COL6A1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	COL6A1
Entrez Gene ID	100226931
Full Name	collagen type VI alpha 1 chain
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002190829.4	XP_002190865.1	collagen alpha-1(VI) chain
XM_002190829.3	XP_002190865.1	collagen alpha-1(VI) chain

Pathways from BioSystems
Gene Ontology

The following COL6A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL6A1 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
OTd11275	XM_002190829.3 Latest version!	Taeniopygia guttata collagen, type VI, alpha 1 (COL6A1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd49296	XM_002190829.4 Latest version!	Taeniopygia guttata collagen type VI alpha 1 chain (COL6A1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

COL6A1 ( XM_002190829.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002190865.1 Taeniopygia guttata collagen, type VI, alpha 1 (COL6A1), mRNA.

Price & Availability↑

CloneID	OTd11275
Clone ID Related Accession (Same CDS sequence)	XM_002190829.3
Accession Version	XM_002190829.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3072bp) 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	collagen alpha-1(VI) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198916.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002190829.2. ##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 :: 3% of CDS bases ##RefSeq-Attributes-END##

ATGAGGCTGC GAGACTTTCT GCTCACTCTG CTGCTCCCAG CCGGCTTCCT GTGGGGGGAC 
TCATGTGCTC AGCGCCCAGA AATCATCACC CAAGTCTCCA GTGCAGAAGA CTGCCCTGTG 
GACCTGTTCT TCGTCCTGGA CACCTCAGAG AGCGTTGCCC TGAGGGTGAA GCCCTTTGGG 
GACCTGGTTA CCCAAGTGAA AGATTTCACC AACCAGTTCA TTGATAAGCT CACCCAGAGG 
TACTACCGCT GCGACCGCAA CCTGGTGTGG AACGCGGGAG CGCTGCACTA CAGCGACGAG 
GTGGTGCTCA TTAAGAGTCT GACGCCAATG CCCAGCGGGC AGAGCGAGCT GAAGAACCGC 
GTGTCAGCCA TCAACTACAT CGGGAAGGGC ACCTACACAG ACTGCGCCAT AAAGCGCGGC 
ATCGAGGAGC TGCTCATCGG TGGTTCCCAT CACAAGGAGA ATAAATACCT CATTGTCGTG 
ACTGATGGAC ATCCCTTGGA AGGTTACAAG GAGCCCTGTG GAGGCCTGGA TGATGCTGCC 
AATGAAGCCA AACTCCTGGG GATCAAAGTG TTCTCTGTTG CCATCTCTCC CAACCACTTG 
GACCAGCGGC TGAACATTAT TGCCACAGAT CACGCTTACC GACGCAATTT CACTGCCACC 
AGCCTGAAAC CCACCCGGGA GATCGATGTG GAGGAGACCA TCAACACCAT TATCGACATG 
ATTAAACTTA ACACAGAGCA ATCGTGCTGC TCCTTCGAGT GCCAGCCTCC CCGAGGGCCC 
CCTGGACCTC CTGGTGACCC TGGCCATGAG GGAGAACGAG GCAAACCAGG TCTTCCCGGT 
CAGAAAGGAG AGGCTGGAGA CCCAGGCAGG CCAGGAGACA TGGGACCTGT TGGCTACCAA 
GGAATGAAAG GTGACAAGGG AAGCCGAGGA GAAAAGGGCT CAAGAGGAGC CAAAGGAGCC 
AAGGGTGAGA AAGGCAGGCG TGGAATCGAT GGCATTGATG GCATGAAGGG TGAAGCTGGA 
TACCCTGGAT TACCTGGCTG CAAAGGCTCA CCTGGATTCG ATGGAGCTCA AGGCCCCCCT 
GGACCGAAGG GAGATGCTGG TGCTTTTGGA CCCAAGGGAG CAAAAGGGGA GCCGGGGAAT 
GACGGGAAGC CTGGCCGACA GGGGATTCCT GGCAACCCTG GAGAGAAGGG AGCTCCTGGG 
AACCAGGGAG AGCCTGGACC AGCAGGAGAG ACTGGTGACG AGGGTGCTCT AGGTGAGGAT 
GGTCCTCCTG GAGAACGGGG CAGCAATGGA GAGAGAGGAC CCCCGGGCTC GCCAGGTGAC 
CGTGGGCTGA GAGGACAGCC GGGAGAACCC GGACCACCTG GTGACCAAGG GAGGGAAGGA 
CCCCTCGGTC CACCTGGTGA CCAGGGTGAG CCCGGACCCC CAGGACCCAA AGGCTACAGG 
GGAGATGATG GCCCCCCCGG CAGTGAGGGC CCAAAGGGAT TGCCTGGAGC ACCTGGACTG 
CCTGGGGACC CTGGGCTGAT GGGAGAAAGG GGGGAGGATG GTCCTCCTGG GAATGGCACA 
ACTGGATTCA CAGGTGCCCC AGGGCAGCCA GGAGACAGAG GCAACCCTGG TATTAACGGA 
ACAAAAGGCT ATGTCGGACC TAAAGGTGAT GAAGGGGAAG CTGGTGACCC TGGCAATGAT 
AACCTGACCC CTGGACCCAG TGGCATCAAA GGAGCAAAGG GCCACAGGGG ACGTGAAGGT 
CCCCCGGGAC CACCAGGACC CGTGGGGCCT CCAGGACCAG ATGAATGTGA AATCTTGGAC 
ATCATCATGA AGATGTGCTC TTGCTGCGAG TGCACCTGTG GTCCTGTCGA CCTCCTGTTT 
GTGTTGGACA GCTCGGAGAG CATCGGCCTG CAGAACTTCC AGATTGCCAA GGACTTCATC 
ATCAAAGTCA TTGACCGCCT GAGCAAGGAT GAGCGGGTCA AGTTTGACGC TGGGGAGTCC 
CGTGTGGGCG TTGTGCAGTA CAGCCATGAC AACACGCAGG AGCTGGTGGC CATGGGGGAT 
GCCAACATCG ACAATATTGG AGCGCTCAAG CAGGCAGTCA AGAACCTGCA GTGGATCGCT 
GGGGGCACCT ACACTGGGGA GGCCCTGCAG TTCACCAAGG ACAACCTGCT GCGGAGGTTC 
ACATCCGACA AGCGCGTGGC CATCGTCATC ACAGATGGGC GCTCCGACAC CCTGCGGGAC 
CCCACCCCGC TCAACTCCCT GTGCGATGTC ACCCCGGTGG TTTCCCTTGG GATTGGTGAC 
ATTTTCCGAA ACCCTCCAAA TCCAGATCAC CTGAATGACA TTGCTTGTTT AAGCAGACCA 
ACCAGGCCGG GACTGTCCAT TCAAAGGGAC AACTATGCCG AGCTCCTGGA TGACACCTTC 
TTGCAGAACA TCACCTCGTA CATCTGCCAA GAGAAAAAAT GTCCTGACTA CACCTGTCCA 
ATCACCTTCA CCGGGCCAGC GGACATCACA CTGCTGGTGG ACAGCTCCAC CAGTGTGGGG 
AGCAAGAACT TTGAGACAAC CAAGAAGTTC GTGAAGCAGC TGTCAGGGCG GTTCCTAGAG 
GCCAGCAAGC CCACCGACGA ATCTGTGCGC ATCTCAGTGG TGCAGTACAG CGGCCGGAAC 
CAGCAGAAAG TGGAAGCTCA GTTCCAGTAC AACTACACAG TCATTGCCAA GGCCATTGAC 
AACATGGAGT TCATGAATGA TGCCACAGAC GTGAACTCTG CTCTGCAGTT CATCACAGAG 
CTGTACCGGC GCTCTGCCCG CGCCGCAGCC AAGAAGAGGG TGCTGGTGTT TTCTGACGGA 
CACTCCCAAG GGATCACTGC CAGGGCCATT GAGAGGGCTG TGCAGGACGC ACAGAAGGCA 
GGCATTGAGA TCTACGTGCT GGCAGTGGGA AGCCAAGCCA ATGAGCCCAA CATCCGTGTC 
CTGGTCACAG GGAAGAGCGC AGATTATGAT GTTGCTTATG GGGAGCGGCA CCTTATCCGT 
GTGCCTGACT ACACCTCTCT GCTGCGTGGT GTTTTCTACC AAACTGTGTC CAGGAAGATA 
GCTGTTGACT GA

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

RefSeq	XP_002190865.1
CDS	1..3072
Translation	MRLRDFLLTLLLPAGFLWGDSCAQRPEIITQVSSAEDCPVDLFFVLDTSESVALRVKPFGDLVTQVKDFTNQFIDKLTQRYYRCDRNLVWNAGALHYSDEVVLIKSLTPMPSGQSELKNRVSAINYIGKGTYTDCAIKRGIEELLIGGSHHKENKYLIVVTDGHPLEGYKEPCGGLDDAANEAKLLGIKVFSVAISPNHLDQRLNIIATDHAYRRNFTATSLKPTREIDVEETINTIIDMIKLNTEQSCCSFECQPPRGPPGPPGDPGHEGERGKPGLPGQKGEAGDPGRPGDMGPVGYQGMKGDKGSRGEKGSRGAKGAKGEKGRRGIDGIDGMKGEAGYPGLPGCKGSPGFDGAQGPPGPKGDAGAFGPKGAKGEPGNDGKPGRQGIPGNPGEKGAPGNQGEPGPAGETGDEGALGEDGPPGERGSNGERGPPGSPGDRGLRGQPGEPGPPGDQGREGPLGPPGDQGEPGPPGPKGYRGDDGPPGSEGPKGLPGAPGLPGDPGLMGERGEDGPPGNGTTGFTGAPGQPGDRGNPGINGTKGYVGPKGDEGEAGDPGNDNLTPGPSGIKGAKGHRGREGPPGPPGPVGPPGPDECEILDIIMKMCSCCECTCGPVDLLFVLDSSESIGLQNFQIAKDFIIKVIDRLSKDERVKFDAGESRVGVVQYSHDNTQELVAMGDANIDNIGALKQAVKNLQWIAGGTYTGEALQFTKDNLLRRFTSDKRVAIVITDGRSDTLRDPTPLNSLCDVTPVVSLGIGDIFRNPPNPDHLNDIACLSRPTRPGLSIQRDNYAELLDDTFLQNITSYICQEKKCPDYTCPITFTGPADITLLVDSSTSVGSKNFETTKKFVKQLSGRFLEASKPTDESVRISVVQYSGRNQQKVEAQFQYNYTVIAKAIDNMEFMNDATDVNSALQFITELYRRSARAAAKKRVLVFSDGHSQGITARAIERAVQDAQKAGIEIYVLAVGSQANEPNIRVLVTGKSADYDVAYGERHLIRVPDYTSLLRGVFYQTVSRKIAVD

Target ORF information:

RefSeq Version	XM_002190829.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata collagen, type VI, alpha 1 (COL6A1), mRNA.

Target ORF information:

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

XM_002190829.3

ORF Insert Sequence:

ATGAGGCTGC GAGACTTTCT GCTCACTCTG CTGCTCCCAG CCGGCTTCCT GTGGGGGGAC 
TCATGTGCTC AGCGCCCAGA AATCATCACC CAAGTCTCCA GTGCAGAAGA CTGCCCTGTG 
GACCTGTTCT TCGTCCTGGA CACCTCAGAG AGCGTTGCCC TGAGGGTGAA GCCCTTTGGG 
GACCTGGTTA CCCAAGTGAA AGATTTCACC AACCAGTTCA TTGATAAGCT CACCCAGAGG 
TACTACCGCT GCGACCGCAA CCTGGTGTGG AACGCGGGAG CGCTGCACTA CAGCGACGAG 
GTGGTGCTCA TTAAGAGTCT GACGCCAATG CCCAGCGGGC AGAGCGAGCT GAAGAACCGC 
GTGTCAGCCA TCAACTACAT CGGGAAGGGC ACCTACACAG ACTGCGCCAT AAAGCGCGGC 
ATCGAGGAGC TGCTCATCGG TGGTTCCCAT CACAAGGAGA ATAAATACCT CATTGTCGTG 
ACTGATGGAC ATCCCTTGGA AGGTTACAAG GAGCCCTGTG GAGGCCTGGA TGATGCTGCC 
AATGAAGCCA AACTCCTGGG GATCAAAGTG TTCTCTGTTG CCATCTCTCC CAACCACTTG 
GACCAGCGGC TGAACATTAT TGCCACAGAT CACGCTTACC GACGCAATTT CACTGCCACC 
AGCCTGAAAC CCACCCGGGA GATCGATGTG GAGGAGACCA TCAACACCAT TATCGACATG 
ATTAAACTTA ACACAGAGCA ATCGTGCTGC TCCTTCGAGT GCCAGCCTCC CCGAGGGCCC 
CCTGGACCTC CTGGTGACCC TGGCCATGAG GGAGAACGAG GCAAACCAGG TCTTCCCGGT 
CAGAAAGGAG AGGCTGGAGA CCCAGGCAGG CCAGGAGACA TGGGACCTGT TGGCTACCAA 
GGAATGAAAG GTGACAAGGG AAGCCGAGGA GAAAAGGGCT CAAGAGGAGC CAAAGGAGCC 
AAGGGTGAGA AAGGCAGGCG TGGAATCGAT GGCATTGATG GCATGAAGGG TGAAGCTGGA 
TACCCTGGAT TACCTGGCTG CAAAGGCTCA CCTGGATTCG ATGGAGCTCA AGGCCCCCCT 
GGACCGAAGG GAGATGCTGG TGCTTTTGGA CCCAAGGGAG CAAAAGGGGA GCCGGGGAAT 
GACGGGAAGC CTGGCCGACA GGGGATTCCT GGCAACCCTG GAGAGAAGGG AGCTCCTGGG 
AACCAGGGAG AGCCTGGACC AGCAGGAGAG ACTGGTGACG AGGGTGCTCT AGGTGAGGAT 
GGTCCTCCTG GAGAACGGGG CAGCAATGGA GAGAGAGGAC CCCCGGGCTC GCCAGGTGAC 
CGTGGGCTGA GAGGACAGCC GGGAGAACCC GGACCACCTG GTGACCAAGG GAGGGAAGGA 
CCCCTCGGTC CACCTGGTGA CCAGGGTGAG CCCGGACCCC CAGGACCCAA AGGCTACAGG 
GGAGATGATG GCCCCCCCGG CAGTGAGGGC CCAAAGGGAT TGCCTGGAGC ACCTGGACTG 
CCTGGGGACC CTGGGCTGAT GGGAGAAAGG GGGGAGGATG GTCCTCCTGG GAATGGCACA 
ACTGGATTCA CAGGTGCCCC AGGGCAGCCA GGAGACAGAG GCAACCCTGG TATTAACGGA 
ACAAAAGGCT ATGTCGGACC TAAAGGTGAT GAAGGGGAAG CTGGTGACCC TGGCAATGAT 
AACCTGACCC CTGGACCCAG TGGCATCAAA GGAGCAAAGG GCCACAGGGG ACGTGAAGGT 
CCCCCGGGAC CACCAGGACC CGTGGGGCCT CCAGGACCAG ATGAATGTGA AATCTTGGAC 
ATCATCATGA AGATGTGCTC TTGCTGCGAG TGCACCTGTG GTCCTGTCGA CCTCCTGTTT 
GTGTTGGACA GCTCGGAGAG CATCGGCCTG CAGAACTTCC AGATTGCCAA GGACTTCATC 
ATCAAAGTCA TTGACCGCCT GAGCAAGGAT GAGCGGGTCA AGTTTGACGC TGGGGAGTCC 
CGTGTGGGCG TTGTGCAGTA CAGCCATGAC AACACGCAGG AGCTGGTGGC CATGGGGGAT 
GCCAACATCG ACAATATTGG AGCGCTCAAG CAGGCAGTCA AGAACCTGCA GTGGATCGCT 
GGGGGCACCT ACACTGGGGA GGCCCTGCAG TTCACCAAGG ACAACCTGCT GCGGAGGTTC 
ACATCCGACA AGCGCGTGGC CATCGTCATC ACAGATGGGC GCTCCGACAC CCTGCGGGAC 
CCCACCCCGC TCAACTCCCT GTGCGATGTC ACCCCGGTGG TTTCCCTTGG GATTGGTGAC 
ATTTTCCGAA ACCCTCCAAA TCCAGATCAC CTGAATGACA TTGCTTGTTT AAGCAGACCA 
ACCAGGCCGG GACTGTCCAT TCAAAGGGAC AACTATGCCG AGCTCCTGGA TGACACCTTC 
TTGCAGAACA TCACCTCGTA CATCTGCCAA GAGAAAAAAT GTCCTGACTA CACCTGTCCA 
ATCACCTTCA CCGGGCCAGC GGACATCACA CTGCTGGTGG ACAGCTCCAC CAGTGTGGGG 
AGCAAGAACT TTGAGACAAC CAAGAAGTTC GTGAAGCAGC TGTCAGGGCG GTTCCTAGAG 
GCCAGCAAGC CCACCGACGA ATCTGTGCGC ATCTCAGTGG TGCAGTACAG CGGCCGGAAC 
CAGCAGAAAG TGGAAGCTCA GTTCCAGTAC AACTACACAG TCATTGCCAA GGCCATTGAC 
AACATGGAGT TCATGAATGA TGCCACAGAC GTGAACTCTG CTCTGCAGTT CATCACAGAG 
CTGTACCGGC GCTCTGCCCG CGCCGCAGCC AAGAAGAGGG TGCTGGTGTT TTCTGACGGA 
CACTCCCAAG GGATCACTGC CAGGGCCATT GAGAGGGCTG TGCAGGACGC ACAGAAGGCA 
GGCATTGAGA TCTACGTGCT GGCAGTGGGA AGCCAAGCCA ATGAGCCCAA CATCCGTGTC 
CTGGTCACAG GGAAGAGCGC AGATTATGAT GTTGCTTATG GGGAGCGGCA CCTTATCCGT 
GTGCCTGACT ACACCTCTCT GCTGCGTGGT GTTTTCTACC AAACTGTGTC CAGGAAGATA 
GCTGTTGACT GA

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

COL6A1 ( XM_002190829.4 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002190865.1 Taeniopygia guttata collagen type VI alpha 1 chain (COL6A1), mRNA.

Price & Availability↑

CloneID	OTd49296
Clone ID Related Accession (Same CDS sequence)	XM_002190829.4
Accession Version	XM_002190829.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3072bp) 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	collagen alpha-1(VI) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002190829.3. ##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##

ATGAGGCTGC GAGACTTTCT GCTCACTCTG CTGCTCCCAG CCGGCTTCCT GTGGGGGGAC 
TCATGTGCTC AGCGCCCAGA AATCATCACC CAAGTCTCCA GTGCAGAAGA CTGCCCTGTG 
GACCTGTTCT TCGTCCTGGA CACCTCAGAG AGCGTTGCCC TGAGGGTGAA GCCCTTTGGG 
GACCTGGTTA CCCAAGTGAA AGATTTCACC AACCAGTTCA TTGATAAGCT CACCCAGAGG 
TACTACCGCT GCGACCGCAA CCTGGTGTGG AACGCGGGAG CGCTGCACTA CAGCGACGAG 
GTGGTGCTCA TTAAGAGTCT GACGCCAATG CCCAGCGGGC AGAGCGAGCT GAAGAACCGC 
GTGTCAGCCA TCAACTACAT CGGGAAGGGC ACCTACACAG ACTGCGCCAT AAAGCGCGGC 
ATCGAGGAGC TGCTCATCGG TGGTTCCCAT CACAAGGAGA ATAAATACCT CATTGTCGTG 
ACTGATGGAC ATCCCTTGGA AGGTTACAAG GAGCCCTGTG GAGGCCTGGA TGATGCTGCC 
AATGAAGCCA AACTCCTGGG GATCAAAGTG TTCTCTGTTG CCATCTCTCC CAACCACTTG 
GACCAGCGGC TGAACATTAT TGCCACAGAT CACGCTTACC GACGCAATTT CACTGCCACC 
AGCCTGAAAC CCACCCGGGA GATCGATGTG GAGGAGACCA TCAACACCAT TATCGACATG 
ATTAAACTTA ACACAGAGCA ATCGTGCTGC TCCTTCGAGT GCCAGCCTCC CCGAGGGCCC 
CCTGGACCTC CTGGTGACCC TGGCCATGAG GGAGAACGAG GCAAACCAGG TCTTCCCGGT 
CAGAAAGGAG AGGCTGGAGA CCCAGGCAGG CCAGGAGACA TGGGACCTGT TGGCTACCAA 
GGAATGAAAG GTGACAAGGG AAGCCGAGGA GAAAAGGGCT CAAGAGGAGC CAAAGGAGCC 
AAGGGTGAGA AAGGCAGGCG TGGAATCGAT GGCATTGATG GCATGAAGGG TGAAGCTGGA 
TACCCTGGAT TACCTGGCTG CAAAGGCTCA CCTGGATTCG ATGGAGCTCA AGGCCCCCCT 
GGACCGAAGG GAGATGCTGG TGCTTTTGGA CCCAAGGGAG CAAAAGGGGA GCCGGGGAAT 
GACGGGAAGC CTGGCCGACA GGGGATTCCT GGCAACCCTG GAGAGAAGGG AGCTCCTGGG 
AACCAGGGAG AGCCTGGACC AGCAGGAGAG ACTGGTGACG AGGGTGCTCT AGGTGAGGAT 
GGTCCTCCTG GAGAACGGGG CAGCAATGGA GAGAGAGGAC CCCCGGGCTC GCCAGGTGAC 
CGTGGGCTGA GAGGACAGCC GGGAGAACCC GGACCACCTG GTGACCAAGG GAGGGAAGGA 
CCCCTCGGTC CACCTGGTGA CCAGGGTGAG CCCGGACCCC CAGGACCCAA AGGCTACAGG 
GGAGATGATG GCCCCCCCGG CAGTGAGGGC CCAAAGGGAT TGCCTGGAGC ACCTGGGCTG 
CCTGGGGACC CTGGGCTAAT GGGAGAAAGG GGGGAGGATG GTCCTCCTGG GAATGGCACA 
ACTGGATTCA CAGGTGCCCC AGGGCAGCCA GGAGACAGAG GCAACCCTGG TATTAACGGA 
ACAAAAGGCT ATGTCGGACC TAAAGGTGAT GAAGGGGAAG CTGGTGACCC TGGCAATGAT 
AACCTGACCC CTGGACCCAG TGGCATCAAA GGAGCAAAGG GCCACAGGGG ACGTGAAGGT 
CCCCCGGGAC CACCAGGACC CGTGGGGCCT CCAGGACCAG ATGAATGTGA AATCTTGGAC 
ATCATCATGA AGATGTGCTC TTGCTGCGAG TGCACCTGTG GTCCTGTCGA CCTCCTGTTT 
GTGTTGGACA GCTCGGAGAG CATCGGCCTG CAGAACTTCC AGATTGCCAA GGACTTCATC 
ATCAAAGTCA TTGACCGCCT GAGCAAGGAT GAGCGGGTCA AGTTTGACGC TGGGGAGTCC 
CGTGTGGGAG TTGTGCAGTA CAGCCATGAC AACACGCAGG AGCTGGTGGC CATGGGGGAT 
GCCAACATCG ACAACATTGG AGCGCTCAAG CAGGCAGTCA AGAACCTGCA GTGGATCGCT 
GGGGGCACCT ACACTGGGGA GGCCCTGCAG TTCACCAAGG ACAACCTGCT GCGGAGGTTC 
ACGTCCGACA AGCGCGTGGC CATCGTCATC ACAGATGGGC GCTCCGACAC GCTGCGGGAC 
CCCACCCCGC TCAACTCCCT GTGCGATGTC ACCCCGGTGG TTTCCCTTGG GATTGGTGAC 
ATTTTCCGAA ACCCTCCAAA TCCAGATCAC CTGAATGACA TCGCTTGTTT AAGCAGACCA 
ACCAGGCCGG GACTGTCCAT TCAAAGGGAC AACTATGCCG AGCTCCTGGA TGACACCTTC 
TTGCAGAACA TCACCTCGTA CATCTGCCAA GAGAAAAAAT GTCCTGACTA CACCTGTCCA 
ATCACCTTCA CCGGGCCAGC GGACATCACA CTGCTGGTGG ACAGCTCCAC CAGTGTGGGG 
AGCAAGAACT TTGAGACCAC CAAGAAGTTC GTGAAGCAGC TGTCAGGGCG GTTCCTAGAG 
GCCAGCAAGC CCACCGATGA ATCTGTGCGC ATCTCAGTGG TGCAGTACAG CGGCCGGAAC 
CAGCAGAAAG TGGAAGCTCA GTTCCAGTAC AACTACACAG TCATTGCCAA GGCCATTGAC 
AACATGGAGT TCATGAATGA TGCCACGGAC GTGAACTCTG CTCTGCAGTT CATCACAGAG 
CTGTACCGGC GCTCTGCCCG CGCCGCAGCC AAGAAGAGGG TGCTGGTGTT TTCTGACGGA 
CACTCCCAAG GGATCACTGC CAGGGCCATT GAGAGGGCTG TGCAGGACGC ACAGAAGGCA 
GGCATTGAGA TCTACGTGCT GGCAGTGGGA AGCCAAGCCA ATGAGCCCAA CATCCGTGTC 
CTGGTCACAG GGAAGAGCGC AGATTATGAT GTTGCTTATG GGGAGCGGCA CCTTATCCGT 
GTGCCTGACT ACACCTCTCT GCTGCGTGGT GTTTTCTACC AAACTGTGTC CAGGAAGATA 
GCTGTTGACT GA

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

RefSeq	XP_002190865.1
CDS	228..3299
Translation	MRLRDFLLTLLLPAGFLWGDSCAQRPEIITQVSSAEDCPVDLFFVLDTSESVALRVKPFGDLVTQVKDFTNQFIDKLTQRYYRCDRNLVWNAGALHYSDEVVLIKSLTPMPSGQSELKNRVSAINYIGKGTYTDCAIKRGIEELLIGGSHHKENKYLIVVTDGHPLEGYKEPCGGLDDAANEAKLLGIKVFSVAISPNHLDQRLNIIATDHAYRRNFTATSLKPTREIDVEETINTIIDMIKLNTEQSCCSFECQPPRGPPGPPGDPGHEGERGKPGLPGQKGEAGDPGRPGDMGPVGYQGMKGDKGSRGEKGSRGAKGAKGEKGRRGIDGIDGMKGEAGYPGLPGCKGSPGFDGAQGPPGPKGDAGAFGPKGAKGEPGNDGKPGRQGIPGNPGEKGAPGNQGEPGPAGETGDEGALGEDGPPGERGSNGERGPPGSPGDRGLRGQPGEPGPPGDQGREGPLGPPGDQGEPGPPGPKGYRGDDGPPGSEGPKGLPGAPGLPGDPGLMGERGEDGPPGNGTTGFTGAPGQPGDRGNPGINGTKGYVGPKGDEGEAGDPGNDNLTPGPSGIKGAKGHRGREGPPGPPGPVGPPGPDECEILDIIMKMCSCCECTCGPVDLLFVLDSSESIGLQNFQIAKDFIIKVIDRLSKDERVKFDAGESRVGVVQYSHDNTQELVAMGDANIDNIGALKQAVKNLQWIAGGTYTGEALQFTKDNLLRRFTSDKRVAIVITDGRSDTLRDPTPLNSLCDVTPVVSLGIGDIFRNPPNPDHLNDIACLSRPTRPGLSIQRDNYAELLDDTFLQNITSYICQEKKCPDYTCPITFTGPADITLLVDSSTSVGSKNFETTKKFVKQLSGRFLEASKPTDESVRISVVQYSGRNQQKVEAQFQYNYTVIAKAIDNMEFMNDATDVNSALQFITELYRRSARAAAKKRVLVFSDGHSQGITARAIERAVQDAQKAGIEIYVLAVGSQANEPNIRVLVTGKSADYDVAYGERHLIRVPDYTSLLRGVFYQTVSRKIAVD

Target ORF information:

RefSeq Version	XM_002190829.4
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata collagen type VI alpha 1 chain (COL6A1), mRNA.

Target ORF information:

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

XM_002190829.4

ORF Insert Sequence:

ATGAGGCTGC GAGACTTTCT GCTCACTCTG CTGCTCCCAG CCGGCTTCCT GTGGGGGGAC 
TCATGTGCTC AGCGCCCAGA AATCATCACC CAAGTCTCCA GTGCAGAAGA CTGCCCTGTG 
GACCTGTTCT TCGTCCTGGA CACCTCAGAG AGCGTTGCCC TGAGGGTGAA GCCCTTTGGG 
GACCTGGTTA CCCAAGTGAA AGATTTCACC AACCAGTTCA TTGATAAGCT CACCCAGAGG 
TACTACCGCT GCGACCGCAA CCTGGTGTGG AACGCGGGAG CGCTGCACTA CAGCGACGAG 
GTGGTGCTCA TTAAGAGTCT GACGCCAATG CCCAGCGGGC AGAGCGAGCT GAAGAACCGC 
GTGTCAGCCA TCAACTACAT CGGGAAGGGC ACCTACACAG ACTGCGCCAT AAAGCGCGGC 
ATCGAGGAGC TGCTCATCGG TGGTTCCCAT CACAAGGAGA ATAAATACCT CATTGTCGTG 
ACTGATGGAC ATCCCTTGGA AGGTTACAAG GAGCCCTGTG GAGGCCTGGA TGATGCTGCC 
AATGAAGCCA AACTCCTGGG GATCAAAGTG TTCTCTGTTG CCATCTCTCC CAACCACTTG 
GACCAGCGGC TGAACATTAT TGCCACAGAT CACGCTTACC GACGCAATTT CACTGCCACC 
AGCCTGAAAC CCACCCGGGA GATCGATGTG GAGGAGACCA TCAACACCAT TATCGACATG 
ATTAAACTTA ACACAGAGCA ATCGTGCTGC TCCTTCGAGT GCCAGCCTCC CCGAGGGCCC 
CCTGGACCTC CTGGTGACCC TGGCCATGAG GGAGAACGAG GCAAACCAGG TCTTCCCGGT 
CAGAAAGGAG AGGCTGGAGA CCCAGGCAGG CCAGGAGACA TGGGACCTGT TGGCTACCAA 
GGAATGAAAG GTGACAAGGG AAGCCGAGGA GAAAAGGGCT CAAGAGGAGC CAAAGGAGCC 
AAGGGTGAGA AAGGCAGGCG TGGAATCGAT GGCATTGATG GCATGAAGGG TGAAGCTGGA 
TACCCTGGAT TACCTGGCTG CAAAGGCTCA CCTGGATTCG ATGGAGCTCA AGGCCCCCCT 
GGACCGAAGG GAGATGCTGG TGCTTTTGGA CCCAAGGGAG CAAAAGGGGA GCCGGGGAAT 
GACGGGAAGC CTGGCCGACA GGGGATTCCT GGCAACCCTG GAGAGAAGGG AGCTCCTGGG 
AACCAGGGAG AGCCTGGACC AGCAGGAGAG ACTGGTGACG AGGGTGCTCT AGGTGAGGAT 
GGTCCTCCTG GAGAACGGGG CAGCAATGGA GAGAGAGGAC CCCCGGGCTC GCCAGGTGAC 
CGTGGGCTGA GAGGACAGCC GGGAGAACCC GGACCACCTG GTGACCAAGG GAGGGAAGGA 
CCCCTCGGTC CACCTGGTGA CCAGGGTGAG CCCGGACCCC CAGGACCCAA AGGCTACAGG 
GGAGATGATG GCCCCCCCGG CAGTGAGGGC CCAAAGGGAT TGCCTGGAGC ACCTGGGCTG 
CCTGGGGACC CTGGGCTAAT GGGAGAAAGG GGGGAGGATG GTCCTCCTGG GAATGGCACA 
ACTGGATTCA CAGGTGCCCC AGGGCAGCCA GGAGACAGAG GCAACCCTGG TATTAACGGA 
ACAAAAGGCT ATGTCGGACC TAAAGGTGAT GAAGGGGAAG CTGGTGACCC TGGCAATGAT 
AACCTGACCC CTGGACCCAG TGGCATCAAA GGAGCAAAGG GCCACAGGGG ACGTGAAGGT 
CCCCCGGGAC CACCAGGACC CGTGGGGCCT CCAGGACCAG ATGAATGTGA AATCTTGGAC 
ATCATCATGA AGATGTGCTC TTGCTGCGAG TGCACCTGTG GTCCTGTCGA CCTCCTGTTT 
GTGTTGGACA GCTCGGAGAG CATCGGCCTG CAGAACTTCC AGATTGCCAA GGACTTCATC 
ATCAAAGTCA TTGACCGCCT GAGCAAGGAT GAGCGGGTCA AGTTTGACGC TGGGGAGTCC 
CGTGTGGGAG TTGTGCAGTA CAGCCATGAC AACACGCAGG AGCTGGTGGC CATGGGGGAT 
GCCAACATCG ACAACATTGG AGCGCTCAAG CAGGCAGTCA AGAACCTGCA GTGGATCGCT 
GGGGGCACCT ACACTGGGGA GGCCCTGCAG TTCACCAAGG ACAACCTGCT GCGGAGGTTC 
ACGTCCGACA AGCGCGTGGC CATCGTCATC ACAGATGGGC GCTCCGACAC GCTGCGGGAC 
CCCACCCCGC TCAACTCCCT GTGCGATGTC ACCCCGGTGG TTTCCCTTGG GATTGGTGAC 
ATTTTCCGAA ACCCTCCAAA TCCAGATCAC CTGAATGACA TCGCTTGTTT AAGCAGACCA 
ACCAGGCCGG GACTGTCCAT TCAAAGGGAC AACTATGCCG AGCTCCTGGA TGACACCTTC 
TTGCAGAACA TCACCTCGTA CATCTGCCAA GAGAAAAAAT GTCCTGACTA CACCTGTCCA 
ATCACCTTCA CCGGGCCAGC GGACATCACA CTGCTGGTGG ACAGCTCCAC CAGTGTGGGG 
AGCAAGAACT TTGAGACCAC CAAGAAGTTC GTGAAGCAGC TGTCAGGGCG GTTCCTAGAG 
GCCAGCAAGC CCACCGATGA ATCTGTGCGC ATCTCAGTGG TGCAGTACAG CGGCCGGAAC 
CAGCAGAAAG TGGAAGCTCA GTTCCAGTAC AACTACACAG TCATTGCCAA GGCCATTGAC 
AACATGGAGT TCATGAATGA TGCCACGGAC GTGAACTCTG CTCTGCAGTT CATCACAGAG 
CTGTACCGGC GCTCTGCCCG CGCCGCAGCC AAGAAGAGGG TGCTGGTGTT TTCTGACGGA 
CACTCCCAAG GGATCACTGC CAGGGCCATT GAGAGGGCTG TGCAGGACGC ACAGAAGGCA 
GGCATTGAGA TCTACGTGCT GGCAGTGGGA AGCCAAGCCA ATGAGCCCAA CATCCGTGTC 
CTGGTCACAG GGAAGAGCGC AGATTATGAT GTTGCTTATG GGGAGCGGCA CCTTATCCGT 
GTGCCTGACT ACACCTCTCT GCTGCGTGGT GTTTTCTACC AAACTGTGTC CAGGAAGATA 
GCTGTTGACT GA

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

PubMed

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COL6A1 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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