQDFLVYLRDETEFRDKLSPININFNYSLDESSFEDSLTVKPILNYYQKNSLAEQAYILVDCGEDNLCIPDLQLSAVPDTDQLIIGEENCVMLIINPRNDGEGAYEAELHIKIPPEADYTGVERNNKALRVLSCDYKMENETRMVVCDLGNPMVAGANFSTGIRFSVQHFENSDFSINFELQIKSSNKINPTSNLVNLHINISAVAQVQIRGVSHPPTIILPLHNWEPKDEPTKEEEVGPLVEHIYELHNIGPSAINNTVLHVGWPVSSREEFLLYILHIQTHGPLHCQTSSPINTMQIKFAVPEDTPELAAFLYNSTISHYIRRRDVAVAEPHRKNSAKILNCTNVKCVLISCTVGQLERGKSAALKIRSRLWAQTFLERKNDLYSLSSSVSFEVKSMPYKVQPAKLPEGSIAIRTSVIWSTPNVSFEIPLWVIILAILLGLLVLALLTLALWKCGFFDRARPPQDDMADRQQLTNNKTTDA

Target ORF information:

RefSeq Version	XM_030264613.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata integrin subunit alpha 8 (ITGA8), mRNA.

Target ORF information:

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

XM_030264613.1

ORF Insert Sequence:

ATGCTGCCCC TCAGCCGCGG GCGGCCCCGC CGCTGGCAGC ACCCGCTGCT CCTCCTGTCA 
GCGCTGCTCT GGGCGCCGGC GGTGGTGGCT TTCAACCTGG ACGAGGAGAA GCTGACCGTG 
TACAGCGGGC CCCCAGGCAG CTACTTCGGG TACTCCGTGG ACTTCTACAT CCCCAACCCC 
AGCACGGTCA GTGTCCTGGT GGGAGCTCCC AAAGCCAACA CCACGCAGCC AGACATCGTG 
GAAGGAGGAG CGGTGTATTA CTGCTCCTGG CCCGCAGCCC GGTGCAGGCA GATCCCCTTC 
GACAACACCA ACAACAGGAA AATTAAAGTC AATGGCACCA GGGAACCTAT TGAATTTAAG 
ACAAATCAGT GGTTTGGGGC AACAGTCAAA GCTCATAAAG AGAAAGTTGT GGCTTGTGCT 
CCTTTGTATC ATTGGAGAAC CCTTAAAGAC AGCCCTGAGA AGGACCCTGT TGGCACCTGC 
TATGTAGCAA TTCAGAACTT CAGTGCCTAT GCTGAATATT CACCTTGTCG TAACAGCAAT 
GCAGATCCTG AAGGACAAGG CTTTTGTCAA GCAGGTTTCA GCTTAGATTT TTACAAGAAT 
GGAGACCTGA TAGTAGGCGG GCCCGGTAGT TTTTATTGGC AAGGTCAGGT AATTACTGCA 
AGCATTGCGG ACATCATTGC AAATTATTCC TTCAAGGATA TTCTGAGGAA ACTAGCACGA 
GAGAAGCAAA CAGGAGTGGC CCCACCCTCA TATGACGACA ATTACATGGG TTACTCAGTG 
GCTGCCGGGG AATTTACTGG GGATTCTGAA CAAGAGTTGG TTGCTGGAGT CCCAAGGGGA 
GCACAGAACT TTGGCTATGT CTCAATTATT AATTCTTCTG ACTTGACCTT TATCCAGAAC 
TTCACTGGTG AGCAGATGGC ATCCTATTTT GGGTACACAG TTGCGGTATC TGATGTTAAC 
AATGATGGTT TAGATGATAT CCTAGTTGGT GCCCCTCTTT TTATGGAACG AGAATTTGAG 
AGCAAGCCTA AAGAAGTTGG ACAAGTTTAT CTGTACCTGC AAGAAAATGC ATTCCTCTTC 
CAAGATGCAC AAATTCTGAC AGGCACTGAA GTGTTTGGTA GATTTGGCAG TGCAATCACA 
CACCTTGGAG ATCTCAATCA AGATGGATAT AATGACATTG CTATTGGTGC ACCATTTGCA 
GGAGAAGACA GGAGAGGGAA AGTGCTCATT TACAATGGAT ACAGTAATGG GTTAAACCCT 
AACCCTTCCC AGGTTCTCAG TGGAGCCTGG GCCTCACAGT CCATGCCTTC GGGATTTGGC 
TTCACTCTAA GAGGAGACTC AGATGTAGAC AAGAATGATT ACCCAGATTT AATTGTGGGT 
GCATTTGGAG CTGGAAAAGC AGTTGTTTAC AGAGCCAGAC CTGTTGTGAC AGTGAATGCT 
CATCTTATTC TGAACCCCAC GATTGTGAAT CCAGACAATA AAACCTGTCA GCTCCCCGGC 
CCTCAGCTTT TGGTAGCCTG CTTTACTGTA AGAGTCTGCG CAGACTTTGA AGGTCAAAGT 
ATTTCAGATG AGATAGTGCT GAAGGGTGAA TTGCAATTAG ATTCATTGAA ACAGAAAGGA 
GCTGTTAAGA GGACCCTCTT CTTTGATTAC CATCAGTCAC ATCACTACTT CTCCATTGTG 
ATAGAAAGAC AGAAACAACT CCATTGCCAG GACTTTCTTG TTTATCTCAG AGATGAAACA 
GAATTTAGAG ATAAATTATC TCCCATCAAT ATAAACTTCA ATTATAGTTT GGATGAGTCC 
AGTTTTGAAG ATAGTTTGAC TGTGAAGCCA ATACTGAACT ATTACCAGAA AAACTCACTC 
GCAGAGCAGG CTTACATTCT GGTTGACTGT GGGGAGGACA ACTTATGTAT TCCTGACTTG 
CAACTTTCTG CAGTGCCGGA TACAGATCAG CTAATAATTG GAGAAGAAAA CTGTGTCATG 
CTCATAATAA ATCCAAGGAA TGATGGGGAA GGAGCCTATG AAGCTGAGCT ACATATAAAG 
ATTCCGCCTG AAGCAGATTA CACTGGGGTT GAACGTAACA ACAAGGCACT GCGTGTGTTG 
AGCTGTGATT ACAAGATGGA AAATGAAACT AGAATGGTGG TTTGTGATCT TGGGAACCCC 
ATGGTGGCTG GCGCAAACTT CTCCACAGGC ATTCGATTTT CTGTTCAGCA TTTTGAAAAT 
TCAGATTTCA GCATAAATTT TGAGCTGCAA ATAAAAAGTT CTAACAAGAT AAATCCCACT 
AGCAACTTAG TGAACCTCCA TATCAACATC AGTGCTGTGG CTCAAGTACA GATCAGAGGA 
GTGTCTCACC CCCCAACAAT TATTTTGCCT CTTCACAACT GGGAGCCCAA AGATGAACCT 
ACAAAAGAAG AAGAAGTTGG TCCTTTAGTA GAACACATCT ATGAGCTGCA CAATATAGGA 
CCAAGTGCCA TCAACAATAC AGTTCTCCAT GTTGGTTGGC CTGTGTCCAG TAGAGAGGAA 
TTTCTTCTTT ATATCCTTCA CATTCAGACA CACGGACCAT TGCACTGTCA AACAAGCTCT 
CCTATTAATA CAATGCAAAT AAAGTTTGCT GTTCCAGAAG ACACTCCTGA ACTTGCTGCT 
TTTTTATATA ATTCCACAAT TTCTCATTAC ATCAGGAGAA GGGATGTCGC AGTGGCAGAA 
CCTCACAGGA AAAACTCTGC GAAAATATTG AACTGTACAA ATGTGAAGTG TGTCTTAATT 
TCATGCACTG TGGGACAGCT GGAAAGAGGA AAGAGTGCAG CACTAAAAAT CAGGTCCCGG 
CTCTGGGCAC AAACATTCCT GGAGAGAAAG AATGATCTAT ACAGTCTTTC TTCCAGTGTT 
TCCTTTGAAG TTAAGAGCAT GCCATATAAA GTGCAACCAG CAAAGCTCCC TGAGGGAAGC 
ATAGCAATCA GAACATCTGT CATTTGGTCC ACCCCAAATG TCTCCTTTGA GATCCCTTTA 
TGGGTTATAA TACTAGCCAT ACTTCTTGGA CTACTAGTAC TAGCTCTGCT GACCCTAGCT 
TTATGGAAGT GTGGCTTCTT TGACAGAGCT AGACCTCCTC AAGATGACAT GGCTGACAGG 
CAACAGCTGA CAAATAACAA GACTACTGAT GCATAA

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

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ITGA8 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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