col18a1a cDNA ORF clone, Danio rerio(zebrafish)

Gene
Clones
gRNAs

Summary

Gene Symbol	col18a1a
Entrez Gene ID	564123
Full Name	collagen type XVIII alpha 1 chain a
Synonyms	cb371,cb529,col18a1,fc96d06,sb:cb529,wu:fb47h10,wu:fb77g12,wu:fc50f04,wu:fc96d06,wu:fk02h12
General protein information	Preferred Names collagen type XVIII alpha 1 chain a Names collagen type XVIII, alpha 1 endostatin
Gene Type	protein-coding
Organism	Danio rerio(zebrafish)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021478721.1	XP_021334396.1	collagen type XVIII, alpha 1 isoform X2
NM_001349195.1	NP_001336124.1	collagen type XVIII, alpha 1 precursor
XM_021478720.1	XP_021334395.1	collagen type XVIII, alpha 1 isoform X1
XM_021478722.1	XP_021334397.1	collagen type XVIII, alpha 1 isoform X3

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database.
Pasquier J, Cabau C, Nguyen T, Jouanno E, Severac D, Braasch I, Journot L, Pontarotti P, Klopp C, Postlethwait JH, Guiguen Y, Bobe J
BMC genomics17368(2016 05)

Single epicardial cell transcriptome sequencing identifies Caveolin 1 as an essential factor in zebrafish heart regeneration.
Cao J, Navis A, Cox BD, Dickson AL, Gemberling M, Karra R, Bagnat M, Poss KD
Development (Cambridge, England)143(2)232-43(2016 Jan)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Together these data suggest that Lh3-Collagen18A1 dependent ECM modifications regulate the transition of trunk neural crest cells from a non-segmental sheet like migration mode to a segmental stream migration mode
Title: A novel role for Lh3 dependent ECM modifications during neural crest cell migration in zebrafish.

These results provide important insight into the biological function and regulation of COL18A1, and point to additional sequences that may contribute to complex diseases involving COL18A1.
Title: Functionally conserved cis-regulatory elements of COL18A1 identified through zebrafish transgenesis.

diwanka (lh3) acts through myotomal type XVIII collagen, a ligand for neural-receptor protein tyrosine phosphatases that guide motor axons
Title: The myotomal diwanka (lh3) glycosyltransferase and type XVIII collagen are critical for motor growth cone migration.

The following col18a1a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the col18a1a 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)
ODa98452	NM_001349195.1 Latest version!	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
ODa143962	XM_021478720.1 Latest version!	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00
ODa143963	XM_021478721.1 Latest version!	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
ODa143964	XM_021478722.1 Latest version!	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00

ORF Online Only Promotion

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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)

col18a1a ( NM_001349195.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_001336124.1 Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), mRNA.

Price & Availability↑

CloneID	ODa98452
Clone ID Related Accession (Same CDS sequence)	NM_001349195.1
Accession Version	NM_001349195.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4152bp) 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	2019-11-23
Organism	Danio rerio(zebrafish)
Product	collagen type XVIII, alpha 1 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX927363.9 and CT030212.9. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. 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 :: BC163779.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2168446, SAMEA2168447 [ECO:0000348] ##Evidence-Data-END##

ATGATGGCTG AACTCAGGTT TTGGCTGTGC CTCTTTATTT TGGCATGCGT GAGGATACGC 
CACACACATG GCTGGTTCTG GTTTGATGAC TCCAAGGAAA TTGAGAAGGG CGTGCAGACA 
CCAGCATACC TGACCACCGT AGGGCCCACA TCCCTGCCGA GGACAGAACC ATCCAGAACA 
ACAGAAGAAA GTGGAGTGTC GCTGTTGCAA CTAATTGGCG ATCCTCCACC CAACGGCGTC 
TCCAAAGTCT TCGACCAAGC AAACAGTCCT GGATATGTGT TTGGACCAAG CTCAAATGTG 
GGTCAGTCTG CTGCAGCCCA CCTGCCCAAT CCCTTCTACC GCGATTTCTC CCTCATCTTC 
AATATAAAAC CCACATCCTC CAAGCCTGGC GTGATCTTCT CCATCACTGA CCCCACTCAG 
AACATCATGT ATGTTGGCGT GAAGCTGTCG GCGGTGGAAA GAGGCAAACA GTCCATTATC 
TTCTACTACA CCGAGCCTGA TTCGCAGAGC TCCTATGAGG CGGCCAGATT CTCTGTTTCC 
TCCATGTTGA ACATATGGAC GCGCTTTTCC ATCAGCGTTT TGAACGAGCA GGTTTCTCTC 
TACTTTAACT GCGACTCGGA TCCTCAGGTT GTCAATTTCG AGCGCTCGCC TGATGATATG 
GACATGGATG CTGGCGCTGG AGTGTTTGTG GGACATGCCA GTGGAGCAGA CCCGGATAAG 
TTTTTGGGTG TTATTGGTGA TCTGAGGGTG TCGAGAGACC CTGGGGCGGC TGAACGGCAC 
TGTGAAGAAG AGGAGGATGA CTATGCAACA GAGGCATCAG GTGATTACGG AGCAAGTGGA 
GATGGAGAGC AGCCATCACC AGTTCAGCCA ACACCTCCAT CATCTCGGCC AATCCAGCGG 
CCACCGGTGA TTAGCAGGGA TCCTATACAG CGGCCACCGG TGATTAGCAG GGAGCCTATA 
CAGCAGACAG TTGCAAGAGG AGAGAAGGGT GACAGAGGGG AGAAGGGTGC TAAAGGTGAC 
AGGGGTCTTG CTGGGCCAAA GGGTGATGTG GGGTCTGGAT CAGTGTCTGG TGGAGGATCA 
AAAGGAGACA AGGGCGTCCC AGGAGAGAAA GGAATGAAGG GCACTTCTGG TTTTGGTTAT 
CCTGGATCTA AGGGTGACCG TGGCCCCCCT GGACCTCCAG GACCTCCGGG TCCCCAAGGG 
CCCAGTGCAG AGGTAGAGGT GCGGGGCGAT GGGTCAGTTG TGCAGAAAGT CACAGGACCA 
AGAGGACCAC CTGGACCCCA AGGACCCCCT GGTCCCCCTG GACCTGAAGG GGAGCCGGGT 
GACCCTGGTG AAGATGGAAA AGCTGGCCAA GTTGGACCTT CTGGTTTTCC TGGAAATCCT 
GGGAATCCTG GACCCAAAGG AGATAAGGGA GATCGAGGTG AAAGTCAGCC AGGACCCCGT 
GGGCCGCCTG GTCCTCCCGG CCCACCAGGA CCCTCCTCTG GCTTTGATAG ACCTACGTTT 
GTGGACATGG AGGGCTCTGG ATTTGATATG GACAGTGTGC GGGCAGTGCC TGGTTTGCCT 
GGTCCACCTG GTCCTCCTGG TCCCCCTGGT CCCCCTGGCT CTGCATCTTC AGGCTCTGGT 
GGTTTTGGGC CACCTGGTCC TCCTGGGCAA AATGGGGCGC CAGGTCAGCC GGGACTTTCG 
GGTGTACCAG GTGCTGATGG AAAACCAGGC TTACCTGGTC CAAAAGGAGA GAAGGGTGAT 
GCCGGTGAGC TGGGCCTTCC TGGACCGGTG GGAGAGAAGG GTGCCAAAGG TTCTTCTGGT 
CCCCCTGGCA CCACTGGGAT TGGTGGGCCT GCTGGTCTTC CAGGACCAAT TGGACCTATT 
GGACTTCCAG GACCACCTGG TCCTCCTGGA CCAAGCTTTA ATGTTGGTTT TGATGACATG 
GAAGGTTCTG GTGTTCACTT CAGTTCAGTA CCTGGAGTAA GAGGACCAGT TGGAATCCCG 
GGGCCACCTG GTGTCCCAGG GCCACAGGGT CAGCCTGGAT TCCCAGGGCT TCCTGGTGAG 
AAAGGCAGTT TAGGAGCTCA GGGAAATGAT GGTCTTCCTG GTGCAGATGG CTTCCCTGGA 
CCACAGGGAC CAAAGGGCGA CAAAGGAGAG CGAGGCGACA GGGGTGAACC TGGTCGAGAT 
GGACATGGTC ATCCAGGCCA ACCAGGCCCT CCTGGACCAC CTGGACAGAT TATTTATCGC 
TACTCTGAAC ATTATGATGA AGTTGGAGGA ACGGGGGCTC AGGGTGGTTC TGGTGTTCCT 
GGCCAAGCAG GATTCCCAGG CCCAATGGGA CCAAAGGGTG ACAGAGGTGA GCCTGGTCTT 
CCAGGCTATG ACATTAAGGG GGAGAAAGGA GAACCTGGAC TTATTCTTGG ACCTGATGGA 
AATCCACTTT ACCTTGGTGG ATTGACAGGA CAGAAGGGTG AGAGAGGTAT TTCTGGACCA 
GTCGGACCTC CTGGTCCAGC AGGACCTCCT GGTGCAAAAG GTGAATTCGG AATGCCAGGC 
AGACCTGGTC GTCCAGGTGT GAACGGATAT AAAGGAGAGA AGGGAGAGCC AAGTTCAGGC 
TCTGGATATG GTTACCCGGG TCCCCCTGGT CCCCCAGGAC CCCCTGGTCC CCCCGGACCC 
GCTGTGCCCT TGGACAGATT TGGCAGATAT GAAGATTATG CAAGGCTCTA TCCAGCTACG 
AAAGGAGAGA AAGGAGACCA AGGAGCTCCT GGCATTCCCG GATCGCCAGG TTTTTCCACA 
AACTTTGATA TATATTCACT CAAGAATGAG ATGAAGGGTG AGCGGGGAGA GTCTGGTCTT 
AAAGGAGAGA AAGGAGAACC AGGAGGTGGA TTTTATGACC CTCGTTTTGG AGCTGTACAA 
GGACCACCAG GGAACCCAGG ACCTGCTGGA CCTAAAGGAG ACTCAATCAG AGGCCCACCT 
GGACCCCAGG GCCCACCAGG AACACCCGGG GTTGGTTATG ATGGTCGACC AGGTAATCCA 
GGACCTCCTG GACCACCTGG TCCACCAGGG TCCCCATCAC TGCCAGGACC CTATAGGCCA 
CCACTCAGTA TTCCTGGACC TCCAGGTCCT CCTGGCCCAC CTGGAATTCC TGGCACTGGA 
TCAGGGGTGA CTGTCCTGAG GTCTCATGAC ATAATGATTG CTACAGCACG CAGACAGACA 
GAAGGGACTC TGATTTACAT TCTGGACAGA AACGATCTCT ACCTCAGAGT TCGGGACGGT 
GTTAGACAAG TGATGCTTGG GGATTATAAA CCTCTTTATG GAGAGCTGGA CAATGAAGTG 
GCAGCAGTCC AGCCACCCCC TGTTGTTCAC TATTCCCAGG ACCACACGGC TAACAATGGC 
GCAGAGCAGA TTTCTCCACC ACACCAGCCT ATTGATTTCC CAACGAGAGA GCAGGAGAAC 
AGAAACCCCA ACCCGCAACC TGACCCCCGA TACCCGGATC CACGATACCC ACCATACACT 
GACAACAGAT ACACCGATCC TGTAGAGCCC AACATCAGAT ATCCTGTTCA ACCCGAGAGG 
AATCCAATCA CTCCAGCCCG CCGTCCTATC CCTCCTGTCA ATCAGCCAGG AGGCCACGCC 
CACACCCACA CTTCCGGACC AGGGTTGCAT CTTATTGCTC TGAATTCTCC ACAAGTGGGC 
AACATGAGAG GCATTCGCGG GGCAGACTTC ATGTGCTTCC AGCAGGCACG GGCCGTTGGC 
ATGAAGGGAA CGTTCAGAGC CTTCCTGTCC TCCAAACTCC AGGATCTCTA CAGTATCGTC 
CGCAGATCTG ACAGAGAGAC ATTACCAATT GTTAACCTAA AGGATCAAGT CCTCTTCAGC 
AGCTGGGAGT CTCTCTTCAG TGACTCAGAG AGCAGGATGA AGGACAATGC ACCCATCTAC 
TCGTTTGATG GCAGAGATGT CCTGAGGGAC AGTGCCTGGC CAGAGAAGAT GATTTGGCAC 
GGATCGGATG GCAGGGGTCA CAGGCAAACG GATAACTACT GCGAGACATG GAGGGCCGGA 
GACCGCGCTG TCACAGGCCT GGCCTCGTCC CTGCAGGCTG GTCAACTCCT CCAGCAGACC 
TCCAGCAGCT GCTCCAGCTC CTACATCGTG CTGTGCATCG AGAACAGCTA CATGACACAG 
TCCAAGAAAT AA

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

RefSeq	NP_001336124.1
CDS	51..4202
Translation	MMAELRFWLCLFILACVRIRHTHGWFWFDDSKEIEKGVQTPAYLTTVGPTSLPRTEPSRTTEESGVSLLQLIGDPPPNGVSKVFDQANSPGYVFGPSSNVGQSAAAHLPNPFYRDFSLIFNIKPTSSKPGVIFSITDPTQNIMYVGVKLSAVERGKQSIIFYYTEPDSQSSYEAARFSVSSMLNIWTRFSISVLNEQVSLYFNCDSDPQVVNFERSPDDMDMDAGAGVFVGHASGADPDKFLGVIGDLRVSRDPGAAERHCEEEEDDYATEASGDYGASGDGEQPSPVQPTPPSSRPIQRPPVISRDPIQRPPVISREPIQQTVARGEKGDRGEKGAKGDRGLAGPKGDVGSGSVSGGGSKGDKGVPGEKGMKGTSGFGYPGSKGDRGPPGPPGPPGPQGPSAEVEVRGDGSVVQKVTGPRGPPGPQGPPGPPGPEGEPGDPGEDGKAGQVGPSGFPGNPGNPGPKGDKGDRGESQPGPRGPPGPPGPPGPSSGFDRPTFVDMEGSGFDMDSVRAVPGLPGPPGPPGPPGPPGSASSGSGGFGPPGPPGQNGAPGQPGLSGVPGADGKPGLPGPKGEKGDAGELGLPGPVGEKGAKGSSGPPGTTGIGGPAGLPGPIGPIGLPGPPGPPGPSFNVGFDDMEGSGVHFSSVPGVRGPVGIPGPPGVPGPQGQPGFPGLPGEKGSLGAQGNDGLPGADGFPGPQGPKGDKGERGDRGEPGRDGHGHPGQPGPPGPPGQIIYRYSEHYDEVGGTGAQGGSGVPGQAGFPGPMGPKGDRGEPGLPGYDIKGEKGEPGLILGPDGNPLYLGGLTGQKGERGISGPVGPPGPAGPPGAKGEFGMPGRPGRPGVNGYKGEKGEPSSGSGYGYPGPPGPPGPPGPPGPAVPLDRFGRYEDYARLYPATKGEKGDQGAPGIPGSPGFSTNFDIYSLKNEMKGERGESGLKGEKGEPGGGFYDPRFGAVQGPPGNPGPAGPKGDSIRGPPGPQGPPGTPGVGYDGRPGNPGPPGPPGPPGSPSLPGPYRPPLSIPGPPGPPGPPGIPGTGSGVTVLRSHDIMIATARRQTEGTLIYILDRNDLYLRVRDGVRQVMLGDYKPLYGELDNEVAAVQPPPVVHYSQDHTANNGAEQISPPHQPIDFPTREQENRNPNPQPDPRYPDPRYPPYTDNRYTDPVEPNIRYPVQPERNPITPARRPIPPVNQPGGHAHTHTSGPGLHLIALNSPQVGNMRGIRGADFMCFQQARAVGMKGTFRAFLSSKLQDLYSIVRRSDRETLPIVNLKDQVLFSSWESLFSDSESRMKDNAPIYSFDGRDVLRDSAWPEKMIWHGSDGRGHRQTDNYCETWRAGDRAVTGLASSLQAGQLLQQTSSSCSSSYIVLCIENSYMTQSKK

Target ORF information:

RefSeq Version	NM_001349195.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), mRNA.

Target ORF information:

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

NM_001349195.1

ORF Insert Sequence:

ATGATGGCTG AACTCAGGTT TTGGCTGTGC CTCTTTATTT TGGCATGCGT GAGGATACGC 
CACACACATG GCTGGTTCTG GTTTGATGAC TCCAAGGAAA TTGAGAAGGG CGTGCAGACA 
CCAGCATACC TGACCACCGT AGGGCCCACA TCCCTGCCGA GGACAGAACC ATCCAGAACA 
ACAGAAGAAA GTGGAGTGTC GCTGTTGCAA CTAATTGGCG ATCCTCCACC CAACGGCGTC 
TCCAAAGTCT TCGACCAAGC AAACAGTCCT GGATATGTGT TTGGACCAAG CTCAAATGTG 
GGTCAGTCTG CTGCAGCCCA CCTGCCCAAT CCCTTCTACC GCGATTTCTC CCTCATCTTC 
AATATAAAAC CCACATCCTC CAAGCCTGGC GTGATCTTCT CCATCACTGA CCCCACTCAG 
AACATCATGT ATGTTGGCGT GAAGCTGTCG GCGGTGGAAA GAGGCAAACA GTCCATTATC 
TTCTACTACA CCGAGCCTGA TTCGCAGAGC TCCTATGAGG CGGCCAGATT CTCTGTTTCC 
TCCATGTTGA ACATATGGAC GCGCTTTTCC ATCAGCGTTT TGAACGAGCA GGTTTCTCTC 
TACTTTAACT GCGACTCGGA TCCTCAGGTT GTCAATTTCG AGCGCTCGCC TGATGATATG 
GACATGGATG CTGGCGCTGG AGTGTTTGTG GGACATGCCA GTGGAGCAGA CCCGGATAAG 
TTTTTGGGTG TTATTGGTGA TCTGAGGGTG TCGAGAGACC CTGGGGCGGC TGAACGGCAC 
TGTGAAGAAG AGGAGGATGA CTATGCAACA GAGGCATCAG GTGATTACGG AGCAAGTGGA 
GATGGAGAGC AGCCATCACC AGTTCAGCCA ACACCTCCAT CATCTCGGCC AATCCAGCGG 
CCACCGGTGA TTAGCAGGGA TCCTATACAG CGGCCACCGG TGATTAGCAG GGAGCCTATA 
CAGCAGACAG TTGCAAGAGG AGAGAAGGGT GACAGAGGGG AGAAGGGTGC TAAAGGTGAC 
AGGGGTCTTG CTGGGCCAAA GGGTGATGTG GGGTCTGGAT CAGTGTCTGG TGGAGGATCA 
AAAGGAGACA AGGGCGTCCC AGGAGAGAAA GGAATGAAGG GCACTTCTGG TTTTGGTTAT 
CCTGGATCTA AGGGTGACCG TGGCCCCCCT GGACCTCCAG GACCTCCGGG TCCCCAAGGG 
CCCAGTGCAG AGGTAGAGGT GCGGGGCGAT GGGTCAGTTG TGCAGAAAGT CACAGGACCA 
AGAGGACCAC CTGGACCCCA AGGACCCCCT GGTCCCCCTG GACCTGAAGG GGAGCCGGGT 
GACCCTGGTG AAGATGGAAA AGCTGGCCAA GTTGGACCTT CTGGTTTTCC TGGAAATCCT 
GGGAATCCTG GACCCAAAGG AGATAAGGGA GATCGAGGTG AAAGTCAGCC AGGACCCCGT 
GGGCCGCCTG GTCCTCCCGG CCCACCAGGA CCCTCCTCTG GCTTTGATAG ACCTACGTTT 
GTGGACATGG AGGGCTCTGG ATTTGATATG GACAGTGTGC GGGCAGTGCC TGGTTTGCCT 
GGTCCACCTG GTCCTCCTGG TCCCCCTGGT CCCCCTGGCT CTGCATCTTC AGGCTCTGGT 
GGTTTTGGGC CACCTGGTCC TCCTGGGCAA AATGGGGCGC CAGGTCAGCC GGGACTTTCG 
GGTGTACCAG GTGCTGATGG AAAACCAGGC TTACCTGGTC CAAAAGGAGA GAAGGGTGAT 
GCCGGTGAGC TGGGCCTTCC TGGACCGGTG GGAGAGAAGG GTGCCAAAGG TTCTTCTGGT 
CCCCCTGGCA CCACTGGGAT TGGTGGGCCT GCTGGTCTTC CAGGACCAAT TGGACCTATT 
GGACTTCCAG GACCACCTGG TCCTCCTGGA CCAAGCTTTA ATGTTGGTTT TGATGACATG 
GAAGGTTCTG GTGTTCACTT CAGTTCAGTA CCTGGAGTAA GAGGACCAGT TGGAATCCCG 
GGGCCACCTG GTGTCCCAGG GCCACAGGGT CAGCCTGGAT TCCCAGGGCT TCCTGGTGAG 
AAAGGCAGTT TAGGAGCTCA GGGAAATGAT GGTCTTCCTG GTGCAGATGG CTTCCCTGGA 
CCACAGGGAC CAAAGGGCGA CAAAGGAGAG CGAGGCGACA GGGGTGAACC TGGTCGAGAT 
GGACATGGTC ATCCAGGCCA ACCAGGCCCT CCTGGACCAC CTGGACAGAT TATTTATCGC 
TACTCTGAAC ATTATGATGA AGTTGGAGGA ACGGGGGCTC AGGGTGGTTC TGGTGTTCCT 
GGCCAAGCAG GATTCCCAGG CCCAATGGGA CCAAAGGGTG ACAGAGGTGA GCCTGGTCTT 
CCAGGCTATG ACATTAAGGG GGAGAAAGGA GAACCTGGAC TTATTCTTGG ACCTGATGGA 
AATCCACTTT ACCTTGGTGG ATTGACAGGA CAGAAGGGTG AGAGAGGTAT TTCTGGACCA 
GTCGGACCTC CTGGTCCAGC AGGACCTCCT GGTGCAAAAG GTGAATTCGG AATGCCAGGC 
AGACCTGGTC GTCCAGGTGT GAACGGATAT AAAGGAGAGA AGGGAGAGCC AAGTTCAGGC 
TCTGGATATG GTTACCCGGG TCCCCCTGGT CCCCCAGGAC CCCCTGGTCC CCCCGGACCC 
GCTGTGCCCT TGGACAGATT TGGCAGATAT GAAGATTATG CAAGGCTCTA TCCAGCTACG 
AAAGGAGAGA AAGGAGACCA AGGAGCTCCT GGCATTCCCG GATCGCCAGG TTTTTCCACA 
AACTTTGATA TATATTCACT CAAGAATGAG ATGAAGGGTG AGCGGGGAGA GTCTGGTCTT 
AAAGGAGAGA AAGGAGAACC AGGAGGTGGA TTTTATGACC CTCGTTTTGG AGCTGTACAA 
GGACCACCAG GGAACCCAGG ACCTGCTGGA CCTAAAGGAG ACTCAATCAG AGGCCCACCT 
GGACCCCAGG GCCCACCAGG AACACCCGGG GTTGGTTATG ATGGTCGACC AGGTAATCCA 
GGACCTCCTG GACCACCTGG TCCACCAGGG TCCCCATCAC TGCCAGGACC CTATAGGCCA 
CCACTCAGTA TTCCTGGACC TCCAGGTCCT CCTGGCCCAC CTGGAATTCC TGGCACTGGA 
TCAGGGGTGA CTGTCCTGAG GTCTCATGAC ATAATGATTG CTACAGCACG CAGACAGACA 
GAAGGGACTC TGATTTACAT TCTGGACAGA AACGATCTCT ACCTCAGAGT TCGGGACGGT 
GTTAGACAAG TGATGCTTGG GGATTATAAA CCTCTTTATG GAGAGCTGGA CAATGAAGTG 
GCAGCAGTCC AGCCACCCCC TGTTGTTCAC TATTCCCAGG ACCACACGGC TAACAATGGC 
GCAGAGCAGA TTTCTCCACC ACACCAGCCT ATTGATTTCC CAACGAGAGA GCAGGAGAAC 
AGAAACCCCA ACCCGCAACC TGACCCCCGA TACCCGGATC CACGATACCC ACCATACACT 
GACAACAGAT ACACCGATCC TGTAGAGCCC AACATCAGAT ATCCTGTTCA ACCCGAGAGG 
AATCCAATCA CTCCAGCCCG CCGTCCTATC CCTCCTGTCA ATCAGCCAGG AGGCCACGCC 
CACACCCACA CTTCCGGACC AGGGTTGCAT CTTATTGCTC TGAATTCTCC ACAAGTGGGC 
AACATGAGAG GCATTCGCGG GGCAGACTTC ATGTGCTTCC AGCAGGCACG GGCCGTTGGC 
ATGAAGGGAA CGTTCAGAGC CTTCCTGTCC TCCAAACTCC AGGATCTCTA CAGTATCGTC 
CGCAGATCTG ACAGAGAGAC ATTACCAATT GTTAACCTAA AGGATCAAGT CCTCTTCAGC 
AGCTGGGAGT CTCTCTTCAG TGACTCAGAG AGCAGGATGA AGGACAATGC ACCCATCTAC 
TCGTTTGATG GCAGAGATGT CCTGAGGGAC AGTGCCTGGC CAGAGAAGAT GATTTGGCAC 
GGATCGGATG GCAGGGGTCA CAGGCAAACG GATAACTACT GCGAGACATG GAGGGCCGGA 
GACCGCGCTG TCACAGGCCT GGCCTCGTCC CTGCAGGCTG GTCAACTCCT CCAGCAGACC 
TCCAGCAGCT GCTCCAGCTC CTACATCGTG CTGTGCATCG AGAACAGCTA CATGACACAG 
TCCAAGAAAT AA

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

col18a1a ( XM_021478720.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021334395.1 Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ODa143962
Clone ID Related Accession (Same CDS sequence)	XM_021478720.1
Accession Version	XM_021478720.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4938bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	collagen type XVIII, alpha 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007120.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCTG AACTCAGGTT TTGGCTGTGC CTCTTTATTT TGGCATGCGT GAGGATACGC 
CACACACATG GCTGGTTCTG GTTTGATGAC TCCAAGGAAA TTGAGAAGGG CGTGCAGACA 
CCAGCATACC TGACCACCGT AGGGCCCACA TCCCTGCCGA GGACAGAACC ATCCAGAACA 
ACAGGTACAA GTGCTTCTGT AACTGAAGAG GTCGCGAAAG AGGTCAGTTT TGAAGGGGAA 
CCGGAGGTCA GATCCAGGTC TGGATTGGGG ATTGAGTCCG GATCCGGATC TGGATCATCC 
AGTTTTGAAA GACAGCATGA ATATTTAACA TCATCCGACA AAATTTGGGG TATTATTGAT 
GACAATTCTA GTTTGCATAA TCAAGTGACC AAAGTGGACC AGACGGATGG ACTTGACCCA 
GCAAACAGTC GATTTAATGA AGGCGTTAAT GTTTCTTTCA CAAATATTAC TGCTAAAAAT 
AATGTAAATG AGAGTAATTT TGCAGAGCAT GCTAACACGA CGTTGTATTC CTCTGAATAC 
GCTGTCTCAG ATAATGCACT AACCATTGAA AGCCAATTTT TAATAGCCAG CATGCCAGCA 
TCCTTCGAAC CCCTGCGCTG CTTGCCGGTC GATTCTGGTT TGCCGTTTTG CACCAGAAGG 
GGAGTGGAGA GTTTCTCTGT GCCAAATTTT CTAAATCAAA GCAGCGTGGA GGAAGTTCGG 
ATGGTTTTGA CCGAATGGGC ATGGCTTTTG AGGTCAGGCT GTCATCATAG TTTGGAATGG 
TTTTTCTGCC TGCTGTTGAC CCCGCGGTGT GGCCACTCTG GATCTCTGCT GCCCTGTCGC 
AGTTCTTGTG AGGTCCTGCA GGACAGTTGC TGGACACTCC TGGACGAGGG CCGCCTCCCT 
GTGGAGTGCA AATCTCTGCC TGAAGAGAAG CATGATGGGT ATCGGTGCTT GTCAGTTAGT 
AACCTGAAAG AAGAAAGTGG AGTGTCGCTG TTGCAACTAA TTGGCGATCC TCCACCCAAC 
GGCGTCTCCA AAGTCTTCGA CCAAGCAAAC AGTCCTGGAT ATGTGTTTGG ACCAAGCTCA 
AATGTGGGTC AGTCTGCTGC AGCCCACCTG CCCAATCCCT TCTACCGCGA TTTCTCCCTC 
ATCTTCAATA TAAAACCCAC ATCCTCCAAG CCTGGCGTGA TCTTCTCCAT CACTGACCCC 
ACTCAGAACA TCATGTATGT TGGCGTGAAG CTGTCGGCGG TGGAAAGAGG CAAACAGTCC 
ATTATCTTCT ACTACACCGA GCCTGATTCG CAGAGCTCCT ATGAGGCGGC CAGATTCTCT 
GTTTCCTCCA TGTTGAACAT ATGGACGCGC TTTTCCATCA GCGTTTTGAA CGAGCAGGTT 
TCTCTCTACT TTAACTGCGA CTCGGATCCT CAGGTTGTCA ATTTCGAGCG CTCGCCTGAT 
GATATGGACA TGGATGCTGG CGCTGGAGTG TTTGTGGGAC ATGCCAGTGG AGCAGACCCG 
GATAAGTTTT TGGGTGTTAT TGGTGATCTG AGGGTGTCGA GAGACCCTGG GGCGGCTGAA 
CGGCACTGTG AAGAAGAGGA GGATGACTAT GCAACAGAGG CATCAGGTGA TTACGGAGCA 
AGTGGAGATG GAGAGCAGCC ATCACCAGTT CAGCCAACAC CTCCATCATC TCGGCCAATC 
CAGCGGCCAC CGGTGATTAG CAGGGATCCT ATACAGCGGC CACCGGTGAT TAGCAGGGAG 
CCTATACAGC AGACAGTTGC AAGAGGAGAG AAGGGTGACA GAGGGGAGAA GGGTGCTAAA 
GGTGACAGGG GTCTTGCTGG GCCAAAGGGT GATGTGGGGT CTGGATCAGT GTCTGGTGGA 
GGATCAAAAG GAGACAAGGG CGTCCCAGGA GAGAAAGGAA TGAAGGGCAC TTCTGGTTTT 
GGTTATCCTG GATCTAAGGG TGACCGTGGC CCCCCTGGAC CTCCAGGACC TCCGGGTCCC 
CAAGGGCCCA GTGCAGAGGT AGAGGTGCGG GGCGATGGGT CAGTTGTGCA GAAAGTCACA 
GGACCAAGAG GACCACCTGG ACCCCAAGGA CCCCCTGGTC CCCCTGGACC TGAAGGGGAG 
CCGGGTGACC CTGGTGAAGA TGGAAAAGCT GGCCAAGTTG GACCTTCTGG TTTTCCTGGA 
AATCCTGGGA ATCCTGGACC CAAAGGAGAT AAGGGAGATC GAGGTGAAAG TCAGCCAGGA 
CCCCGTGGGC CGCCTGGTCC TCCCGGCCCA CCAGGACCCT CCTCTGGCTT TGATAGACCT 
ACGTTTGTGG ACATGGAGGG CTCTGGATTT GATATGGACA GTGTGCGGGC AGTGCCTGGT 
TTGCCTGGTC CACCTGGTCC TCCTGGTCCC CCTGGTCCCC CTGGCTCTGC ATCTTCAGGC 
TCTGGTGGTT TTGGGCCACC TGGTCCTCCT GGGCAAAATG GGGCGCCAGG TCAGCCGGGA 
CTTTCGGGTG TACCAGGTGC TGATGGAAAA CCAGGCTTAC CTGGTCCAAA AGGAGAGAAG 
GGTGATGCCG GTGAGCTGGG CCTTCCTGGA CCGGTGGGAG AGAAGGGTGC CAAAGGTTCT 
TCTGGTCCCC CTGGCACCAC TGGGATTGGT GGGCCTGCTG GTCTTCCAGG ACCAATTGGA 
CCTATTGGAC TTCCAGGACC ACCTGGTCCT CCTGGACCAA GCTTTAATGT TGGTTTTGAT 
GACATGGAAG GTTCTGGTGT TCACTTCAGT TCAGTACCTG GAGTAAGAGG ACCAGTTGGA 
ATCCCGGGGC CACCTGGTGT CCCAGGGCCA CAGGGTCAGC CTGGATTCCC AGGGCTTCCT 
GGTGAGAAAG GCAGTTTAGG AGCTCAGGGA AATGATGGTC TTCCTGGTGC AGATGGCTTC 
CCTGGACCAC AGGGACCAAA GGGCGACAAA GGAGAGCGAG GCGACAGGGG TGAACCTGGT 
CGAGATGGAC ATGGTCATCC AGGCCAACCA GGCCCTCCTG GACCACCTGG ACAGATTATT 
TATCGCTACT CTGAACATTA TGATGAAGTT GGAGGAACGG GGGCTCAGGG TGGTTCTGGT 
GTTCCTGGCC AAGCAGGATT CCCAGGCCCA ATGGGACCAA AGGGTGACAG AGGTGAGCCT 
GGTCTTCCAG GCTATGACAT TAAGGGGGAG AAAGGAGAAC CTGGACTTAT TCTTGGACCT 
GATGGAAATC CACTTTACCT TGGTGGATTG ACAGGACAGA AGGGTGAGAG AGGTATTTCT 
GGACCAGTCG GACCTCCTGG TCCAGCAGGA CCTCCTGGTG CAAAAGGTGA ATTCGGAATG 
CCAGGCAGAC CTGGTCGTCC AGGTGTGAAC GGATATAAAG GAGAGAAGGG AGAGCCAAGT 
TCAGGCTCTG GATATGGTTA CCCGGGTCCC CCTGGTCCCC CAGGACCCCC TGGTCCCCCC 
GGACCCGCTG TGCCCTTGGA CAGATTTGGC AGATATGAAG ATTATGCAAG GCTCTATCCA 
GCTACGAAAG GAGAGAAAGG AGACCAAGGA GCTCCTGGCA TTCCCGGATC GCCAGGTTTT 
TCCACAAACT TTGATATATA TTCACTCAAG AATGAGATGA AGGGTGAGCG GGGAGAGTCT 
GGTCTTAAAG GAGAGAAAGG AGAACCAGGA GGTGGATTTT ATGACCCTCG TTTTGGAGCT 
GTACAAGGAC CACCAGGGAA CCCAGGACCT GCTGGACCTA AAGGAGACTC AATCAGAGGC 
CCACCTGGAC CCCAGGGCCC ACCAGGAACA CCCGGGGTTG GTTATGATGG TCGACCAGGT 
AATCCAGGAC CTCCTGGACC ACCTGGTCCA CCAGGGTCCC CATCACTGCC AGGACCCTAT 
AGGCCACCAC TCAGTATTCC TGGACCTCCA GGTCCTCCTG GCCCACCTGG AATTCCTGGC 
ACTGGATCAG GGGTGACTGT CCTGAGGTCT CATGACATAA TGATTGCTAC AGCACGCAGA 
CAGACAGAAG GGACTCTGAT TTACATTCTG GACAGAAACG ATCTCTACCT CAGAGTTCGG 
GACGGTGTTA GACAAGTGAT GCTTGGGGAT TATAAACCTC TTTATGGAGA GCTGGACAAT 
GAAGTGGCAG CAGTCCAGCC ACCCCCTGTT GTTCACTATT CCCAGGACCA CACGGCTAAC 
AATGGCGCAG AGCAGATTTC TCCACCACAC CAGCCTATTG ATTTCCCAAC GAGAGAGCAG 
GAGAACAGAA ACCCCAACCC GCAACCTGAC CCCCGATACC CGGATCCACG ATACCCACCA 
TACACTGACA ACAGATACAC CGATCCTGTA GAGCCCAACA TCAGATATCC TGTTCAACCC 
GAGAGGAATC CAATCACTCC AGCCCGCCGT CCTATCCCTC CTGTCAATCA GCCAGGAGGC 
CACGCCCACA CCCACACTTC CGGACCAGGG TTGCATCTTA TTGCTCTGAA TTCTCCACAA 
GTGGGCAACA TGAGAGGCAT TCGCGGGGCA GACTTCATGT GCTTCCAGCA GGCACGGGCC 
GTTGGCATGA AGGGAACGTT CAGAGCCTTC CTGTCCTCCA AACTCCAGGA TCTCTACAGT 
ATCGTCCGCA GATCTGACAG AGAGACATTA CCAATTGTTA ACCTAAAGGA TCAAGTCCTC 
TTCAGCAGCT GGGAGTCTCT CTTCAGTGAC TCAGAGAGCA GGATGAAGGA CAATGCACCC 
ATCTACTCGT TTGATGGCAG AGATGTCCTG AGGGACAGTG CCTGGCCAGA GAAGATGATT 
TGGCACGGAT CGGATGGCAG GGGTCACAGG CAAACGGATA ACTACTGCGA GACATGGAGG 
GCCGGAGACC GCGCTGTCAC AGGCCTGGCC TCGTCCCTGC AGGCTGGTCA ACTCCTCCAG 
CAGACCTCCA GCAGCTGCTC CAGCTCCTAC ATCGTGCTGT GCATCGAGAA CAGCTACATG 
ACACAGTCCA AGAAATAA

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

RefSeq	XP_021334395.1
CDS	66..5003
Translation	MMAELRFWLCLFILACVRIRHTHGWFWFDDSKEIEKGVQTPAYLTTVGPTSLPRTEPSRTTGTSASVTEEVAKEVSFEGEPEVRSRSGLGIESGSGSGSSSFERQHEYLTSSDKIWGIIDDNSSLHNQVTKVDQTDGLDPANSRFNEGVNVSFTNITAKNNVNESNFAEHANTTLYSSEYAVSDNALTIESQFLIASMPASFEPLRCLPVDSGLPFCTRRGVESFSVPNFLNQSSVEEVRMVLTEWAWLLRSGCHHSLEWFFCLLLTPRCGHSGSLLPCRSSCEVLQDSCWTLLDEGRLPVECKSLPEEKHDGYRCLSVSNLKEESGVSLLQLIGDPPPNGVSKVFDQANSPGYVFGPSSNVGQSAAAHLPNPFYRDFSLIFNIKPTSSKPGVIFSITDPTQNIMYVGVKLSAVERGKQSIIFYYTEPDSQSSYEAARFSVSSMLNIWTRFSISVLNEQVSLYFNCDSDPQVVNFERSPDDMDMDAGAGVFVGHASGADPDKFLGVIGDLRVSRDPGAAERHCEEEEDDYATEASGDYGASGDGEQPSPVQPTPPSSRPIQRPPVISRDPIQRPPVISREPIQQTVARGEKGDRGEKGAKGDRGLAGPKGDVGSGSVSGGGSKGDKGVPGEKGMKGTSGFGYPGSKGDRGPPGPPGPPGPQGPSAEVEVRGDGSVVQKVTGPRGPPGPQGPPGPPGPEGEPGDPGEDGKAGQVGPSGFPGNPGNPGPKGDKGDRGESQPGPRGPPGPPGPPGPSSGFDRPTFVDMEGSGFDMDSVRAVPGLPGPPGPPGPPGPPGSASSGSGGFGPPGPPGQNGAPGQPGLSGVPGADGKPGLPGPKGEKGDAGELGLPGPVGEKGAKGSSGPPGTTGIGGPAGLPGPIGPIGLPGPPGPPGPSFNVGFDDMEGSGVHFSSVPGVRGPVGIPGPPGVPGPQGQPGFPGLPGEKGSLGAQGNDGLPGADGFPGPQGPKGDKGERGDRGEPGRDGHGHPGQPGPPGPPGQIIYRYSEHYDEVGGTGAQGGSGVPGQAGFPGPMGPKGDRGEPGLPGYDIKGEKGEPGLILGPDGNPLYLGGLTGQKGERGISGPVGPPGPAGPPGAKGEFGMPGRPGRPGVNGYKGEKGEPSSGSGYGYPGPPGPPGPPGPPGPAVPLDRFGRYEDYARLYPATKGEKGDQGAPGIPGSPGFSTNFDIYSLKNEMKGERGESGLKGEKGEPGGGFYDPRFGAVQGPPGNPGPAGPKGDSIRGPPGPQGPPGTPGVGYDGRPGNPGPPGPPGPPGSPSLPGPYRPPLSIPGPPGPPGPPGIPGTGSGVTVLRSHDIMIATARRQTEGTLIYILDRNDLYLRVRDGVRQVMLGDYKPLYGELDNEVAAVQPPPVVHYSQDHTANNGAEQISPPHQPIDFPTREQENRNPNPQPDPRYPDPRYPPYTDNRYTDPVEPNIRYPVQPERNPITPARRPIPPVNQPGGHAHTHTSGPGLHLIALNSPQVGNMRGIRGADFMCFQQARAVGMKGTFRAFLSSKLQDLYSIVRRSDRETLPIVNLKDQVLFSSWESLFSDSESRMKDNAPIYSFDGRDVLRDSAWPEKMIWHGSDGRGHRQTDNYCETWRAGDRAVTGLASSLQAGQLLQQTSSSCSSSYIVLCIENSYMTQSKK

Target ORF information:

RefSeq Version	XM_021478720.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X1, mRNA.

Target ORF information:

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

XM_021478720.1

ORF Insert Sequence:

ATGATGGCTG AACTCAGGTT TTGGCTGTGC CTCTTTATTT TGGCATGCGT GAGGATACGC 
CACACACATG GCTGGTTCTG GTTTGATGAC TCCAAGGAAA TTGAGAAGGG CGTGCAGACA 
CCAGCATACC TGACCACCGT AGGGCCCACA TCCCTGCCGA GGACAGAACC ATCCAGAACA 
ACAGGTACAA GTGCTTCTGT AACTGAAGAG GTCGCGAAAG AGGTCAGTTT TGAAGGGGAA 
CCGGAGGTCA GATCCAGGTC TGGATTGGGG ATTGAGTCCG GATCCGGATC TGGATCATCC 
AGTTTTGAAA GACAGCATGA ATATTTAACA TCATCCGACA AAATTTGGGG TATTATTGAT 
GACAATTCTA GTTTGCATAA TCAAGTGACC AAAGTGGACC AGACGGATGG ACTTGACCCA 
GCAAACAGTC GATTTAATGA AGGCGTTAAT GTTTCTTTCA CAAATATTAC TGCTAAAAAT 
AATGTAAATG AGAGTAATTT TGCAGAGCAT GCTAACACGA CGTTGTATTC CTCTGAATAC 
GCTGTCTCAG ATAATGCACT AACCATTGAA AGCCAATTTT TAATAGCCAG CATGCCAGCA 
TCCTTCGAAC CCCTGCGCTG CTTGCCGGTC GATTCTGGTT TGCCGTTTTG CACCAGAAGG 
GGAGTGGAGA GTTTCTCTGT GCCAAATTTT CTAAATCAAA GCAGCGTGGA GGAAGTTCGG 
ATGGTTTTGA CCGAATGGGC ATGGCTTTTG AGGTCAGGCT GTCATCATAG TTTGGAATGG 
TTTTTCTGCC TGCTGTTGAC CCCGCGGTGT GGCCACTCTG GATCTCTGCT GCCCTGTCGC 
AGTTCTTGTG AGGTCCTGCA GGACAGTTGC TGGACACTCC TGGACGAGGG CCGCCTCCCT 
GTGGAGTGCA AATCTCTGCC TGAAGAGAAG CATGATGGGT ATCGGTGCTT GTCAGTTAGT 
AACCTGAAAG AAGAAAGTGG AGTGTCGCTG TTGCAACTAA TTGGCGATCC TCCACCCAAC 
GGCGTCTCCA AAGTCTTCGA CCAAGCAAAC AGTCCTGGAT ATGTGTTTGG ACCAAGCTCA 
AATGTGGGTC AGTCTGCTGC AGCCCACCTG CCCAATCCCT TCTACCGCGA TTTCTCCCTC 
ATCTTCAATA TAAAACCCAC ATCCTCCAAG CCTGGCGTGA TCTTCTCCAT CACTGACCCC 
ACTCAGAACA TCATGTATGT TGGCGTGAAG CTGTCGGCGG TGGAAAGAGG CAAACAGTCC 
ATTATCTTCT ACTACACCGA GCCTGATTCG CAGAGCTCCT ATGAGGCGGC CAGATTCTCT 
GTTTCCTCCA TGTTGAACAT ATGGACGCGC TTTTCCATCA GCGTTTTGAA CGAGCAGGTT 
TCTCTCTACT TTAACTGCGA CTCGGATCCT CAGGTTGTCA ATTTCGAGCG CTCGCCTGAT 
GATATGGACA TGGATGCTGG CGCTGGAGTG TTTGTGGGAC ATGCCAGTGG AGCAGACCCG 
GATAAGTTTT TGGGTGTTAT TGGTGATCTG AGGGTGTCGA GAGACCCTGG GGCGGCTGAA 
CGGCACTGTG AAGAAGAGGA GGATGACTAT GCAACAGAGG CATCAGGTGA TTACGGAGCA 
AGTGGAGATG GAGAGCAGCC ATCACCAGTT CAGCCAACAC CTCCATCATC TCGGCCAATC 
CAGCGGCCAC CGGTGATTAG CAGGGATCCT ATACAGCGGC CACCGGTGAT TAGCAGGGAG 
CCTATACAGC AGACAGTTGC AAGAGGAGAG AAGGGTGACA GAGGGGAGAA GGGTGCTAAA 
GGTGACAGGG GTCTTGCTGG GCCAAAGGGT GATGTGGGGT CTGGATCAGT GTCTGGTGGA 
GGATCAAAAG GAGACAAGGG CGTCCCAGGA GAGAAAGGAA TGAAGGGCAC TTCTGGTTTT 
GGTTATCCTG GATCTAAGGG TGACCGTGGC CCCCCTGGAC CTCCAGGACC TCCGGGTCCC 
CAAGGGCCCA GTGCAGAGGT AGAGGTGCGG GGCGATGGGT CAGTTGTGCA GAAAGTCACA 
GGACCAAGAG GACCACCTGG ACCCCAAGGA CCCCCTGGTC CCCCTGGACC TGAAGGGGAG 
CCGGGTGACC CTGGTGAAGA TGGAAAAGCT GGCCAAGTTG GACCTTCTGG TTTTCCTGGA 
AATCCTGGGA ATCCTGGACC CAAAGGAGAT AAGGGAGATC GAGGTGAAAG TCAGCCAGGA 
CCCCGTGGGC CGCCTGGTCC TCCCGGCCCA CCAGGACCCT CCTCTGGCTT TGATAGACCT 
ACGTTTGTGG ACATGGAGGG CTCTGGATTT GATATGGACA GTGTGCGGGC AGTGCCTGGT 
TTGCCTGGTC CACCTGGTCC TCCTGGTCCC CCTGGTCCCC CTGGCTCTGC ATCTTCAGGC 
TCTGGTGGTT TTGGGCCACC TGGTCCTCCT GGGCAAAATG GGGCGCCAGG TCAGCCGGGA 
CTTTCGGGTG TACCAGGTGC TGATGGAAAA CCAGGCTTAC CTGGTCCAAA AGGAGAGAAG 
GGTGATGCCG GTGAGCTGGG CCTTCCTGGA CCGGTGGGAG AGAAGGGTGC CAAAGGTTCT 
TCTGGTCCCC CTGGCACCAC TGGGATTGGT GGGCCTGCTG GTCTTCCAGG ACCAATTGGA 
CCTATTGGAC TTCCAGGACC ACCTGGTCCT CCTGGACCAA GCTTTAATGT TGGTTTTGAT 
GACATGGAAG GTTCTGGTGT TCACTTCAGT TCAGTACCTG GAGTAAGAGG ACCAGTTGGA 
ATCCCGGGGC CACCTGGTGT CCCAGGGCCA CAGGGTCAGC CTGGATTCCC AGGGCTTCCT 
GGTGAGAAAG GCAGTTTAGG AGCTCAGGGA AATGATGGTC TTCCTGGTGC AGATGGCTTC 
CCTGGACCAC AGGGACCAAA GGGCGACAAA GGAGAGCGAG GCGACAGGGG TGAACCTGGT 
CGAGATGGAC ATGGTCATCC AGGCCAACCA GGCCCTCCTG GACCACCTGG ACAGATTATT 
TATCGCTACT CTGAACATTA TGATGAAGTT GGAGGAACGG GGGCTCAGGG TGGTTCTGGT 
GTTCCTGGCC AAGCAGGATT CCCAGGCCCA ATGGGACCAA AGGGTGACAG AGGTGAGCCT 
GGTCTTCCAG GCTATGACAT TAAGGGGGAG AAAGGAGAAC CTGGACTTAT TCTTGGACCT 
GATGGAAATC CACTTTACCT TGGTGGATTG ACAGGACAGA AGGGTGAGAG AGGTATTTCT 
GGACCAGTCG GACCTCCTGG TCCAGCAGGA CCTCCTGGTG CAAAAGGTGA ATTCGGAATG 
CCAGGCAGAC CTGGTCGTCC AGGTGTGAAC GGATATAAAG GAGAGAAGGG AGAGCCAAGT 
TCAGGCTCTG GATATGGTTA CCCGGGTCCC CCTGGTCCCC CAGGACCCCC TGGTCCCCCC 
GGACCCGCTG TGCCCTTGGA CAGATTTGGC AGATATGAAG ATTATGCAAG GCTCTATCCA 
GCTACGAAAG GAGAGAAAGG AGACCAAGGA GCTCCTGGCA TTCCCGGATC GCCAGGTTTT 
TCCACAAACT TTGATATATA TTCACTCAAG AATGAGATGA AGGGTGAGCG GGGAGAGTCT 
GGTCTTAAAG GAGAGAAAGG AGAACCAGGA GGTGGATTTT ATGACCCTCG TTTTGGAGCT 
GTACAAGGAC CACCAGGGAA CCCAGGACCT GCTGGACCTA AAGGAGACTC AATCAGAGGC 
CCACCTGGAC CCCAGGGCCC ACCAGGAACA CCCGGGGTTG GTTATGATGG TCGACCAGGT 
AATCCAGGAC CTCCTGGACC ACCTGGTCCA CCAGGGTCCC CATCACTGCC AGGACCCTAT 
AGGCCACCAC TCAGTATTCC TGGACCTCCA GGTCCTCCTG GCCCACCTGG AATTCCTGGC 
ACTGGATCAG GGGTGACTGT CCTGAGGTCT CATGACATAA TGATTGCTAC AGCACGCAGA 
CAGACAGAAG GGACTCTGAT TTACATTCTG GACAGAAACG ATCTCTACCT CAGAGTTCGG 
GACGGTGTTA GACAAGTGAT GCTTGGGGAT TATAAACCTC TTTATGGAGA GCTGGACAAT 
GAAGTGGCAG CAGTCCAGCC ACCCCCTGTT GTTCACTATT CCCAGGACCA CACGGCTAAC 
AATGGCGCAG AGCAGATTTC TCCACCACAC CAGCCTATTG ATTTCCCAAC GAGAGAGCAG 
GAGAACAGAA ACCCCAACCC GCAACCTGAC CCCCGATACC CGGATCCACG ATACCCACCA 
TACACTGACA ACAGATACAC CGATCCTGTA GAGCCCAACA TCAGATATCC TGTTCAACCC 
GAGAGGAATC CAATCACTCC AGCCCGCCGT CCTATCCCTC CTGTCAATCA GCCAGGAGGC 
CACGCCCACA CCCACACTTC CGGACCAGGG TTGCATCTTA TTGCTCTGAA TTCTCCACAA 
GTGGGCAACA TGAGAGGCAT TCGCGGGGCA GACTTCATGT GCTTCCAGCA GGCACGGGCC 
GTTGGCATGA AGGGAACGTT CAGAGCCTTC CTGTCCTCCA AACTCCAGGA TCTCTACAGT 
ATCGTCCGCA GATCTGACAG AGAGACATTA CCAATTGTTA ACCTAAAGGA TCAAGTCCTC 
TTCAGCAGCT GGGAGTCTCT CTTCAGTGAC TCAGAGAGCA GGATGAAGGA CAATGCACCC 
ATCTACTCGT TTGATGGCAG AGATGTCCTG AGGGACAGTG CCTGGCCAGA GAAGATGATT 
TGGCACGGAT CGGATGGCAG GGGTCACAGG CAAACGGATA ACTACTGCGA GACATGGAGG 
GCCGGAGACC GCGCTGTCAC AGGCCTGGCC TCGTCCCTGC AGGCTGGTCA ACTCCTCCAG 
CAGACCTCCA GCAGCTGCTC CAGCTCCTAC ATCGTGCTGT GCATCGAGAA CAGCTACATG 
ACACAGTCCA AGAAATAA

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

col18a1a ( XM_021478721.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021334396.1 Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X2, mRNA.

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CloneID	ODa143963
Clone ID Related Accession (Same CDS sequence)	XM_021478721.1
Accession Version	XM_021478721.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4314bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	collagen type XVIII, alpha 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007120.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCAGCAT CCTTCGAACC CCTGCGCTGC TTGCCGGTCG ATTCTGGTTT GCCGTTTTGC 
ACCAGAAGGG GAGTGGAGAG TTTCTCTGTG CCAAATTTTC TAAATCAAAG CAGCGTGGAG 
GAAGTTCGGA TGGTTTTGAC CGAATGGGCA TGGCTTTTGA GGTCAGGCTG TCATCATAGT 
TTGGAATGGT TTTTCTGCCT GCTGTTGACC CCGCGGTGTG GCCACTCTGG ATCTCTGCTG 
CCCTGTCGCA GTTCTTGTGA GGTCCTGCAG GACAGTTGCT GGACACTCCT GGACGAGGGC 
CGCCTCCCTG TGGAGTGCAA ATCTCTGCCT GAAGAGAAGC ATGATGGGTA TCGGTGCTTG 
TCAGTTAGTA ACCTGAAAGA AGAAAGTGGA GTGTCGCTGT TGCAACTAAT TGGCGATCCT 
CCACCCAACG GCGTCTCCAA AGTCTTCGAC CAAGCAAACA GTCCTGGATA TGTGTTTGGA 
CCAAGCTCAA ATGTGGGTCA GTCTGCTGCA GCCCACCTGC CCAATCCCTT CTACCGCGAT 
TTCTCCCTCA TCTTCAATAT AAAACCCACA TCCTCCAAGC CTGGCGTGAT CTTCTCCATC 
ACTGACCCCA CTCAGAACAT CATGTATGTT GGCGTGAAGC TGTCGGCGGT GGAAAGAGGC 
AAACAGTCCA TTATCTTCTA CTACACCGAG CCTGATTCGC AGAGCTCCTA TGAGGCGGCC 
AGATTCTCTG TTTCCTCCAT GTTGAACATA TGGACGCGCT TTTCCATCAG CGTTTTGAAC 
GAGCAGGTTT CTCTCTACTT TAACTGCGAC TCGGATCCTC AGGTTGTCAA TTTCGAGCGC 
TCGCCTGATG ATATGGACAT GGATGCTGGC GCTGGAGTGT TTGTGGGACA TGCCAGTGGA 
GCAGACCCGG ATAAGTTTTT GGGTGTTATT GGTGATCTGA GGGTGTCGAG AGACCCTGGG 
GCGGCTGAAC GGCACTGTGA AGAAGAGGAG GATGACTATG CAACAGAGGC ATCAGGTGAT 
TACGGAGCAA GTGGAGATGG AGAGCAGCCA TCACCAGTTC AGCCAACACC TCCATCATCT 
CGGCCAATCC AGCGGCCACC GGTGATTAGC AGGGAGCCTA TACAGCAGAC AGTTGCAAGA 
GGAGAGAAGG GTGACAGAGG GGAGAAGGGT GCTAAAGGTG ACAGGGGTCT TGCTGGGCCA 
AAGGGTGATG TGGGGTCTGG ATCAGTGTCT GGTGGAGGAT CAAAAGGAGA CAAGGGCGTC 
CCAGGAGAGA AAGGAATGAA GGGCACTTCT GGTTTTGGTT ATCCTGGATC TAAGGGTGAC 
CGTGGCCCCC CTGGACCTCC AGGACCTCCG GGTCCCCAAG GGCCCAGTGC AGAGGTAGAG 
GTGCGGGGCG ATGGGTCAGT TGTGCAGAAA GTCACAGGAC CAAGAGGACC ACCTGGACCC 
CAAGGACCCC CTGGTCCCCC TGGACCTGAA GGGGAGCCGG GTGACCCTGG TGAAGATGGA 
AAAGCTGGCC AAGTTGGACC TTCTGGTTTT CCTGGAAATC CTGGGAATCC TGGACCCAAA 
GGAGATAAGG GAGATCGAGG TGAAAGTCAG CCAGGACCCC GTGGGCCGCC TGGTCCTCCC 
GGCCCACCAG GACCCTCCTC TGGCTTTGAT AGACCTACGT TTGTGGACAT GGAGGGCTCT 
GGATTTGATA TGGACAGTGT GCGGGCAGTG CCTGGTTTGC CTGGTCCACC TGGTCCTCCT 
GGTCCCCCTG GTCCCCCTGG CTCTGCATCT TCAGGCTCTG GTGGTTTTGG GCCACCTGGT 
CCTCCTGGGC AAAATGGGGC GCCAGGTCAG CCGGGACTTT CGGGTGTACC AGGTGCTGAT 
GGAAAACCAG GCTTACCTGG TCCAAAAGGA GAGAAGGGTG ATGCCGGTGA GCTGGGCCTT 
CCTGGACCGG TGGGAGAGAA GGGTGCCAAA GGTTCTTCTG GTCCCCCTGG CACCACTGGG 
ATTGGTGGGC CTGCTGGTCT TCCAGGACCA ATTGGACCTA TTGGACTTCC AGGACCACCT 
GGTCCTCCTG GACCAAGCTT TAATGTTGGT TTTGATGACA TGGAAGGTTC TGGTGTTCAC 
TTCAGTTCAG TACCTGGAGT AAGAGGACCA GTTGGAATCC CGGGGCCACC TGGTGTCCCA 
GGGCCACAGG GTCAGCCTGG ATTCCCAGGG CTTCCTGGTG AGAAAGGCAG TTTAGGAGCT 
CAGGGAAATG ATGGTCTTCC TGGTGCAGAT GGCTTCCCTG GACCACAGGG ACCAAAGGGC 
GACAAAGGAG AGCGAGGCGA CAGGGGTGAA CCTGGTCGAG ATGGACATGG TCATCCAGGC 
CAACCAGGCC CTCCTGGACC ACCTGGACAG ATTATTTATC GCTACTCTGA ACATTATGAT 
GAAGTTGGAG GAACGGGGGC TCAGGGTGGT TCTGGTGTTC CTGGCCAAGC AGGATTCCCA 
GGCCCAATGG GACCAAAGGG TGACAGAGGT GAGCCTGGTC TTCCAGGCTA TGACATTAAG 
GGGGAGAAAG GAGAACCTGG ACTTATTCTT GGACCTGATG GAAATCCACT TTACCTTGGT 
GGATTGACAG GACAGAAGGG TGAGAGAGGT ATTTCTGGAC CAGTCGGACC TCCTGGTCCA 
GCAGGACCTC CTGGTGCAAA AGGTGAATTC GGAATGCCAG GCAGACCTGG TCGTCCAGGT 
GTGAACGGAT ATAAAGGAGA GAAGGGAGAG CCAAGTTCAG GCTCTGGATA TGGTTACCCG 
GGTCCCCCTG GTCCCCCAGG ACCCCCTGGT CCCCCCGGAC CCGCTGTGCC CTTGGACAGA 
TTTGGCAGAT ATGAAGATTA TGCAAGGCTC TATCCAGCTA CGAAAGGAGA GAAAGGAGAC 
CAAGGAGCTC CTGGCATTCC CGGATCGCCA GGTTTTTCCA CAAACTTTGA TATATATTCA 
CTCAAGAATG AGATGAAGGG TGAGCGGGGA GAGTCTGGTC TTAAAGGAGA GAAAGGAGAA 
CCAGGAGGTG GATTTTATGA CCCTCGTTTT GGAGCTGTAC AAGGACCACC AGGGAACCCA 
GGACCTGCTG GACCTAAAGG AGACTCAATC AGAGGCCCAC CTGGACCCCA GGGCCCACCA 
GGAACACCCG GGGTTGGTTA TGATGGTCGA CCAGGTAATC CAGGACCTCC TGGACCACCT 
GGTCCACCAG GGTCCCCATC ACTGCCAGGA CCCTATAGGC CACCACTCAG TATTCCTGGA 
CCTCCAGGTC CTCCTGGCCC ACCTGGAATT CCTGGCACTG GATCAGGGGT GACTGTCCTG 
AGGTCTCATG ACATAATGAT TGCTACAGCA CGCAGACAGA CAGAAGGGAC TCTGATTTAC 
ATTCTGGACA GAAACGATCT CTACCTCAGA GTTCGGGACG GTGTTAGACA AGTGATGCTT 
GGGGATTATA AACCTCTTTA TGGAGAGCTG GACAATGAAG TGGCAGCAGT CCAGCCACCC 
CCTGTTGTTC ACTATTCCCA GGACCACACG GCTAACAATG GCGCAGAGCA GATTTCTCCA 
CCACACCAGC CTATTGATTT CCCAACGAGA GAGCAGGAGA ACAGAAACCC CAACCCGCAA 
CCTGACCCCC GATACCCGGA TCCACGATAC CCACCATACA CTGACAACAG ATACACCGAT 
CCTGTAGAGC CCAACATCAG ATATCCTGTT CAACCCGAGA GGAATCCAAT CACTCCAGCC 
CGCCGTCCTA TCCCTCCTGT CAATCAGCCA GGAGGCCACG CCCACACCCA CACTTCCGGA 
CCAGGGTTGC ATCTTATTGC TCTGAATTCT CCACAAGTGG GCAACATGAG AGGCATTCGC 
GGGGCAGACT TCATGTGCTT CCAGCAGGCA CGGGCCGTTG GCATGAAGGG AACGTTCAGA 
GCCTTCCTGT CCTCCAAACT CCAGGATCTC TACAGTATCG TCCGCAGATC TGACAGAGAG 
ACATTACCAA TTGTTAACCT AAAGGATCAA GTCCTCTTCA GCAGCTGGGA GTCTCTCTTC 
AGTGACTCAG AGAGCAGGAT GAAGGACAAT GCACCCATCT ACTCGTTTGA TGGCAGAGAT 
GTCCTGAGGG ACAGTGCCTG GCCAGAGAAG ATGATTTGGC ACGGATCGGA TGGCAGGGGT 
CACAGGCAAA CGGATAACTA CTGCGAGACA TGGAGGGCCG GAGACCGCGC TGTCACAGGC 
CTGGCCTCGT CCCTGCAGGC TGGTCAACTC CTCCAGCAGA CCTCCAGCAG CTGCTCCAGC 
TCCTACATCG TGCTGTGCAT CGAGAACAGC TACATGACAC AGTCCAAGAA ATAA

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

RefSeq	XP_021334396.1
CDS	311..4624
Translation	MPASFEPLRCLPVDSGLPFCTRRGVESFSVPNFLNQSSVEEVRMVLTEWAWLLRSGCHHSLEWFFCLLLTPRCGHSGSLLPCRSSCEVLQDSCWTLLDEGRLPVECKSLPEEKHDGYRCLSVSNLKEESGVSLLQLIGDPPPNGVSKVFDQANSPGYVFGPSSNVGQSAAAHLPNPFYRDFSLIFNIKPTSSKPGVIFSITDPTQNIMYVGVKLSAVERGKQSIIFYYTEPDSQSSYEAARFSVSSMLNIWTRFSISVLNEQVSLYFNCDSDPQVVNFERSPDDMDMDAGAGVFVGHASGADPDKFLGVIGDLRVSRDPGAAERHCEEEEDDYATEASGDYGASGDGEQPSPVQPTPPSSRPIQRPPVISREPIQQTVARGEKGDRGEKGAKGDRGLAGPKGDVGSGSVSGGGSKGDKGVPGEKGMKGTSGFGYPGSKGDRGPPGPPGPPGPQGPSAEVEVRGDGSVVQKVTGPRGPPGPQGPPGPPGPEGEPGDPGEDGKAGQVGPSGFPGNPGNPGPKGDKGDRGESQPGPRGPPGPPGPPGPSSGFDRPTFVDMEGSGFDMDSVRAVPGLPGPPGPPGPPGPPGSASSGSGGFGPPGPPGQNGAPGQPGLSGVPGADGKPGLPGPKGEKGDAGELGLPGPVGEKGAKGSSGPPGTTGIGGPAGLPGPIGPIGLPGPPGPPGPSFNVGFDDMEGSGVHFSSVPGVRGPVGIPGPPGVPGPQGQPGFPGLPGEKGSLGAQGNDGLPGADGFPGPQGPKGDKGERGDRGEPGRDGHGHPGQPGPPGPPGQIIYRYSEHYDEVGGTGAQGGSGVPGQAGFPGPMGPKGDRGEPGLPGYDIKGEKGEPGLILGPDGNPLYLGGLTGQKGERGISGPVGPPGPAGPPGAKGEFGMPGRPGRPGVNGYKGEKGEPSSGSGYGYPGPPGPPGPPGPPGPAVPLDRFGRYEDYARLYPATKGEKGDQGAPGIPGSPGFSTNFDIYSLKNEMKGERGESGLKGEKGEPGGGFYDPRFGAVQGPPGNPGPAGPKGDSIRGPPGPQGPPGTPGVGYDGRPGNPGPPGPPGPPGSPSLPGPYRPPLSIPGPPGPPGPPGIPGTGSGVTVLRSHDIMIATARRQTEGTLIYILDRNDLYLRVRDGVRQVMLGDYKPLYGELDNEVAAVQPPPVVHYSQDHTANNGAEQISPPHQPIDFPTREQENRNPNPQPDPRYPDPRYPPYTDNRYTDPVEPNIRYPVQPERNPITPARRPIPPVNQPGGHAHTHTSGPGLHLIALNSPQVGNMRGIRGADFMCFQQARAVGMKGTFRAFLSSKLQDLYSIVRRSDRETLPIVNLKDQVLFSSWESLFSDSESRMKDNAPIYSFDGRDVLRDSAWPEKMIWHGSDGRGHRQTDNYCETWRAGDRAVTGLASSLQAGQLLQQTSSSCSSSYIVLCIENSYMTQSKK

Target ORF information:

RefSeq Version	XM_021478721.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X2, mRNA.

Target ORF information:

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

XM_021478721.1

ORF Insert Sequence:

ATGCCAGCAT CCTTCGAACC CCTGCGCTGC TTGCCGGTCG ATTCTGGTTT GCCGTTTTGC 
ACCAGAAGGG GAGTGGAGAG TTTCTCTGTG CCAAATTTTC TAAATCAAAG CAGCGTGGAG 
GAAGTTCGGA TGGTTTTGAC CGAATGGGCA TGGCTTTTGA GGTCAGGCTG TCATCATAGT 
TTGGAATGGT TTTTCTGCCT GCTGTTGACC CCGCGGTGTG GCCACTCTGG ATCTCTGCTG 
CCCTGTCGCA GTTCTTGTGA GGTCCTGCAG GACAGTTGCT GGACACTCCT GGACGAGGGC 
CGCCTCCCTG TGGAGTGCAA ATCTCTGCCT GAAGAGAAGC ATGATGGGTA TCGGTGCTTG 
TCAGTTAGTA ACCTGAAAGA AGAAAGTGGA GTGTCGCTGT TGCAACTAAT TGGCGATCCT 
CCACCCAACG GCGTCTCCAA AGTCTTCGAC CAAGCAAACA GTCCTGGATA TGTGTTTGGA 
CCAAGCTCAA ATGTGGGTCA GTCTGCTGCA GCCCACCTGC CCAATCCCTT CTACCGCGAT 
TTCTCCCTCA TCTTCAATAT AAAACCCACA TCCTCCAAGC CTGGCGTGAT CTTCTCCATC 
ACTGACCCCA CTCAGAACAT CATGTATGTT GGCGTGAAGC TGTCGGCGGT GGAAAGAGGC 
AAACAGTCCA TTATCTTCTA CTACACCGAG CCTGATTCGC AGAGCTCCTA TGAGGCGGCC 
AGATTCTCTG TTTCCTCCAT GTTGAACATA TGGACGCGCT TTTCCATCAG CGTTTTGAAC 
GAGCAGGTTT CTCTCTACTT TAACTGCGAC TCGGATCCTC AGGTTGTCAA TTTCGAGCGC 
TCGCCTGATG ATATGGACAT GGATGCTGGC GCTGGAGTGT TTGTGGGACA TGCCAGTGGA 
GCAGACCCGG ATAAGTTTTT GGGTGTTATT GGTGATCTGA GGGTGTCGAG AGACCCTGGG 
GCGGCTGAAC GGCACTGTGA AGAAGAGGAG GATGACTATG CAACAGAGGC ATCAGGTGAT 
TACGGAGCAA GTGGAGATGG AGAGCAGCCA TCACCAGTTC AGCCAACACC TCCATCATCT 
CGGCCAATCC AGCGGCCACC GGTGATTAGC AGGGAGCCTA TACAGCAGAC AGTTGCAAGA 
GGAGAGAAGG GTGACAGAGG GGAGAAGGGT GCTAAAGGTG ACAGGGGTCT TGCTGGGCCA 
AAGGGTGATG TGGGGTCTGG ATCAGTGTCT GGTGGAGGAT CAAAAGGAGA CAAGGGCGTC 
CCAGGAGAGA AAGGAATGAA GGGCACTTCT GGTTTTGGTT ATCCTGGATC TAAGGGTGAC 
CGTGGCCCCC CTGGACCTCC AGGACCTCCG GGTCCCCAAG GGCCCAGTGC AGAGGTAGAG 
GTGCGGGGCG ATGGGTCAGT TGTGCAGAAA GTCACAGGAC CAAGAGGACC ACCTGGACCC 
CAAGGACCCC CTGGTCCCCC TGGACCTGAA GGGGAGCCGG GTGACCCTGG TGAAGATGGA 
AAAGCTGGCC AAGTTGGACC TTCTGGTTTT CCTGGAAATC CTGGGAATCC TGGACCCAAA 
GGAGATAAGG GAGATCGAGG TGAAAGTCAG CCAGGACCCC GTGGGCCGCC TGGTCCTCCC 
GGCCCACCAG GACCCTCCTC TGGCTTTGAT AGACCTACGT TTGTGGACAT GGAGGGCTCT 
GGATTTGATA TGGACAGTGT GCGGGCAGTG CCTGGTTTGC CTGGTCCACC TGGTCCTCCT 
GGTCCCCCTG GTCCCCCTGG CTCTGCATCT TCAGGCTCTG GTGGTTTTGG GCCACCTGGT 
CCTCCTGGGC AAAATGGGGC GCCAGGTCAG CCGGGACTTT CGGGTGTACC AGGTGCTGAT 
GGAAAACCAG GCTTACCTGG TCCAAAAGGA GAGAAGGGTG ATGCCGGTGA GCTGGGCCTT 
CCTGGACCGG TGGGAGAGAA GGGTGCCAAA GGTTCTTCTG GTCCCCCTGG CACCACTGGG 
ATTGGTGGGC CTGCTGGTCT TCCAGGACCA ATTGGACCTA TTGGACTTCC AGGACCACCT 
GGTCCTCCTG GACCAAGCTT TAATGTTGGT TTTGATGACA TGGAAGGTTC TGGTGTTCAC 
TTCAGTTCAG TACCTGGAGT AAGAGGACCA GTTGGAATCC CGGGGCCACC TGGTGTCCCA 
GGGCCACAGG GTCAGCCTGG ATTCCCAGGG CTTCCTGGTG AGAAAGGCAG TTTAGGAGCT 
CAGGGAAATG ATGGTCTTCC TGGTGCAGAT GGCTTCCCTG GACCACAGGG ACCAAAGGGC 
GACAAAGGAG AGCGAGGCGA CAGGGGTGAA CCTGGTCGAG ATGGACATGG TCATCCAGGC 
CAACCAGGCC CTCCTGGACC ACCTGGACAG ATTATTTATC GCTACTCTGA ACATTATGAT 
GAAGTTGGAG GAACGGGGGC TCAGGGTGGT TCTGGTGTTC CTGGCCAAGC AGGATTCCCA 
GGCCCAATGG GACCAAAGGG TGACAGAGGT GAGCCTGGTC TTCCAGGCTA TGACATTAAG 
GGGGAGAAAG GAGAACCTGG ACTTATTCTT GGACCTGATG GAAATCCACT TTACCTTGGT 
GGATTGACAG GACAGAAGGG TGAGAGAGGT ATTTCTGGAC CAGTCGGACC TCCTGGTCCA 
GCAGGACCTC CTGGTGCAAA AGGTGAATTC GGAATGCCAG GCAGACCTGG TCGTCCAGGT 
GTGAACGGAT ATAAAGGAGA GAAGGGAGAG CCAAGTTCAG GCTCTGGATA TGGTTACCCG 
GGTCCCCCTG GTCCCCCAGG ACCCCCTGGT CCCCCCGGAC CCGCTGTGCC CTTGGACAGA 
TTTGGCAGAT ATGAAGATTA TGCAAGGCTC TATCCAGCTA CGAAAGGAGA GAAAGGAGAC 
CAAGGAGCTC CTGGCATTCC CGGATCGCCA GGTTTTTCCA CAAACTTTGA TATATATTCA 
CTCAAGAATG AGATGAAGGG TGAGCGGGGA GAGTCTGGTC TTAAAGGAGA GAAAGGAGAA 
CCAGGAGGTG GATTTTATGA CCCTCGTTTT GGAGCTGTAC AAGGACCACC AGGGAACCCA 
GGACCTGCTG GACCTAAAGG AGACTCAATC AGAGGCCCAC CTGGACCCCA GGGCCCACCA 
GGAACACCCG GGGTTGGTTA TGATGGTCGA CCAGGTAATC CAGGACCTCC TGGACCACCT 
GGTCCACCAG GGTCCCCATC ACTGCCAGGA CCCTATAGGC CACCACTCAG TATTCCTGGA 
CCTCCAGGTC CTCCTGGCCC ACCTGGAATT CCTGGCACTG GATCAGGGGT GACTGTCCTG 
AGGTCTCATG ACATAATGAT TGCTACAGCA CGCAGACAGA CAGAAGGGAC TCTGATTTAC 
ATTCTGGACA GAAACGATCT CTACCTCAGA GTTCGGGACG GTGTTAGACA AGTGATGCTT 
GGGGATTATA AACCTCTTTA TGGAGAGCTG GACAATGAAG TGGCAGCAGT CCAGCCACCC 
CCTGTTGTTC ACTATTCCCA GGACCACACG GCTAACAATG GCGCAGAGCA GATTTCTCCA 
CCACACCAGC CTATTGATTT CCCAACGAGA GAGCAGGAGA ACAGAAACCC CAACCCGCAA 
CCTGACCCCC GATACCCGGA TCCACGATAC CCACCATACA CTGACAACAG ATACACCGAT 
CCTGTAGAGC CCAACATCAG ATATCCTGTT CAACCCGAGA GGAATCCAAT CACTCCAGCC 
CGCCGTCCTA TCCCTCCTGT CAATCAGCCA GGAGGCCACG CCCACACCCA CACTTCCGGA 
CCAGGGTTGC ATCTTATTGC TCTGAATTCT CCACAAGTGG GCAACATGAG AGGCATTCGC 
GGGGCAGACT TCATGTGCTT CCAGCAGGCA CGGGCCGTTG GCATGAAGGG AACGTTCAGA 
GCCTTCCTGT CCTCCAAACT CCAGGATCTC TACAGTATCG TCCGCAGATC TGACAGAGAG 
ACATTACCAA TTGTTAACCT AAAGGATCAA GTCCTCTTCA GCAGCTGGGA GTCTCTCTTC 
AGTGACTCAG AGAGCAGGAT GAAGGACAAT GCACCCATCT ACTCGTTTGA TGGCAGAGAT 
GTCCTGAGGG ACAGTGCCTG GCCAGAGAAG ATGATTTGGC ACGGATCGGA TGGCAGGGGT 
CACAGGCAAA CGGATAACTA CTGCGAGACA TGGAGGGCCG GAGACCGCGC TGTCACAGGC 
CTGGCCTCGT CCCTGCAGGC TGGTCAACTC CTCCAGCAGA CCTCCAGCAG CTGCTCCAGC 
TCCTACATCG TGCTGTGCAT CGAGAACAGC TACATGACAC AGTCCAAGAA ATAA

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

col18a1a ( XM_021478722.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021334397.1 Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X3, mRNA.

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CloneID	ODa143964
Clone ID Related Accession (Same CDS sequence)	XM_021478722.1
Accession Version	XM_021478722.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4050bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	collagen type XVIII, alpha 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007120.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAAGAA GGTGTCTCGC GGTTCTGGAG CGGTTCTTCT GCCTCGTGTT GATCTTGTCT 
CCGGTTGCAT TACAGCAGAG AGAAGAAAGT GGAGTGTCGC TGTTGCAACT AATTGGCGAT 
CCTCCACCCA ACGGCGTCTC CAAAGTCTTC GACCAAGCAA ACAGTCCTGG ATATGTGTTT 
GGACCAAGCT CAAATGTGGG TCAGTCTGCT GCAGCCCACC TGCCCAATCC CTTCTACCGC 
GATTTCTCCC TCATCTTCAA TATAAAACCC ACATCCTCCA AGCCTGGCGT GATCTTCTCC 
ATCACTGACC CCACTCAGAA CATCATGTAT GTTGGCGTGA AGCTGTCGGC GGTGGAAAGA 
GGCAAACAGT CCATTATCTT CTACTACACC GAGCCTGATT CGCAGAGCTC CTATGAGGCG 
GCCAGATTCT CTGTTTCCTC CATGTTGAAC ATATGGACGC GCTTTTCCAT CAGCGTTTTG 
AACGAGCAGG TTTCTCTCTA CTTTAACTGC GACTCGGATC CTCAGGTTGT CAATTTCGAG 
CGCTCGCCTG ATGATATGGA CATGGATGCT GGCGCTGGAG TGTTTGTGGG ACATGCCAGT 
GGAGCAGACC CGGATAAGTT TTTGGGTGTT ATTGGTGATC TGAGGGTGTC GAGAGACCCT 
GGGGCGGCTG AACGGCACTG TGAAGAAGAG GAGGATGACT ATGCAACAGA GGCATCAGGT 
GATTACGGAG CAAGTGGAGA TGGAGAGCAG CCATCACCAG TTCAGCCAAC ACCTCCATCA 
TCTCGGCCAA TCCAGCGGCC ACCGGTGATT AGCAGGGATC CTATACAGCG GCCACCGGTG 
ATTAGCAGGG AGCCTATACA GCAGACAGTT GCAAGAGGAG AGAAGGGTGA CAGAGGGGAG 
AAGGGTGCTA AAGGTGACAG GGGTCTTGCT GGGCCAAAGG GTGATGTGGG GTCTGGATCA 
GTGTCTGGTG GAGGATCAAA AGGAGACAAG GGCGTCCCAG GAGAGAAAGG AATGAAGGGC 
ACTTCTGGTT TTGGTTATCC TGGATCTAAG GGTGACCGTG GCCCCCCTGG ACCTCCAGGA 
CCTCCGGGTC CCCAAGGGCC CAGTGCAGAG GTAGAGGTGC GGGGCGATGG GTCAGTTGTG 
CAGAAAGTCA CAGGACCAAG AGGACCACCT GGACCCCAAG GACCCCCTGG TCCCCCTGGA 
CCTGAAGGGG AGCCGGGTGA CCCTGGTGAA GATGGAAAAG CTGGCCAAGT TGGACCTTCT 
GGTTTTCCTG GAAATCCTGG GAATCCTGGA CCCAAAGGAG ATAAGGGAGA TCGAGGTGAA 
AGTCAGCCAG GACCCCGTGG GCCGCCTGGT CCTCCCGGCC CACCAGGACC CTCCTCTGGC 
TTTGATAGAC CTACGTTTGT GGACATGGAG GGCTCTGGAT TTGATATGGA CAGTGTGCGG 
GCAGTGCCTG GTTTGCCTGG TCCACCTGGT CCTCCTGGTC CCCCTGGTCC CCCTGGCTCT 
GCATCTTCAG GCTCTGGTGG TTTTGGGCCA CCTGGTCCTC CTGGGCAAAA TGGGGCGCCA 
GGTCAGCCGG GACTTTCGGG TGTACCAGGT GCTGATGGAA AACCAGGCTT ACCTGGTCCA 
AAAGGAGAGA AGGGTGATGC CGGTGAGCTG GGCCTTCCTG GACCGGTGGG AGAGAAGGGT 
GCCAAAGGTT CTTCTGGTCC CCCTGGCACC ACTGGGATTG GTGGGCCTGC TGGTCTTCCA 
GGACCAATTG GACCTATTGG ACTTCCAGGA CCACCTGGTC CTCCTGGACC AAGCTTTAAT 
GTTGGTTTTG ATGACATGGA AGGTTCTGGT GTTCACTTCA GTTCAGTACC TGGAGTAAGA 
GGACCAGTTG GAATCCCGGG GCCACCTGGT GTCCCAGGGC CACAGGGTCA GCCTGGATTC 
CCAGGGCTTC CTGGTGAGAA AGGCAGTTTA GGAGCTCAGG GAAATGATGG TCTTCCTGGT 
GCAGATGGCT TCCCTGGACC ACAGGGACCA AAGGGCGACA AAGGAGAGCG AGGCGACAGG 
GGTGAACCTG GTCGAGATGG ACATGGTCAT CCAGGCCAAC CAGGCCCTCC TGGACCACCT 
GGACAGATTA TTTATCGCTA CTCTGAACAT TATGATGAAG TTGGAGGAAC GGGGGCTCAG 
GGTGGTTCTG GTGTTCCTGG CCAAGCAGGA TTCCCAGGCC CAATGGGACC AAAGGGTGAC 
AGAGGTGAGC CTGGTCTTCC AGGCTATGAC ATTAAGGGGG AGAAAGGAGA ACCTGGACTT 
ATTCTTGGAC CTGATGGAAA TCCACTTTAC CTTGGTGGAT TGACAGGACA GAAGGGTGAG 
AGAGGTATTT CTGGACCAGT CGGACCTCCT GGTCCAGCAG GACCTCCTGG TGCAAAAGGT 
GAATTCGGAA TGCCAGGCAG ACCTGGTCGT CCAGGTGTGA ACGGATATAA AGGAGAGAAG 
GGAGAGCCAA GTTCAGGCTC TGGATATGGT TACCCGGGTC CCCCTGGTCC CCCAGGACCC 
CCTGGTCCCC CCGGACCCGC TGTGCCCTTG GACAGATTTG GCAGATATGA AGATTATGCA 
AGGCTCTATC CAGCTACGAA AGGAGAGAAA GGAGACCAAG GAGCTCCTGG CATTCCCGGA 
TCGCCAGGTT TTTCCACAAA CTTTGATATA TATTCACTCA AGAATGAGAT GAAGGGTGAG 
CGGGGAGAGT CTGGTCTTAA AGGAGAGAAA GGAGAACCAG GAGGTGGATT TTATGACCCT 
CGTTTTGGAG CTGTACAAGG ACCACCAGGG AACCCAGGAC CTGCTGGACC TAAAGGAGAC 
TCAATCAGAG GCCCACCTGG ACCCCAGGGC CCACCAGGAA CACCCGGGGT TGGTTATGAT 
GGTCGACCAG GTAATCCAGG ACCTCCTGGA CCACCTGGTC CACCAGGGTC CCCATCACTG 
CCAGGACCCT ATAGGCCACC ACTCAGTATT CCTGGACCTC CAGGTCCTCC TGGCCCACCT 
GGAATTCCTG GCACTGGATC AGGGGTGACT GTCCTGAGGT CTCATGACAT AATGATTGCT 
ACAGCACGCA GACAGACAGA AGGGACTCTG ATTTACATTC TGGACAGAAA CGATCTCTAC 
CTCAGAGTTC GGGACGGTGT TAGACAAGTG ATGCTTGGGG ATTATAAACC TCTTTATGGA 
GAGCTGGACA ATGAAGTGGC AGCAGTCCAG CCACCCCCTG TTGTTCACTA TTCCCAGGAC 
CACACGGCTA ACAATGGCGC AGAGCAGATT TCTCCACCAC ACCAGCCTAT TGATTTCCCA 
ACGAGAGAGC AGGAGAACAG AAACCCCAAC CCGCAACCTG ACCCCCGATA CCCGGATCCA 
CGATACCCAC CATACACTGA CAACAGATAC ACCGATCCTG TAGAGCCCAA CATCAGATAT 
CCTGTTCAAC CCGAGAGGAA TCCAATCACT CCAGCCCGCC GTCCTATCCC TCCTGTCAAT 
CAGCCAGGAG GCCACGCCCA CACCCACACT TCCGGACCAG GGTTGCATCT TATTGCTCTG 
AATTCTCCAC AAGTGGGCAA CATGAGAGGC ATTCGCGGGG CAGACTTCAT GTGCTTCCAG 
CAGGCACGGG CCGTTGGCAT GAAGGGAACG TTCAGAGCCT TCCTGTCCTC CAAACTCCAG 
GATCTCTACA GTATCGTCCG CAGATCTGAC AGAGAGACAT TACCAATTGT TAACCTAAAG 
GATCAAGTCC TCTTCAGCAG CTGGGAGTCT CTCTTCAGTG ACTCAGAGAG CAGGATGAAG 
GACAATGCAC CCATCTACTC GTTTGATGGC AGAGATGTCC TGAGGGACAG TGCCTGGCCA 
GAGAAGATGA TTTGGCACGG ATCGGATGGC AGGGGTCACA GGCAAACGGA TAACTACTGC 
GAGACATGGA GGGCCGGAGA CCGCGCTGTC ACAGGCCTGG CCTCGTCCCT GCAGGCTGGT 
CAACTCCTCC AGCAGACCTC CAGCAGCTGC TCCAGCTCCT ACATCGTGCT GTGCATCGAG 
AACAGCTACA TGACACAGTC CAAGAAATAA

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

RefSeq	XP_021334397.1
CDS	178..4227
Translation	MARRCLAVLERFFCLVLILSPVALQQREESGVSLLQLIGDPPPNGVSKVFDQANSPGYVFGPSSNVGQSAAAHLPNPFYRDFSLIFNIKPTSSKPGVIFSITDPTQNIMYVGVKLSAVERGKQSIIFYYTEPDSQSSYEAARFSVSSMLNIWTRFSISVLNEQVSLYFNCDSDPQVVNFERSPDDMDMDAGAGVFVGHASGADPDKFLGVIGDLRVSRDPGAAERHCEEEEDDYATEASGDYGASGDGEQPSPVQPTPPSSRPIQRPPVISRDPIQRPPVISREPIQQTVARGEKGDRGEKGAKGDRGLAGPKGDVGSGSVSGGGSKGDKGVPGEKGMKGTSGFGYPGSKGDRGPPGPPGPPGPQGPSAEVEVRGDGSVVQKVTGPRGPPGPQGPPGPPGPEGEPGDPGEDGKAGQVGPSGFPGNPGNPGPKGDKGDRGESQPGPRGPPGPPGPPGPSSGFDRPTFVDMEGSGFDMDSVRAVPGLPGPPGPPGPPGPPGSASSGSGGFGPPGPPGQNGAPGQPGLSGVPGADGKPGLPGPKGEKGDAGELGLPGPVGEKGAKGSSGPPGTTGIGGPAGLPGPIGPIGLPGPPGPPGPSFNVGFDDMEGSGVHFSSVPGVRGPVGIPGPPGVPGPQGQPGFPGLPGEKGSLGAQGNDGLPGADGFPGPQGPKGDKGERGDRGEPGRDGHGHPGQPGPPGPPGQIIYRYSEHYDEVGGTGAQGGSGVPGQAGFPGPMGPKGDRGEPGLPGYDIKGEKGEPGLILGPDGNPLYLGGLTGQKGERGISGPVGPPGPAGPPGAKGEFGMPGRPGRPGVNGYKGEKGEPSSGSGYGYPGPPGPPGPPGPPGPAVPLDRFGRYEDYARLYPATKGEKGDQGAPGIPGSPGFSTNFDIYSLKNEMKGERGESGLKGEKGEPGGGFYDPRFGAVQGPPGNPGPAGPKGDSIRGPPGPQGPPGTPGVGYDGRPGNPGPPGPPGPPGSPSLPGPYRPPLSIPGPPGPPGPPGIPGTGSGVTVLRSHDIMIATARRQTEGTLIYILDRNDLYLRVRDGVRQVMLGDYKPLYGELDNEVAAVQPPPVVHYSQDHTANNGAEQISPPHQPIDFPTREQENRNPNPQPDPRYPDPRYPPYTDNRYTDPVEPNIRYPVQPERNPITPARRPIPPVNQPGGHAHTHTSGPGLHLIALNSPQVGNMRGIRGADFMCFQQARAVGMKGTFRAFLSSKLQDLYSIVRRSDRETLPIVNLKDQVLFSSWESLFSDSESRMKDNAPIYSFDGRDVLRDSAWPEKMIWHGSDGRGHRQTDNYCETWRAGDRAVTGLASSLQAGQLLQQTSSSCSSSYIVLCIENSYMTQSKK

Target ORF information:

RefSeq Version	XM_021478722.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio collagen type XVIII alpha 1 chain a (col18a1a), transcript variant X3, mRNA.

Target ORF information:

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

XM_021478722.1

ORF Insert Sequence:

ATGGCAAGAA GGTGTCTCGC GGTTCTGGAG CGGTTCTTCT GCCTCGTGTT GATCTTGTCT 
CCGGTTGCAT TACAGCAGAG AGAAGAAAGT GGAGTGTCGC TGTTGCAACT AATTGGCGAT 
CCTCCACCCA ACGGCGTCTC CAAAGTCTTC GACCAAGCAA ACAGTCCTGG ATATGTGTTT 
GGACCAAGCT CAAATGTGGG TCAGTCTGCT GCAGCCCACC TGCCCAATCC CTTCTACCGC 
GATTTCTCCC TCATCTTCAA TATAAAACCC ACATCCTCCA AGCCTGGCGT GATCTTCTCC 
ATCACTGACC CCACTCAGAA CATCATGTAT GTTGGCGTGA AGCTGTCGGC GGTGGAAAGA 
GGCAAACAGT CCATTATCTT CTACTACACC GAGCCTGATT CGCAGAGCTC CTATGAGGCG 
GCCAGATTCT CTGTTTCCTC CATGTTGAAC ATATGGACGC GCTTTTCCAT CAGCGTTTTG 
AACGAGCAGG TTTCTCTCTA CTTTAACTGC GACTCGGATC CTCAGGTTGT CAATTTCGAG 
CGCTCGCCTG ATGATATGGA CATGGATGCT GGCGCTGGAG TGTTTGTGGG ACATGCCAGT 
GGAGCAGACC CGGATAAGTT TTTGGGTGTT ATTGGTGATC TGAGGGTGTC GAGAGACCCT 
GGGGCGGCTG AACGGCACTG TGAAGAAGAG GAGGATGACT ATGCAACAGA GGCATCAGGT 
GATTACGGAG CAAGTGGAGA TGGAGAGCAG CCATCACCAG TTCAGCCAAC ACCTCCATCA 
TCTCGGCCAA TCCAGCGGCC ACCGGTGATT AGCAGGGATC CTATACAGCG GCCACCGGTG 
ATTAGCAGGG AGCCTATACA GCAGACAGTT GCAAGAGGAG AGAAGGGTGA CAGAGGGGAG 
AAGGGTGCTA AAGGTGACAG GGGTCTTGCT GGGCCAAAGG GTGATGTGGG GTCTGGATCA 
GTGTCTGGTG GAGGATCAAA AGGAGACAAG GGCGTCCCAG GAGAGAAAGG AATGAAGGGC 
ACTTCTGGTT TTGGTTATCC TGGATCTAAG GGTGACCGTG GCCCCCCTGG ACCTCCAGGA 
CCTCCGGGTC CCCAAGGGCC CAGTGCAGAG GTAGAGGTGC GGGGCGATGG GTCAGTTGTG 
CAGAAAGTCA CAGGACCAAG AGGACCACCT GGACCCCAAG GACCCCCTGG TCCCCCTGGA 
CCTGAAGGGG AGCCGGGTGA CCCTGGTGAA GATGGAAAAG CTGGCCAAGT TGGACCTTCT 
GGTTTTCCTG GAAATCCTGG GAATCCTGGA CCCAAAGGAG ATAAGGGAGA TCGAGGTGAA 
AGTCAGCCAG GACCCCGTGG GCCGCCTGGT CCTCCCGGCC CACCAGGACC CTCCTCTGGC 
TTTGATAGAC CTACGTTTGT GGACATGGAG GGCTCTGGAT TTGATATGGA CAGTGTGCGG 
GCAGTGCCTG GTTTGCCTGG TCCACCTGGT CCTCCTGGTC CCCCTGGTCC CCCTGGCTCT 
GCATCTTCAG GCTCTGGTGG TTTTGGGCCA CCTGGTCCTC CTGGGCAAAA TGGGGCGCCA 
GGTCAGCCGG GACTTTCGGG TGTACCAGGT GCTGATGGAA AACCAGGCTT ACCTGGTCCA 
AAAGGAGAGA AGGGTGATGC CGGTGAGCTG GGCCTTCCTG GACCGGTGGG AGAGAAGGGT 
GCCAAAGGTT CTTCTGGTCC CCCTGGCACC ACTGGGATTG GTGGGCCTGC TGGTCTTCCA 
GGACCAATTG GACCTATTGG ACTTCCAGGA CCACCTGGTC CTCCTGGACC AAGCTTTAAT 
GTTGGTTTTG ATGACATGGA AGGTTCTGGT GTTCACTTCA GTTCAGTACC TGGAGTAAGA 
GGACCAGTTG GAATCCCGGG GCCACCTGGT GTCCCAGGGC CACAGGGTCA GCCTGGATTC 
CCAGGGCTTC CTGGTGAGAA AGGCAGTTTA GGAGCTCAGG GAAATGATGG TCTTCCTGGT 
GCAGATGGCT TCCCTGGACC ACAGGGACCA AAGGGCGACA AAGGAGAGCG AGGCGACAGG 
GGTGAACCTG GTCGAGATGG ACATGGTCAT CCAGGCCAAC CAGGCCCTCC TGGACCACCT 
GGACAGATTA TTTATCGCTA CTCTGAACAT TATGATGAAG TTGGAGGAAC GGGGGCTCAG 
GGTGGTTCTG GTGTTCCTGG CCAAGCAGGA TTCCCAGGCC CAATGGGACC AAAGGGTGAC 
AGAGGTGAGC CTGGTCTTCC AGGCTATGAC ATTAAGGGGG AGAAAGGAGA ACCTGGACTT 
ATTCTTGGAC CTGATGGAAA TCCACTTTAC CTTGGTGGAT TGACAGGACA GAAGGGTGAG 
AGAGGTATTT CTGGACCAGT CGGACCTCCT GGTCCAGCAG GACCTCCTGG TGCAAAAGGT 
GAATTCGGAA TGCCAGGCAG ACCTGGTCGT CCAGGTGTGA ACGGATATAA AGGAGAGAAG 
GGAGAGCCAA GTTCAGGCTC TGGATATGGT TACCCGGGTC CCCCTGGTCC CCCAGGACCC 
CCTGGTCCCC CCGGACCCGC TGTGCCCTTG GACAGATTTG GCAGATATGA AGATTATGCA 
AGGCTCTATC CAGCTACGAA AGGAGAGAAA GGAGACCAAG GAGCTCCTGG CATTCCCGGA 
TCGCCAGGTT TTTCCACAAA CTTTGATATA TATTCACTCA AGAATGAGAT GAAGGGTGAG 
CGGGGAGAGT CTGGTCTTAA AGGAGAGAAA GGAGAACCAG GAGGTGGATT TTATGACCCT 
CGTTTTGGAG CTGTACAAGG ACCACCAGGG AACCCAGGAC CTGCTGGACC TAAAGGAGAC 
TCAATCAGAG GCCCACCTGG ACCCCAGGGC CCACCAGGAA CACCCGGGGT TGGTTATGAT 
GGTCGACCAG GTAATCCAGG ACCTCCTGGA CCACCTGGTC CACCAGGGTC CCCATCACTG 
CCAGGACCCT ATAGGCCACC ACTCAGTATT CCTGGACCTC CAGGTCCTCC TGGCCCACCT 
GGAATTCCTG GCACTGGATC AGGGGTGACT GTCCTGAGGT CTCATGACAT AATGATTGCT 
ACAGCACGCA GACAGACAGA AGGGACTCTG ATTTACATTC TGGACAGAAA CGATCTCTAC 
CTCAGAGTTC GGGACGGTGT TAGACAAGTG ATGCTTGGGG ATTATAAACC TCTTTATGGA 
GAGCTGGACA ATGAAGTGGC AGCAGTCCAG CCACCCCCTG TTGTTCACTA TTCCCAGGAC 
CACACGGCTA ACAATGGCGC AGAGCAGATT TCTCCACCAC ACCAGCCTAT TGATTTCCCA 
ACGAGAGAGC AGGAGAACAG AAACCCCAAC CCGCAACCTG ACCCCCGATA CCCGGATCCA 
CGATACCCAC CATACACTGA CAACAGATAC ACCGATCCTG TAGAGCCCAA CATCAGATAT 
CCTGTTCAAC CCGAGAGGAA TCCAATCACT CCAGCCCGCC GTCCTATCCC TCCTGTCAAT 
CAGCCAGGAG GCCACGCCCA CACCCACACT TCCGGACCAG GGTTGCATCT TATTGCTCTG 
AATTCTCCAC AAGTGGGCAA CATGAGAGGC ATTCGCGGGG CAGACTTCAT GTGCTTCCAG 
CAGGCACGGG CCGTTGGCAT GAAGGGAACG TTCAGAGCCT TCCTGTCCTC CAAACTCCAG 
GATCTCTACA GTATCGTCCG CAGATCTGAC AGAGAGACAT TACCAATTGT TAACCTAAAG 
GATCAAGTCC TCTTCAGCAG CTGGGAGTCT CTCTTCAGTG ACTCAGAGAG CAGGATGAAG 
GACAATGCAC CCATCTACTC GTTTGATGGC AGAGATGTCC TGAGGGACAG TGCCTGGCCA 
GAGAAGATGA TTTGGCACGG ATCGGATGGC AGGGGTCACA GGCAAACGGA TAACTACTGC 
GAGACATGGA GGGCCGGAGA CCGCGCTGTC ACAGGCCTGG CCTCGTCCCT GCAGGCTGGT 
CAACTCCTCC AGCAGACCTC CAGCAGCTGC TCCAGCTCCT ACATCGTGCT GTGCATCGAG 
AACAGCTACA TGACACAGTC CAAGAAATAA

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

PubMed

Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database.
BMC genomics17368(2016 05)
Pasquier J,Cabau C,Nguyen T,Jouanno E,Severac D,Braasch I,Journot L,Pontarotti P,Klopp C,Postlethwait JH,Guiguen Y,Bobe J

Single epicardial cell transcriptome sequencing identifies Caveolin 1 as an essential factor in zebrafish heart regeneration.
Development (Cambridge, England)143(2)232-43(2016 Jan)
Cao J,Navis A,Cox BD,Dickson AL,Gemberling M,Karra R,Bagnat M,Poss KD

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col18a1a cDNA ORF clone, Danio rerio(zebrafish)

Gene

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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:

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