ccdc180 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	ccdc180
Entrez Gene ID	106585646
Full Name	coiled-coil domain containing 180
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014172067.1	XP_014027542.1	coiled-coil domain-containing protein 180 isoform X2
XM_014172066.1	XP_014027541.1	coiled-coil domain-containing protein 180 isoform X1

Pathways from BioSystems
Gene Ontology

The following ccdc180 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ccdc180 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
OAt67531	XM_014172066.1 Latest version!	Salmo salar coiled-coil domain containing 180 (ccdc180), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAt67532	XM_014172067.1 Latest version!	Salmo salar coiled-coil domain containing 180 (ccdc180), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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)

ccdc180 ( XM_014172066.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014027541.1 Salmo salar coiled-coil domain containing 180 (ccdc180), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt67531
Clone ID Related Accession (Same CDS sequence)	XM_014172066.1
Accession Version	XM_014172066.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4467bp) 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	1442678400000
Organism	Salmo salar(Atlantic salmon)
Product	coiled-coil domain-containing protein 180 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340663.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGAGA CTCGTGTCAT TCCAAGTGGG AAAGTCTACC GCCAGATGTT TGACGCCCAG 
GTTCAGCTGT CAAGGTCTCT ACATGATACT CGGAGGAAAC GTGAGACTAA TGAAGGATTC 
TTACCAAGGG ACAACCCTCC TCTTAGTAGG GACACAGACA CTGGTCTGCA GCAGCAGATT 
AGAAGTCTTC AGACTGAAAC CCACCAATGC TCAGAGGAAA TGGCTGTTAG GTACCAACTG 
TTCTCAGGCA TCAAGCATTG CCAGACGACT GAGGAGCAGC TTGTTGAGGA GGAGATCCGT 
GGACTACCTG ACCATGTTGT GGCAGAAAAG CCAGGGTCAG ACATCATTGA ACGCCTGATG 
GAGAAAAAGC AGAGGAACCA CCTAGAGGCT GTGGCACAGT TGTACAGGGA CCTTTCTGTG 
CTCAGTGTGG AGTATGAGAC ATTATTCAGG AAAACTGGGC AAGAGGTGCT GCACCAACTC 
TCAGTGTATG ATGGCAATGT GGAGAGACAA ATGCAGAGGA TTGAAAATCT TTCTGATTTG 
GAGAAGTTCA CCTTACAGGG ACTTCATGAC TTCTGGGATA CAGTGAAACA AGAGTCAGTG 
ATTAGGAGGA AGTGGATCAA GGATCTGGAT GATACCCTGG CTAAGTATGA GTCTGACAGA 
ACAGCCATGA TTGCAGCATT GCTGAGAAAA TACACAGGGA AACTGGAAAA GATCTGCTAC 
GTAATGCCTT CGGATATCCA CCGACTGATC AATAGAGAAG CCATGATGAT AAACCAGGCT 
ATTCTAGCAA ATAGACGAGC AGTGGCCAAG CTCTACCTGA ACCTGATGGA GAATGATCTA 
CAGAAGGAGG TATTCCACCG ACTCAGATGG GAGGACAAAC TGCAAGACTG GAAGAGCTTT 
AAGGTCCTTG GTGTGGTCAG CAGGTTCAAA GATTTCATGG GAAGCCCTCC AATCCAGTGT 
CCCAAGGACG TACAAGCTAT TCTGGACACC ATGAGTGCAG CACAGCAATC TTTTAGAGAA 
AGACGCATCA AAATTCTTCA GTCACTCACT GCCATGATAC CTCCAAGATG TTCAAAGACT 
CTAATCACTG ACTGGTATAA GTCTTTGTCA TCTGTCAACG AGCAAATTGA TTGTATGCAC 
ATTGAATCAA TGAGGAAGCT ACATTCTTAT TATGAAAATA CCTGGCAAGA ATGCCTAGCT 
GAGGTAGAAC AAGTCAAGAA AGAGATTACT ACATATGGGG TTTCTCCAGA AGAGATCCAG 
CATACTGTTA ATGCTGAGTT CCTGCCTCTG ATTGGGAAAT GCCAGAGCCA GACCGAGGAG 
CACCTTGCCA CCATGGATAG AGCGTTTGAG TCTTTGGCCA AGAGAGCTGC TGTGCTAAGT 
AAGTCACTTT TCAAATTCAC ACGTGGGGCA TCTCACCTGT GGGAGGTGCA CAGTGCCGGG 
CTGCAGAGGA GGGAGCAGCA GCTGCAAGAC CAGCTGGACG AGGTGCGCTA CAGTCAGGAG 
CATGAAATCC AGAAGAAGGA GGCTCATCTT GATGTTATGT TGGACAGACT GAGACAGGAG 
AGCACTGAAG AAGCACTCAA AATCACGCTG GAGAAGACTC TACACTCCCT GGATGAAATA 
AAACTTGTAT ACATGCACTT CTACAAAGAA GAGGTGGACA CAGTGGAGAG TTATCCTGCC 
ATGGTCTTGG AGGAGCTGCA CTCTTACAGC TCCGCTGTCA GTCGATTCTT CAACGTCAAG 
GAGATATATA CCGGTAGTCA GGACTCTGAG GAACTTCGCT CCCTTTATCC CGTCATAAAC 
CTTGATTTAA GTGGGAGGGC CAGTGTGAAG AGGACAAGAC AGACCACTGT ACAGGGAAGG 
AAACGTTGTC CGGGAGGATT CCAGAAAAGT CCAAATCCAG CACATTCATC CTTTGATGAA 
TTTGACACTG AGGATGACAT TGATTCCCAT TGGGAGTTTC TTGACTCTCA GTCCAGTGAG 
TCATTCTGCA CCTCTAAAGG CAATGTGTAC AACGGTCAGA GCTTTGTCTC TCAATGGGAC 
ACGGAGCAGG ATCCCATTCC ATCTGAGATG GAGTTGGTTG TGTTCCCCAG AAGTCTTCTT 
GCGGATCTAC AAAAAGATAT ACGTCTGTTG TTTTTCAACC ACCTCGAAGA GAGATATCAG 
ACTGCTCTCA CCAACACGAT GAATATTGTG GCAGCCAAGA AGGAAGCACT GAAGTCAGAG 
CAGGATCTCC GACTGCACCT CCACCAACCA CGGGCTAAGA GAATCGAGGT GGACATCCAC 
AATGTCCGTG CTGCAGAACT GGTACTGCAC AGAGATCGTG TGGATAGGCA CTGTAAAGGC 
ATCTTGCAGG CCCTTGGCAA CTGCCGAACG GACTTCCACG AACTCCAGAT TCGACAGCAC 
AAACTGACTG AGGACTTCAG ATCCCAGATT TACAGCATGG AGGATGTCTT TACCTATGCC 
ACCAAGTCAG ACGTGCTGGT TGGGCTATGT GGTACGCTGC AATCCAATTT GGAGAGCCAC 
ATGAACATCA TTCAGGCATC ACAGAGAAAC TTCAGACAGA CTCTGGAGTC CAAGCTGGAT 
GGCCTAAGAG AGACCAACGT CCAGTTAATC AAATCCTTTA AGCTGTTCTC AGATGGAGGG 
AACTTCACAC CCAAAGAGAT AGAGGCGCAT CACAAACGGA TTGAGAAAAT GGTTAAACGT 
ATCGACACCA ACGATGAGGC TATAATGCTG GATATGGAGG GGACAGAGTC CAAGTGTCTG 
GAGCTGGCGA AGGATGTGAT AAACAGATTT GAGGAGAAAT TCCACTTTTT GACAGTGGAT 
TTGAAATTTC TGGAGAAAAT CCAAGGAATG CTAACAAATA CACAGGTTCA GATAAAAACA 
GAGGCAACAA AGAGCAACAT GCAAAATAAG AAAATCAACA GCCTCCTGAC AGAGTTAAAA 
AGTATGGTAG ATACTTGTGC CAGAAGCAGT CCAGAAAAGA CAGTGACAAC AGATGATGTT 
TTCACTTTTA CGTGGTCTAT AATAGAGGAA TTGAGGGCAC GATGCCATTA TCTTGAATGC 
TTTTTGAACC CTTCCATGGC AGTACTGATG CCTGAATGCC CTCTCCAGGG GGCCTTCGCT 
GTAGCAGCAC GCCCCAAGTC CCGCAAGTCA GCAAGCCCTG CCATAGACGG TCTGCTCCAG 
CCCAGCCGCA TGGGGGTGTC CTTCATGGAT GATGTGGCCG TGGGGGTCAT CAGGGGACTG 
CTGAGGCTAA GCAAGCCTAA AGTCACCCAG GAAGCCAATT CAGAGTCGAC AGAGAGGGTC 
TCAGCAGCAG TCACAGTCAG GTTGTCGTCT CCTATTGGGC AGAGGTCAGG GGATTCTGCC 
GAATCTGTCA GTGCACAAAG TGTGAAGAGG TTTTCTAAAC CCACTCGCTT TGACAAGAGA 
TTCCAGGTGT TTGGTCCCAA ACCAGAGACA CATGGCGTAA CTACTTTCAA AAGTTTGATA 
ACCAGCATTC TTTGGAAGAC CAATGATATT CTTCTCCTGG TTGCTGAGGA GTTCTATAAG 
AAGAAGGAAC GCCGGCCTAT CACAAGGCCT CAGTACCTCC AGGAGACGTT TGAACAATGT 
GCTGAGGAGA TTAACAAAAG GCTGCTCGTC TACCAGGGCC AAACTCAGGA CTACCACAAC 
AACTGTCTGC AAGAATTCCG ACAGCAGCTG AAAGACATTG AGGAGGGTCT TTCCAAGGTG 
CCAGGGGTGC TCATCTCTAA CCTGGGAGAA CAACACCTGG GGAGCCTGAG CCAAGACACG 
GACAACATCC GTCAACAGCT AGGCATCACT CTGCATGAGA GCGAGGGGAG AAAGAAAAAG 
CACAGTGACA AGCTGAGTGT GCGTCTGAGC CATCCTGCTT GTGAGAAAGA GCTGGAGACC 
TTGAATCGTG CTGAAGAGGA GAGACAAAGA GAGCTGACCA ATGCCATCAT GAACACTCTG 
CAAGAGCTAC AAGCATGTGT GAGGAAACAT GGGGAGGAGT TTGTGAGATC ACTCACCTCT 
CTGACAGAGA ACCTGCTGTT CCAGATGGAC AACCTCCTGA CCGTAGATGA GGTCCAAGTT 
GGCCAAGCTG AAATGAAGAG TGAAAATGTC ACCACTCTAA TTCGCCGAAA ACAAGCTGGT 
ATTCCGCTAG AGGAGAAGCA AAGTGCACAT CAAATACAGC GAGGCAGCAG AACGTGGCCA 
GGAATCTCTT ACTTTGGATC CAGTACTGAT GGTCCAGTGG AGCAACCATG CAAGAAAACA 
GCCTCCATCA CCACTGCAAA GACCACCTTA GGCCACCTGA GAGCAGTGGA GGCCTGTGAA 
TCTATGTACC AGTGCTATGA GCAGCGGTAC AGGGAGGAGC TGGCCCGGGC CGTGCAGGAG 
AGCCAGGTCC AGAGGACGGA GGTGCAGTGC TGGGAGGAAC ACTGGAGAGG CTTACTGAAC 
ACTCTGACCC AGCTCAACGC TGAGTGA

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

RefSeq	XP_014027541.1
CDS	244..4710
Translation	MAETRVIPSGKVYRQMFDAQVQLSRSLHDTRRKRETNEGFLPRDNPPLSRDTDTGLQQQIRSLQTETHQCSEEMAVRYQLFSGIKHCQTTEEQLVEEEIRGLPDHVVAEKPGSDIIERLMEKKQRNHLEAVAQLYRDLSVLSVEYETLFRKTGQEVLHQLSVYDGNVERQMQRIENLSDLEKFTLQGLHDFWDTVKQESVIRRKWIKDLDDTLAKYESDRTAMIAALLRKYTGKLEKICYVMPSDIHRLINREAMMINQAILANRRAVAKLYLNLMENDLQKEVFHRLRWEDKLQDWKSFKVLGVVSRFKDFMGSPPIQCPKDVQAILDTMSAAQQSFRERRIKILQSLTAMIPPRCSKTLITDWYKSLSSVNEQIDCMHIESMRKLHSYYENTWQECLAEVEQVKKEITTYGVSPEEIQHTVNAEFLPLIGKCQSQTEEHLATMDRAFESLAKRAAVLSKSLFKFTRGASHLWEVHSAGLQRREQQLQDQLDEVRYSQEHEIQKKEAHLDVMLDRLRQESTEEALKITLEKTLHSLDEIKLVYMHFYKEEVDTVESYPAMVLEELHSYSSAVSRFFNVKEIYTGSQDSEELRSLYPVINLDLSGRASVKRTRQTTVQGRKRCPGGFQKSPNPAHSSFDEFDTEDDIDSHWEFLDSQSSESFCTSKGNVYNGQSFVSQWDTEQDPIPSEMELVVFPRSLLADLQKDIRLLFFNHLEERYQTALTNTMNIVAAKKEALKSEQDLRLHLHQPRAKRIEVDIHNVRAAELVLHRDRVDRHCKGILQALGNCRTDFHELQIRQHKLTEDFRSQIYSMEDVFTYATKSDVLVGLCGTLQSNLESHMNIIQASQRNFRQTLESKLDGLRETNVQLIKSFKLFSDGGNFTPKEIEAHHKRIEKMVKRIDTNDEAIMLDMEGTESKCLELAKDVINRFEEKFHFLTVDLKFLEKIQGMLTNTQVQIKTEATKSNMQNKKINSLLTELKSMVDTCARSSPEKTVTTDDVFTFTWSIIEELRARCHYLECFLNPSMAVLMPECPLQGAFAVAARPKSRKSASPAIDGLLQPSRMGVSFMDDVAVGVIRGLLRLSKPKVTQEANSESTERVSAAVTVRLSSPIGQRSGDSAESVSAQSVKRFSKPTRFDKRFQVFGPKPETHGVTTFKSLITSILWKTNDILLLVAEEFYKKKERRPITRPQYLQETFEQCAEEINKRLLVYQGQTQDYHNNCLQEFRQQLKDIEEGLSKVPGVLISNLGEQHLGSLSQDTDNIRQQLGITLHESEGRKKKHSDKLSVRLSHPACEKELETLNRAEEERQRELTNAIMNTLQELQACVRKHGEEFVRSLTSLTENLLFQMDNLLTVDEVQVGQAEMKSENVTTLIRRKQAGIPLEEKQSAHQIQRGSRTWPGISYFGSSTDGPVEQPCKKTASITTAKTTLGHLRAVEACESMYQCYEQRYREELARAVQESQVQRTEVQCWEEHWRGLLNTLTQLNAE

Target ORF information:

RefSeq Version	XM_014172066.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar coiled-coil domain containing 180 (ccdc180), transcript variant X1, mRNA.

Target ORF information:

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

XM_014172066.1

ORF Insert Sequence:

ATGGCTGAGA CTCGTGTCAT TCCAAGTGGG AAAGTCTACC GCCAGATGTT TGACGCCCAG 
GTTCAGCTGT CAAGGTCTCT ACATGATACT CGGAGGAAAC GTGAGACTAA TGAAGGATTC 
TTACCAAGGG ACAACCCTCC TCTTAGTAGG GACACAGACA CTGGTCTGCA GCAGCAGATT 
AGAAGTCTTC AGACTGAAAC CCACCAATGC TCAGAGGAAA TGGCTGTTAG GTACCAACTG 
TTCTCAGGCA TCAAGCATTG CCAGACGACT GAGGAGCAGC TTGTTGAGGA GGAGATCCGT 
GGACTACCTG ACCATGTTGT GGCAGAAAAG CCAGGGTCAG ACATCATTGA ACGCCTGATG 
GAGAAAAAGC AGAGGAACCA CCTAGAGGCT GTGGCACAGT TGTACAGGGA CCTTTCTGTG 
CTCAGTGTGG AGTATGAGAC ATTATTCAGG AAAACTGGGC AAGAGGTGCT GCACCAACTC 
TCAGTGTATG ATGGCAATGT GGAGAGACAA ATGCAGAGGA TTGAAAATCT TTCTGATTTG 
GAGAAGTTCA CCTTACAGGG ACTTCATGAC TTCTGGGATA CAGTGAAACA AGAGTCAGTG 
ATTAGGAGGA AGTGGATCAA GGATCTGGAT GATACCCTGG CTAAGTATGA GTCTGACAGA 
ACAGCCATGA TTGCAGCATT GCTGAGAAAA TACACAGGGA AACTGGAAAA GATCTGCTAC 
GTAATGCCTT CGGATATCCA CCGACTGATC AATAGAGAAG CCATGATGAT AAACCAGGCT 
ATTCTAGCAA ATAGACGAGC AGTGGCCAAG CTCTACCTGA ACCTGATGGA GAATGATCTA 
CAGAAGGAGG TATTCCACCG ACTCAGATGG GAGGACAAAC TGCAAGACTG GAAGAGCTTT 
AAGGTCCTTG GTGTGGTCAG CAGGTTCAAA GATTTCATGG GAAGCCCTCC AATCCAGTGT 
CCCAAGGACG TACAAGCTAT TCTGGACACC ATGAGTGCAG CACAGCAATC TTTTAGAGAA 
AGACGCATCA AAATTCTTCA GTCACTCACT GCCATGATAC CTCCAAGATG TTCAAAGACT 
CTAATCACTG ACTGGTATAA GTCTTTGTCA TCTGTCAACG AGCAAATTGA TTGTATGCAC 
ATTGAATCAA TGAGGAAGCT ACATTCTTAT TATGAAAATA CCTGGCAAGA ATGCCTAGCT 
GAGGTAGAAC AAGTCAAGAA AGAGATTACT ACATATGGGG TTTCTCCAGA AGAGATCCAG 
CATACTGTTA ATGCTGAGTT CCTGCCTCTG ATTGGGAAAT GCCAGAGCCA GACCGAGGAG 
CACCTTGCCA CCATGGATAG AGCGTTTGAG TCTTTGGCCA AGAGAGCTGC TGTGCTAAGT 
AAGTCACTTT TCAAATTCAC ACGTGGGGCA TCTCACCTGT GGGAGGTGCA CAGTGCCGGG 
CTGCAGAGGA GGGAGCAGCA GCTGCAAGAC CAGCTGGACG AGGTGCGCTA CAGTCAGGAG 
CATGAAATCC AGAAGAAGGA GGCTCATCTT GATGTTATGT TGGACAGACT GAGACAGGAG 
AGCACTGAAG AAGCACTCAA AATCACGCTG GAGAAGACTC TACACTCCCT GGATGAAATA 
AAACTTGTAT ACATGCACTT CTACAAAGAA GAGGTGGACA CAGTGGAGAG TTATCCTGCC 
ATGGTCTTGG AGGAGCTGCA CTCTTACAGC TCCGCTGTCA GTCGATTCTT CAACGTCAAG 
GAGATATATA CCGGTAGTCA GGACTCTGAG GAACTTCGCT CCCTTTATCC CGTCATAAAC 
CTTGATTTAA GTGGGAGGGC CAGTGTGAAG AGGACAAGAC AGACCACTGT ACAGGGAAGG 
AAACGTTGTC CGGGAGGATT CCAGAAAAGT CCAAATCCAG CACATTCATC CTTTGATGAA 
TTTGACACTG AGGATGACAT TGATTCCCAT TGGGAGTTTC TTGACTCTCA GTCCAGTGAG 
TCATTCTGCA CCTCTAAAGG CAATGTGTAC AACGGTCAGA GCTTTGTCTC TCAATGGGAC 
ACGGAGCAGG ATCCCATTCC ATCTGAGATG GAGTTGGTTG TGTTCCCCAG AAGTCTTCTT 
GCGGATCTAC AAAAAGATAT ACGTCTGTTG TTTTTCAACC ACCTCGAAGA GAGATATCAG 
ACTGCTCTCA CCAACACGAT GAATATTGTG GCAGCCAAGA AGGAAGCACT GAAGTCAGAG 
CAGGATCTCC GACTGCACCT CCACCAACCA CGGGCTAAGA GAATCGAGGT GGACATCCAC 
AATGTCCGTG CTGCAGAACT GGTACTGCAC AGAGATCGTG TGGATAGGCA CTGTAAAGGC 
ATCTTGCAGG CCCTTGGCAA CTGCCGAACG GACTTCCACG AACTCCAGAT TCGACAGCAC 
AAACTGACTG AGGACTTCAG ATCCCAGATT TACAGCATGG AGGATGTCTT TACCTATGCC 
ACCAAGTCAG ACGTGCTGGT TGGGCTATGT GGTACGCTGC AATCCAATTT GGAGAGCCAC 
ATGAACATCA TTCAGGCATC ACAGAGAAAC TTCAGACAGA CTCTGGAGTC CAAGCTGGAT 
GGCCTAAGAG AGACCAACGT CCAGTTAATC AAATCCTTTA AGCTGTTCTC AGATGGAGGG 
AACTTCACAC CCAAAGAGAT AGAGGCGCAT CACAAACGGA TTGAGAAAAT GGTTAAACGT 
ATCGACACCA ACGATGAGGC TATAATGCTG GATATGGAGG GGACAGAGTC CAAGTGTCTG 
GAGCTGGCGA AGGATGTGAT AAACAGATTT GAGGAGAAAT TCCACTTTTT GACAGTGGAT 
TTGAAATTTC TGGAGAAAAT CCAAGGAATG CTAACAAATA CACAGGTTCA GATAAAAACA 
GAGGCAACAA AGAGCAACAT GCAAAATAAG AAAATCAACA GCCTCCTGAC AGAGTTAAAA 
AGTATGGTAG ATACTTGTGC CAGAAGCAGT CCAGAAAAGA CAGTGACAAC AGATGATGTT 
TTCACTTTTA CGTGGTCTAT AATAGAGGAA TTGAGGGCAC GATGCCATTA TCTTGAATGC 
TTTTTGAACC CTTCCATGGC AGTACTGATG CCTGAATGCC CTCTCCAGGG GGCCTTCGCT 
GTAGCAGCAC GCCCCAAGTC CCGCAAGTCA GCAAGCCCTG CCATAGACGG TCTGCTCCAG 
CCCAGCCGCA TGGGGGTGTC CTTCATGGAT GATGTGGCCG TGGGGGTCAT CAGGGGACTG 
CTGAGGCTAA GCAAGCCTAA AGTCACCCAG GAAGCCAATT CAGAGTCGAC AGAGAGGGTC 
TCAGCAGCAG TCACAGTCAG GTTGTCGTCT CCTATTGGGC AGAGGTCAGG GGATTCTGCC 
GAATCTGTCA GTGCACAAAG TGTGAAGAGG TTTTCTAAAC CCACTCGCTT TGACAAGAGA 
TTCCAGGTGT TTGGTCCCAA ACCAGAGACA CATGGCGTAA CTACTTTCAA AAGTTTGATA 
ACCAGCATTC TTTGGAAGAC CAATGATATT CTTCTCCTGG TTGCTGAGGA GTTCTATAAG 
AAGAAGGAAC GCCGGCCTAT CACAAGGCCT CAGTACCTCC AGGAGACGTT TGAACAATGT 
GCTGAGGAGA TTAACAAAAG GCTGCTCGTC TACCAGGGCC AAACTCAGGA CTACCACAAC 
AACTGTCTGC AAGAATTCCG ACAGCAGCTG AAAGACATTG AGGAGGGTCT TTCCAAGGTG 
CCAGGGGTGC TCATCTCTAA CCTGGGAGAA CAACACCTGG GGAGCCTGAG CCAAGACACG 
GACAACATCC GTCAACAGCT AGGCATCACT CTGCATGAGA GCGAGGGGAG AAAGAAAAAG 
CACAGTGACA AGCTGAGTGT GCGTCTGAGC CATCCTGCTT GTGAGAAAGA GCTGGAGACC 
TTGAATCGTG CTGAAGAGGA GAGACAAAGA GAGCTGACCA ATGCCATCAT GAACACTCTG 
CAAGAGCTAC AAGCATGTGT GAGGAAACAT GGGGAGGAGT TTGTGAGATC ACTCACCTCT 
CTGACAGAGA ACCTGCTGTT CCAGATGGAC AACCTCCTGA CCGTAGATGA GGTCCAAGTT 
GGCCAAGCTG AAATGAAGAG TGAAAATGTC ACCACTCTAA TTCGCCGAAA ACAAGCTGGT 
ATTCCGCTAG AGGAGAAGCA AAGTGCACAT CAAATACAGC GAGGCAGCAG AACGTGGCCA 
GGAATCTCTT ACTTTGGATC CAGTACTGAT GGTCCAGTGG AGCAACCATG CAAGAAAACA 
GCCTCCATCA CCACTGCAAA GACCACCTTA GGCCACCTGA GAGCAGTGGA GGCCTGTGAA 
TCTATGTACC AGTGCTATGA GCAGCGGTAC AGGGAGGAGC TGGCCCGGGC CGTGCAGGAG 
AGCCAGGTCC AGAGGACGGA GGTGCAGTGC TGGGAGGAAC ACTGGAGAGG CTTACTGAAC 
ACTCTGACCC AGCTCAACGC TGAGTGA

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

ccdc180 ( XM_014172067.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014027542.1 Salmo salar coiled-coil domain containing 180 (ccdc180), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAt67532
Clone ID Related Accession (Same CDS sequence)	XM_014172067.1
Accession Version	XM_014172067.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4464bp) 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	1442678400000
Organism	Salmo salar(Atlantic salmon)
Product	coiled-coil domain-containing protein 180 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340663.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGAGA CTCGTGTCAT TCCAAGTGGG AAAGTCTACC GCCAGATGTT TGACGCCCAG 
GTTCAGCTGT CAAGGTCTCT ACATGATACT CGGAGGAAAC GTGAGACTAA TGAAGGATTC 
TTACCAAGGG ACAACCCTCC TCTTAGTAGG GACACAGACA CTGGTCTGCA GCAGCAGATT 
AGAAGTCTTC AGACTGAAAC CCACCAATGC TCAGAGGAAA TGGCTGTTAG GTACCAACTG 
TTCTCAGGCA TCAAGCATTG CCAGACGACT GAGGAGCAGC TTGTTGAGGA GGAGATCCGT 
GGACTACCTG ACCATGTTGT GGCAGAAAAG CCAGGGTCAG ACATCATTGA ACGCCTGATG 
GAGAAAAAGC AGAGGAACCA CCTAGAGGCT GTGGCACAGT TGTACAGGGA CCTTTCTGTG 
CTCAGTGTGG AGTATGAGAC ATTATTCAGG AAAACTGGGC AAGAGGTGCT GCACCAACTC 
TCAGTGTATG ATGGCAATGT GGAGAGACAA ATGCAGAGGA TTGAAAATCT TTCTGATTTG 
GAGAAGTTCA CCTTACAGGG ACTTCATGAC TTCTGGGATA CAGTGAAACA AGAGTCAGTG 
ATTAGGAGGA AGTGGATCAA GGATCTGGAT GATACCCTGG CTAAGTATGA GTCTGACAGA 
ACAGCCATGA TTGCAGCATT GCTGAGAAAA TACACAGGGA AACTGGAAAA GATCTGCTAC 
GTAATGCCTT CGGATATCCA CCGACTGATC AATAGAGAAG CCATGATGAT AAACCAGGCT 
ATTCTAGCAA ATAGACGAGC AGTGGCCAAG CTCTACCTGA ACCTGATGGA GAATGATCTA 
CAGAAGGAGG TATTCCACCG ACTCAGATGG GAGGACAAAC TGCAAGACTG GAAGAGCTTT 
AAGGTCCTTG GTGTGGTCAG CAGGTTCAAA GATTTCATGG GAAGCCCTCC AATCCAGTGT 
CCCAAGGACG TACAAGCTAT TCTGGACACC ATGAGTGCAG CACAGCAATC TTTTAGAGAA 
AGACGCATCA AAATTCTTCA GTCACTCACT GCCATGATAC CTCCAAGATG TTCAAAGACT 
CTAATCACTG ACTGGTATAA GTCTTTGTCA TCTGTCAACG AGCAAATTGA TTGTATGCAC 
ATTGAATCAA TGAGGAAGCT ACATTCTTAT TATGAAAATA CCTGGCAAGA ATGCCTAGCT 
GAGGTAGAAC AAGTCAAGAA AGAGATTACT ACATATGGGG TTTCTCCAGA AGAGATCCAG 
CATACTGTTA ATGCTGAGTT CCTGCCTCTG ATTGGGAAAT GCCAGAGCCA GACCGAGGAG 
CACCTTGCCA CCATGGATAG AGCGTTTGAG TCTTTGGCCA AGAGAGCTGC TGTGCTAAGT 
AAGTCACTTT TCAAATTCAC ACGTGGGGCA TCTCACCTGT GGGAGGTGCA CAGTGCCGGG 
CTGCAGAGGA GGGAGCAGCA GCTGCAAGAC CAGCTGGACG AGGTGCGCTA CAGTCAGGAG 
CATGAAATCC AGAAGAAGGA GGCTCATCTT GATGTTATGT TGGACAGACT GAGACAGGAG 
AGCACTGAAG AAGCACTCAA AATCACGCTG GAGAAGACTC TACACTCCCT GGATGAAATA 
AAACTTGTAT ACATGCACTT CTACAAAGAA GAGGTGGACA CAGTGGAGAG TTATCCTGCC 
ATGGTCTTGG AGGAGCTGCA CTCTTACAGC TCCGCTGTCA GTCGATTCTT CAACGTCAAG 
GAGATATATA CCGGTAGTCA GGACTCTGAG GAACTTCGCT CCCTTTATCC CGTCATAAAC 
CTTGATTTAA GTGGGAGGGC CAGTGTGAAG AGGACAAGAC AGACCACTGT ACAGGGAAGG 
AAACGTTGTC CGGGAGGATT CCAGAAAAGT CCAAATCCAG CACATTCATC CTTTGATGAA 
TTTGACACTG AGGATGACAT TGATTCCCAT TGGGAGTTTC TTGACTCTCA GTCCAGTGAG 
TCATTCTGCA CCTCTAAAGG CAATGTGTAC AACGGTCAGA GCTTTGTCTC TCAATGGGAC 
ACGGAGCAGG ATCCCATTCC ATCTGAGATG GAGTTGGTTG TGTTCCCCAG AAGTCTTCTT 
GCGGATCTAC AAAAAGATAT ACGTCTGTTG TTTTTCAACC ACCTCGAAGA GAGATATCAG 
ACTGCTCTCA CCAACACGAT GAATATTGTG GCAGCCAAGA AGGAAGCACT GAAGTCAGAG 
CAGGATCTCC GACTGCACCT CCACCAACCA CGGGCTAAGA GAATCGAGGT GGACATCCAC 
AATGTCCGTG CTGAACTGGT ACTGCACAGA GATCGTGTGG ATAGGCACTG TAAAGGCATC 
TTGCAGGCCC TTGGCAACTG CCGAACGGAC TTCCACGAAC TCCAGATTCG ACAGCACAAA 
CTGACTGAGG ACTTCAGATC CCAGATTTAC AGCATGGAGG ATGTCTTTAC CTATGCCACC 
AAGTCAGACG TGCTGGTTGG GCTATGTGGT ACGCTGCAAT CCAATTTGGA GAGCCACATG 
AACATCATTC AGGCATCACA GAGAAACTTC AGACAGACTC TGGAGTCCAA GCTGGATGGC 
CTAAGAGAGA CCAACGTCCA GTTAATCAAA TCCTTTAAGC TGTTCTCAGA TGGAGGGAAC 
TTCACACCCA AAGAGATAGA GGCGCATCAC AAACGGATTG AGAAAATGGT TAAACGTATC 
GACACCAACG ATGAGGCTAT AATGCTGGAT ATGGAGGGGA CAGAGTCCAA GTGTCTGGAG 
CTGGCGAAGG ATGTGATAAA CAGATTTGAG GAGAAATTCC ACTTTTTGAC AGTGGATTTG 
AAATTTCTGG AGAAAATCCA AGGAATGCTA ACAAATACAC AGGTTCAGAT AAAAACAGAG 
GCAACAAAGA GCAACATGCA AAATAAGAAA ATCAACAGCC TCCTGACAGA GTTAAAAAGT 
ATGGTAGATA CTTGTGCCAG AAGCAGTCCA GAAAAGACAG TGACAACAGA TGATGTTTTC 
ACTTTTACGT GGTCTATAAT AGAGGAATTG AGGGCACGAT GCCATTATCT TGAATGCTTT 
TTGAACCCTT CCATGGCAGT ACTGATGCCT GAATGCCCTC TCCAGGGGGC CTTCGCTGTA 
GCAGCACGCC CCAAGTCCCG CAAGTCAGCA AGCCCTGCCA TAGACGGTCT GCTCCAGCCC 
AGCCGCATGG GGGTGTCCTT CATGGATGAT GTGGCCGTGG GGGTCATCAG GGGACTGCTG 
AGGCTAAGCA AGCCTAAAGT CACCCAGGAA GCCAATTCAG AGTCGACAGA GAGGGTCTCA 
GCAGCAGTCA CAGTCAGGTT GTCGTCTCCT ATTGGGCAGA GGTCAGGGGA TTCTGCCGAA 
TCTGTCAGTG CACAAAGTGT GAAGAGGTTT TCTAAACCCA CTCGCTTTGA CAAGAGATTC 
CAGGTGTTTG GTCCCAAACC AGAGACACAT GGCGTAACTA CTTTCAAAAG TTTGATAACC 
AGCATTCTTT GGAAGACCAA TGATATTCTT CTCCTGGTTG CTGAGGAGTT CTATAAGAAG 
AAGGAACGCC GGCCTATCAC AAGGCCTCAG TACCTCCAGG AGACGTTTGA ACAATGTGCT 
GAGGAGATTA ACAAAAGGCT GCTCGTCTAC CAGGGCCAAA CTCAGGACTA CCACAACAAC 
TGTCTGCAAG AATTCCGACA GCAGCTGAAA GACATTGAGG AGGGTCTTTC CAAGGTGCCA 
GGGGTGCTCA TCTCTAACCT GGGAGAACAA CACCTGGGGA GCCTGAGCCA AGACACGGAC 
AACATCCGTC AACAGCTAGG CATCACTCTG CATGAGAGCG AGGGGAGAAA GAAAAAGCAC 
AGTGACAAGC TGAGTGTGCG TCTGAGCCAT CCTGCTTGTG AGAAAGAGCT GGAGACCTTG 
AATCGTGCTG AAGAGGAGAG ACAAAGAGAG CTGACCAATG CCATCATGAA CACTCTGCAA 
GAGCTACAAG CATGTGTGAG GAAACATGGG GAGGAGTTTG TGAGATCACT CACCTCTCTG 
ACAGAGAACC TGCTGTTCCA GATGGACAAC CTCCTGACCG TAGATGAGGT CCAAGTTGGC 
CAAGCTGAAA TGAAGAGTGA AAATGTCACC ACTCTAATTC GCCGAAAACA AGCTGGTATT 
CCGCTAGAGG AGAAGCAAAG TGCACATCAA ATACAGCGAG GCAGCAGAAC GTGGCCAGGA 
ATCTCTTACT TTGGATCCAG TACTGATGGT CCAGTGGAGC AACCATGCAA GAAAACAGCC 
TCCATCACCA CTGCAAAGAC CACCTTAGGC CACCTGAGAG CAGTGGAGGC CTGTGAATCT 
ATGTACCAGT GCTATGAGCA GCGGTACAGG GAGGAGCTGG CCCGGGCCGT GCAGGAGAGC 
CAGGTCCAGA GGACGGAGGT GCAGTGCTGG GAGGAACACT GGAGAGGCTT ACTGAACACT 
CTGACCCAGC TCAACGCTGA GTGA

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

RefSeq	XP_014027542.1
CDS	478..4941
Translation	MAETRVIPSGKVYRQMFDAQVQLSRSLHDTRRKRETNEGFLPRDNPPLSRDTDTGLQQQIRSLQTETHQCSEEMAVRYQLFSGIKHCQTTEEQLVEEEIRGLPDHVVAEKPGSDIIERLMEKKQRNHLEAVAQLYRDLSVLSVEYETLFRKTGQEVLHQLSVYDGNVERQMQRIENLSDLEKFTLQGLHDFWDTVKQESVIRRKWIKDLDDTLAKYESDRTAMIAALLRKYTGKLEKICYVMPSDIHRLINREAMMINQAILANRRAVAKLYLNLMENDLQKEVFHRLRWEDKLQDWKSFKVLGVVSRFKDFMGSPPIQCPKDVQAILDTMSAAQQSFRERRIKILQSLTAMIPPRCSKTLITDWYKSLSSVNEQIDCMHIESMRKLHSYYENTWQECLAEVEQVKKEITTYGVSPEEIQHTVNAEFLPLIGKCQSQTEEHLATMDRAFESLAKRAAVLSKSLFKFTRGASHLWEVHSAGLQRREQQLQDQLDEVRYSQEHEIQKKEAHLDVMLDRLRQESTEEALKITLEKTLHSLDEIKLVYMHFYKEEVDTVESYPAMVLEELHSYSSAVSRFFNVKEIYTGSQDSEELRSLYPVINLDLSGRASVKRTRQTTVQGRKRCPGGFQKSPNPAHSSFDEFDTEDDIDSHWEFLDSQSSESFCTSKGNVYNGQSFVSQWDTEQDPIPSEMELVVFPRSLLADLQKDIRLLFFNHLEERYQTALTNTMNIVAAKKEALKSEQDLRLHLHQPRAKRIEVDIHNVRAELVLHRDRVDRHCKGILQALGNCRTDFHELQIRQHKLTEDFRSQIYSMEDVFTYATKSDVLVGLCGTLQSNLESHMNIIQASQRNFRQTLESKLDGLRETNVQLIKSFKLFSDGGNFTPKEIEAHHKRIEKMVKRIDTNDEAIMLDMEGTESKCLELAKDVINRFEEKFHFLTVDLKFLEKIQGMLTNTQVQIKTEATKSNMQNKKINSLLTELKSMVDTCARSSPEKTVTTDDVFTFTWSIIEELRARCHYLECFLNPSMAVLMPECPLQGAFAVAARPKSRKSASPAIDGLLQPSRMGVSFMDDVAVGVIRGLLRLSKPKVTQEANSESTERVSAAVTVRLSSPIGQRSGDSAESVSAQSVKRFSKPTRFDKRFQVFGPKPETHGVTTFKSLITSILWKTNDILLLVAEEFYKKKERRPITRPQYLQETFEQCAEEINKRLLVYQGQTQDYHNNCLQEFRQQLKDIEEGLSKVPGVLISNLGEQHLGSLSQDTDNIRQQLGITLHESEGRKKKHSDKLSVRLSHPACEKELETLNRAEEERQRELTNAIMNTLQELQACVRKHGEEFVRSLTSLTENLLFQMDNLLTVDEVQVGQAEMKSENVTTLIRRKQAGIPLEEKQSAHQIQRGSRTWPGISYFGSSTDGPVEQPCKKTASITTAKTTLGHLRAVEACESMYQCYEQRYREELARAVQESQVQRTEVQCWEEHWRGLLNTLTQLNAE

Target ORF information:

RefSeq Version	XM_014172067.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar coiled-coil domain containing 180 (ccdc180), transcript variant X2, mRNA.

Target ORF information:

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

XM_014172067.1

ORF Insert Sequence:

ATGGCTGAGA CTCGTGTCAT TCCAAGTGGG AAAGTCTACC GCCAGATGTT TGACGCCCAG 
GTTCAGCTGT CAAGGTCTCT ACATGATACT CGGAGGAAAC GTGAGACTAA TGAAGGATTC 
TTACCAAGGG ACAACCCTCC TCTTAGTAGG GACACAGACA CTGGTCTGCA GCAGCAGATT 
AGAAGTCTTC AGACTGAAAC CCACCAATGC TCAGAGGAAA TGGCTGTTAG GTACCAACTG 
TTCTCAGGCA TCAAGCATTG CCAGACGACT GAGGAGCAGC TTGTTGAGGA GGAGATCCGT 
GGACTACCTG ACCATGTTGT GGCAGAAAAG CCAGGGTCAG ACATCATTGA ACGCCTGATG 
GAGAAAAAGC AGAGGAACCA CCTAGAGGCT GTGGCACAGT TGTACAGGGA CCTTTCTGTG 
CTCAGTGTGG AGTATGAGAC ATTATTCAGG AAAACTGGGC AAGAGGTGCT GCACCAACTC 
TCAGTGTATG ATGGCAATGT GGAGAGACAA ATGCAGAGGA TTGAAAATCT TTCTGATTTG 
GAGAAGTTCA CCTTACAGGG ACTTCATGAC TTCTGGGATA CAGTGAAACA AGAGTCAGTG 
ATTAGGAGGA AGTGGATCAA GGATCTGGAT GATACCCTGG CTAAGTATGA GTCTGACAGA 
ACAGCCATGA TTGCAGCATT GCTGAGAAAA TACACAGGGA AACTGGAAAA GATCTGCTAC 
GTAATGCCTT CGGATATCCA CCGACTGATC AATAGAGAAG CCATGATGAT AAACCAGGCT 
ATTCTAGCAA ATAGACGAGC AGTGGCCAAG CTCTACCTGA ACCTGATGGA GAATGATCTA 
CAGAAGGAGG TATTCCACCG ACTCAGATGG GAGGACAAAC TGCAAGACTG GAAGAGCTTT 
AAGGTCCTTG GTGTGGTCAG CAGGTTCAAA GATTTCATGG GAAGCCCTCC AATCCAGTGT 
CCCAAGGACG TACAAGCTAT TCTGGACACC ATGAGTGCAG CACAGCAATC TTTTAGAGAA 
AGACGCATCA AAATTCTTCA GTCACTCACT GCCATGATAC CTCCAAGATG TTCAAAGACT 
CTAATCACTG ACTGGTATAA GTCTTTGTCA TCTGTCAACG AGCAAATTGA TTGTATGCAC 
ATTGAATCAA TGAGGAAGCT ACATTCTTAT TATGAAAATA CCTGGCAAGA ATGCCTAGCT 
GAGGTAGAAC AAGTCAAGAA AGAGATTACT ACATATGGGG TTTCTCCAGA AGAGATCCAG 
CATACTGTTA ATGCTGAGTT CCTGCCTCTG ATTGGGAAAT GCCAGAGCCA GACCGAGGAG 
CACCTTGCCA CCATGGATAG AGCGTTTGAG TCTTTGGCCA AGAGAGCTGC TGTGCTAAGT 
AAGTCACTTT TCAAATTCAC ACGTGGGGCA TCTCACCTGT GGGAGGTGCA CAGTGCCGGG 
CTGCAGAGGA GGGAGCAGCA GCTGCAAGAC CAGCTGGACG AGGTGCGCTA CAGTCAGGAG 
CATGAAATCC AGAAGAAGGA GGCTCATCTT GATGTTATGT TGGACAGACT GAGACAGGAG 
AGCACTGAAG AAGCACTCAA AATCACGCTG GAGAAGACTC TACACTCCCT GGATGAAATA 
AAACTTGTAT ACATGCACTT CTACAAAGAA GAGGTGGACA CAGTGGAGAG TTATCCTGCC 
ATGGTCTTGG AGGAGCTGCA CTCTTACAGC TCCGCTGTCA GTCGATTCTT CAACGTCAAG 
GAGATATATA CCGGTAGTCA GGACTCTGAG GAACTTCGCT CCCTTTATCC CGTCATAAAC 
CTTGATTTAA GTGGGAGGGC CAGTGTGAAG AGGACAAGAC AGACCACTGT ACAGGGAAGG 
AAACGTTGTC CGGGAGGATT CCAGAAAAGT CCAAATCCAG CACATTCATC CTTTGATGAA 
TTTGACACTG AGGATGACAT TGATTCCCAT TGGGAGTTTC TTGACTCTCA GTCCAGTGAG 
TCATTCTGCA CCTCTAAAGG CAATGTGTAC AACGGTCAGA GCTTTGTCTC TCAATGGGAC 
ACGGAGCAGG ATCCCATTCC ATCTGAGATG GAGTTGGTTG TGTTCCCCAG AAGTCTTCTT 
GCGGATCTAC AAAAAGATAT ACGTCTGTTG TTTTTCAACC ACCTCGAAGA GAGATATCAG 
ACTGCTCTCA CCAACACGAT GAATATTGTG GCAGCCAAGA AGGAAGCACT GAAGTCAGAG 
CAGGATCTCC GACTGCACCT CCACCAACCA CGGGCTAAGA GAATCGAGGT GGACATCCAC 
AATGTCCGTG CTGAACTGGT ACTGCACAGA GATCGTGTGG ATAGGCACTG TAAAGGCATC 
TTGCAGGCCC TTGGCAACTG CCGAACGGAC TTCCACGAAC TCCAGATTCG ACAGCACAAA 
CTGACTGAGG ACTTCAGATC CCAGATTTAC AGCATGGAGG ATGTCTTTAC CTATGCCACC 
AAGTCAGACG TGCTGGTTGG GCTATGTGGT ACGCTGCAAT CCAATTTGGA GAGCCACATG 
AACATCATTC AGGCATCACA GAGAAACTTC AGACAGACTC TGGAGTCCAA GCTGGATGGC 
CTAAGAGAGA CCAACGTCCA GTTAATCAAA TCCTTTAAGC TGTTCTCAGA TGGAGGGAAC 
TTCACACCCA AAGAGATAGA GGCGCATCAC AAACGGATTG AGAAAATGGT TAAACGTATC 
GACACCAACG ATGAGGCTAT AATGCTGGAT ATGGAGGGGA CAGAGTCCAA GTGTCTGGAG 
CTGGCGAAGG ATGTGATAAA CAGATTTGAG GAGAAATTCC ACTTTTTGAC AGTGGATTTG 
AAATTTCTGG AGAAAATCCA AGGAATGCTA ACAAATACAC AGGTTCAGAT AAAAACAGAG 
GCAACAAAGA GCAACATGCA AAATAAGAAA ATCAACAGCC TCCTGACAGA GTTAAAAAGT 
ATGGTAGATA CTTGTGCCAG AAGCAGTCCA GAAAAGACAG TGACAACAGA TGATGTTTTC 
ACTTTTACGT GGTCTATAAT AGAGGAATTG AGGGCACGAT GCCATTATCT TGAATGCTTT 
TTGAACCCTT CCATGGCAGT ACTGATGCCT GAATGCCCTC TCCAGGGGGC CTTCGCTGTA 
GCAGCACGCC CCAAGTCCCG CAAGTCAGCA AGCCCTGCCA TAGACGGTCT GCTCCAGCCC 
AGCCGCATGG GGGTGTCCTT CATGGATGAT GTGGCCGTGG GGGTCATCAG GGGACTGCTG 
AGGCTAAGCA AGCCTAAAGT CACCCAGGAA GCCAATTCAG AGTCGACAGA GAGGGTCTCA 
GCAGCAGTCA CAGTCAGGTT GTCGTCTCCT ATTGGGCAGA GGTCAGGGGA TTCTGCCGAA 
TCTGTCAGTG CACAAAGTGT GAAGAGGTTT TCTAAACCCA CTCGCTTTGA CAAGAGATTC 
CAGGTGTTTG GTCCCAAACC AGAGACACAT GGCGTAACTA CTTTCAAAAG TTTGATAACC 
AGCATTCTTT GGAAGACCAA TGATATTCTT CTCCTGGTTG CTGAGGAGTT CTATAAGAAG 
AAGGAACGCC GGCCTATCAC AAGGCCTCAG TACCTCCAGG AGACGTTTGA ACAATGTGCT 
GAGGAGATTA ACAAAAGGCT GCTCGTCTAC CAGGGCCAAA CTCAGGACTA CCACAACAAC 
TGTCTGCAAG AATTCCGACA GCAGCTGAAA GACATTGAGG AGGGTCTTTC CAAGGTGCCA 
GGGGTGCTCA TCTCTAACCT GGGAGAACAA CACCTGGGGA GCCTGAGCCA AGACACGGAC 
AACATCCGTC AACAGCTAGG CATCACTCTG CATGAGAGCG AGGGGAGAAA GAAAAAGCAC 
AGTGACAAGC TGAGTGTGCG TCTGAGCCAT CCTGCTTGTG AGAAAGAGCT GGAGACCTTG 
AATCGTGCTG AAGAGGAGAG ACAAAGAGAG CTGACCAATG CCATCATGAA CACTCTGCAA 
GAGCTACAAG CATGTGTGAG GAAACATGGG GAGGAGTTTG TGAGATCACT CACCTCTCTG 
ACAGAGAACC TGCTGTTCCA GATGGACAAC CTCCTGACCG TAGATGAGGT CCAAGTTGGC 
CAAGCTGAAA TGAAGAGTGA AAATGTCACC ACTCTAATTC GCCGAAAACA AGCTGGTATT 
CCGCTAGAGG AGAAGCAAAG TGCACATCAA ATACAGCGAG GCAGCAGAAC GTGGCCAGGA 
ATCTCTTACT TTGGATCCAG TACTGATGGT CCAGTGGAGC AACCATGCAA GAAAACAGCC 
TCCATCACCA CTGCAAAGAC CACCTTAGGC CACCTGAGAG CAGTGGAGGC CTGTGAATCT 
ATGTACCAGT GCTATGAGCA GCGGTACAGG GAGGAGCTGG CCCGGGCCGT GCAGGAGAGC 
CAGGTCCAGA GGACGGAGGT GCAGTGCTGG GAGGAACACT GGAGAGGCTT ACTGAACACT 
CTGACCCAGC TCAACGCTGA GTGA

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

PubMed

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission

ccdc180 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

News & Blogs

REQUEST A QUOTE

EMAIL

PHONE

ONLINE FORM

ONLINE FORM

SUPPORT

COMPANY

SUPPORT

COMPANY