ADAMTS14 cDNA ORF clone, Physeter catodon(sperm whale)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS14
Entrez Gene ID	102993524
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 14
Gene Type	protein-coding
Organism	Physeter catodon(sperm whale)

mRNA and Protein(s)

mRNA	Protein	Name
XM_024132112.1	XP_023987880.1	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X1
XM_024132113.1	XP_023987881.1	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X2
XM_028481476.1	XP_028337277.1	A disintegrin and metalloproteinase with thrombospondin motifs 14
XM_007116013.1	XP_007116075.1	A disintegrin and metalloproteinase with thrombospondin motifs 14

Pathways from BioSystems
Gene Ontology

The following ADAMTS14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS14 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)
OPh129290	XM_007116013.1 Latest version!	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OPh301057	XM_024132112.1 Latest version!	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OPh301058	XM_024132113.1 Latest version!	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OPh326606	XM_028481476.1 Latest version!	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), 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)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

ADAMTS14 ( XM_007116013.1 ) cDNA ORF clone, Physeter catodon(sperm whale) -> XP_007116075.1 Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), mRNA.

Price & Availability↑

CloneID	OPh129290
Clone ID Related Accession (Same CDS sequence)	XM_007116013.1
Accession Version	XM_007116013.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3921bp) 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	1394380800000
Organism	Physeter catodon(sperm whale)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006715125.1) 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 :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCGGTCC TCAACTCCTG GCCGCCAAAG AAGGCCTTCA GGCCTCACCC CTGCAAGAAG 
CAACACTCCA CCAAGTTTGT GCTGAAGCTG TACTGGTTCT GGAACATTGG CCAACTTCCT 
TGGGAGTGCG GGAGAGCTGG ATTTGGCCCT GGCCAGGTGG CTGCCGACTG TGTGCAGTGC 
AAGCTGTTTG CATCTCCCCA TCTCCTGCCA GGGCTTTGGA CGGGAGGAGT GTTGGACAAG 
TGTCGGAGGG CTGTGAGCAA GAGAACCATC CAAGCCATTT TCCCCGTGCA GAATCTCAGT 
GTCTTCTCTG TCTCCAGCTT GTATGCACAG TTGCTCTTCT CAAGAAAGCT CAGTGACTAT 
GGTGTGACAG TGCCCTGCAG CACAGATTCT CAGGGACGCT TCCTCTCCCA CGTGGTATCT 
GGGCCACCAG CAGCCTCCTC AGGGAGTACA GAGGTGGACA GACCACCCGC ACCACTGTCA 
CACTCCGGTC ACCTGCGGGT GGCTCGAAGC CCACTGCGCC CCAAAGGAGT GACCTTGCAG 
CCTGGCAGGG GGGGGCGCTC CTCCCTCTAC TTCAACGTCA CCGTTTCTGG GGAGGAACTG 
CACTTACACC TGCGGCCCAA CCGGCGGCTG GTGGTGCCCG GAGCCTCGGT GGAGTGGCAG 
GAGGATTTTC GGGAGCTGTT CCGTCAGCCC TTGCAGAGGG AGTGTGTCTA CACCGGCGGT 
GTCACGGGCA TGCCAGGGGC AGCTGTCGCC ATCAGCAACT GCGACGGATT GGCGGGCCTC 
ATCCGCACAG ACAGCACTGA CTACTTCATT GAGCCCCTGG AGCGGGGGCA GCAGGAGACG 
GAGGCCAGCG GGAGGATGCA CGTGGTGTAC CGCCGGGAAG TCGTCCAGCA GGCGTGGACA 
GAGCCTCTCG GGGACCTTCA CAATGAAGCT TTTGGCCTGG GTGACCTTCC CAACCTGCTG 
GGCCTGGTAG GGGACCGGCT GGGAGAAGCA GAGCGGAAGC GGCGACATGC CAAGCCGGGC 
AGCTACAGCA TGGAGGTGCT GCTGGCGGTG GACGACTCGG TGGTGCGCTT CCACGGAAAG 
GAACACGTGC AGAACTACGT CCTCACCCTC ATGAACATCG TGGATGAGAT TTACCACGAT 
GAGTCCCTGG GGGTCCACAT AAACATCGCC CTTGTCCGCT TGATCATGGT TGGCTACCGA 
CAGTCCCTGA GCCTGATCGA GCGCGGGAAC CCTTCTCGCA GCCTGGAGCA GGTGTGTCGC 
TGGGCGCACT CTCAGCAGCG CCAGGACCCC GGCCACGCGG AGCACCACGA CCACGTCGTC 
TTCCTCACCC GGCAGGACTT TGGGCCCTCA GGGTACGCGC CTGTTACTGG CATGTGCCAC 
CCCCTGAGAA GCTGTGCCCT TAACCACGAA GATGGCTTCT CCTCGGCCTT CGTGGTGGCC 
CACGAGACCG GCCACGTGCT CGGCATGGAG CACGATGGTC AGGGGAACGG CTGCGCGGAT 
GAGACCAGCC TGGGCAGCGT CATGGCGCCC CTGGTGCAGG CTGCCTTCCA CCGCTTCCAC 
TGGTCCCACT GCAGCAAGCT GGAACTCAGC CGCTACCTCC CCTCCTATGA CTGCCTCCTT 
GATGATCCCT TTGCACCTGC CTGGCCCCGG CCCCCGGAGC TGCCCGGCAT TGACTACTCA 
ATGGACGAGC AATGCCGCTT TGACTTCGGC ACTGGGTACC ACACCTGCTC AGCGTTCAGG 
ACCTTCGAGG CCTGCAAGCA GCTGTGGTGC AGCCACCCTG ACAACCCTTA CTTTTGCAAG 
ACCAAGAAGG GGCCCCCGCT GGACGGGACG GAGTGCGCGC CAGGCAAGTG GTGCTTCAAA 
GGTCACTGCA TCTGGAAGTC GCCGGAGCAG ACTTATGGCC AGGATGGAGG CTGGAGCTCC 
TGGACTAAGT TCGGGTCATG TTCACGGTCG TGTGGGGGCG GGGTTCGATC CCGTAGCCGG 
AGCTGTGACA ATCCCCCCCC AGCCTATGGA GGCCGCCTGT GCTCGGGGCC CACGTTCCAG 
TACCAGGTCT GCAATGGCGA GGAGTGTCCG GGGCCCTACG AGGACTTCCG GGCCCAGCAG 
TGCGCCAAGC GCAACTCCTA TTACGTCCAC CAGAATGCCA AGCACAGCTG GATCCCCTAC 
GAGCCGGACG ACGACGCCCA GAAGTGTGAG CTGATCTGCC AGTCAGAGGA CACAGGGGAC 
GTGGTCTTCA TGAACCAGGT GGTCCACGAC GGAACTCGCT GCAGCTACCG GGACCCGTAC 
AGCATCTGTG CCCGCGGCGA GTGTGTGCCC GTCGGCTGTG ACAAGGAGGT GGGGTCCATG 
AAGGCAGATG ACAAGTGTGG GGTCTGTGGC GGCGACAACT CTTACTGCAG GACTGTGAAG 
GGGACTCTGG GCAAGGCCTC CAAGCAGGCA GGAGCTCTCA AGCTGGTGCA GATCCCAGCA 
GGTGCCAGGC ACATCCAGGT TGAGGAGCTG GAGAAGGTCC CCCACCACAT TGCGGTGAAG 
AACCAGGTCA CAGGCAGCTT CATCCTCAAC CCCAAGGGCA AGGAAGCCAC GAGCCGGACC 
TTCACTGCAA TGGGCCTGGA GTGGGAGTAC GCGGTGGAGG ATGCCAAGGA GAGCCTCAAG 
ACCAGTGGGC CCCTGCCGGA AGCCATTGCC GTCCTGGTGC TCCCCCCAGC TGAGGGCAGC 
CCCCGCAGCA GCCTGGCCTA CAAGTACGTC ATCCACGAGG ACCTGCTGCC CCTTATTGGG 
AGCAACAACG TGCTCCTGGA GGAGACGGAC ACCTACGAGT GGGCACTCAA GAACTGGGCA 
CCCTGCACCA AGGCCTGCGG AGGAGGGATC CAGTTCACCA AGTACGGCTG CCGGCGCCGA 
CGAGACCACC ACATGGTCCA GCGGCACCTG TGCGACCACA GGAAGAGGCC CAAGCCCATC 
CGCCGGCGCT GCAACCAGCA CCTGTGTGCC CAGGCTGCGT GGGTGACGGA GGAGTGGGGC 
ACCTGCAGCC GGAGTTGTGG GAAGCTGGGG GTGCAGACTC GGGGAGTGCA GTGCCTGCTG 
CCCCTCTCCA ACGGTACCCA CAAGGCCATG CCAGCCAAGG CCTGCCCCGG GGACCGGCCC 
GAGGCCCGCC GGCCCTGCCA CCGCGTGCCC TGTCCAGCCC AGTGGCGGAC AGGAGCCTGG 
TCCCAGTGCT CCGTCACTTG TGGAGAGGGC GTCCAGCTGC GGCAGGTGGT GTGCCGGGCC 
AACGCCAGCA GCCTGGGGCA GTGTGAGGGG GACAAGCCGG ACACGGTCCA GGTCTGCAGC 
CTGCCCGCCT GCGGAGGAAA TCTCCAGAAC TCCACAGTGA GGGCTGACTT CCGGGAACTT 
GTGACCCCAG AGGGGGAATG GGTGCCACAA TCTGGGCCCC TAGATCCCAT CAACAAGATA 
TCGTCAACGG AGCCCTGTGT GGAGGACAGG TCCATCTTCT GCCAGATGGA AATGCTTGAT 
CGTTACTGCT CCATCCCCGG CTACCACCGG CTGTGCTGTG AGTCCTGTAC CAAGAAGGCC 
TCGGGCCCTG ACGCGAGCCC GGACCCCAGC CTGGCCTCAC CACCACCCTT CTCCACTCCT 
GGGAGCCCCT TCCGAGGACC CAAGGCCCCT CCAGAGGCTG TGGAGCCCAC TGTGGGACCA 
GCGGGATCAG ACGACCATCA GCCTGGCCGA CCCACACAGC TCCCAGGACC TCTGGGCACA 
AGCTCCCCAG TGAGCCAGCG CCGCTTTGCT GACCAGAAAC TGAACCCTAC AGTGTTCTGG 
GGCACTTCCC CTAGTGCCCC CCGGGGACTG CCCTGGGGCT GGGCTGGGGC CCCTACACCA 
GTCTCTGAAG ATAAAGGGCA GCTCAGGGAA GACGCGAAGC ATCCAGGCAC CAGCCTTCCC 
ACCACCTCCC CAGTGACATG A

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

RefSeq	XP_007116075.1
CDS	1..3921
Translation	MPVLNSWPPKKAFRPHPCKKQHSTKFVLKLYWFWNIGQLPWECGRAGFGPGQVAADCVQCKLFASPHLLPGLWTGGVLDKCRRAVSKRTIQAIFPVQNLSVFSVSSLYAQLLFSRKLSDYGVTVPCSTDSQGRFLSHVVSGPPAASSGSTEVDRPPAPLSHSGHLRVARSPLRPKGVTLQPGRGGRSSLYFNVTVSGEELHLHLRPNRRLVVPGASVEWQEDFRELFRQPLQRECVYTGGVTGMPGAAVAISNCDGLAGLIRTDSTDYFIEPLERGQQETEASGRMHVVYRREVVQQAWTEPLGDLHNEAFGLGDLPNLLGLVGDRLGEAERKRRHAKPGSYSMEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVDEIYHDESLGVHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVVFLTRQDFGPSGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSHCSKLELSRYLPSYDCLLDDPFAPAWPRPPELPGIDYSMDEQCRFDFGTGYHTCSAFRTFEACKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTKFGSCSRSCGGGVRSRSRSCDNPPPAYGGRLCSGPTFQYQVCNGEECPGPYEDFRAQQCAKRNSYYVHQNAKHSWIPYEPDDDAQKCELICQSEDTGDVVFMNQVVHDGTRCSYRDPYSICARGECVPVGCDKEVGSMKADDKCGVCGGDNSYCRTVKGTLGKASKQAGALKLVQIPAGARHIQVEELEKVPHHIAVKNQVTGSFILNPKGKEATSRTFTAMGLEWEYAVEDAKESLKTSGPLPEAIAVLVLPPAEGSPRSSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKNWAPCTKACGGGIQFTKYGCRRRRDHHMVQRHLCDHRKRPKPIRRRCNQHLCAQAAWVTEEWGTCSRSCGKLGVQTRGVQCLLPLSNGTHKAMPAKACPGDRPEARRPCHRVPCPAQWRTGAWSQCSVTCGEGVQLRQVVCRANASSLGQCEGDKPDTVQVCSLPACGGNLQNSTVRADFRELVTPEGEWVPQSGPLDPINKISSTEPCVEDRSIFCQMEMLDRYCSIPGYHRLCCESCTKKASGPDASPDPSLASPPPFSTPGSPFRGPKAPPEAVEPTVGPAGSDDHQPGRPTQLPGPLGTSSPVSQRRFADQKLNPTVFWGTSPSAPRGLPWGWAGAPTPVSEDKGQLREDAKHPGTSLPTTSPVT

Target ORF information:

RefSeq Version	XM_007116013.1
Organism	Physeter catodon(sperm whale)
Definition	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif, 14 (ADAMTS14), mRNA.

Target ORF information:

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

XM_007116013.1

ORF Insert Sequence:

ATGCCGGTCC TCAACTCCTG GCCGCCAAAG AAGGCCTTCA GGCCTCACCC CTGCAAGAAG 
CAACACTCCA CCAAGTTTGT GCTGAAGCTG TACTGGTTCT GGAACATTGG CCAACTTCCT 
TGGGAGTGCG GGAGAGCTGG ATTTGGCCCT GGCCAGGTGG CTGCCGACTG TGTGCAGTGC 
AAGCTGTTTG CATCTCCCCA TCTCCTGCCA GGGCTTTGGA CGGGAGGAGT GTTGGACAAG 
TGTCGGAGGG CTGTGAGCAA GAGAACCATC CAAGCCATTT TCCCCGTGCA GAATCTCAGT 
GTCTTCTCTG TCTCCAGCTT GTATGCACAG TTGCTCTTCT CAAGAAAGCT CAGTGACTAT 
GGTGTGACAG TGCCCTGCAG CACAGATTCT CAGGGACGCT TCCTCTCCCA CGTGGTATCT 
GGGCCACCAG CAGCCTCCTC AGGGAGTACA GAGGTGGACA GACCACCCGC ACCACTGTCA 
CACTCCGGTC ACCTGCGGGT GGCTCGAAGC CCACTGCGCC CCAAAGGAGT GACCTTGCAG 
CCTGGCAGGG GGGGGCGCTC CTCCCTCTAC TTCAACGTCA CCGTTTCTGG GGAGGAACTG 
CACTTACACC TGCGGCCCAA CCGGCGGCTG GTGGTGCCCG GAGCCTCGGT GGAGTGGCAG 
GAGGATTTTC GGGAGCTGTT CCGTCAGCCC TTGCAGAGGG AGTGTGTCTA CACCGGCGGT 
GTCACGGGCA TGCCAGGGGC AGCTGTCGCC ATCAGCAACT GCGACGGATT GGCGGGCCTC 
ATCCGCACAG ACAGCACTGA CTACTTCATT GAGCCCCTGG AGCGGGGGCA GCAGGAGACG 
GAGGCCAGCG GGAGGATGCA CGTGGTGTAC CGCCGGGAAG TCGTCCAGCA GGCGTGGACA 
GAGCCTCTCG GGGACCTTCA CAATGAAGCT TTTGGCCTGG GTGACCTTCC CAACCTGCTG 
GGCCTGGTAG GGGACCGGCT GGGAGAAGCA GAGCGGAAGC GGCGACATGC CAAGCCGGGC 
AGCTACAGCA TGGAGGTGCT GCTGGCGGTG GACGACTCGG TGGTGCGCTT CCACGGAAAG 
GAACACGTGC AGAACTACGT CCTCACCCTC ATGAACATCG TGGATGAGAT TTACCACGAT 
GAGTCCCTGG GGGTCCACAT AAACATCGCC CTTGTCCGCT TGATCATGGT TGGCTACCGA 
CAGTCCCTGA GCCTGATCGA GCGCGGGAAC CCTTCTCGCA GCCTGGAGCA GGTGTGTCGC 
TGGGCGCACT CTCAGCAGCG CCAGGACCCC GGCCACGCGG AGCACCACGA CCACGTCGTC 
TTCCTCACCC GGCAGGACTT TGGGCCCTCA GGGTACGCGC CTGTTACTGG CATGTGCCAC 
CCCCTGAGAA GCTGTGCCCT TAACCACGAA GATGGCTTCT CCTCGGCCTT CGTGGTGGCC 
CACGAGACCG GCCACGTGCT CGGCATGGAG CACGATGGTC AGGGGAACGG CTGCGCGGAT 
GAGACCAGCC TGGGCAGCGT CATGGCGCCC CTGGTGCAGG CTGCCTTCCA CCGCTTCCAC 
TGGTCCCACT GCAGCAAGCT GGAACTCAGC CGCTACCTCC CCTCCTATGA CTGCCTCCTT 
GATGATCCCT TTGCACCTGC CTGGCCCCGG CCCCCGGAGC TGCCCGGCAT TGACTACTCA 
ATGGACGAGC AATGCCGCTT TGACTTCGGC ACTGGGTACC ACACCTGCTC AGCGTTCAGG 
ACCTTCGAGG CCTGCAAGCA GCTGTGGTGC AGCCACCCTG ACAACCCTTA CTTTTGCAAG 
ACCAAGAAGG GGCCCCCGCT GGACGGGACG GAGTGCGCGC CAGGCAAGTG GTGCTTCAAA 
GGTCACTGCA TCTGGAAGTC GCCGGAGCAG ACTTATGGCC AGGATGGAGG CTGGAGCTCC 
TGGACTAAGT TCGGGTCATG TTCACGGTCG TGTGGGGGCG GGGTTCGATC CCGTAGCCGG 
AGCTGTGACA ATCCCCCCCC AGCCTATGGA GGCCGCCTGT GCTCGGGGCC CACGTTCCAG 
TACCAGGTCT GCAATGGCGA GGAGTGTCCG GGGCCCTACG AGGACTTCCG GGCCCAGCAG 
TGCGCCAAGC GCAACTCCTA TTACGTCCAC CAGAATGCCA AGCACAGCTG GATCCCCTAC 
GAGCCGGACG ACGACGCCCA GAAGTGTGAG CTGATCTGCC AGTCAGAGGA CACAGGGGAC 
GTGGTCTTCA TGAACCAGGT GGTCCACGAC GGAACTCGCT GCAGCTACCG GGACCCGTAC 
AGCATCTGTG CCCGCGGCGA GTGTGTGCCC GTCGGCTGTG ACAAGGAGGT GGGGTCCATG 
AAGGCAGATG ACAAGTGTGG GGTCTGTGGC GGCGACAACT CTTACTGCAG GACTGTGAAG 
GGGACTCTGG GCAAGGCCTC CAAGCAGGCA GGAGCTCTCA AGCTGGTGCA GATCCCAGCA 
GGTGCCAGGC ACATCCAGGT TGAGGAGCTG GAGAAGGTCC CCCACCACAT TGCGGTGAAG 
AACCAGGTCA CAGGCAGCTT CATCCTCAAC CCCAAGGGCA AGGAAGCCAC GAGCCGGACC 
TTCACTGCAA TGGGCCTGGA GTGGGAGTAC GCGGTGGAGG ATGCCAAGGA GAGCCTCAAG 
ACCAGTGGGC CCCTGCCGGA AGCCATTGCC GTCCTGGTGC TCCCCCCAGC TGAGGGCAGC 
CCCCGCAGCA GCCTGGCCTA CAAGTACGTC ATCCACGAGG ACCTGCTGCC CCTTATTGGG 
AGCAACAACG TGCTCCTGGA GGAGACGGAC ACCTACGAGT GGGCACTCAA GAACTGGGCA 
CCCTGCACCA AGGCCTGCGG AGGAGGGATC CAGTTCACCA AGTACGGCTG CCGGCGCCGA 
CGAGACCACC ACATGGTCCA GCGGCACCTG TGCGACCACA GGAAGAGGCC CAAGCCCATC 
CGCCGGCGCT GCAACCAGCA CCTGTGTGCC CAGGCTGCGT GGGTGACGGA GGAGTGGGGC 
ACCTGCAGCC GGAGTTGTGG GAAGCTGGGG GTGCAGACTC GGGGAGTGCA GTGCCTGCTG 
CCCCTCTCCA ACGGTACCCA CAAGGCCATG CCAGCCAAGG CCTGCCCCGG GGACCGGCCC 
GAGGCCCGCC GGCCCTGCCA CCGCGTGCCC TGTCCAGCCC AGTGGCGGAC AGGAGCCTGG 
TCCCAGTGCT CCGTCACTTG TGGAGAGGGC GTCCAGCTGC GGCAGGTGGT GTGCCGGGCC 
AACGCCAGCA GCCTGGGGCA GTGTGAGGGG GACAAGCCGG ACACGGTCCA GGTCTGCAGC 
CTGCCCGCCT GCGGAGGAAA TCTCCAGAAC TCCACAGTGA GGGCTGACTT CCGGGAACTT 
GTGACCCCAG AGGGGGAATG GGTGCCACAA TCTGGGCCCC TAGATCCCAT CAACAAGATA 
TCGTCAACGG AGCCCTGTGT GGAGGACAGG TCCATCTTCT GCCAGATGGA AATGCTTGAT 
CGTTACTGCT CCATCCCCGG CTACCACCGG CTGTGCTGTG AGTCCTGTAC CAAGAAGGCC 
TCGGGCCCTG ACGCGAGCCC GGACCCCAGC CTGGCCTCAC CACCACCCTT CTCCACTCCT 
GGGAGCCCCT TCCGAGGACC CAAGGCCCCT CCAGAGGCTG TGGAGCCCAC TGTGGGACCA 
GCGGGATCAG ACGACCATCA GCCTGGCCGA CCCACACAGC TCCCAGGACC TCTGGGCACA 
AGCTCCCCAG TGAGCCAGCG CCGCTTTGCT GACCAGAAAC TGAACCCTAC AGTGTTCTGG 
GGCACTTCCC CTAGTGCCCC CCGGGGACTG CCCTGGGGCT GGGCTGGGGC CCCTACACCA 
GTCTCTGAAG ATAAAGGGCA GCTCAGGGAA GACGCGAAGC ATCCAGGCAC CAGCCTTCCC 
ACCACCTCCC CAGTGACATG A

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

ADAMTS14 ( XM_024132112.1 ) cDNA ORF clone, Physeter catodon(sperm whale) -> XP_023987880.1 Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPh301057
Clone ID Related Accession (Same CDS sequence)	XM_024132112.1
Accession Version	XM_024132112.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3675bp) 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	1519228800000
Organism	Physeter catodon(sperm whale)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873592.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCTC TCCGCGCGCG GCTTTCCTGC CTGCTGCTCT TGCACTGTGC GCTCTGCGCC 
AACGCGGGCA GCAGGACCCC AGAGTTGCTC TTCTCAAGAA AGCTCAGTGA CTATGGTGTG 
ACAGTGCCCT GCAGCACAGA TTCTCAGGGA CGCTTCCTCT CCCACGTGGT ATCTGGGCCA 
CCAGCAGCCT CCTCAGGGAG TACAGAGGTG GACAGACCAC CCGCACCACT GTCACACTCC 
GGTCACCTGC GGGTGGCTCG AAGCCCACTG CGCCCCAAAG GAGTGACCTT GCAGCCTGGC 
AGGGGGGGGC GCTCCTCCCT CTACTTCAAC GTCACCGTTT CTGGGGAGGA ACTGCACTTA 
CACCTGCGGC CCAACCGGCG GCTGGTGGTG CCCGGAGCCT CGGTGGAGTG GCAGGAGGAT 
TTTCGGGAGC TGTTCCGTCA GCCCTTGCAG AGGGAGTGTG TCTACACTGG CGGTGTCACG 
GGCATGCCAG GGGCAGCTGT CGCCATCAGC AACTGCGACG GATTGGCGGG CCTCATCCGC 
ACAGACAGCA CTGACTACTT CATTGAGCCC CTGGAGCGGG GGCAGCAGGA GACGGAGGCC 
AGCGGGAGGA TGCACGTGGT GTACCGCCGG GAAGTCGTCC AGCAGGCGTG GACAGAACCT 
CTCGGGGACC TTCACAATGA AGCTTTTGGC CTGGGTGACC TTCCCAACCT GCTGGGCCTG 
GTAGGGGACC GGCTGGGAGA AGCAGAGCGG AAGCGGCGAC ATGCCAAGCC GGGCAGCTAC 
AGCATGGAGG TGCTGCTGGC GGTGGACGAC TCGGTGGTGC GCTTCCACGG AAAGGAACAC 
GTGCAGAACT ACGTCCTCAC CCTCATGAAC ATCGTGGATG AGATTTACCA CGATGAGTCC 
CTGGGGGTCC ACATAAACAT CGCCCTTGTC CGCTTGATCA TGGTTGGCTA CCGACAGTCC 
CTGAGCCTGA TCGAGCGCGG GAACCCTTCT CGCAGCCTGG AGCAGGTGTG TCGCTGGGCG 
CACTCTCAGC AGCGCCAGGA CCCCGGCCAC GCGGAGCACC ACGACCACGT CGTCTTCCTC 
ACCCGGCAGG ACTTTGGGCC CTCAGGGTAC GCGCCTGTTA CTGGCATGTG CCACCCCCTG 
AGAAGCTGTG CCCTTAACCA CGAAGATGGC TTCTCCTCGG CCTTCGTGGT GGCCCACGAG 
ACCGGCCACG TGCTCGGCAT GGAGCACGAT GGTCAGGGGA ACGGCTGCGC GGATGAGACC 
AGCCTGGGCA GCGTCATGGC GCCCCTGGTG CAGGCTGCCT TCCACCGCTT CCACTGGTCC 
CACTGCAGCA AGCTGGAACT CAGCCGCTAC CTCCCCTCCT ATGACTGCCT CCTTGATGAT 
CCCTTTGCAC CTGCCTGGCC CCGGCCCCCG GAGCTGCCCG GCATTGACTA CTCAATGGAC 
GAGCAATGCC GCTTTGACTT CGGCACTGGG TACCACACCT GCTCAGCGTT CAGGACCTTC 
GAGGCCTGCA AGCAGCTGTG GTGCAGCCAC CCTGACAACC CTTACTTTTG CAAGACCAAG 
AAGGGGCCCC CGCTGGACGG GACGGAGTGC GCGCCAGGCA AGTGGTGCTT CAAAGGTCAC 
TGCATCTGGA AGTCGCCGGA GCAGACTTAT GGCCAGGATG GAGGCTGGAG CTCCTGGACT 
AAGTTCGGGT CATGTTCACG GTCGTGTGGG GGCGGGGTTC GATCCCGTAG CCGGAGCTGT 
GACAATCCCC CCCCAGCCTA TGGAGGCCGC CTGTGCTCGG GGCCCACGTT CCAGTACCAG 
GTCTGCAATG GCGAGGAGTG TCCGGGGCCC TACGAGGACT TCCGGGCCCA GCAGTGCGCC 
AAGCGCAACT CCTATTACGT CCACCAGAAT GCCAAGCACA GCTGGATCCC CTACGAGCCG 
GACGACGACG CCCAGAAGTG TGAGCTGATC TGCCAGTCAG AGGACACAGG GGACGTGGTC 
TTCATGAACC AGGTGGTCCA CGACGGAACT CGCTGCAGCT ACCGGGACCC GTACAGCATC 
TGTGCCCGCG GCGAGTGTGT GCCCGTCGGC TGTGACAAGG AGGTGGGGTC CATGAAGGCA 
GATGACAAGT GTGGGGTCTG TGGCGGCGAC AACTCTTACT GCAGGACTGT GAAGGGGACT 
CTGGGCAAGG CCTCCAAGCA GGCAGGAGCT CTCAAGCTGG TGCAGATTCC AGCAGGTGCC 
AGGCACATCC AGGTTGAGGA GCTGGAGAAG GTCCCCCACC ACATTGCGGT GAAGAACCAG 
GTCACAGGCA GCTTCATCCT CAACCCCAAG GGCAAGGAAG CCACGAGCCG GACCTTCACT 
GCAATGGGCC TGGAGTGGGA GTACGCGGTG GAGGATGCCA AGGAGAGCCT CAAGACCAGT 
GGGCCCCTGC CGGAAGCCAT TGCCGTCCTG GTGCTCCCCC CAGCTGAGGG CAGCCCCCGC 
AGCAGCCTGG CCTACAAGTA CGTCATCCAC GAGGACCTGC TGCCCCTTAT TGGGAGCAAC 
AACGTGCTCC TGGAGGAGAC GGACACCTAC GAGTGGGCAC TCAAGAACTG GGCACCCTGC 
ACCAAGGCCT GCGGAGGAGG GATCCAGTTC ACCAAGTACG GCTGCCGGCG CCGACGAGAC 
CACCACATGG TCCAGCGGCA CCTGTGCGAC CACAGGAAGA GGCCCAAGCC CATCCGCCGG 
CGCTGCAACC AGCACCTGTG TGCCCAGGCT GCGTGGGTGA CGGAGGAGTG GGGCACCTGC 
AGCCGGAGTT GTGGGAAGCT GGGGGTGCAG ACTCGGGGAG TGCAGTGCCT GCTGCCCCTC 
TCCAACGGTA CCCACAAGGC CATGCCAGCC AAGGCCTGCC CCGGGGACCG GCCCGAGGCC 
CGCCGGCCCT GCCACCGCGT GCCCTGTCCA GCCCAGTGGC GGACAGGAGC CTGGTCCCAG 
TGCTCCGTCA CTTGTGGAGA GGGCGTCCAG CTGCGGCAGG TGGTGTGCCG GGCCAACGCC 
AGCAGCCTGG GGCAGTGTGA GGGGGACAAG CCGGACACGG TCCAGGTCTG CAGCCTGCCC 
GCCTGCGGAG GAAATCTCCA GAACTCCACA GTGAGGGCTG ACTTCCGGGA ACTTGTGACC 
CCAGAGGGGG AATGGGTGCC ACAATCTGGG CCCCTAGATC CCATCAACAA GATATCGTCA 
ACGGAGCCCT GTGTGGAGGA CAGGTCCATC TTCTGCCAGA TGGAAATGCT TGATCGTTAC 
TGCTCCATCC CCGGCTACCA CCGGCTGTGC TGTGAGTCCT GTACCAAGAA GGCCTCGGGC 
CCTGACGCGA GCCCGGACCC CAGCCTGGCC TCACCACCAC CCTTCTCCAC TCCTGGGAGC 
CCCTTCCGAG GACCCAAGGC CCCTCCAGAG GCTGTGGAGC CCACTGTGGG ACCAGCGGGA 
TCAGACGACC ATCAGCCTGG CCGACCCACA CAGCTCCCAG GACCTCTGGG CACAAGCTCC 
CCAGTGAGCC AGCGCCGCTT TGCTGACCAG AAACTGAACC CTACAGTGTT CTGGGGCACT 
TCCCCTAGTG CCCCCCGGGG ACTGCCCTGG GGCTGGGCTG GGGCCCCTAC ACCAGTCTCT 
GAAGATAAAG GGCAGCTCAG GGAAGACGCG AAGCATCCAG GCACCAGCCT TCCCACCACC 
TCCCCAGTGA CATGA

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

RefSeq	XP_023987880.1
CDS	1..3675
Translation	MASLRARLSCLLLLHCALCANAGSRTPELLFSRKLSDYGVTVPCSTDSQGRFLSHVVSGPPAASSGSTEVDRPPAPLSHSGHLRVARSPLRPKGVTLQPGRGGRSSLYFNVTVSGEELHLHLRPNRRLVVPGASVEWQEDFRELFRQPLQRECVYTGGVTGMPGAAVAISNCDGLAGLIRTDSTDYFIEPLERGQQETEASGRMHVVYRREVVQQAWTEPLGDLHNEAFGLGDLPNLLGLVGDRLGEAERKRRHAKPGSYSMEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVDEIYHDESLGVHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVVFLTRQDFGPSGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSHCSKLELSRYLPSYDCLLDDPFAPAWPRPPELPGIDYSMDEQCRFDFGTGYHTCSAFRTFEACKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTKFGSCSRSCGGGVRSRSRSCDNPPPAYGGRLCSGPTFQYQVCNGEECPGPYEDFRAQQCAKRNSYYVHQNAKHSWIPYEPDDDAQKCELICQSEDTGDVVFMNQVVHDGTRCSYRDPYSICARGECVPVGCDKEVGSMKADDKCGVCGGDNSYCRTVKGTLGKASKQAGALKLVQIPAGARHIQVEELEKVPHHIAVKNQVTGSFILNPKGKEATSRTFTAMGLEWEYAVEDAKESLKTSGPLPEAIAVLVLPPAEGSPRSSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKNWAPCTKACGGGIQFTKYGCRRRRDHHMVQRHLCDHRKRPKPIRRRCNQHLCAQAAWVTEEWGTCSRSCGKLGVQTRGVQCLLPLSNGTHKAMPAKACPGDRPEARRPCHRVPCPAQWRTGAWSQCSVTCGEGVQLRQVVCRANASSLGQCEGDKPDTVQVCSLPACGGNLQNSTVRADFRELVTPEGEWVPQSGPLDPINKISSTEPCVEDRSIFCQMEMLDRYCSIPGYHRLCCESCTKKASGPDASPDPSLASPPPFSTPGSPFRGPKAPPEAVEPTVGPAGSDDHQPGRPTQLPGPLGTSSPVSQRRFADQKLNPTVFWGTSPSAPRGLPWGWAGAPTPVSEDKGQLREDAKHPGTSLPTTSPVT

Target ORF information:

RefSeq Version	XM_024132112.1
Organism	Physeter catodon(sperm whale)
Definition	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X1, mRNA.

Target ORF information:

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

XM_024132112.1

ORF Insert Sequence:

ATGGCTTCTC TCCGCGCGCG GCTTTCCTGC CTGCTGCTCT TGCACTGTGC GCTCTGCGCC 
AACGCGGGCA GCAGGACCCC AGAGTTGCTC TTCTCAAGAA AGCTCAGTGA CTATGGTGTG 
ACAGTGCCCT GCAGCACAGA TTCTCAGGGA CGCTTCCTCT CCCACGTGGT ATCTGGGCCA 
CCAGCAGCCT CCTCAGGGAG TACAGAGGTG GACAGACCAC CCGCACCACT GTCACACTCC 
GGTCACCTGC GGGTGGCTCG AAGCCCACTG CGCCCCAAAG GAGTGACCTT GCAGCCTGGC 
AGGGGGGGGC GCTCCTCCCT CTACTTCAAC GTCACCGTTT CTGGGGAGGA ACTGCACTTA 
CACCTGCGGC CCAACCGGCG GCTGGTGGTG CCCGGAGCCT CGGTGGAGTG GCAGGAGGAT 
TTTCGGGAGC TGTTCCGTCA GCCCTTGCAG AGGGAGTGTG TCTACACTGG CGGTGTCACG 
GGCATGCCAG GGGCAGCTGT CGCCATCAGC AACTGCGACG GATTGGCGGG CCTCATCCGC 
ACAGACAGCA CTGACTACTT CATTGAGCCC CTGGAGCGGG GGCAGCAGGA GACGGAGGCC 
AGCGGGAGGA TGCACGTGGT GTACCGCCGG GAAGTCGTCC AGCAGGCGTG GACAGAACCT 
CTCGGGGACC TTCACAATGA AGCTTTTGGC CTGGGTGACC TTCCCAACCT GCTGGGCCTG 
GTAGGGGACC GGCTGGGAGA AGCAGAGCGG AAGCGGCGAC ATGCCAAGCC GGGCAGCTAC 
AGCATGGAGG TGCTGCTGGC GGTGGACGAC TCGGTGGTGC GCTTCCACGG AAAGGAACAC 
GTGCAGAACT ACGTCCTCAC CCTCATGAAC ATCGTGGATG AGATTTACCA CGATGAGTCC 
CTGGGGGTCC ACATAAACAT CGCCCTTGTC CGCTTGATCA TGGTTGGCTA CCGACAGTCC 
CTGAGCCTGA TCGAGCGCGG GAACCCTTCT CGCAGCCTGG AGCAGGTGTG TCGCTGGGCG 
CACTCTCAGC AGCGCCAGGA CCCCGGCCAC GCGGAGCACC ACGACCACGT CGTCTTCCTC 
ACCCGGCAGG ACTTTGGGCC CTCAGGGTAC GCGCCTGTTA CTGGCATGTG CCACCCCCTG 
AGAAGCTGTG CCCTTAACCA CGAAGATGGC TTCTCCTCGG CCTTCGTGGT GGCCCACGAG 
ACCGGCCACG TGCTCGGCAT GGAGCACGAT GGTCAGGGGA ACGGCTGCGC GGATGAGACC 
AGCCTGGGCA GCGTCATGGC GCCCCTGGTG CAGGCTGCCT TCCACCGCTT CCACTGGTCC 
CACTGCAGCA AGCTGGAACT CAGCCGCTAC CTCCCCTCCT ATGACTGCCT CCTTGATGAT 
CCCTTTGCAC CTGCCTGGCC CCGGCCCCCG GAGCTGCCCG GCATTGACTA CTCAATGGAC 
GAGCAATGCC GCTTTGACTT CGGCACTGGG TACCACACCT GCTCAGCGTT CAGGACCTTC 
GAGGCCTGCA AGCAGCTGTG GTGCAGCCAC CCTGACAACC CTTACTTTTG CAAGACCAAG 
AAGGGGCCCC CGCTGGACGG GACGGAGTGC GCGCCAGGCA AGTGGTGCTT CAAAGGTCAC 
TGCATCTGGA AGTCGCCGGA GCAGACTTAT GGCCAGGATG GAGGCTGGAG CTCCTGGACT 
AAGTTCGGGT CATGTTCACG GTCGTGTGGG GGCGGGGTTC GATCCCGTAG CCGGAGCTGT 
GACAATCCCC CCCCAGCCTA TGGAGGCCGC CTGTGCTCGG GGCCCACGTT CCAGTACCAG 
GTCTGCAATG GCGAGGAGTG TCCGGGGCCC TACGAGGACT TCCGGGCCCA GCAGTGCGCC 
AAGCGCAACT CCTATTACGT CCACCAGAAT GCCAAGCACA GCTGGATCCC CTACGAGCCG 
GACGACGACG CCCAGAAGTG TGAGCTGATC TGCCAGTCAG AGGACACAGG GGACGTGGTC 
TTCATGAACC AGGTGGTCCA CGACGGAACT CGCTGCAGCT ACCGGGACCC GTACAGCATC 
TGTGCCCGCG GCGAGTGTGT GCCCGTCGGC TGTGACAAGG AGGTGGGGTC CATGAAGGCA 
GATGACAAGT GTGGGGTCTG TGGCGGCGAC AACTCTTACT GCAGGACTGT GAAGGGGACT 
CTGGGCAAGG CCTCCAAGCA GGCAGGAGCT CTCAAGCTGG TGCAGATTCC AGCAGGTGCC 
AGGCACATCC AGGTTGAGGA GCTGGAGAAG GTCCCCCACC ACATTGCGGT GAAGAACCAG 
GTCACAGGCA GCTTCATCCT CAACCCCAAG GGCAAGGAAG CCACGAGCCG GACCTTCACT 
GCAATGGGCC TGGAGTGGGA GTACGCGGTG GAGGATGCCA AGGAGAGCCT CAAGACCAGT 
GGGCCCCTGC CGGAAGCCAT TGCCGTCCTG GTGCTCCCCC CAGCTGAGGG CAGCCCCCGC 
AGCAGCCTGG CCTACAAGTA CGTCATCCAC GAGGACCTGC TGCCCCTTAT TGGGAGCAAC 
AACGTGCTCC TGGAGGAGAC GGACACCTAC GAGTGGGCAC TCAAGAACTG GGCACCCTGC 
ACCAAGGCCT GCGGAGGAGG GATCCAGTTC ACCAAGTACG GCTGCCGGCG CCGACGAGAC 
CACCACATGG TCCAGCGGCA CCTGTGCGAC CACAGGAAGA GGCCCAAGCC CATCCGCCGG 
CGCTGCAACC AGCACCTGTG TGCCCAGGCT GCGTGGGTGA CGGAGGAGTG GGGCACCTGC 
AGCCGGAGTT GTGGGAAGCT GGGGGTGCAG ACTCGGGGAG TGCAGTGCCT GCTGCCCCTC 
TCCAACGGTA CCCACAAGGC CATGCCAGCC AAGGCCTGCC CCGGGGACCG GCCCGAGGCC 
CGCCGGCCCT GCCACCGCGT GCCCTGTCCA GCCCAGTGGC GGACAGGAGC CTGGTCCCAG 
TGCTCCGTCA CTTGTGGAGA GGGCGTCCAG CTGCGGCAGG TGGTGTGCCG GGCCAACGCC 
AGCAGCCTGG GGCAGTGTGA GGGGGACAAG CCGGACACGG TCCAGGTCTG CAGCCTGCCC 
GCCTGCGGAG GAAATCTCCA GAACTCCACA GTGAGGGCTG ACTTCCGGGA ACTTGTGACC 
CCAGAGGGGG AATGGGTGCC ACAATCTGGG CCCCTAGATC CCATCAACAA GATATCGTCA 
ACGGAGCCCT GTGTGGAGGA CAGGTCCATC TTCTGCCAGA TGGAAATGCT TGATCGTTAC 
TGCTCCATCC CCGGCTACCA CCGGCTGTGC TGTGAGTCCT GTACCAAGAA GGCCTCGGGC 
CCTGACGCGA GCCCGGACCC CAGCCTGGCC TCACCACCAC CCTTCTCCAC TCCTGGGAGC 
CCCTTCCGAG GACCCAAGGC CCCTCCAGAG GCTGTGGAGC CCACTGTGGG ACCAGCGGGA 
TCAGACGACC ATCAGCCTGG CCGACCCACA CAGCTCCCAG GACCTCTGGG CACAAGCTCC 
CCAGTGAGCC AGCGCCGCTT TGCTGACCAG AAACTGAACC CTACAGTGTT CTGGGGCACT 
TCCCCTAGTG CCCCCCGGGG ACTGCCCTGG GGCTGGGCTG GGGCCCCTAC ACCAGTCTCT 
GAAGATAAAG GGCAGCTCAG GGAAGACGCG AAGCATCCAG GCACCAGCCT TCCCACCACC 
TCCCCAGTGA CATGA

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

ADAMTS14 ( XM_024132113.1 ) cDNA ORF clone, Physeter catodon(sperm whale) -> XP_023987881.1 Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X2, mRNA.

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CloneID	OPh301058
Clone ID Related Accession (Same CDS sequence)	XM_024132113.1
Accession Version	XM_024132113.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3684bp) 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	1519228800000
Organism	Physeter catodon(sperm whale)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873592.1) 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 :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCTC TCCGCGCGCG GCTTTCCTGC CTGCTGCTCT TGCACTGTGC GCTCTGCGCC 
AACGCGGGCA GCAGGACCCC AGAGTTGCTC TTCTCAAGAA AGCTCAGTGA CTATGGTGTG 
ACAGTGCCCT GCAGCACAGA TTCTCAGGGA CGCTTCCTCT CCCACGTGGT ATCTGGGCCA 
CCAGCAGCCT CCTCAGGGAG TACAGAGGTG GACAGACCAC CCGCACCACT GTCACACTCC 
GGTCACCTGC GGGTGGCTCG AAGCCCACTG CGCCCCAAAG GAGTGACCTT GCAGCCTGGC 
AGGGGGGGGC GCTCCTCCCT CTACTTCAAC GTCACCGTTT CTGGGGAGGA ACTGCACTTA 
CACCTGCGGC CCAACCGGCG GCTGGTGGTG CCCGGAGCCT CGGTGGAGTG GCAGGAGGAT 
TTTCGGGAGC TGTTCCGTCA GCCCTTGCAG AGGGAGTGTG TCTACACTGG CGGTGTCACG 
GGCATGCCAG GGGCAGCTGT CGCCATCAGC AACTGCGACG GATTGGCGGG CCTCATCCGC 
ACAGACAGCA CTGACTACTT CATTGAGCCC CTGGAGCGGG GGCAGCAGGA GACGGAGGCC 
AGCGGGAGGA TGCACGTGGT GTACCGCCGG GAAGTCGTCC AGCAGGCGTG GACAGAACCT 
CTCGGGGACC TTCACAATGA AGCTTTTGGC CTGGGTGACC TTCCCAACCT GCTGGGCCTG 
GTAGGGGACC GGCTGGGAGA AGCAGAGCGG AAGCGGCGAC ATGCCAAGCC GGGCAGCTAC 
AGCATGGAGG TGCTGCTGGC GGTGGACGAC TCGGTGGTGC GCTTCCACGG AAAGGAACAC 
GTGCAGAACT ACGTCCTCAC CCTCATGAAC ATCGTGGATG AGATTTACCA CGATGAGTCC 
CTGGGGGTCC ACATAAACAT CGCCCTTGTC CGCTTGATCA TGGTTGGCTA CCGACAGTCC 
CTGAGCCTGA TCGAGCGCGG GAACCCTTCT CGCAGCCTGG AGCAGGTGTG TCGCTGGGCG 
CACTCTCAGC AGCGCCAGGA CCCCGGCCAC GCGGAGCACC ACGACCACGT CGTCTTCCTC 
ACCCGGCAGG ACTTTGGGCC CTCAGGTACG CAAGGGTACG CGCCTGTTAC TGGCATGTGC 
CACCCCCTGA GAAGCTGTGC CCTTAACCAC GAAGATGGCT TCTCCTCGGC CTTCGTGGTG 
GCCCACGAGA CCGGCCACGT GCTCGGCATG GAGCACGATG GTCAGGGGAA CGGCTGCGCG 
GATGAGACCA GCCTGGGCAG CGTCATGGCG CCCCTGGTGC AGGCTGCCTT CCACCGCTTC 
CACTGGTCCC ACTGCAGCAA GCTGGAACTC AGCCGCTACC TCCCCTCCTA TGACTGCCTC 
CTTGATGATC CCTTTGCACC TGCCTGGCCC CGGCCCCCGG AGCTGCCCGG CATTGACTAC 
TCAATGGACG AGCAATGCCG CTTTGACTTC GGCACTGGGT ACCACACCTG CTCAGCGTTC 
AGGACCTTCG AGGCCTGCAA GCAGCTGTGG TGCAGCCACC CTGACAACCC TTACTTTTGC 
AAGACCAAGA AGGGGCCCCC GCTGGACGGG ACGGAGTGCG CGCCAGGCAA GTGGTGCTTC 
AAAGGTCACT GCATCTGGAA GTCGCCGGAG CAGACTTATG GCCAGGATGG AGGCTGGAGC 
TCCTGGACTA AGTTCGGGTC ATGTTCACGG TCGTGTGGGG GCGGGGTTCG ATCCCGTAGC 
CGGAGCTGTG ACAATCCCCC CCCAGCCTAT GGAGGCCGCC TGTGCTCGGG GCCCACGTTC 
CAGTACCAGG TCTGCAATGG CGAGGAGTGT CCGGGGCCCT ACGAGGACTT CCGGGCCCAG 
CAGTGCGCCA AGCGCAACTC CTATTACGTC CACCAGAATG CCAAGCACAG CTGGATCCCC 
TACGAGCCGG ACGACGACGC CCAGAAGTGT GAGCTGATCT GCCAGTCAGA GGACACAGGG 
GACGTGGTCT TCATGAACCA GGTGGTCCAC GACGGAACTC GCTGCAGCTA CCGGGACCCG 
TACAGCATCT GTGCCCGCGG CGAGTGTGTG CCCGTCGGCT GTGACAAGGA GGTGGGGTCC 
ATGAAGGCAG ATGACAAGTG TGGGGTCTGT GGCGGCGACA ACTCTTACTG CAGGACTGTG 
AAGGGGACTC TGGGCAAGGC CTCCAAGCAG GCAGGAGCTC TCAAGCTGGT GCAGATTCCA 
GCAGGTGCCA GGCACATCCA GGTTGAGGAG CTGGAGAAGG TCCCCCACCA CATTGCGGTG 
AAGAACCAGG TCACAGGCAG CTTCATCCTC AACCCCAAGG GCAAGGAAGC CACGAGCCGG 
ACCTTCACTG CAATGGGCCT GGAGTGGGAG TACGCGGTGG AGGATGCCAA GGAGAGCCTC 
AAGACCAGTG GGCCCCTGCC GGAAGCCATT GCCGTCCTGG TGCTCCCCCC AGCTGAGGGC 
AGCCCCCGCA GCAGCCTGGC CTACAAGTAC GTCATCCACG AGGACCTGCT GCCCCTTATT 
GGGAGCAACA ACGTGCTCCT GGAGGAGACG GACACCTACG AGTGGGCACT CAAGAACTGG 
GCACCCTGCA CCAAGGCCTG CGGAGGAGGG ATCCAGTTCA CCAAGTACGG CTGCCGGCGC 
CGACGAGACC ACCACATGGT CCAGCGGCAC CTGTGCGACC ACAGGAAGAG GCCCAAGCCC 
ATCCGCCGGC GCTGCAACCA GCACCTGTGT GCCCAGGCTG CGTGGGTGAC GGAGGAGTGG 
GGCACCTGCA GCCGGAGTTG TGGGAAGCTG GGGGTGCAGA CTCGGGGAGT GCAGTGCCTG 
CTGCCCCTCT CCAACGGTAC CCACAAGGCC ATGCCAGCCA AGGCCTGCCC CGGGGACCGG 
CCCGAGGCCC GCCGGCCCTG CCACCGCGTG CCCTGTCCAG CCCAGTGGCG GACAGGAGCC 
TGGTCCCAGT GCTCCGTCAC TTGTGGAGAG GGCGTCCAGC TGCGGCAGGT GGTGTGCCGG 
GCCAACGCCA GCAGCCTGGG GCAGTGTGAG GGGGACAAGC CGGACACGGT CCAGGTCTGC 
AGCCTGCCCG CCTGCGGAGG AAATCTCCAG AACTCCACAG TGAGGGCTGA CTTCCGGGAA 
CTTGTGACCC CAGAGGGGGA ATGGGTGCCA CAATCTGGGC CCCTAGATCC CATCAACAAG 
ATATCGTCAA CGGAGCCCTG TGTGGAGGAC AGGTCCATCT TCTGCCAGAT GGAAATGCTT 
GATCGTTACT GCTCCATCCC CGGCTACCAC CGGCTGTGCT GTGAGTCCTG TACCAAGAAG 
GCCTCGGGCC CTGACGCGAG CCCGGACCCC AGCCTGGCCT CACCACCACC CTTCTCCACT 
CCTGGGAGCC CCTTCCGAGG ACCCAAGGCC CCTCCAGAGG CTGTGGAGCC CACTGTGGGA 
CCAGCGGGAT CAGACGACCA TCAGCCTGGC CGACCCACAC AGCTCCCAGG ACCTCTGGGC 
ACAAGCTCCC CAGTGAGCCA GCGCCGCTTT GCTGACCAGA AACTGAACCC TACAGTGTTC 
TGGGGCACTT CCCCTAGTGC CCCCCGGGGA CTGCCCTGGG GCTGGGCTGG GGCCCCTACA 
CCAGTCTCTG AAGATAAAGG GCAGCTCAGG GAAGACGCGA AGCATCCAGG CACCAGCCTT 
CCCACCACCT CCCCAGTGAC ATGA

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

RefSeq	XP_023987881.1
CDS	1..3684
Translation	MASLRARLSCLLLLHCALCANAGSRTPELLFSRKLSDYGVTVPCSTDSQGRFLSHVVSGPPAASSGSTEVDRPPAPLSHSGHLRVARSPLRPKGVTLQPGRGGRSSLYFNVTVSGEELHLHLRPNRRLVVPGASVEWQEDFRELFRQPLQRECVYTGGVTGMPGAAVAISNCDGLAGLIRTDSTDYFIEPLERGQQETEASGRMHVVYRREVVQQAWTEPLGDLHNEAFGLGDLPNLLGLVGDRLGEAERKRRHAKPGSYSMEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVDEIYHDESLGVHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVVFLTRQDFGPSGTQGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSHCSKLELSRYLPSYDCLLDDPFAPAWPRPPELPGIDYSMDEQCRFDFGTGYHTCSAFRTFEACKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTKFGSCSRSCGGGVRSRSRSCDNPPPAYGGRLCSGPTFQYQVCNGEECPGPYEDFRAQQCAKRNSYYVHQNAKHSWIPYEPDDDAQKCELICQSEDTGDVVFMNQVVHDGTRCSYRDPYSICARGECVPVGCDKEVGSMKADDKCGVCGGDNSYCRTVKGTLGKASKQAGALKLVQIPAGARHIQVEELEKVPHHIAVKNQVTGSFILNPKGKEATSRTFTAMGLEWEYAVEDAKESLKTSGPLPEAIAVLVLPPAEGSPRSSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKNWAPCTKACGGGIQFTKYGCRRRRDHHMVQRHLCDHRKRPKPIRRRCNQHLCAQAAWVTEEWGTCSRSCGKLGVQTRGVQCLLPLSNGTHKAMPAKACPGDRPEARRPCHRVPCPAQWRTGAWSQCSVTCGEGVQLRQVVCRANASSLGQCEGDKPDTVQVCSLPACGGNLQNSTVRADFRELVTPEGEWVPQSGPLDPINKISSTEPCVEDRSIFCQMEMLDRYCSIPGYHRLCCESCTKKASGPDASPDPSLASPPPFSTPGSPFRGPKAPPEAVEPTVGPAGSDDHQPGRPTQLPGPLGTSSPVSQRRFADQKLNPTVFWGTSPSAPRGLPWGWAGAPTPVSEDKGQLREDAKHPGTSLPTTSPVT

Target ORF information:

RefSeq Version	XM_024132113.1
Organism	Physeter catodon(sperm whale)
Definition	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), transcript variant X2, mRNA.

Target ORF information:

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

XM_024132113.1

ORF Insert Sequence:

ATGGCTTCTC TCCGCGCGCG GCTTTCCTGC CTGCTGCTCT TGCACTGTGC GCTCTGCGCC 
AACGCGGGCA GCAGGACCCC AGAGTTGCTC TTCTCAAGAA AGCTCAGTGA CTATGGTGTG 
ACAGTGCCCT GCAGCACAGA TTCTCAGGGA CGCTTCCTCT CCCACGTGGT ATCTGGGCCA 
CCAGCAGCCT CCTCAGGGAG TACAGAGGTG GACAGACCAC CCGCACCACT GTCACACTCC 
GGTCACCTGC GGGTGGCTCG AAGCCCACTG CGCCCCAAAG GAGTGACCTT GCAGCCTGGC 
AGGGGGGGGC GCTCCTCCCT CTACTTCAAC GTCACCGTTT CTGGGGAGGA ACTGCACTTA 
CACCTGCGGC CCAACCGGCG GCTGGTGGTG CCCGGAGCCT CGGTGGAGTG GCAGGAGGAT 
TTTCGGGAGC TGTTCCGTCA GCCCTTGCAG AGGGAGTGTG TCTACACTGG CGGTGTCACG 
GGCATGCCAG GGGCAGCTGT CGCCATCAGC AACTGCGACG GATTGGCGGG CCTCATCCGC 
ACAGACAGCA CTGACTACTT CATTGAGCCC CTGGAGCGGG GGCAGCAGGA GACGGAGGCC 
AGCGGGAGGA TGCACGTGGT GTACCGCCGG GAAGTCGTCC AGCAGGCGTG GACAGAACCT 
CTCGGGGACC TTCACAATGA AGCTTTTGGC CTGGGTGACC TTCCCAACCT GCTGGGCCTG 
GTAGGGGACC GGCTGGGAGA AGCAGAGCGG AAGCGGCGAC ATGCCAAGCC GGGCAGCTAC 
AGCATGGAGG TGCTGCTGGC GGTGGACGAC TCGGTGGTGC GCTTCCACGG AAAGGAACAC 
GTGCAGAACT ACGTCCTCAC CCTCATGAAC ATCGTGGATG AGATTTACCA CGATGAGTCC 
CTGGGGGTCC ACATAAACAT CGCCCTTGTC CGCTTGATCA TGGTTGGCTA CCGACAGTCC 
CTGAGCCTGA TCGAGCGCGG GAACCCTTCT CGCAGCCTGG AGCAGGTGTG TCGCTGGGCG 
CACTCTCAGC AGCGCCAGGA CCCCGGCCAC GCGGAGCACC ACGACCACGT CGTCTTCCTC 
ACCCGGCAGG ACTTTGGGCC CTCAGGTACG CAAGGGTACG CGCCTGTTAC TGGCATGTGC 
CACCCCCTGA GAAGCTGTGC CCTTAACCAC GAAGATGGCT TCTCCTCGGC CTTCGTGGTG 
GCCCACGAGA CCGGCCACGT GCTCGGCATG GAGCACGATG GTCAGGGGAA CGGCTGCGCG 
GATGAGACCA GCCTGGGCAG CGTCATGGCG CCCCTGGTGC AGGCTGCCTT CCACCGCTTC 
CACTGGTCCC ACTGCAGCAA GCTGGAACTC AGCCGCTACC TCCCCTCCTA TGACTGCCTC 
CTTGATGATC CCTTTGCACC TGCCTGGCCC CGGCCCCCGG AGCTGCCCGG CATTGACTAC 
TCAATGGACG AGCAATGCCG CTTTGACTTC GGCACTGGGT ACCACACCTG CTCAGCGTTC 
AGGACCTTCG AGGCCTGCAA GCAGCTGTGG TGCAGCCACC CTGACAACCC TTACTTTTGC 
AAGACCAAGA AGGGGCCCCC GCTGGACGGG ACGGAGTGCG CGCCAGGCAA GTGGTGCTTC 
AAAGGTCACT GCATCTGGAA GTCGCCGGAG CAGACTTATG GCCAGGATGG AGGCTGGAGC 
TCCTGGACTA AGTTCGGGTC ATGTTCACGG TCGTGTGGGG GCGGGGTTCG ATCCCGTAGC 
CGGAGCTGTG ACAATCCCCC CCCAGCCTAT GGAGGCCGCC TGTGCTCGGG GCCCACGTTC 
CAGTACCAGG TCTGCAATGG CGAGGAGTGT CCGGGGCCCT ACGAGGACTT CCGGGCCCAG 
CAGTGCGCCA AGCGCAACTC CTATTACGTC CACCAGAATG CCAAGCACAG CTGGATCCCC 
TACGAGCCGG ACGACGACGC CCAGAAGTGT GAGCTGATCT GCCAGTCAGA GGACACAGGG 
GACGTGGTCT TCATGAACCA GGTGGTCCAC GACGGAACTC GCTGCAGCTA CCGGGACCCG 
TACAGCATCT GTGCCCGCGG CGAGTGTGTG CCCGTCGGCT GTGACAAGGA GGTGGGGTCC 
ATGAAGGCAG ATGACAAGTG TGGGGTCTGT GGCGGCGACA ACTCTTACTG CAGGACTGTG 
AAGGGGACTC TGGGCAAGGC CTCCAAGCAG GCAGGAGCTC TCAAGCTGGT GCAGATTCCA 
GCAGGTGCCA GGCACATCCA GGTTGAGGAG CTGGAGAAGG TCCCCCACCA CATTGCGGTG 
AAGAACCAGG TCACAGGCAG CTTCATCCTC AACCCCAAGG GCAAGGAAGC CACGAGCCGG 
ACCTTCACTG CAATGGGCCT GGAGTGGGAG TACGCGGTGG AGGATGCCAA GGAGAGCCTC 
AAGACCAGTG GGCCCCTGCC GGAAGCCATT GCCGTCCTGG TGCTCCCCCC AGCTGAGGGC 
AGCCCCCGCA GCAGCCTGGC CTACAAGTAC GTCATCCACG AGGACCTGCT GCCCCTTATT 
GGGAGCAACA ACGTGCTCCT GGAGGAGACG GACACCTACG AGTGGGCACT CAAGAACTGG 
GCACCCTGCA CCAAGGCCTG CGGAGGAGGG ATCCAGTTCA CCAAGTACGG CTGCCGGCGC 
CGACGAGACC ACCACATGGT CCAGCGGCAC CTGTGCGACC ACAGGAAGAG GCCCAAGCCC 
ATCCGCCGGC GCTGCAACCA GCACCTGTGT GCCCAGGCTG CGTGGGTGAC GGAGGAGTGG 
GGCACCTGCA GCCGGAGTTG TGGGAAGCTG GGGGTGCAGA CTCGGGGAGT GCAGTGCCTG 
CTGCCCCTCT CCAACGGTAC CCACAAGGCC ATGCCAGCCA AGGCCTGCCC CGGGGACCGG 
CCCGAGGCCC GCCGGCCCTG CCACCGCGTG CCCTGTCCAG CCCAGTGGCG GACAGGAGCC 
TGGTCCCAGT GCTCCGTCAC TTGTGGAGAG GGCGTCCAGC TGCGGCAGGT GGTGTGCCGG 
GCCAACGCCA GCAGCCTGGG GCAGTGTGAG GGGGACAAGC CGGACACGGT CCAGGTCTGC 
AGCCTGCCCG CCTGCGGAGG AAATCTCCAG AACTCCACAG TGAGGGCTGA CTTCCGGGAA 
CTTGTGACCC CAGAGGGGGA ATGGGTGCCA CAATCTGGGC CCCTAGATCC CATCAACAAG 
ATATCGTCAA CGGAGCCCTG TGTGGAGGAC AGGTCCATCT TCTGCCAGAT GGAAATGCTT 
GATCGTTACT GCTCCATCCC CGGCTACCAC CGGCTGTGCT GTGAGTCCTG TACCAAGAAG 
GCCTCGGGCC CTGACGCGAG CCCGGACCCC AGCCTGGCCT CACCACCACC CTTCTCCACT 
CCTGGGAGCC CCTTCCGAGG ACCCAAGGCC CCTCCAGAGG CTGTGGAGCC CACTGTGGGA 
CCAGCGGGAT CAGACGACCA TCAGCCTGGC CGACCCACAC AGCTCCCAGG ACCTCTGGGC 
ACAAGCTCCC CAGTGAGCCA GCGCCGCTTT GCTGACCAGA AACTGAACCC TACAGTGTTC 
TGGGGCACTT CCCCTAGTGC CCCCCGGGGA CTGCCCTGGG GCTGGGCTGG GGCCCCTACA 
CCAGTCTCTG AAGATAAAGG GCAGCTCAGG GAAGACGCGA AGCATCCAGG CACCAGCCTT 
CCCACCACCT CCCCAGTGAC ATGA

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

ADAMTS14 ( XM_028481476.1 ) cDNA ORF clone, Physeter catodon(sperm whale) -> XP_028337277.1 Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), mRNA.

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CloneID	OPh326606
Clone ID Related Accession (Same CDS sequence)	XM_028481476.1
Accession Version	XM_028481476.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3165bp) 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	1553011200000
Organism	Physeter catodon(sperm whale)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 14
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041233.1) 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 :: Physeter catodon Annotation Release 102 Annotation Version :: 102 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 :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGAGGTGC AGGCGGCGGG CCTCATCCGC ACAGACAGCA CTGACTACTT CATTGAGCCC 
CTGGAGCGGG GGCAGCAGGA GACGGAGGCC AGCGGGAGGA TGCACGTGGT GTACCGCCGG 
GAAGTCGTCC AGCAGGCGTG GACAGAACCT CTCGGGGACC TTCACAATGA AGCTTTTGGC 
CTGGGTGACC TTCCCAACCT GCTGGGCCTG GTAGGGGACC GGCTGGGAGA AGCAGAGCGG 
AAGCGGCGAC ATGCCAAGCC GGGCAGCTAC AGCATGGAGG TGCTGCTGGC GGTGGACGAC 
TCGGTGGTGC GCTTCCACGG AAAGGAACAC GTGCAGAACT ACGTCCTCAC CCTCATGAAC 
ATCGTGGATG AGATTTACCA CGATGAGTCC CTGGGGGTCC ACATAAACAT CGCCCTTGTC 
CGCTTGATCA TGGTTGGCTA CCGACAGTCC CTGAGCCTGA TCGAGCGCGG GAACCCTTCT 
CGCAGCCTGG AGCAGGTGTG TCGCTGGGCG CACTCTCAGC AGCGCCAGGA CCCCGGCCAC 
GCGGAGCACC ACGACCACGT CGTCTTCCTC ACCCGGCAGG ACTTTGGGCC CTCAGGGTAC 
GCGCCTGTTA CTGGCATGTG CCACCCCCTG AGAAGCTGTG CCCTTAACCA CGAAGATGGC 
TTCTCCTCGG CCTTCGTGGT GGCCCACGAG ACCGGCCACG TGCTCGGCAT GGAGCACGAT 
GGTCAGGGGA ACGGCTGCGC GGATGAGACC AGCCTGGGCA GCGTCATGGC GCCCCTGGTG 
CAGGCTGCCT TCCACCGCTT CCACTGGTCC CACTGCAGCA AGCTGGAACT CAGCCGCTAC 
CTCCCCTCCT ATGACTGCCT CCTTGATGAT CCCTTTGCAC CTGCCTGGCC CCGGCCCCCG 
GAGCTGCCCG GCATTGACTA CTCAATGGAC GAGCAATGCC GCTTTGACTT CGGCACTGGG 
TACCACACCT GCTCAGCGTT CAGGACCTTC GAGGCCTGCA AGCAGCTGTG GTGCAGCCAC 
CCTGACAACC CTTACTTTTG CAAGACCAAG AAGGGGCCCC CGCTGGACGG GACGGAGTGC 
GCGCCAGGCA AGTGGTGCTT CAAAGGTCAC TGCATCTGGA AGTCGCCGGA GCAGACTTAT 
GGCCAGGATG GAGGCTGGAG CTCCTGGACT AAGTTCGGGT CATGTTCACG GTCGTGTGGG 
GGCGGGGTTC GATCCCGTAG CCGGAGCTGT GACAATCCCC CCCCAGCCTA TGGAGGCCGC 
CTGTGCTCGG GGCCCACGTT CCAGTACCAG GTCTGCAATG GCGAGGAGTG TCCGGGGCCC 
TACGAGGACT TCCGGGCCCA GCAGTGCGCC AAGCGCAACT CCTATTACGT CCACCAGAAT 
GCCAAGCACA GCTGGATCCC CTACGAGCCG GACGACGACG CCCAGAAGTG TGAGCTGATC 
TGCCAGTCAG AGGACACAGG GGACGTGGTC TTCATGAACC AGGTGGTCCA CGACGGAACT 
CGCTGCAGCT ACCGGGACCC GTACAGCATC TGTGCCCGCG GCGAGTGTGT GCCCGTCGGC 
TGTGACAAGG AGGTGGGGTC CATGAAGGCA GATGACAAGT GTGGGGTCTG TGGCGGCGAC 
AACTCTTACT GCAGGACTGT GAAGGGGACT CTGGGCAAGG CCTCCAAGCA GGCAGGAGCT 
CTCAAGCTGG TGCAGATTCC AGCAGGTGCC AGGCACATCC AGGTTGAGGA GCTGGAGAAG 
GTCCCCCACC ACATTGCGGT GAAGAACCAG GTCACAGGCA GCTTCATCCT CAACCCCAAG 
GGCAAGGAAG CCACGAGCCG GACCTTCACT GCAATGGGCC TGGAGTGGGA GTACGCGGTG 
GAGGATGCCA AGGAGAGCCT CAAGACCAGT GGGCCCCTGC CGGAAGCCAT TGCCGTCCTG 
GTGCTCCCCC CAGCTGAGGG CAGCCCCCGC AGCAGCCTGG CCTACAAGTA CGTCATCCAC 
GAGGACCTGC TGCCCCTTAT TGGGAGCAAC AACGTGCTCC TGGAGGAGAC GGACACCTAC 
GAGTGGGCAC TCAAGAACTG GGCACCCTGC ACCAAGGCCT GCGGAGGAGG GATCCAGTTC 
ACCAAGTACG GCTGCCGGCG CCGACGAGAC CACCACATGG TCCAGCGGCA CCTGTGCGAC 
CACAGGAAGA GGCCCAAGCC CATCCGCCGG CGCTGCAACC AGCACCTGTG TGCCCAGGCT 
GCGTGGGTGA CGGAGGAGTG GGGCACCTGC AGCCGGAGTT GTGGGAAGCT GGGGGTGCAG 
ACTCGGGGAG TGCAGTGCCT GCTGCCCCTC TCCAACGGTA CCCACAAGGC CATGCCAGCC 
AAGGCCTGCC CCGGGGACCG GCCCGAGGCC CGCCGGCCCT GCCACCGCGT GCCCTGTCCA 
GCCCAGTGGC GGACAGGAGC CTGGTCCCAG TGCTCCGTCA CTTGTGGAGA GGGCGTCCAG 
CTGCGGCAGG TGGTGTGCCG GGCCAACGCC AGCAGCCTGG GGCAGTGTGA GGGGGACAAG 
CCGGACACGG TCCAGGTCTG CAGCCTGCCC GCCTGCGGAG GAAATCTCCA GAACTCCACA 
GTGAGGGCTG ACTTCCGGGA ACTTGTGACC CCAGAGGGGG AATGGGTGCC ACAATCTGGG 
CCCCTAGATC CCATCAACAA GATATCGTCA ACGGAGCCCT GTGTGGAGGA CAGGTCCATC 
TTCTGCCAGA TGGAAATGCT TGATCGTTAC TGCTCCATCC CCGGCTACCA CCGGCTGTGC 
TGTGAGTCCT GTACCAAGAA GGCCTCGGGC CCTGACGCGA GCCCGGACCC CAGCCTGGCC 
TCACCACCAC CCTTCTCCAC TCCTGGGAGC CCCTTCCGAG GACCCAAGGC CCCTCCAGAG 
GCTGTGGAGC CCACTGTGGG ACCAGCGGGA TCAGACGACC ATCAGCCTGG CCGACCCACA 
CAGCTCCCAG GACCTCTGGG CACAAGCTCC CCAGTGAGCC AGCGCCGCTT TGCTGACCAG 
AAACTGAACC CTACAGTGTT CTGGGGCACT TCCCCTAGTG CCCCCCGGGG ACTGCCCTGG 
GGCTGGGCTG GGGCCCCTAC ACCAGTCTCT GAAGATAAAG GGCAGCTCAG GGAAGACGCG 
AAGCATCCAG GCACCAGCCT TCCCACCACC TCCCCAGTGA CATGA

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

RefSeq	XP_028337277.1
CDS	1..3165
Translation	MEVQAAGLIRTDSTDYFIEPLERGQQETEASGRMHVVYRREVVQQAWTEPLGDLHNEAFGLGDLPNLLGLVGDRLGEAERKRRHAKPGSYSMEVLLAVDDSVVRFHGKEHVQNYVLTLMNIVDEIYHDESLGVHINIALVRLIMVGYRQSLSLIERGNPSRSLEQVCRWAHSQQRQDPGHAEHHDHVVFLTRQDFGPSGYAPVTGMCHPLRSCALNHEDGFSSAFVVAHETGHVLGMEHDGQGNGCADETSLGSVMAPLVQAAFHRFHWSHCSKLELSRYLPSYDCLLDDPFAPAWPRPPELPGIDYSMDEQCRFDFGTGYHTCSAFRTFEACKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCFKGHCIWKSPEQTYGQDGGWSSWTKFGSCSRSCGGGVRSRSRSCDNPPPAYGGRLCSGPTFQYQVCNGEECPGPYEDFRAQQCAKRNSYYVHQNAKHSWIPYEPDDDAQKCELICQSEDTGDVVFMNQVVHDGTRCSYRDPYSICARGECVPVGCDKEVGSMKADDKCGVCGGDNSYCRTVKGTLGKASKQAGALKLVQIPAGARHIQVEELEKVPHHIAVKNQVTGSFILNPKGKEATSRTFTAMGLEWEYAVEDAKESLKTSGPLPEAIAVLVLPPAEGSPRSSLAYKYVIHEDLLPLIGSNNVLLEETDTYEWALKNWAPCTKACGGGIQFTKYGCRRRRDHHMVQRHLCDHRKRPKPIRRRCNQHLCAQAAWVTEEWGTCSRSCGKLGVQTRGVQCLLPLSNGTHKAMPAKACPGDRPEARRPCHRVPCPAQWRTGAWSQCSVTCGEGVQLRQVVCRANASSLGQCEGDKPDTVQVCSLPACGGNLQNSTVRADFRELVTPEGEWVPQSGPLDPINKISSTEPCVEDRSIFCQMEMLDRYCSIPGYHRLCCESCTKKASGPDASPDPSLASPPPFSTPGSPFRGPKAPPEAVEPTVGPAGSDDHQPGRPTQLPGPLGTSSPVSQRRFADQKLNPTVFWGTSPSAPRGLPWGWAGAPTPVSEDKGQLREDAKHPGTSLPTTSPVT

Target ORF information:

RefSeq Version	XM_028481476.1
Organism	Physeter catodon(sperm whale)
Definition	Physeter catodon ADAM metallopeptidase with thrombospondin type 1 motif 14 (ADAMTS14), mRNA.

Target ORF information:

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

XM_028481476.1

ORF Insert Sequence:

ATGGAGGTGC AGGCGGCGGG CCTCATCCGC ACAGACAGCA CTGACTACTT CATTGAGCCC 
CTGGAGCGGG GGCAGCAGGA GACGGAGGCC AGCGGGAGGA TGCACGTGGT GTACCGCCGG 
GAAGTCGTCC AGCAGGCGTG GACAGAACCT CTCGGGGACC TTCACAATGA AGCTTTTGGC 
CTGGGTGACC TTCCCAACCT GCTGGGCCTG GTAGGGGACC GGCTGGGAGA AGCAGAGCGG 
AAGCGGCGAC ATGCCAAGCC GGGCAGCTAC AGCATGGAGG TGCTGCTGGC GGTGGACGAC 
TCGGTGGTGC GCTTCCACGG AAAGGAACAC GTGCAGAACT ACGTCCTCAC CCTCATGAAC 
ATCGTGGATG AGATTTACCA CGATGAGTCC CTGGGGGTCC ACATAAACAT CGCCCTTGTC 
CGCTTGATCA TGGTTGGCTA CCGACAGTCC CTGAGCCTGA TCGAGCGCGG GAACCCTTCT 
CGCAGCCTGG AGCAGGTGTG TCGCTGGGCG CACTCTCAGC AGCGCCAGGA CCCCGGCCAC 
GCGGAGCACC ACGACCACGT CGTCTTCCTC ACCCGGCAGG ACTTTGGGCC CTCAGGGTAC 
GCGCCTGTTA CTGGCATGTG CCACCCCCTG AGAAGCTGTG CCCTTAACCA CGAAGATGGC 
TTCTCCTCGG CCTTCGTGGT GGCCCACGAG ACCGGCCACG TGCTCGGCAT GGAGCACGAT 
GGTCAGGGGA ACGGCTGCGC GGATGAGACC AGCCTGGGCA GCGTCATGGC GCCCCTGGTG 
CAGGCTGCCT TCCACCGCTT CCACTGGTCC CACTGCAGCA AGCTGGAACT CAGCCGCTAC 
CTCCCCTCCT ATGACTGCCT CCTTGATGAT CCCTTTGCAC CTGCCTGGCC CCGGCCCCCG 
GAGCTGCCCG GCATTGACTA CTCAATGGAC GAGCAATGCC GCTTTGACTT CGGCACTGGG 
TACCACACCT GCTCAGCGTT CAGGACCTTC GAGGCCTGCA AGCAGCTGTG GTGCAGCCAC 
CCTGACAACC CTTACTTTTG CAAGACCAAG AAGGGGCCCC CGCTGGACGG GACGGAGTGC 
GCGCCAGGCA AGTGGTGCTT CAAAGGTCAC TGCATCTGGA AGTCGCCGGA GCAGACTTAT 
GGCCAGGATG GAGGCTGGAG CTCCTGGACT AAGTTCGGGT CATGTTCACG GTCGTGTGGG 
GGCGGGGTTC GATCCCGTAG CCGGAGCTGT GACAATCCCC CCCCAGCCTA TGGAGGCCGC 
CTGTGCTCGG GGCCCACGTT CCAGTACCAG GTCTGCAATG GCGAGGAGTG TCCGGGGCCC 
TACGAGGACT TCCGGGCCCA GCAGTGCGCC AAGCGCAACT CCTATTACGT CCACCAGAAT 
GCCAAGCACA GCTGGATCCC CTACGAGCCG GACGACGACG CCCAGAAGTG TGAGCTGATC 
TGCCAGTCAG AGGACACAGG GGACGTGGTC TTCATGAACC AGGTGGTCCA CGACGGAACT 
CGCTGCAGCT ACCGGGACCC GTACAGCATC TGTGCCCGCG GCGAGTGTGT GCCCGTCGGC 
TGTGACAAGG AGGTGGGGTC CATGAAGGCA GATGACAAGT GTGGGGTCTG TGGCGGCGAC 
AACTCTTACT GCAGGACTGT GAAGGGGACT CTGGGCAAGG CCTCCAAGCA GGCAGGAGCT 
CTCAAGCTGG TGCAGATTCC AGCAGGTGCC AGGCACATCC AGGTTGAGGA GCTGGAGAAG 
GTCCCCCACC ACATTGCGGT GAAGAACCAG GTCACAGGCA GCTTCATCCT CAACCCCAAG 
GGCAAGGAAG CCACGAGCCG GACCTTCACT GCAATGGGCC TGGAGTGGGA GTACGCGGTG 
GAGGATGCCA AGGAGAGCCT CAAGACCAGT GGGCCCCTGC CGGAAGCCAT TGCCGTCCTG 
GTGCTCCCCC CAGCTGAGGG CAGCCCCCGC AGCAGCCTGG CCTACAAGTA CGTCATCCAC 
GAGGACCTGC TGCCCCTTAT TGGGAGCAAC AACGTGCTCC TGGAGGAGAC GGACACCTAC 
GAGTGGGCAC TCAAGAACTG GGCACCCTGC ACCAAGGCCT GCGGAGGAGG GATCCAGTTC 
ACCAAGTACG GCTGCCGGCG CCGACGAGAC CACCACATGG TCCAGCGGCA CCTGTGCGAC 
CACAGGAAGA GGCCCAAGCC CATCCGCCGG CGCTGCAACC AGCACCTGTG TGCCCAGGCT 
GCGTGGGTGA CGGAGGAGTG GGGCACCTGC AGCCGGAGTT GTGGGAAGCT GGGGGTGCAG 
ACTCGGGGAG TGCAGTGCCT GCTGCCCCTC TCCAACGGTA CCCACAAGGC CATGCCAGCC 
AAGGCCTGCC CCGGGGACCG GCCCGAGGCC CGCCGGCCCT GCCACCGCGT GCCCTGTCCA 
GCCCAGTGGC GGACAGGAGC CTGGTCCCAG TGCTCCGTCA CTTGTGGAGA GGGCGTCCAG 
CTGCGGCAGG TGGTGTGCCG GGCCAACGCC AGCAGCCTGG GGCAGTGTGA GGGGGACAAG 
CCGGACACGG TCCAGGTCTG CAGCCTGCCC GCCTGCGGAG GAAATCTCCA GAACTCCACA 
GTGAGGGCTG ACTTCCGGGA ACTTGTGACC CCAGAGGGGG AATGGGTGCC ACAATCTGGG 
CCCCTAGATC CCATCAACAA GATATCGTCA ACGGAGCCCT GTGTGGAGGA CAGGTCCATC 
TTCTGCCAGA TGGAAATGCT TGATCGTTAC TGCTCCATCC CCGGCTACCA CCGGCTGTGC 
TGTGAGTCCT GTACCAAGAA GGCCTCGGGC CCTGACGCGA GCCCGGACCC CAGCCTGGCC 
TCACCACCAC CCTTCTCCAC TCCTGGGAGC CCCTTCCGAG GACCCAAGGC CCCTCCAGAG 
GCTGTGGAGC CCACTGTGGG ACCAGCGGGA TCAGACGACC ATCAGCCTGG CCGACCCACA 
CAGCTCCCAG GACCTCTGGG CACAAGCTCC CCAGTGAGCC AGCGCCGCTT TGCTGACCAG 
AAACTGAACC CTACAGTGTT CTGGGGCACT TCCCCTAGTG CCCCCCGGGG ACTGCCCTGG 
GGCTGGGCTG GGGCCCCTAC ACCAGTCTCT GAAGATAAAG GGCAGCTCAG GGAAGACGCG 
AAGCATCCAG GCACCAGCCT TCCCACCACC TCCCCAGTGA CATGA

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

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ADAMTS14 cDNA ORF clone, Physeter catodon(sperm whale)

Gene

Clones

gRNAs

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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