adamts17 cDNA ORF clone, Lates calcarifer(barramundi perch)

Gene
Clones
gRNAs

Summary

Gene Symbol	adamts17
Entrez Gene ID	108894305
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 17
Gene Type	protein-coding
Organism	Lates calcarifer(barramundi perch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018692939.1	XP_018548455.1	A disintegrin and metalloproteinase with thrombospondin motifs 17 isoform X1
XM_018692940.1	XP_018548456.1	A disintegrin and metalloproteinase with thrombospondin motifs 17 isoform X2

Pathways from BioSystems
Gene Ontology

The following adamts17 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamts17 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
OLa64562	XM_018692939.1 Latest version!	Lates calcarifer ADAM metallopeptidase with thrombospondin type 1 motif 17 (adamts17), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OLa64563	XM_018692940.1 Latest version!	Lates calcarifer ADAM metallopeptidase with thrombospondin type 1 motif 17 (adamts17), transcript variant X2, 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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5 or more Clone	50% OFF
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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)

adamts17 ( XM_018692939.1 ) cDNA ORF clone, Lates calcarifer(barramundi perch) -> XP_018548455.1 Lates calcarifer ADAM metallopeptidase with thrombospondin type 1 motif 17 (adamts17), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OLa64562
Clone ID Related Accession (Same CDS sequence)	XM_018692939.1
Accession Version	XM_018692939.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3420bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-10-13
Organism	Lates calcarifer(barramundi perch)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 17 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017365395.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Lates calcarifer Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATAACA GCCATGTCAC CCATCTGCTC CTCTCTCTTC TGTGCATCGG GTTTACTGCC 
CAGTCCGAGC TGGAGACAGA TGAAGTGGTT CCCAGGCTGC TGTCCGGGCA GGAGGCGCAC 
CTGTCCGCCG ACCACACCGT CCGCGCTCTG CGGCGCCGCG GTCAGCGCTC TCTGGACGCT 
GCGGGGGGAG GACACTTTGA CCCGGATAAC ATAATTTTAA CACTGCCTGC TTTTGGCAGG 
GACCTGTATT TAAATCTGAC GCGGGATAGT ACGTTTCTCT CGGGGGACTT CGTGGTGGAG 
GAGAGGCGCG GGGACCAGAG CGCAGCGGTC AGACGCCTGT CCACCAACCA GCTCTGCTTT 
TACTCTGGCT CCATCGTCAA CCACACGGGC TCTCTGGCAT CACTGAGCAC CTGTGGCGGT 
CTGACTGGAC TCGTCCAGAT CGGGGAGGAC AGTCTGTTCA TCCAGCCAGT GGGTGAAAAC 
GACCCGTCAC AGTCATTCTC TGGACTTAAA CACCGTCTGC TGCGACACCG ACGCTCTGCC 
AAGACCAGCT CTGCTCCAGA TGCTGACCAG CCCAGCTACT GTGGGACTAT ACAGGTAGGG 
AAAAAGAAGG AGAAGAGGTC AAAAGTAAGC GAGGAGGGTC GTGGGAAAAG AAACGCCATC 
CGCCTGCACG AAGTGTACAC TGTGGAGACA GTGGTGGTGG CAGACTCGGA CATGGTCCAG 
TACCACGGAG CTGAGGCCGC ACAGAGGTTC CTGCTGACTG TCATGAACAT GGTTTACAAC 
ATGTTCCACC ACCAGAGTCT AGGAGTGAGG ATCAACATCC GAGTCACCAA GCTGGTACTG 
CTTCACAGCC GCCCAGAAAA GCTTAATGTG GGCCATCATG GAGAAAGGTC TCTGGAGAGC 
TTCTGTCAGT GGCAGTATCA GGAGTTTGGG GGGCCGCGGT ATCTCGGCAC CAACCATGTT 
CCTGGTGGAA GGGACGACAT CCCACCAGTG GATACAGCTG TGCTGGTCAC CAGGACAGAT 
TTCTGTGTTC ATAAAGACGA ACCCTGTGAT ACTGTGGGTA TTGCTTATCT GGGCGGTGTG 
TGCAGTGCTA AGAGGAAGTG TGTGTTAGCA GAGGACAATG GACTCAATTT GGCCTTCACC 
ATTGCTCATG AGCTGGGACA CAACATGGGA ATGAGCCACG ATGATGATCA CGCCACCTGC 
ACCGGTCACT CCCACATCAT GTCTGGTGAA TGGGTGAAAG GAAGAAACCC CAGCGACCTG 
TCCTGGTCCT CCTGCAGCCG CGACGATCTG GAGAATTTCC TGAGATCCAA AGCCAGTGCC 
TGTCTGCTGC ACACAGACCC CAGGAGCCGT TACCAGGTCC GGCTGCCTCC CAAGCTCCCA 
GGCATGCACT ACAGTGTGGA CGAACAGTGC CAGATCCTGT TTGGAACCAA TGCCACTTTC 
TGCAATGACA TGGAGCACCT GATGTGTGCT GGCCTGTGGT GTTTAGTAGA GGGAGATGCA 
TCCTGCAAGA CCAAACTGGA TCCTCCTCTG GATGGAACAG AGTGTGGAGC AGACAAGTGG 
TGCAGGGCAG GCGAGTGTGT CAGTAAGACT CCTATTCCGC AGCATGTGGA TGGAGACTGG 
AGTCCATGGA GCCAGTGGAG CATGTGCAGC AGAACCTGTG GCACTGGAGT CCAGTTCAGA 
CAGAGGAAAT GTGACAACCC TCCGCCTGGT CCTGGTGGGC GACACTGTCA GAAGACCAGT 
GTGGAGCACA AAGCTTGTGA GGGTCCTCCC TGTCCTAAAG GGGCACCCAG CTTCAGAGAC 
CTGCAGTGTC TGTCCTACGA CCGCCACGCC AGCAAGAAGA AGGGCAGTAT GCTGACTGCT 
ATTATTAATG ATGAGAAGCC GTGTGTGTTG TTCTGCAGCC CGGTGGGTCG AGATGTGCCA 
GCCCTGATGG CCGACAGAGT GATGGACGGG ACGCCCTGTG GACCATACGA GGCTGACTTG 
TGTGTTAATG GGAGGTGTCA GAAAATTGGC TGTGACGGCA TCATTGGCTC TTTGGCTAAA 
GAGGATCGCT GTGGCGTGTG TAATGGAGAT GGACGCTCCT GTAAGATCGT GAGAGGAGAC 
TTCAACCACA CCAAAGGAAT GGTCACCACT AGGCAGTGTA AGAGGGTATC TACCTGTGTG 
ATGGCTAAAC CCAGAGCTGT CCCCAAGTGT TTCTCATGCT ACATTGAGGC TGTGGTTATC 
CCTGCAGGAG CCAGGAGAAT CAAAGTTGTG GAGGACAAAC CTTCACATAG CTTTCTGGCC 
CTGAAAGACT CTGGTAAGAA ATCCATCAAC AGTGACTGGA AGATTGAGCT TCCAGGAGAG 
TTTGAGCTGG CCGGGACCAC AGTGCGCTAT GTTAGAAGGG GACTGTGGGA GAAGATGTCT 
GCCAAGGGAC CCACTAAGAC CCCCTTACAC CTGATGGTGC TGCTCTTTCA TGACCAGAGC 
TATGGGATCC ACTACGAGTA CACAGTGTCC CTGAACACAT CTCAGGACAG GAGCAGTGAG 
GAGCAGAGGG AACTAGAGTA TCTCTACATC TGGACACACA GCAGCTGGCA GGACTGTACT 
GTCCAATGTG GAGGAGGTGA ACGGAGGACA GTGGTTTCCT GTATGAGGAT AGCCAATAAA 
ACAATGGAGG TGGTCAACGA TAGCTACTGT CAACTCGAGA ACCGACCACA ACCCCAAGTA 
CGACTCTGCA ACACTCACCC CTGCCAGTAC CGGTGGGTGA CAGGTGAGTG GGGATCCTGC 
TCTGTCACCT GTGGTAAAGG TCTCCAGCAG AGGGAGGTGG TTTGTGTTTA CCATCTGCAG 
AATGGCTCAC TCATCCACAC CAGGGACCTG TACTGCCAAG GAGGAAAACC TCCTGTCCTG 
CAGGGCTGTG AGGGCCGGCT GTGCCTCACT GTGTGGGAGG CTTCAGAGTG GTCCAAGTGT 
TCGTCAGACT GTGGTCAAGG TGTTCGCAGA CGGACAGTAT CATGTACAAA CCCTCAGGGT 
CTCTGTGATC CTCTGTCCCA GCCTACTCAA GAGGAGCCCT GCGAGGACCA CTCCAAATGT 
TATGAATGGA AGACTGGAGA CTGGTCCAAG TGTTCGTCAT CCTGTGGGAA AGGCCTGCAG 
TCACGAGTTG TCCAGTGTAT GCACAAAGTG ACCGGTCGTC ATGGCAACGA CTGCCCAGTG 
ACACTGAGAC CACCGACCTA CCGACCCTGT CACCACGGTG CCTGCAATGA GAAAATCAAT 
GTGAACACCA TCACCTCCCC CAGGCTAGCT GCTCTGACCT ACAAATGCAT GGGGGACCAG 
TGGACGGTTT ACTGTCGAGT GATCCGAGAG AAGAACCTCT GTCAGGACAT GAGGTGGTAC 
CAGCGCTGCT GTGAAACCTG TAGGGACTTT TATGCCAAGA AAACACTGCA CAAGAGCTAA

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

RefSeq	XP_018548455.1
CDS	120..3539
Translation	MHNSHVTHLLLSLLCIGFTAQSELETDEVVPRLLSGQEAHLSADHTVRALRRRGQRSLDAAGGGHFDPDNIILTLPAFGRDLYLNLTRDSTFLSGDFVVEERRGDQSAAVRRLSTNQLCFYSGSIVNHTGSLASLSTCGGLTGLVQIGEDSLFIQPVGENDPSQSFSGLKHRLLRHRRSAKTSSAPDADQPSYCGTIQVGKKKEKRSKVSEEGRGKRNAIRLHEVYTVETVVVADSDMVQYHGAEAAQRFLLTVMNMVYNMFHHQSLGVRINIRVTKLVLLHSRPEKLNVGHHGERSLESFCQWQYQEFGGPRYLGTNHVPGGRDDIPPVDTAVLVTRTDFCVHKDEPCDTVGIAYLGGVCSAKRKCVLAEDNGLNLAFTIAHELGHNMGMSHDDDHATCTGHSHIMSGEWVKGRNPSDLSWSSCSRDDLENFLRSKASACLLHTDPRSRYQVRLPPKLPGMHYSVDEQCQILFGTNATFCNDMEHLMCAGLWCLVEGDASCKTKLDPPLDGTECGADKWCRAGECVSKTPIPQHVDGDWSPWSQWSMCSRTCGTGVQFRQRKCDNPPPGPGGRHCQKTSVEHKACEGPPCPKGAPSFRDLQCLSYDRHASKKKGSMLTAIINDEKPCVLFCSPVGRDVPALMADRVMDGTPCGPYEADLCVNGRCQKIGCDGIIGSLAKEDRCGVCNGDGRSCKIVRGDFNHTKGMVTTRQCKRVSTCVMAKPRAVPKCFSCYIEAVVIPAGARRIKVVEDKPSHSFLALKDSGKKSINSDWKIELPGEFELAGTTVRYVRRGLWEKMSAKGPTKTPLHLMVLLFHDQSYGIHYEYTVSLNTSQDRSSEEQRELEYLYIWTHSSWQDCTVQCGGGERRTVVSCMRIANKTMEVVNDSYCQLENRPQPQVRLCNTHPCQYRWVTGEWGSCSVTCGKGLQQREVVCVYHLQNGSLIHTRDLYCQGGKPPVLQGCEGRLCLTVWEASEWSKCSSDCGQGVRRRTVSCTNPQGLCDPLSQPTQEEPCEDHSKCYEWKTGDWSKCSSSCGKGLQSRVVQCMHKVTGRHGNDCPVTLRPPTYRPCHHGACNEKINVNTITSPRLAALTYKCMGDQWTVYCRVIREKNLCQDMRWYQRCCETCRDFYAKKTLHKS

Target ORF information:

RefSeq Version	XM_018692939.1
Organism	Lates calcarifer(barramundi perch)
Definition	Lates calcarifer ADAM metallopeptidase with thrombospondin type 1 motif 17 (adamts17), transcript variant X1, mRNA.

Target ORF information:

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

XM_018692939.1

ORF Insert Sequence:

ATGCATAACA GCCATGTCAC CCATCTGCTC CTCTCTCTTC TGTGCATCGG GTTTACTGCC 
CAGTCCGAGC TGGAGACAGA TGAAGTGGTT CCCAGGCTGC TGTCCGGGCA GGAGGCGCAC 
CTGTCCGCCG ACCACACCGT CCGCGCTCTG CGGCGCCGCG GTCAGCGCTC TCTGGACGCT 
GCGGGGGGAG GACACTTTGA CCCGGATAAC ATAATTTTAA CACTGCCTGC TTTTGGCAGG 
GACCTGTATT TAAATCTGAC GCGGGATAGT ACGTTTCTCT CGGGGGACTT CGTGGTGGAG 
GAGAGGCGCG GGGACCAGAG CGCAGCGGTC AGACGCCTGT CCACCAACCA GCTCTGCTTT 
TACTCTGGCT CCATCGTCAA CCACACGGGC TCTCTGGCAT CACTGAGCAC CTGTGGCGGT 
CTGACTGGAC TCGTCCAGAT CGGGGAGGAC AGTCTGTTCA TCCAGCCAGT GGGTGAAAAC 
GACCCGTCAC AGTCATTCTC TGGACTTAAA CACCGTCTGC TGCGACACCG ACGCTCTGCC 
AAGACCAGCT CTGCTCCAGA TGCTGACCAG CCCAGCTACT GTGGGACTAT ACAGGTAGGG 
AAAAAGAAGG AGAAGAGGTC AAAAGTAAGC GAGGAGGGTC GTGGGAAAAG AAACGCCATC 
CGCCTGCACG AAGTGTACAC TGTGGAGACA GTGGTGGTGG CAGACTCGGA CATGGTCCAG 
TACCACGGAG CTGAGGCCGC ACAGAGGTTC CTGCTGACTG TCATGAACAT GGTTTACAAC 
ATGTTCCACC ACCAGAGTCT AGGAGTGAGG ATCAACATCC GAGTCACCAA GCTGGTACTG 
CTTCACAGCC GCCCAGAAAA GCTTAATGTG GGCCATCATG GAGAAAGGTC TCTGGAGAGC 
TTCTGTCAGT GGCAGTATCA GGAGTTTGGG GGGCCGCGGT ATCTCGGCAC CAACCATGTT 
CCTGGTGGAA GGGACGACAT CCCACCAGTG GATACAGCTG TGCTGGTCAC CAGGACAGAT 
TTCTGTGTTC ATAAAGACGA ACCCTGTGAT ACTGTGGGTA TTGCTTATCT GGGCGGTGTG 
TGCAGTGCTA AGAGGAAGTG TGTGTTAGCA GAGGACAATG GACTCAATTT GGCCTTCACC 
ATTGCTCATG AGCTGGGACA CAACATGGGA ATGAGCCACG ATGATGATCA CGCCACCTGC 
ACCGGTCACT CCCACATCAT GTCTGGTGAA TGGGTGAAAG GAAGAAACCC CAGCGACCTG 
TCCTGGTCCT CCTGCAGCCG CGACGATCTG GAGAATTTCC TGAGATCCAA AGCCAGTGCC 
TGTCTGCTGC ACACAGACCC CAGGAGCCGT TACCAGGTCC GGCTGCCTCC CAAGCTCCCA 
GGCATGCACT ACAGTGTGGA CGAACAGTGC CAGATCCTGT TTGGAACCAA TGCCACTTTC 
TGCAATGACA TGGAGCACCT GATGTGTGCT GGCCTGTGGT GTTTAGTAGA GGGAGATGCA 
TCCTGCAAGA CCAAACTGGA TCCTCCTCTG GATGGAACAG AGTGTGGAGC AGACAAGTGG 
TGCAGGGCAG GCGAGTGTGT CAGTAAGACT CCTATTCCGC AGCATGTGGA TGGAGACTGG 
AGTCCATGGA GCCAGTGGAG CATGTGCAGC AGAACCTGTG GCACTGGAGT CCAGTTCAGA 
CAGAGGAAAT GTGACAACCC TCCGCCTGGT CCTGGTGGGC GACACTGTCA GAAGACCAGT 
GTGGAGCACA AAGCTTGTGA GGGTCCTCCC TGTCCTAAAG GGGCACCCAG CTTCAGAGAC 
CTGCAGTGTC TGTCCTACGA CCGCCACGCC AGCAAGAAGA AGGGCAGTAT GCTGACTGCT 
ATTATTAATG ATGAGAAGCC GTGTGTGTTG TTCTGCAGCC CGGTGGGTCG AGATGTGCCA 
GCCCTGATGG CCGACAGAGT GATGGACGGG ACGCCCTGTG GACCATACGA GGCTGACTTG 
TGTGTTAATG GGAGGTGTCA GAAAATTGGC TGTGACGGCA TCATTGGCTC TTTGGCTAAA 
GAGGATCGCT GTGGCGTGTG TAATGGAGAT GGACGCTCCT GTAAGATCGT GAGAGGAGAC 
TTCAACCACA CCAAAGGAAT GGTCACCACT AGGCAGTGTA AGAGGGTATC TACCTGTGTG 
ATGGCTAAAC CCAGAGCTGT CCCCAAGTGT TTCTCATGCT ACATTGAGGC TGTGGTTATC 
CCTGCAGGAG CCAGGAGAAT CAAAGTTGTG GAGGACAAAC CTTCACATAG CTTTCTGGCC 
CTGAAAGACT CTGGTAAGAA ATCCATCAAC AGTGACTGGA AGATTGAGCT TCCAGGAGAG 
TTTGAGCTGG CCGGGACCAC AGTGCGCTAT GTTAGAAGGG GACTGTGGGA GAAGATGTCT 
GCCAAGGGAC CCACTAAGAC CCCCTTACAC CTGATGGTGC TGCTCTTTCA TGACCAGAGC 
TATGGGATCC ACTACGAGTA CACAGTGTCC CTGAACACAT CTCAGGACAG GAGCAGTGAG 
GAGCAGAGGG AACTAGAGTA TCTCTACATC TGGACACACA GCAGCTGGCA GGACTGTACT 
GTCCAATGTG GAGGAGGTGA ACGGAGGACA GTGGTTTCCT GTATGAGGAT AGCCAATAAA 
ACAATGGAGG TGGTCAACGA TAGCTACTGT CAACTCGAGA ACCGACCACA ACCCCAAGTA 
CGACTCTGCA ACACTCACCC CTGCCAGTAC CGGTGGGTGA CAGGTGAGTG GGGATCCTGC 
TCTGTCACCT GTGGTAAAGG TCTCCAGCAG AGGGAGGTGG TTTGTGTTTA CCATCTGCAG 
AATGGCTCAC TCATCCACAC CAGGGACCTG TACTGCCAAG GAGGAAAACC TCCTGTCCTG 
CAGGGCTGTG AGGGCCGGCT GTGCCTCACT GTGTGGGAGG CTTCAGAGTG GTCCAAGTGT 
TCGTCAGACT GTGGTCAAGG TGTTCGCAGA CGGACAGTAT CATGTACAAA CCCTCAGGGT 
CTCTGTGATC CTCTGTCCCA GCCTACTCAA GAGGAGCCCT GCGAGGACCA CTCCAAATGT 
TATGAATGGA AGACTGGAGA CTGGTCCAAG TGTTCGTCAT CCTGTGGGAA AGGCCTGCAG 
TCACGAGTTG TCCAGTGTAT GCACAAAGTG ACCGGTCGTC ATGGCAACGA CTGCCCAGTG 
ACACTGAGAC CACCGACCTA CCGACCCTGT CACCACGGTG CCTGCAATGA GAAAATCAAT 
GTGAACACCA TCACCTCCCC CAGGCTAGCT GCTCTGACCT ACAAATGCAT GGGGGACCAG 
TGGACGGTTT ACTGTCGAGT GATCCGAGAG AAGAACCTCT GTCAGGACAT GAGGTGGTAC 
CAGCGCTGCT GTGAAACCTG TAGGGACTTT TATGCCAAGA AAACACTGCA CAAGAGCTAA

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

adamts17 ( XM_018692940.1 ) cDNA ORF clone, Lates calcarifer(barramundi perch) -> XP_018548456.1 Lates calcarifer ADAM metallopeptidase with thrombospondin type 1 motif 17 (adamts17), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OLa64563
Clone ID Related Accession (Same CDS sequence)	XM_018692940.1
Accession Version	XM_018692940.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3345bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-10-13
Organism	Lates calcarifer(barramundi perch)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 17 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017365395.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Lates calcarifer Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCATAACA GCCATGTCAC CCATCTGCTC CTCTCTCTTC TGTGCATCGG GTTTACTGCC 
CAGTCCGAGC TGGAGACAGA TGAAGTGGTT CCCAGGCTGC TGTCCGGGCA GGAGGCGCAC 
CTGTCCGCCG ACCACACCGT CCGCGCTCTG CGGCGCCGCG GTCAGCGCTC TCTGGACGCT 
GCGGGGGGAG GACACTTTGA CCCGGATAAC ATAATTTTAA CACTGCCTGC TTTTGGCAGG 
GACCTGTATT TAAATCTGAC GCGGGATAGT ACGTTTCTCT CGGGGGACTT CGTGGTGGAG 
GAGAGGCGCG GGGACCAGAG CGCAGCGGTC AGACGCCTGT CCACCAACCA GCTCTGCTTT 
TACTCTGGCT CCATCGTCAA CCACACGGGC TCTCTGGCAT CACTGAGCAC CTGTGGCGGT 
CTGACTGGAC TCGTCCAGAT CGGGGAGGAC AGTCTGTTCA TCCAGCCAGT GGGTGAAAAC 
GACCCGTCAC AGTCATTCTC TGGACTTAAA CACCGTCTGC TGCGACACCG ACGCTCTGCC 
AAGACCAGCT CTGCTCCAGA TGCTGACCAG CCCAGCTACT GTGGGACTAT ACAGGTAGGG 
AAAAAGAAGG AGAAGAGGTC AAAAGTAAGC GAGGAGGGTC GTGGGAAAAG AAACGCCATC 
CGCCTGCACG AAGTGTACAC TGTGGAGACA GTGGTGGTGG CAGACTCGGA CATGGTCCAG 
TACCACGGAG CTGAGGCCGC ACAGAGGTTC CTGCTGACTG TCATGAACAT GGTTTACAAC 
ATGTTCCACC ACCAGAGTCT AGGAGTGAGG ATCAACATCC GAGTCACCAA GCTGGTACTG 
CTTCACAGCC GCCCAGAAAA GCTTAATGTG GGCCATCATG GAGAAAGGTC TCTGGAGAGC 
TTCTGTCAGT GGCAGTATCA GGAGTTTGGG GGGCCGCGGT ATCTCGGCAC CAACCATGTT 
CCTGGTGGAA GGGACGACAT CCCACCAGTG GATACAGCTG TGCTGGTCAC CAGGACAGAT 
TTCTGTGTTC ATAAAGACGA ACCCTGTGAT ACTGTGGGTA TTGCTTATCT GGGCGGTGTG 
TGCAGTGCTA AGAGGAAGTG TGTGTTAGCA GAGGACAATG GACTCAATTT GGCCTTCACC 
ATTGCTCATG AGCTGGGACA CAACATGGGA ATGAGCCACG ATGATGATCA CGCCACCTGC 
ACCGGTCACT CCCACATCAT GTCTGGTGAA TGGGTGAAAG GAAGAAACCC CAGCGACCTG 
TCCTGGTCCT CCTGCAGCCG CGACGATCTG GAGAATTTCC TGAGATCCAA AGCCAGTGCC 
TGTCTGCTGC ACACAGACCC CAGGAGCCGT TACCAGGTCC GGCTGCCTCC CAAGCTCCCA 
GGCATGCACT ACAGTGTGGA CGAACAGTGC CAGATCCTGT TTGGAACCAA TGCCACTTTC 
TGCAATGACA TGGAGCACCT GATGTGTGCT GGCCTGTGGT GTTTAGTAGA GGGAGATGCA 
TCCTGCAAGA CCAAACTGGA TCCTCCTCTG GATGGAACAG AGTGTGGAGC AGACAAGTGG 
TGCAGGGCAG GCGAGTGTGT CAGTAAGACT CCTATTCCGC AGCATGTGGA TGGAGACTGG 
AGTCCATGGA GCCAGTGGAG CATGTGCAGC AGAACCTGTG GCACTGGAGT CCAGTTCAGA 
CAGAGGAAAT GTGACAACCC TCCGCCTGGT CCTGGTGGGC GACACTGTCA GAAGACCAGT 
GTGGAGCACA AAGCTTGTGA GGGTCCTCCC TGTCCTAAAG GGGCACCCAG CTTCAGAGAC 
CTGCAGTGTC TGTCCTACGA CCGCCACGCC AGCAAGAAGA AGGGCAGTAT GCTGACTGCT 
ATTATTAATG ATGAGAAGCC GTGTGTGTTG TTCTGCAGCC CGGTGGGTCG AGATGTGCCA 
GCCCTGATGG CCGACAGAGT GATGGACGGG ACGCCCTGTG GACCATACGA GGCTGACTTG 
TGTGTTAATG GGAGGTGTCA GAAAATTGGC TGTGACGGCA TCATTGGCTC TTTGGCTAAA 
GAGGATCGCT GTGGCGTGTG TAATGGAGAT GGACGCTCCT GTAAGATCGT GAGAGGAGAC 
TTCAACCACA CCAAAGGAAT GGGCTACATT GAGGCTGTGG TTATCCCTGC AGGAGCCAGG 
AGAATCAAAG TTGTGGAGGA CAAACCTTCA CATAGCTTTC TGGCCCTGAA AGACTCTGGT 
AAGAAATCCA TCAACAGTGA CTGGAAGATT GAGCTTCCAG GAGAGTTTGA GCTGGCCGGG 
ACCACAGTGC GCTATGTTAG AAGGGGACTG TGGGAGAAGA TGTCTGCCAA GGGACCCACT 
AAGACCCCCT TACACCTGAT GGTGCTGCTC TTTCATGACC AGAGCTATGG GATCCACTAC 
GAGTACACAG TGTCCCTGAA CACATCTCAG GACAGGAGCA GTGAGGAGCA GAGGGAACTA 
GAGTATCTCT ACATCTGGAC ACACAGCAGC TGGCAGGACT GTACTGTCCA ATGTGGAGGA 
GGTGAACGGA GGACAGTGGT TTCCTGTATG AGGATAGCCA ATAAAACAAT GGAGGTGGTC 
AACGATAGCT ACTGTCAACT CGAGAACCGA CCACAACCCC AAGTACGACT CTGCAACACT 
CACCCCTGCC AGTACCGGTG GGTGACAGGT GAGTGGGGAT CCTGCTCTGT CACCTGTGGT 
AAAGGTCTCC AGCAGAGGGA GGTGGTTTGT GTTTACCATC TGCAGAATGG CTCACTCATC 
CACACCAGGG ACCTGTACTG CCAAGGAGGA AAACCTCCTG TCCTGCAGGG CTGTGAGGGC 
CGGCTGTGCC TCACTGTGTG GGAGGCTTCA GAGTGGTCCA AGTGTTCGTC AGACTGTGGT 
CAAGGTGTTC GCAGACGGAC AGTATCATGT ACAAACCCTC AGGGTCTCTG TGATCCTCTG 
TCCCAGCCTA CTCAAGAGGA GCCCTGCGAG GACCACTCCA AATGTTATGA ATGGAAGACT 
GGAGACTGGT CCAAGTGTTC GTCATCCTGT GGGAAAGGCC TGCAGTCACG AGTTGTCCAG 
TGTATGCACA AAGTGACCGG TCGTCATGGC AACGACTGCC CAGTGACACT GAGACCACCG 
ACCTACCGAC CCTGTCACCA CGGTGCCTGC AATGAGAAAA TCAATGTGAA CACCATCACC 
TCCCCCAGGC TAGCTGCTCT GACCTACAAA TGCATGGGGG ACCAGTGGAC GGTTTACTGT 
CGAGTGATCC GAGAGAAGAA CCTCTGTCAG GACATGAGGT GGTACCAGCG CTGCTGTGAA 
ACCTGTAGGG ACTTTTATGC CAAGAAAACA CTGCACAAGA GCTAA

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

RefSeq	XP_018548456.1
CDS	120..3464
Translation	MHNSHVTHLLLSLLCIGFTAQSELETDEVVPRLLSGQEAHLSADHTVRALRRRGQRSLDAAGGGHFDPDNIILTLPAFGRDLYLNLTRDSTFLSGDFVVEERRGDQSAAVRRLSTNQLCFYSGSIVNHTGSLASLSTCGGLTGLVQIGEDSLFIQPVGENDPSQSFSGLKHRLLRHRRSAKTSSAPDADQPSYCGTIQVGKKKEKRSKVSEEGRGKRNAIRLHEVYTVETVVVADSDMVQYHGAEAAQRFLLTVMNMVYNMFHHQSLGVRINIRVTKLVLLHSRPEKLNVGHHGERSLESFCQWQYQEFGGPRYLGTNHVPGGRDDIPPVDTAVLVTRTDFCVHKDEPCDTVGIAYLGGVCSAKRKCVLAEDNGLNLAFTIAHELGHNMGMSHDDDHATCTGHSHIMSGEWVKGRNPSDLSWSSCSRDDLENFLRSKASACLLHTDPRSRYQVRLPPKLPGMHYSVDEQCQILFGTNATFCNDMEHLMCAGLWCLVEGDASCKTKLDPPLDGTECGADKWCRAGECVSKTPIPQHVDGDWSPWSQWSMCSRTCGTGVQFRQRKCDNPPPGPGGRHCQKTSVEHKACEGPPCPKGAPSFRDLQCLSYDRHASKKKGSMLTAIINDEKPCVLFCSPVGRDVPALMADRVMDGTPCGPYEADLCVNGRCQKIGCDGIIGSLAKEDRCGVCNGDGRSCKIVRGDFNHTKGMGYIEAVVIPAGARRIKVVEDKPSHSFLALKDSGKKSINSDWKIELPGEFELAGTTVRYVRRGLWEKMSAKGPTKTPLHLMVLLFHDQSYGIHYEYTVSLNTSQDRSSEEQRELEYLYIWTHSSWQDCTVQCGGGERRTVVSCMRIANKTMEVVNDSYCQLENRPQPQVRLCNTHPCQYRWVTGEWGSCSVTCGKGLQQREVVCVYHLQNGSLIHTRDLYCQGGKPPVLQGCEGRLCLTVWEASEWSKCSSDCGQGVRRRTVSCTNPQGLCDPLSQPTQEEPCEDHSKCYEWKTGDWSKCSSSCGKGLQSRVVQCMHKVTGRHGNDCPVTLRPPTYRPCHHGACNEKINVNTITSPRLAALTYKCMGDQWTVYCRVIREKNLCQDMRWYQRCCETCRDFYAKKTLHKS

Target ORF information:

RefSeq Version	XM_018692940.1
Organism	Lates calcarifer(barramundi perch)
Definition	Lates calcarifer ADAM metallopeptidase with thrombospondin type 1 motif 17 (adamts17), transcript variant X2, mRNA.

Target ORF information:

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

XM_018692940.1

ORF Insert Sequence:

ATGCATAACA GCCATGTCAC CCATCTGCTC CTCTCTCTTC TGTGCATCGG GTTTACTGCC 
CAGTCCGAGC TGGAGACAGA TGAAGTGGTT CCCAGGCTGC TGTCCGGGCA GGAGGCGCAC 
CTGTCCGCCG ACCACACCGT CCGCGCTCTG CGGCGCCGCG GTCAGCGCTC TCTGGACGCT 
GCGGGGGGAG GACACTTTGA CCCGGATAAC ATAATTTTAA CACTGCCTGC TTTTGGCAGG 
GACCTGTATT TAAATCTGAC GCGGGATAGT ACGTTTCTCT CGGGGGACTT CGTGGTGGAG 
GAGAGGCGCG GGGACCAGAG CGCAGCGGTC AGACGCCTGT CCACCAACCA GCTCTGCTTT 
TACTCTGGCT CCATCGTCAA CCACACGGGC TCTCTGGCAT CACTGAGCAC CTGTGGCGGT 
CTGACTGGAC TCGTCCAGAT CGGGGAGGAC AGTCTGTTCA TCCAGCCAGT GGGTGAAAAC 
GACCCGTCAC AGTCATTCTC TGGACTTAAA CACCGTCTGC TGCGACACCG ACGCTCTGCC 
AAGACCAGCT CTGCTCCAGA TGCTGACCAG CCCAGCTACT GTGGGACTAT ACAGGTAGGG 
AAAAAGAAGG AGAAGAGGTC AAAAGTAAGC GAGGAGGGTC GTGGGAAAAG AAACGCCATC 
CGCCTGCACG AAGTGTACAC TGTGGAGACA GTGGTGGTGG CAGACTCGGA CATGGTCCAG 
TACCACGGAG CTGAGGCCGC ACAGAGGTTC CTGCTGACTG TCATGAACAT GGTTTACAAC 
ATGTTCCACC ACCAGAGTCT AGGAGTGAGG ATCAACATCC GAGTCACCAA GCTGGTACTG 
CTTCACAGCC GCCCAGAAAA GCTTAATGTG GGCCATCATG GAGAAAGGTC TCTGGAGAGC 
TTCTGTCAGT GGCAGTATCA GGAGTTTGGG GGGCCGCGGT ATCTCGGCAC CAACCATGTT 
CCTGGTGGAA GGGACGACAT CCCACCAGTG GATACAGCTG TGCTGGTCAC CAGGACAGAT 
TTCTGTGTTC ATAAAGACGA ACCCTGTGAT ACTGTGGGTA TTGCTTATCT GGGCGGTGTG 
TGCAGTGCTA AGAGGAAGTG TGTGTTAGCA GAGGACAATG GACTCAATTT GGCCTTCACC 
ATTGCTCATG AGCTGGGACA CAACATGGGA ATGAGCCACG ATGATGATCA CGCCACCTGC 
ACCGGTCACT CCCACATCAT GTCTGGTGAA TGGGTGAAAG GAAGAAACCC CAGCGACCTG 
TCCTGGTCCT CCTGCAGCCG CGACGATCTG GAGAATTTCC TGAGATCCAA AGCCAGTGCC 
TGTCTGCTGC ACACAGACCC CAGGAGCCGT TACCAGGTCC GGCTGCCTCC CAAGCTCCCA 
GGCATGCACT ACAGTGTGGA CGAACAGTGC CAGATCCTGT TTGGAACCAA TGCCACTTTC 
TGCAATGACA TGGAGCACCT GATGTGTGCT GGCCTGTGGT GTTTAGTAGA GGGAGATGCA 
TCCTGCAAGA CCAAACTGGA TCCTCCTCTG GATGGAACAG AGTGTGGAGC AGACAAGTGG 
TGCAGGGCAG GCGAGTGTGT CAGTAAGACT CCTATTCCGC AGCATGTGGA TGGAGACTGG 
AGTCCATGGA GCCAGTGGAG CATGTGCAGC AGAACCTGTG GCACTGGAGT CCAGTTCAGA 
CAGAGGAAAT GTGACAACCC TCCGCCTGGT CCTGGTGGGC GACACTGTCA GAAGACCAGT 
GTGGAGCACA AAGCTTGTGA GGGTCCTCCC TGTCCTAAAG GGGCACCCAG CTTCAGAGAC 
CTGCAGTGTC TGTCCTACGA CCGCCACGCC AGCAAGAAGA AGGGCAGTAT GCTGACTGCT 
ATTATTAATG ATGAGAAGCC GTGTGTGTTG TTCTGCAGCC CGGTGGGTCG AGATGTGCCA 
GCCCTGATGG CCGACAGAGT GATGGACGGG ACGCCCTGTG GACCATACGA GGCTGACTTG 
TGTGTTAATG GGAGGTGTCA GAAAATTGGC TGTGACGGCA TCATTGGCTC TTTGGCTAAA 
GAGGATCGCT GTGGCGTGTG TAATGGAGAT GGACGCTCCT GTAAGATCGT GAGAGGAGAC 
TTCAACCACA CCAAAGGAAT GGGCTACATT GAGGCTGTGG TTATCCCTGC AGGAGCCAGG 
AGAATCAAAG TTGTGGAGGA CAAACCTTCA CATAGCTTTC TGGCCCTGAA AGACTCTGGT 
AAGAAATCCA TCAACAGTGA CTGGAAGATT GAGCTTCCAG GAGAGTTTGA GCTGGCCGGG 
ACCACAGTGC GCTATGTTAG AAGGGGACTG TGGGAGAAGA TGTCTGCCAA GGGACCCACT 
AAGACCCCCT TACACCTGAT GGTGCTGCTC TTTCATGACC AGAGCTATGG GATCCACTAC 
GAGTACACAG TGTCCCTGAA CACATCTCAG GACAGGAGCA GTGAGGAGCA GAGGGAACTA 
GAGTATCTCT ACATCTGGAC ACACAGCAGC TGGCAGGACT GTACTGTCCA ATGTGGAGGA 
GGTGAACGGA GGACAGTGGT TTCCTGTATG AGGATAGCCA ATAAAACAAT GGAGGTGGTC 
AACGATAGCT ACTGTCAACT CGAGAACCGA CCACAACCCC AAGTACGACT CTGCAACACT 
CACCCCTGCC AGTACCGGTG GGTGACAGGT GAGTGGGGAT CCTGCTCTGT CACCTGTGGT 
AAAGGTCTCC AGCAGAGGGA GGTGGTTTGT GTTTACCATC TGCAGAATGG CTCACTCATC 
CACACCAGGG ACCTGTACTG CCAAGGAGGA AAACCTCCTG TCCTGCAGGG CTGTGAGGGC 
CGGCTGTGCC TCACTGTGTG GGAGGCTTCA GAGTGGTCCA AGTGTTCGTC AGACTGTGGT 
CAAGGTGTTC GCAGACGGAC AGTATCATGT ACAAACCCTC AGGGTCTCTG TGATCCTCTG 
TCCCAGCCTA CTCAAGAGGA GCCCTGCGAG GACCACTCCA AATGTTATGA ATGGAAGACT 
GGAGACTGGT CCAAGTGTTC GTCATCCTGT GGGAAAGGCC TGCAGTCACG AGTTGTCCAG 
TGTATGCACA AAGTGACCGG TCGTCATGGC AACGACTGCC CAGTGACACT GAGACCACCG 
ACCTACCGAC CCTGTCACCA CGGTGCCTGC AATGAGAAAA TCAATGTGAA CACCATCACC 
TCCCCCAGGC TAGCTGCTCT GACCTACAAA TGCATGGGGG ACCAGTGGAC GGTTTACTGT 
CGAGTGATCC GAGAGAAGAA CCTCTGTCAG GACATGAGGT GGTACCAGCG CTGCTGTGAA 
ACCTGTAGGG ACTTTTATGC CAAGAAAACA CTGCACAAGA GCTAA