ADAMTS16 cDNA ORF clone, Protobothrops mucrosquamatus

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS16
Entrez Gene ID	107287638
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 16
Gene Type	protein-coding
Organism	Protobothrops mucrosquamatus

mRNA and Protein(s)

mRNA	Protein	Name
XM_015816161.1	XP_015671647.1	A disintegrin and metalloproteinase with thrombospondin motifs 16
XM_029284177.1	XP_029140010.1	A disintegrin and metalloproteinase with thrombospondin motifs 16

Pathways from BioSystems
Gene Ontology

The following ADAMTS16 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS16 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
OPr199124	XM_029284177.1 Latest version!	Protobothrops mucrosquamatus ADAM metallopeptidase with thrombospondin type 1 motif 16 (ADAMTS16), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OPr30387	XM_015816161.1 Latest version!	Protobothrops mucrosquamatus ADAM metallopeptidase with thrombospondin type 1 motif 16 (ADAMTS16), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

ADAMTS16 ( XM_029284177.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_029140010.1 Protobothrops mucrosquamatus ADAM metallopeptidase with thrombospondin type 1 motif 16 (ADAMTS16), mRNA.

Price & Availability↑

CloneID	OPr199124
Clone ID Related Accession (Same CDS sequence)	XM_029284177.1
Accession Version	XM_029284177.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3654bp) 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	2019-05-22
Organism	Protobothrops mucrosquamatus
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386736.1) 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 Name :: Protobothrops mucrosquamatus Annotation Release 101 Annotation Version :: 101 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## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGCCTTCAA ACAGCTTAGC GGGGCTGTGG TTTTGGCTTT TCTTTGAAAT ACAGGTTAAG 
GGATGTGTGG GTCAAACAGC TGAAGGGAGC CAACATCTCC CGTTTTCCTC TTTGCATTCA 
GAGTTGCTGC ACTTCACAGA TAATAGTGAA TATGACATTG TGACAGCATA TGAAGTAAAC 
CAAAATGGAG ATTATATAAG CCATGCAATT GCACACCATG AAAGAAGGAA GCGATCAACT 
TCAGGGAGAT CAACTGATTC ATTACATCTC CATCTCCAAG GATTTGGCCA TGACTTCCAA 
CTTGATCTTA AGACCTCCAA TTTTCTTGTG GCACCTGGAT TTACAGTACA AACTCTGGGC 
AAGGGGAGAA TCAAGTCAGT ACAGACATTC CCAACTGAAG ACTTTTGTTT TTATCAAGGC 
ATTTTGCGAT TGCACAAAAA TTCAACTGTA GCACTTTCAA CATGCGGAGG CTTGTTAGGC 
TTGATCAGGA CGCAGGAAAC GGATTACTTT TTGAAACCAC TACCTCCAAA TATTGCACTT 
AAACATAACA TTTCTGTTCC TGGTGGTCAC CGTTCTCATG TACTGTATAA GAGATCGACT 
GAACCTAAAC TAGTCGTCAA TAATAATGAG GTAATTGGGA CTGATGAAAG TCAGCAAGAG 
GCTCACAATT ATGTCTTTCA AGATAGCCAA CCATCTCGCA ATTCTGAGTG GCGTCAAAAA 
CAGCACTTTT GTGGAAGGCG TAAAAAATAT ATGCCTCAGC CTCCAGGTGG AGACACCTAT 
ATCTTGCCAG ATGAATATAA ACCTCTGCTG AGAAACAAGC GATCTCTTCT GAAAGCGCAT 
AAGACCAAAG AATTCAATGT TGAGACTTTG GTGGTGGTTG ACAAAAAGAT GATGCAAAAC 
CATGGCTATG AGAATATTAC TACTTATGTT CTAACTGTAC TTAATATGGT TTCTGCATTG 
TTCAGAGATG GAACAATTGG AGGTAATATC AACATTGCAG TTGTTGGCTT GATACTTTTG 
GAAGAAGAGC AGCCAGGCCT TGTGATTAAT CACCATGCTG ACCATACCCT GAGTAGCTTT 
TGTCAGTGGC AGTCTGGGCT GATGGGAAAG GATGGCAGCC GCCACGACCA TGCAATTTTA 
CTGACTGGCT TTGACATCTG TTCCTGGAAA AATGAGCCTT GTGATACTTT AGGATTTGCA 
CCCATAAGTG GCATGTGCAG CAAATACCGC AGCTGCACTA TTAATGAAGA TACTGGACTT 
GGACTTGCTT TTACTGTTGC TCATGAATCT GGACATAACT TTGGCATGGT CCATGATGGA 
GAAGGAAATA TTTGCAAAAA GTCTGAAGGT AATATTATGT CACCCACACT AGCAGGACAC 
AATGGAGTCT TCTCCTGGTC AGCTTGTAGT CGTCAATATC TCTACACATT TCTAAGCTCT 
CCTCAGTCCT TATGTCTTGC TGATCAACCT AAACCTGTGC AGGAATACAA GTATCCAGAG 
AAACTTCCAG GGGAACTTTA TGATGCAACT ATTCAATGCA AATGGCAGTT TGGAGAAAAA 
GCTAAGCTAT GCATGATGGA CTTTAAAAAG GATATTTGTA AAGCATTGTG GTGCCATCGA 
GTTGGTAGAA AATGTGAAAC CAAATTTATG CCAGCTGCAG AAGGTACAAT CTGTGGTTAC 
GATATGTGGT GCCGTGGCGG CCAATGTGTG AAATATGGTG ATGAAGGACC GAAACCAATC 
CATGGACATT GGTCTGAGTG GTCTAACTGG TCATCCTGTT CTAGAACCTG TGGCGGAGGT 
ATATCTCATC GAGAACGAAA CTGTTCTAAT CCAAGACCTT CGCATCGAGG GAAATTCTGT 
GAAGGTTCCT CTCGGATGTT GAAGCTTTGT AACATTCAGA AGTGTCCCCC AAACAGCATT 
AGCTTTAGAG CTGCTCAGTG TGCAGAATTC AACAGCAAGC GGTTCAGAGG CTGGCACTAC 
AAGTGGAAAC CATATACTCA AGTAGAAGAT CAATATTTGT GCAAACTATA CTGTATTGCA 
GAAGGCTTTG ATTTCTTCTT TTCTTTATCA AACAAAGTAA AAGATGGGAC ACCCTGTTCG 
GAGGATAGCC GCAATGTTTG TATTGATGGT ATTTGTGAGG TGGTTGGCTG TGATCATGTC 
TTAGGTTCCA GTGCTGTAGA AGATGCTTGT GGAGTATGCA AAGGAGATAA TTCAAGTTGC 
AGAATGTACA AAGGGCAGTA CACAAAACAA CACACTACAA ATCAATACTA CACATTAGTC 
ACAATCCCTG CTGGAGCAAG AAGCATTAAT GTGTATGAGA TGAATGTATC CAACTCCTAT 
ATTGCTGTTC GTACTTCCAG TAAAAAATAC CACCTCAATG GCTATTGGAC TGTTGACTGG 
CCTGGGAAAT ACAAATTTGC TGGGACTCTG TTTGTCTATC AAAGACCACA TAACCACCCA 
GAGACATTAA GTGCTTCTGG ACCTACAAAT GAAAGCGTTG TAATAGAGCT TCTCTTACAA 
GGTAAAAATC TAGGAATTTC ATGGGAATAT TTTCTTCCTA AAGTGGAAAC CGAAAAAACA 
AAAATATTAA AACATAACTA TACGTGGGCC ATCATCCGTT CTAAATGCTC AGTCTCATGT 
GGAGCAGGTC AAATGGTGAC AAAAGAAACC TGCTACAAAG ATTTTCAAGT ACAAGTCGAT 
ATATCTTTAT GTGACCACAA GAGTCGACCA GCTACTGGAG CCATCCCTTG CAAAATGCCA 
CCTTGTCCTC CCAGCTGGTC TGTTGGGAAC TGGAGTGGGT GCAGCTTGAC TTGTGGAGGA 
GGAGAGAGGT TTCGGGGTAT TCACTGCATG CAGAGAATTC AATACGAGCC AGAAAGGGTA 
TCAGACTCCC TTTGTCAAAT CCCTGCCCCA GTCACCAGGG AGCTATGTAA CATTCAAAGA 
TGTCCGCCTA CGTGGAGCAC CGGGCCATGG TCTGAGTGCT CTCGAACATG TGGGAAAGGC 
TGGAGGAAAA GAACTGTTCT GTGCAAAAGC TTCTCTTCCT CTCACTGGGA TCAAATTTTA 
CCCGATGCTG CTTGTGCCGC AGAACTGAAA CCAAAGATGC AAGAAACCTG CCTCCTGAAA 
CGATGCTATA AAAACAAGAA ACTTCAGTGG TTTGTGTCTG CATGGACCGA GTGCTCTGTG 
ACATGTGGAA AGGGAATACA GAGGAGAACC CTGAACTGTG CTGAAAAATA TCTTTCTGGA 
AAGTATCGAG AACTTGCCCC TAAAAAATGT TCCTATCTTC AAAAACCAAA CATAGAGATG 
GAAAAAGTTT GCATCCTACA TCCTTGTTAT AAGCACTCTG CATATTTATT AATAAATCAA 
GGCAGCTGGT TTTCCTCCTC TTGGTCTCAG TGCACAGTGA CCTGTGGAGG TGGCATGCAA 
GTGAGGTCCG TTCAGTGCCT AGCAAATGGG AGATCAGCCA CCGGATGCCT CCTGTATCAG 
AAGCCCATTG CATCACAAGC CTGTAATATA AACTTCTGTC CTCTTCCAGA AGCAAAAGAT 
GTCTTCTGTA AGGATTATTT TAACTGGTGC CACTTGGTTC CCCAACATGG CGTTTGTAGT 
CATAATTTCT ATGGGAAGCA ATGCTGCAGG TCTTGTATCA ATTCTAATTT GTGA

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

RefSeq	XP_029140010.1
CDS	1..3654
Translation	MPSNSLAGLWFWLFFEIQVKGCVGQTAEGSQHLPFSSLHSELLHFTDNSEYDIVTAYEVNQNGDYISHAIAHHERRKRSTSGRSTDSLHLHLQGFGHDFQLDLKTSNFLVAPGFTVQTLGKGRIKSVQTFPTEDFCFYQGILRLHKNSTVALSTCGGLLGLIRTQETDYFLKPLPPNIALKHNISVPGGHRSHVLYKRSTEPKLVVNNNEVIGTDESQQEAHNYVFQDSQPSRNSEWRQKQHFCGRRKKYMPQPPGGDTYILPDEYKPLLRNKRSLLKAHKTKEFNVETLVVVDKKMMQNHGYENITTYVLTVLNMVSALFRDGTIGGNINIAVVGLILLEEEQPGLVINHHADHTLSSFCQWQSGLMGKDGSRHDHAILLTGFDICSWKNEPCDTLGFAPISGMCSKYRSCTINEDTGLGLAFTVAHESGHNFGMVHDGEGNICKKSEGNIMSPTLAGHNGVFSWSACSRQYLYTFLSSPQSLCLADQPKPVQEYKYPEKLPGELYDATIQCKWQFGEKAKLCMMDFKKDICKALWCHRVGRKCETKFMPAAEGTICGYDMWCRGGQCVKYGDEGPKPIHGHWSEWSNWSSCSRTCGGGISHRERNCSNPRPSHRGKFCEGSSRMLKLCNIQKCPPNSISFRAAQCAEFNSKRFRGWHYKWKPYTQVEDQYLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGICEVVGCDHVLGSSAVEDACGVCKGDNSSCRMYKGQYTKQHTTNQYYTLVTIPAGARSINVYEMNVSNSYIAVRTSSKKYHLNGYWTVDWPGKYKFAGTLFVYQRPHNHPETLSASGPTNESVVIELLLQGKNLGISWEYFLPKVETEKTKILKHNYTWAIIRSKCSVSCGAGQMVTKETCYKDFQVQVDISLCDHKSRPATGAIPCKMPPCPPSWSVGNWSGCSLTCGGGERFRGIHCMQRIQYEPERVSDSLCQIPAPVTRELCNIQRCPPTWSTGPWSECSRTCGKGWRKRTVLCKSFSSSHWDQILPDAACAAELKPKMQETCLLKRCYKNKKLQWFVSAWTECSVTCGKGIQRRTLNCAEKYLSGKYRELAPKKCSYLQKPNIEMEKVCILHPCYKHSAYLLINQGSWFSSSWSQCTVTCGGGMQVRSVQCLANGRSATGCLLYQKPIASQACNINFCPLPEAKDVFCKDYFNWCHLVPQHGVCSHNFYGKQCCRSCINSNL

Target ORF information:

RefSeq Version	XM_029284177.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus ADAM metallopeptidase with thrombospondin type 1 motif 16 (ADAMTS16), mRNA.

Target ORF information:

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

XM_029284177.1

ORF Insert Sequence:

ATGCCTTCAA ACAGCTTAGC GGGGCTGTGG TTTTGGCTTT TCTTTGAAAT ACAGGTTAAG 
GGATGTGTGG GTCAAACAGC TGAAGGGAGC CAACATCTCC CGTTTTCCTC TTTGCATTCA 
GAGTTGCTGC ACTTCACAGA TAATAGTGAA TATGACATTG TGACAGCATA TGAAGTAAAC 
CAAAATGGAG ATTATATAAG CCATGCAATT GCACACCATG AAAGAAGGAA GCGATCAACT 
TCAGGGAGAT CAACTGATTC ATTACATCTC CATCTCCAAG GATTTGGCCA TGACTTCCAA 
CTTGATCTTA AGACCTCCAA TTTTCTTGTG GCACCTGGAT TTACAGTACA AACTCTGGGC 
AAGGGGAGAA TCAAGTCAGT ACAGACATTC CCAACTGAAG ACTTTTGTTT TTATCAAGGC 
ATTTTGCGAT TGCACAAAAA TTCAACTGTA GCACTTTCAA CATGCGGAGG CTTGTTAGGC 
TTGATCAGGA CGCAGGAAAC GGATTACTTT TTGAAACCAC TACCTCCAAA TATTGCACTT 
AAACATAACA TTTCTGTTCC TGGTGGTCAC CGTTCTCATG TACTGTATAA GAGATCGACT 
GAACCTAAAC TAGTCGTCAA TAATAATGAG GTAATTGGGA CTGATGAAAG TCAGCAAGAG 
GCTCACAATT ATGTCTTTCA AGATAGCCAA CCATCTCGCA ATTCTGAGTG GCGTCAAAAA 
CAGCACTTTT GTGGAAGGCG TAAAAAATAT ATGCCTCAGC CTCCAGGTGG AGACACCTAT 
ATCTTGCCAG ATGAATATAA ACCTCTGCTG AGAAACAAGC GATCTCTTCT GAAAGCGCAT 
AAGACCAAAG AATTCAATGT TGAGACTTTG GTGGTGGTTG ACAAAAAGAT GATGCAAAAC 
CATGGCTATG AGAATATTAC TACTTATGTT CTAACTGTAC TTAATATGGT TTCTGCATTG 
TTCAGAGATG GAACAATTGG AGGTAATATC AACATTGCAG TTGTTGGCTT GATACTTTTG 
GAAGAAGAGC AGCCAGGCCT TGTGATTAAT CACCATGCTG ACCATACCCT GAGTAGCTTT 
TGTCAGTGGC AGTCTGGGCT GATGGGAAAG GATGGCAGCC GCCACGACCA TGCAATTTTA 
CTGACTGGCT TTGACATCTG TTCCTGGAAA AATGAGCCTT GTGATACTTT AGGATTTGCA 
CCCATAAGTG GCATGTGCAG CAAATACCGC AGCTGCACTA TTAATGAAGA TACTGGACTT 
GGACTTGCTT TTACTGTTGC TCATGAATCT GGACATAACT TTGGCATGGT CCATGATGGA 
GAAGGAAATA TTTGCAAAAA GTCTGAAGGT AATATTATGT CACCCACACT AGCAGGACAC 
AATGGAGTCT TCTCCTGGTC AGCTTGTAGT CGTCAATATC TCTACACATT TCTAAGCTCT 
CCTCAGTCCT TATGTCTTGC TGATCAACCT AAACCTGTGC AGGAATACAA GTATCCAGAG 
AAACTTCCAG GGGAACTTTA TGATGCAACT ATTCAATGCA AATGGCAGTT TGGAGAAAAA 
GCTAAGCTAT GCATGATGGA CTTTAAAAAG GATATTTGTA AAGCATTGTG GTGCCATCGA 
GTTGGTAGAA AATGTGAAAC CAAATTTATG CCAGCTGCAG AAGGTACAAT CTGTGGTTAC 
GATATGTGGT GCCGTGGCGG CCAATGTGTG AAATATGGTG ATGAAGGACC GAAACCAATC 
CATGGACATT GGTCTGAGTG GTCTAACTGG TCATCCTGTT CTAGAACCTG TGGCGGAGGT 
ATATCTCATC GAGAACGAAA CTGTTCTAAT CCAAGACCTT CGCATCGAGG GAAATTCTGT 
GAAGGTTCCT CTCGGATGTT GAAGCTTTGT AACATTCAGA AGTGTCCCCC AAACAGCATT 
AGCTTTAGAG CTGCTCAGTG TGCAGAATTC AACAGCAAGC GGTTCAGAGG CTGGCACTAC 
AAGTGGAAAC CATATACTCA AGTAGAAGAT CAATATTTGT GCAAACTATA CTGTATTGCA 
GAAGGCTTTG ATTTCTTCTT TTCTTTATCA AACAAAGTAA AAGATGGGAC ACCCTGTTCG 
GAGGATAGCC GCAATGTTTG TATTGATGGT ATTTGTGAGG TGGTTGGCTG TGATCATGTC 
TTAGGTTCCA GTGCTGTAGA AGATGCTTGT GGAGTATGCA AAGGAGATAA TTCAAGTTGC 
AGAATGTACA AAGGGCAGTA CACAAAACAA CACACTACAA ATCAATACTA CACATTAGTC 
ACAATCCCTG CTGGAGCAAG AAGCATTAAT GTGTATGAGA TGAATGTATC CAACTCCTAT 
ATTGCTGTTC GTACTTCCAG TAAAAAATAC CACCTCAATG GCTATTGGAC TGTTGACTGG 
CCTGGGAAAT ACAAATTTGC TGGGACTCTG TTTGTCTATC AAAGACCACA TAACCACCCA 
GAGACATTAA GTGCTTCTGG ACCTACAAAT GAAAGCGTTG TAATAGAGCT TCTCTTACAA 
GGTAAAAATC TAGGAATTTC ATGGGAATAT TTTCTTCCTA AAGTGGAAAC CGAAAAAACA 
AAAATATTAA AACATAACTA TACGTGGGCC ATCATCCGTT CTAAATGCTC AGTCTCATGT 
GGAGCAGGTC AAATGGTGAC AAAAGAAACC TGCTACAAAG ATTTTCAAGT ACAAGTCGAT 
ATATCTTTAT GTGACCACAA GAGTCGACCA GCTACTGGAG CCATCCCTTG CAAAATGCCA 
CCTTGTCCTC CCAGCTGGTC TGTTGGGAAC TGGAGTGGGT GCAGCTTGAC TTGTGGAGGA 
GGAGAGAGGT TTCGGGGTAT TCACTGCATG CAGAGAATTC AATACGAGCC AGAAAGGGTA 
TCAGACTCCC TTTGTCAAAT CCCTGCCCCA GTCACCAGGG AGCTATGTAA CATTCAAAGA 
TGTCCGCCTA CGTGGAGCAC CGGGCCATGG TCTGAGTGCT CTCGAACATG TGGGAAAGGC 
TGGAGGAAAA GAACTGTTCT GTGCAAAAGC TTCTCTTCCT CTCACTGGGA TCAAATTTTA 
CCCGATGCTG CTTGTGCCGC AGAACTGAAA CCAAAGATGC AAGAAACCTG CCTCCTGAAA 
CGATGCTATA AAAACAAGAA ACTTCAGTGG TTTGTGTCTG CATGGACCGA GTGCTCTGTG 
ACATGTGGAA AGGGAATACA GAGGAGAACC CTGAACTGTG CTGAAAAATA TCTTTCTGGA 
AAGTATCGAG AACTTGCCCC TAAAAAATGT TCCTATCTTC AAAAACCAAA CATAGAGATG 
GAAAAAGTTT GCATCCTACA TCCTTGTTAT AAGCACTCTG CATATTTATT AATAAATCAA 
GGCAGCTGGT TTTCCTCCTC TTGGTCTCAG TGCACAGTGA CCTGTGGAGG TGGCATGCAA 
GTGAGGTCCG TTCAGTGCCT AGCAAATGGG AGATCAGCCA CCGGATGCCT CCTGTATCAG 
AAGCCCATTG CATCACAAGC CTGTAATATA AACTTCTGTC CTCTTCCAGA AGCAAAAGAT 
GTCTTCTGTA AGGATTATTT TAACTGGTGC CACTTGGTTC CCCAACATGG CGTTTGTAGT 
CATAATTTCT ATGGGAAGCA ATGCTGCAGG TCTTGTATCA ATTCTAATTT GTGA

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

ADAMTS16 ( XM_015816161.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_015671647.1 Protobothrops mucrosquamatus ADAM metallopeptidase with thrombospondin type 1 motif 16 (ADAMTS16), mRNA.

Price & Availability↑

CloneID	OPr30387
Clone ID Related Accession (Same CDS sequence)	XM_015816161.1
Accession Version	XM_015816161.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3543bp) 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	2016-03-01
Organism	Protobothrops mucrosquamatus
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386736.1) 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 :: Protobothrops mucrosquamatus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTTCATCC ATTCTGCTGA AAATGGCTCA AGTGCAGAAT ATGACATTGT GACAGCATAT 
GAAGTAAACC AAAATGGAGA TTATATAAGC CATGCAATTG CACACCATGA AAGAAGGAAG 
CGATCAACTT CAGGGAGATC AACTGATTCA TTACATCTCC ATCTCCAAGG ATTTGGCCAT 
GACTTCCAAC TTGATCTTAA GACCTCCAAT TTTCTTGTGG CACCTGGATT TACAGTACAA 
ACTCTGGGCA AGGGGAGAAT CAAGTCAGTA CAGACATTCC CAACTGAAGA CTTTTGTTTT 
TATCAAGGCA TTTTGCGATT GCACAAAAAT TCAACTGTAG CACTTTCAAC ATGCGGAGGC 
TTGTTAGGCT TGATCAGGAC GCAGGAAACG GATTACTTTT TGAAACCACT ACCTCCAAAT 
ATTGCACTTA AACATAACAT TTCTGTTCCT GGTGGTCACC GTTCTCATGT ACTGTATAAG 
AGATCGACTG AACCTAAACT AGTCGTCAAT AATAATGAGG TAATTGGGAC TGATGAAAGT 
CAGCAAGAGG CTCACAATTA TGTCTTTCAA GATAGCCAAC CATCTCGCAA TTCTGAGTGG 
CGTCAAAAAC AGCACTTTTG TGGAAGGCGT AAAAAATATA TGCCTCAGCC TCCAGGTGGA 
GACACCTATA TCTTGCCAGA TGAATATAAA CCTCTGCTGA GAAACAAGCG ATCTCTTCTG 
AAAGCGCATA AGACCAAAGA ATTCAATGTT GAGACTTTGG TGGTGGTTGA CAAAAAGATG 
ATGCAAAACC ATGGCTATGA GAATATTACT ACTTATGTTC TAACTGTACT TAATATGGTT 
TCTGCATTGT TCAGAGATGG AACAATTGGA GGTAATATCA ACATTGCAGT TGTTGGCTTG 
ATACTTTTGG AAGAAGAGCA GCCAGGCCTT GTGATTAATC ACCATGCTGA CCATACCCTG 
AGTAGCTTTT GTCAGTGGCA GTCTGGGCTG ATGGGAAAGG ATGGCAGCCG CCACGACCAT 
GCAATTTTAC TGACTGGCTT TGACATCTGT TCCTGGAAAA ATGAGCCTTG TGATACTTTA 
GGATTTGCAC CCATAAGTGG CATGTGCAGC AAATACCGCA GCTGCACTAT TAATGAAGAT 
ACTGGACTTG GACTTGCTTT TACTGTTGCT CATGAATCTG GACATAACTT TGGCATGGTC 
CATGATGGAG AAGGAAATAT TTGCAAAAAG TCTGAAGGTA ATATTATGTC ACCCACACTA 
GCAGGACACA ATGGAGTCTT CTCCTGGTCA GCTTGTAGTC GTCAATATCT CTACACATTT 
CTAAGCTCTC CTCAGTCCTT ATGTCTTGCT GATCAACCTA AACCTGTGCA GGAATACAAG 
TATCCAGAGA AACTTCCAGG GGAACTTTAT GATGCAACTA TTCAATGCAA ATGGCAGTTT 
GGAGAAAAAG CTAAGCTATG CATGATGGAC TTTAAAAAGG ATATTTGTAA AGCATTGTGG 
TGCCATCGAG TTGGTAGAAA ATGTGAAACC AAATTTATGC CAGCTGCAGA AGGTACAATC 
TGTGGTTACG ATATGTGGTG CCGTGGCGGC CAATGTGTGA AATATGGTGA TGAAGGACCG 
AAACCAATCC ATGGACATTG GTCTGAGTGG TCTAACTGGT CATCCTGTTC TAGAACCTGT 
GGCGGAGGTA TATCTCATCG AGAACGAAAC TGTTCTAATC CAAGACCTTC GCATCGAGGG 
AAATTCTGTG AAGGTTCCTC TCGGATGTTG AAGCTTTGTA ACATTCAGAA GTGTCCCCCA 
AACAGCATTA GCTTTAGAGC TGCTCAGTGT GCAGAATTCA ACAGCAAGCG GTTCAGAGGC 
TGGCACTACA AGTGGAAACC ATATACTCAA GTAGAAGATC AATATTTGTG CAAACTATAC 
TGTATTGCAG AAGGCTTTGA TTTCTTCTTT TCTTTATCAA ACAAAGTAAA AGATGGGACA 
CCCTGTTCGG AGGATAGCCG CAATGTTTGT ATTGATGGTA TTTGTGAGGT GGTTGGCTGT 
GATCATGTCT TAGGTTCCAG TGCTGTAGAA GATGCTTGTG GAGTATGCAA AGGAGATAAT 
TCAAGTTGCA GAATGTACAA AGGGCAGTAC ACAAAACAAC ACACTACAAA TCAATACTAC 
ACATTAGTCA CAATCCCTGC TGGAGCAAGA AGCATTAATG TGTATGAGAT GAATGTATCC 
AACTCCTATA TTGCTGTTCG TACTTCCAGT AAAAAATACC ACCTCAATGG CTATTGGACT 
GTTGACTGGC CTGGGAAATA CAAATTTGCT GGGACTCTGT TTGTCTATCA AAGACCACAT 
AACCACCCAG AGACATTAAG TGCTTCTGGA CCTACAAATG AAAGCGTTGT AATAGAGCTT 
CTCTTACAAG GTAAAAATCT AGGAATTTCA TGGGAATATT TTCTTCCTAA AGTGGAAACC 
GAAAAAACAA AAATATTAAA ACATAACTAT ACGTGGGCCA TCATCCGTTC TAAATGCTCA 
GTCTCATGTG GAGCAGGTCA AATGGTGACA AAAGAAACCT GCTACAAAGA TTTTCAAGTA 
CAAGTCGATA TATCTTTATG TGACCACAAG AGTCGACCAG CTACTGGAGC CATCCCTTGC 
AAAATGCCAC CTTGTCCTCC CAGCTGGTCT GTTGGGAACT GGAGTGGGTG CAGCTTGACT 
TGTGGAGGAG GAGAGAGGTT TCGGGGTATT CACTGCATGC AGAGAATTCA ATACGAGCCA 
GAAAGGGTAT CAGACTCCCT TTGTCAAATC CCTGCCCCAG TCACCAGGGA GCTATGTAAC 
ATTCAAAGAT GTCCGCCTAC GTGGAGCACC GGGCCATGGT CTGAGTGCTC TCGAACATGT 
GGGAAAGGCT GGAGGAAAAG AACTGTTCTG TGCAAAAGCT TCTCTTCCTC TCACTGGGAT 
CAAATTTTAC CCGATGCTGC TTGTGCCGCA GAACTGAAAC CAAAGATGCA AGAAACCTGC 
CTCCTGAAAC GATGCTATAA AAACAAGAAA CTTCAGTGGT TTGTGTCTGC ATGGACCGAG 
TGCTCTGTGA CATGTGGAAA GGGAATACAG AGGAGAACCC TGAACTGTGC TGAAAAATAT 
CTTTCTGGAA AGTATCGAGA ACTTGCCCCT AAAAAATGTT CCTATCTTCA AAAACCAAAC 
ATAGAGATGG AAAAAGTTTG CATCCTACAT CCTTGTTATA AGCACTCTGC ATATTTATTA 
ATAAATCAAG GCAGCTGGTT TTCCTCCTCT TGGTCTCAGT GCACAGTGAC CTGTGGAGGT 
GGCATGCAAG TGAGGTCCGT TCAGTGCCTA GCAAATGGGA GATCAGCCAC CGGATGCCTC 
CTGTATCAGA AGCCCATTGC ATCACAAGCC TGTAATATAA ACTTCTGTCC TCTTCCAGAA 
GCAAAAGATG TCTTCTGTAA GGATTATTTT AACTGGTGCC ACTTGGTTCC CCAACATGGC 
GTTTGTAGTC ATAATTTCTA TGGGAAGCAA TGCTGCAGGT CTTGTATCAA TTCTAATTTG 
TGA

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

RefSeq	XP_015671647.1
CDS	1..3543
Translation	MFIHSAENGSSAEYDIVTAYEVNQNGDYISHAIAHHERRKRSTSGRSTDSLHLHLQGFGHDFQLDLKTSNFLVAPGFTVQTLGKGRIKSVQTFPTEDFCFYQGILRLHKNSTVALSTCGGLLGLIRTQETDYFLKPLPPNIALKHNISVPGGHRSHVLYKRSTEPKLVVNNNEVIGTDESQQEAHNYVFQDSQPSRNSEWRQKQHFCGRRKKYMPQPPGGDTYILPDEYKPLLRNKRSLLKAHKTKEFNVETLVVVDKKMMQNHGYENITTYVLTVLNMVSALFRDGTIGGNINIAVVGLILLEEEQPGLVINHHADHTLSSFCQWQSGLMGKDGSRHDHAILLTGFDICSWKNEPCDTLGFAPISGMCSKYRSCTINEDTGLGLAFTVAHESGHNFGMVHDGEGNICKKSEGNIMSPTLAGHNGVFSWSACSRQYLYTFLSSPQSLCLADQPKPVQEYKYPEKLPGELYDATIQCKWQFGEKAKLCMMDFKKDICKALWCHRVGRKCETKFMPAAEGTICGYDMWCRGGQCVKYGDEGPKPIHGHWSEWSNWSSCSRTCGGGISHRERNCSNPRPSHRGKFCEGSSRMLKLCNIQKCPPNSISFRAAQCAEFNSKRFRGWHYKWKPYTQVEDQYLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGICEVVGCDHVLGSSAVEDACGVCKGDNSSCRMYKGQYTKQHTTNQYYTLVTIPAGARSINVYEMNVSNSYIAVRTSSKKYHLNGYWTVDWPGKYKFAGTLFVYQRPHNHPETLSASGPTNESVVIELLLQGKNLGISWEYFLPKVETEKTKILKHNYTWAIIRSKCSVSCGAGQMVTKETCYKDFQVQVDISLCDHKSRPATGAIPCKMPPCPPSWSVGNWSGCSLTCGGGERFRGIHCMQRIQYEPERVSDSLCQIPAPVTRELCNIQRCPPTWSTGPWSECSRTCGKGWRKRTVLCKSFSSSHWDQILPDAACAAELKPKMQETCLLKRCYKNKKLQWFVSAWTECSVTCGKGIQRRTLNCAEKYLSGKYRELAPKKCSYLQKPNIEMEKVCILHPCYKHSAYLLINQGSWFSSSWSQCTVTCGGGMQVRSVQCLANGRSATGCLLYQKPIASQACNINFCPLPEAKDVFCKDYFNWCHLVPQHGVCSHNFYGKQCCRSCINSNL

Target ORF information:

RefSeq Version	XM_015816161.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus ADAM metallopeptidase with thrombospondin type 1 motif 16 (ADAMTS16), mRNA.

Target ORF information:

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

XM_015816161.1

ORF Insert Sequence:

ATGTTCATCC ATTCTGCTGA AAATGGCTCA AGTGCAGAAT ATGACATTGT GACAGCATAT 
GAAGTAAACC AAAATGGAGA TTATATAAGC CATGCAATTG CACACCATGA AAGAAGGAAG 
CGATCAACTT CAGGGAGATC AACTGATTCA TTACATCTCC ATCTCCAAGG ATTTGGCCAT 
GACTTCCAAC TTGATCTTAA GACCTCCAAT TTTCTTGTGG CACCTGGATT TACAGTACAA 
ACTCTGGGCA AGGGGAGAAT CAAGTCAGTA CAGACATTCC CAACTGAAGA CTTTTGTTTT 
TATCAAGGCA TTTTGCGATT GCACAAAAAT TCAACTGTAG CACTTTCAAC ATGCGGAGGC 
TTGTTAGGCT TGATCAGGAC GCAGGAAACG GATTACTTTT TGAAACCACT ACCTCCAAAT 
ATTGCACTTA AACATAACAT TTCTGTTCCT GGTGGTCACC GTTCTCATGT ACTGTATAAG 
AGATCGACTG AACCTAAACT AGTCGTCAAT AATAATGAGG TAATTGGGAC TGATGAAAGT 
CAGCAAGAGG CTCACAATTA TGTCTTTCAA GATAGCCAAC CATCTCGCAA TTCTGAGTGG 
CGTCAAAAAC AGCACTTTTG TGGAAGGCGT AAAAAATATA TGCCTCAGCC TCCAGGTGGA 
GACACCTATA TCTTGCCAGA TGAATATAAA CCTCTGCTGA GAAACAAGCG ATCTCTTCTG 
AAAGCGCATA AGACCAAAGA ATTCAATGTT GAGACTTTGG TGGTGGTTGA CAAAAAGATG 
ATGCAAAACC ATGGCTATGA GAATATTACT ACTTATGTTC TAACTGTACT TAATATGGTT 
TCTGCATTGT TCAGAGATGG AACAATTGGA GGTAATATCA ACATTGCAGT TGTTGGCTTG 
ATACTTTTGG AAGAAGAGCA GCCAGGCCTT GTGATTAATC ACCATGCTGA CCATACCCTG 
AGTAGCTTTT GTCAGTGGCA GTCTGGGCTG ATGGGAAAGG ATGGCAGCCG CCACGACCAT 
GCAATTTTAC TGACTGGCTT TGACATCTGT TCCTGGAAAA ATGAGCCTTG TGATACTTTA 
GGATTTGCAC CCATAAGTGG CATGTGCAGC AAATACCGCA GCTGCACTAT TAATGAAGAT 
ACTGGACTTG GACTTGCTTT TACTGTTGCT CATGAATCTG GACATAACTT TGGCATGGTC 
CATGATGGAG AAGGAAATAT TTGCAAAAAG TCTGAAGGTA ATATTATGTC ACCCACACTA 
GCAGGACACA ATGGAGTCTT CTCCTGGTCA GCTTGTAGTC GTCAATATCT CTACACATTT 
CTAAGCTCTC CTCAGTCCTT ATGTCTTGCT GATCAACCTA AACCTGTGCA GGAATACAAG 
TATCCAGAGA AACTTCCAGG GGAACTTTAT GATGCAACTA TTCAATGCAA ATGGCAGTTT 
GGAGAAAAAG CTAAGCTATG CATGATGGAC TTTAAAAAGG ATATTTGTAA AGCATTGTGG 
TGCCATCGAG TTGGTAGAAA ATGTGAAACC AAATTTATGC CAGCTGCAGA AGGTACAATC 
TGTGGTTACG ATATGTGGTG CCGTGGCGGC CAATGTGTGA AATATGGTGA TGAAGGACCG 
AAACCAATCC ATGGACATTG GTCTGAGTGG TCTAACTGGT CATCCTGTTC TAGAACCTGT 
GGCGGAGGTA TATCTCATCG AGAACGAAAC TGTTCTAATC CAAGACCTTC GCATCGAGGG 
AAATTCTGTG AAGGTTCCTC TCGGATGTTG AAGCTTTGTA ACATTCAGAA GTGTCCCCCA 
AACAGCATTA GCTTTAGAGC TGCTCAGTGT GCAGAATTCA ACAGCAAGCG GTTCAGAGGC 
TGGCACTACA AGTGGAAACC ATATACTCAA GTAGAAGATC AATATTTGTG CAAACTATAC 
TGTATTGCAG AAGGCTTTGA TTTCTTCTTT TCTTTATCAA ACAAAGTAAA AGATGGGACA 
CCCTGTTCGG AGGATAGCCG CAATGTTTGT ATTGATGGTA TTTGTGAGGT GGTTGGCTGT 
GATCATGTCT TAGGTTCCAG TGCTGTAGAA GATGCTTGTG GAGTATGCAA AGGAGATAAT 
TCAAGTTGCA GAATGTACAA AGGGCAGTAC ACAAAACAAC ACACTACAAA TCAATACTAC 
ACATTAGTCA CAATCCCTGC TGGAGCAAGA AGCATTAATG TGTATGAGAT GAATGTATCC 
AACTCCTATA TTGCTGTTCG TACTTCCAGT AAAAAATACC ACCTCAATGG CTATTGGACT 
GTTGACTGGC CTGGGAAATA CAAATTTGCT GGGACTCTGT TTGTCTATCA AAGACCACAT 
AACCACCCAG AGACATTAAG TGCTTCTGGA CCTACAAATG AAAGCGTTGT AATAGAGCTT 
CTCTTACAAG GTAAAAATCT AGGAATTTCA TGGGAATATT TTCTTCCTAA AGTGGAAACC 
GAAAAAACAA AAATATTAAA ACATAACTAT ACGTGGGCCA TCATCCGTTC TAAATGCTCA 
GTCTCATGTG GAGCAGGTCA AATGGTGACA AAAGAAACCT GCTACAAAGA TTTTCAAGTA 
CAAGTCGATA TATCTTTATG TGACCACAAG AGTCGACCAG CTACTGGAGC CATCCCTTGC 
AAAATGCCAC CTTGTCCTCC CAGCTGGTCT GTTGGGAACT GGAGTGGGTG CAGCTTGACT 
TGTGGAGGAG GAGAGAGGTT TCGGGGTATT CACTGCATGC AGAGAATTCA ATACGAGCCA 
GAAAGGGTAT CAGACTCCCT TTGTCAAATC CCTGCCCCAG TCACCAGGGA GCTATGTAAC 
ATTCAAAGAT GTCCGCCTAC GTGGAGCACC GGGCCATGGT CTGAGTGCTC TCGAACATGT 
GGGAAAGGCT GGAGGAAAAG AACTGTTCTG TGCAAAAGCT TCTCTTCCTC TCACTGGGAT 
CAAATTTTAC CCGATGCTGC TTGTGCCGCA GAACTGAAAC CAAAGATGCA AGAAACCTGC 
CTCCTGAAAC GATGCTATAA AAACAAGAAA CTTCAGTGGT TTGTGTCTGC ATGGACCGAG 
TGCTCTGTGA CATGTGGAAA GGGAATACAG AGGAGAACCC TGAACTGTGC TGAAAAATAT 
CTTTCTGGAA AGTATCGAGA ACTTGCCCCT AAAAAATGTT CCTATCTTCA AAAACCAAAC 
ATAGAGATGG AAAAAGTTTG CATCCTACAT CCTTGTTATA AGCACTCTGC ATATTTATTA 
ATAAATCAAG GCAGCTGGTT TTCCTCCTCT TGGTCTCAGT GCACAGTGAC CTGTGGAGGT 
GGCATGCAAG TGAGGTCCGT TCAGTGCCTA GCAAATGGGA GATCAGCCAC CGGATGCCTC 
CTGTATCAGA AGCCCATTGC ATCACAAGCC TGTAATATAA ACTTCTGTCC TCTTCCAGAA 
GCAAAAGATG TCTTCTGTAA GGATTATTTT AACTGGTGCC ACTTGGTTCC CCAACATGGC 
GTTTGTAGTC ATAATTTCTA TGGGAAGCAA TGCTGCAGGT CTTGTATCAA TTCTAATTTG 
TGA