LOC110511367 cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC110511367
Entrez Gene ID	110511367
Full Name	uncharacterized LOC110511367
Gene Type	protein-coding
Organism	Oncorhynchus mykiss(rainbow trout)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021592318.1	XP_021447993.1	uncharacterized protein LOC110511367

Pathways from BioSystems
Gene Ontology

The following LOC110511367 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC110511367 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
OOf49080	XM_021592318.1 Latest version!	Oncorhynchus mykiss uncharacterized LOC110511367 (LOC110511367), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

LOC110511367 ( XM_021592318.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021447993.1 Oncorhynchus mykiss uncharacterized LOC110511367 (LOC110511367), mRNA.

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CloneID	OOf49080
Clone ID Related Accession (Same CDS sequence)	XM_021592318.1
Accession Version	XM_021592318.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4416bp) 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	1498406400000
Organism	Oncorhynchus mykiss(rainbow trout)
Product	uncharacterized protein LOC110511367
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018531387.1) 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 :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCCCTG TCATTTTTGC CAGTGGTGGT GTCTCCAGCA CCAAGGTGGT TGAGGAGATG 
GTGTCTGGCG TTTCCAACAT ACTTCAGATG TACATTAATG GGAAGAGTGT TGAGCAGAGT 
GTTGTTCTCA GAGAGGATGG TGTTGAGGTG GATATGACAC ATTTAACAGG ACAGGTCATG 
ACAGCCCTCA GTGGCACTGT TTTGAACTTC AGCAATAAGG AGGAAAATGA ACCCGACAAG 
AGGGAACTGC TTTGTGTTGT TGCTGACCAT ATGAAGAGGC TTGAAGCTTG TAAAAGTCCT 
GAGGAGATGC TAAAACAAGG AGAGAGCAAC CTCAATATCA AAGGTACCAA ATCTAGTCTT 
CGTCTGTCAA CACAAAGTAT GGACAGACTA CTCACTGAGG AGTTTCAGAC CAAGGCCATT 
GAATCGATCC GGGAGATCGT TAAAAGATTC AGGGGTTGTG CATCATGTTG TTCTGGCACT 
ACATCATCTA GTCCAACTCC TAGGATAGGT GGGATCAGAG ACCTTATGAT TGACCCTGAG 
GCTTCTGAGT TGGTAAGTAC CTTTGTTTCA GACATGGACA ATCTTACCCA GTCTATCAGG 
GCATCCTGCT CCCCTGCACA GAGTGAGCAG ATTCTTCTTG AAAACCATCA AAGTAAGATC 
TGGTCTTACA CTGTTGGTTG TTACTACGAC ATGAAAAATA CGCTGAAGAG ACTCCTTGCC 
TGTCCAGAAA AAGGGGATCT CGCAAGTACA TTTGTGGAGA GCACAAAAGA TTCTTTCACA 
ATGGTTCCAA CTTTGTGCCT GGACATCGGT CATTCCAGTA ATGGTAAGGC TGACACATCG 
GACTCCATTT CTTGTAAACC ACTTTTAATA ACCTCCTCAT CTATGAATGA ACAAAAAGGA 
CAAAGTGAGA CCCCAAAACC TCTCTTGGCT CTCAAAAAGT ATTTGCAAGA CCAAGTCCTC 
CTTGACACCG CAAAAGCGAT TGCTAGCCAG GTTCTAGTCT TGTATAAGAC TGAGGTGTTG 
GAGAAGTTCT CATCTTCTGT TGGAGAGTGT GATTCTGAAG AGTCTCTGGA GGCCATTCTA 
TTTGTGGATG GCATCATGTC TGACTTGAAT GATTTCACCA GTTCTTGTTC CGCCTCACCA 
TCTGAGTTGT TAGACAGTGA ACAATGTCTC TCCCATCTCA CTTTTCCACT TGGTCTGCAG 
GACAGCACCA CCAACAGTGA ATCTACCCAG AGTCTTCCAG TTATAAATAT TAAGAAACTC 
TCCAGTGTGT CTTTCCAGAC AAAGGCTAGA AAGGCAGTGA GTGAAGCTCT GAGATCTGTC 
AACCCCTTTA CAAACAGCTT ACTGGGAGAC TCGGAAGCAT CTAAATTGCT GGACACTTTT 
GTAACAGATG TGGAGACTAT TGTTCAGTCC ATGCAGGCAC ATGACTCTGA AAATTTCAAA 
ATGTCAAAAG GGAGCACCCT TTCTGCTGCT CGTATTATAT ATCATAGATT TCGAGAAATG 
CTGAGGTGGT TTCTCACTCC CTGCCAAGAC TCTGTAAAGG TCATCGATGG TGTTACACCA 
ATACATAATG AGACTCTCAA ACAGGCTCCT AGTGAAAGTT TAGATTCTCA GGTGACTTGT 
AATAGTGATT CTCTTGAAAT CCAAGCAGAC CTTCAAACCT GTACCAAGGA GGTCATTAGT 
CAGATCCTCA CTGTGTATCA CTCCGAGGAA TCCATGGAGG AATGCATCTC TAGCCTAAAA 
GGAGATACAG AAGACCTGTC CAAGCTTTTG GATGCCGTTG TTTCTCAGAT TGACGTCCTT 
GCCGCCTCCA AATCATATTT ATTTGTTTAT GACTATGCTG TCAATACACA GGACAATTTG 
CATGGTGAGA TCAACAATAT TGAGGAGGAG GCATCCTCTA GAAGTTTTAA ATCCACAGCC 
TTTGACAAAC TATGTACTGA GGAGTTTCAA ACTAAAGCCT CACATATGGC TGGTGGGATC 
CTTCAATCAG GGTTAATTGG CATTGTAAAT ACCAACCTTG ATGGTAGAAG TGCAGACATT 
TGTGCAGAGT CCAGTAATGA AGGTGATGTC AAAATCCTTC AGAAGAGTGG AACCCCATCT 
TTGTTCACCT CTTCTCTGCA CACCAATTCT GCAGCATCCA ACATCGTCAT AAGCATCACT 
AAAGACCTTA ATAGCTTCAC CCAGATGACT AAAATGTCTG ATGCTTCAGT GTCTGGCCAG 
TTAGAGAGAT CCCTGTCAGC TTCAACCCTT CCTGTCAGTG TTCACAACGG GGCCAATGTG 
AAAGGAAAGA TAATTTGGCC AGGCACCGTT AACCTGTTCA ACAATGTGTT CACCAAGGTC 
AAGGATTTTT TTGCCCAGCA ACAACCGGTC CTCCTAGACA ATGTGGTTGA GGCCTCCAAA 
CATGCCAAAT CCATATGCAG AACAGCTACT TCTACACAAA TGACTTACAG TGAACATGAA 
GGCAGCCAGA CCAGCATGGT AAATTATTCC AAAACCTTAA TTAGTCAGAC TCTGATGACA 
ATCCAGAGGA GAGTGTCTAT GTCAGAGAGG ATGAGCACCT CAGAGAAAGG CCTCTTGACT 
CGTTCCATCG TGGGCTCCAT GTTGGAGGAT GTTGACATGG TGAGAACTGA TGGAAACGAG 
ATACACCGGC CATCCTCCTC AAAGTCCTCC CTGTCCATCA CCTCTGCCAT GACCAGAGGG 
TCCCAGAGTG ATTTTACAAA TTCTCTTCCA GGCACTCCAG TCCCCAATGA GTGGCCTGTT 
GAAATCTATT GTCCTATCAT TAGGAGTTCG GTCATTGATA TGAGTGACTC CTCAACTCAT 
TCACAAGGGT CAACAAATTA CACAAGGCAA ACCATTTCTG CCATAGTTGA CACTGTTATG 
GAGGTCATTC CAAGAGAAGA TATGGAACAC ATAGCAACTG CAGATGATGT CACTTCTTTT 
ACAAGGAGAC TTGCGAGACT CAGCCCCAGG GACGGTCTTC AGAACTTCTC ACATGAGCTC 
ACTGACAAAG TTTATGAGCT CATAAAAAGT CACAACACCC CCCAGGCTAT TTTTGTGCCA 
GCTGACAAGA GCGTGTCTGA CTCTATTCTT TTGAAGCTGA AGACAGGATT GAATGCTTCT 
GAAGAATCCA GGGAGTTTCC ATCTGACCTT GTGTACTCCT TTGCTACGGA GTCAATAAAA 
CGTCTGCTAC AGCAGATTGT CTTCTGGCTT CCTCCACCAA CACAAGGATC CGATTTCTGC 
CAAACTGTCA TCTCTGATGG TTCTCTGCAG GACACAAGTC AGCTTATCCC GAGCTCTTCT 
GCCATCTCCA TTAGTTCCTC ACAGGTTTAC AGTGACACAA AGAGCCCTTT CACCAATATA 
ATGGTCAATC AGGTCATGGA TACCTGTTCT GTGGCCTCCA GTTCATCAGA AGAATTATCA 
GAGTTGATGA ACATAATCAA TGGGTTGTCC CCAACTGATG CTGGAACACT TGACTCTGAC 
AGACCGGCTC TCATGACCAC TAGCCGTCAG TCTAGTGCCA AATCATTGCC TAGAACCTCT 
CTGTCTGGCA GCAGCACACA CAACGGTGGA ACTGTGGATA TTCAAGTTTT AGGAGAGGTG 
GAATCCAAGA TGGACAACAA AGATCTGGAG ATGTGTAGTG TCTCTGTGTA TCCATCAACT 
CCATCAGCCA TGGACTCTGA TACACATGCA TCATTTGACT CCACTAGCAA TGACTACACC 
TCTTTGGTAC TTTTACTGAT TGTTAGATTG CTGTCAATGA TCACCCCTAT CACATTACTG 
GAATCCTCTG ACATTGGTGA AACATCAAGA GTTCTCACAA AGAGGATTCT GTCTGAGTTC 
TGTGGCACCT CAGGCCTTGA ACCAACTCAA GCCTACCCCC AGAATCTGAA AATCAAAAAG 
ATTTTCAAGG CTGTCTACAA GGGGCTTCTT CAAGAATTTG GGTCAGAGAA GATGCTCCAG 
GTTGCAATGA AGTCAACGGA TTATGCATTT GACGATGCCC TGGTCAAATC ATTAACTAGG 
GAACTACTAA CTAAATGCAA TGAGGCTAGC TCTTCACCTC CCTCCATGAC CCAGTTGTCA 
TCACACTTGG CAGTGACACT TGGCAGTGAC GAGGTAGGTA ATTCTGGGCT TCCAACAACT 
GGTAGAAAGG AAAAGAAGAG AGGAAGATTC AGCTCTCTCT GTGGACTCAA CCCAAAGTGT 
ACAAAGAAGG TCAACAAGAA GAACCACTGC ATTCCAACAC CTTCCCAGAA CCAGACACCT 
GCCGTCAGTG AAACAGCAAT TGTCAAAAGA TCAAGAATCC TGCCAAACAG AGAGTGTATG 
CTCCACCAAG AAGAAACCAA GGAAGCGTTC GCTCATTTCC AGGATGTTTT CAGCTATAGG 
CAAAGCCTTT TCCAGTCCCT TTACTTCCTG CTATAA

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

RefSeq	XP_021447993.1
CDS	125..4540
Translation	MSPVIFASGGVSSTKVVEEMVSGVSNILQMYINGKSVEQSVVLREDGVEVDMTHLTGQVMTALSGTVLNFSNKEENEPDKRELLCVVADHMKRLEACKSPEEMLKQGESNLNIKGTKSSLRLSTQSMDRLLTEEFQTKAIESIREIVKRFRGCASCCSGTTSSSPTPRIGGIRDLMIDPEASELVSTFVSDMDNLTQSIRASCSPAQSEQILLENHQSKIWSYTVGCYYDMKNTLKRLLACPEKGDLASTFVESTKDSFTMVPTLCLDIGHSSNGKADTSDSISCKPLLITSSSMNEQKGQSETPKPLLALKKYLQDQVLLDTAKAIASQVLVLYKTEVLEKFSSSVGECDSEESLEAILFVDGIMSDLNDFTSSCSASPSELLDSEQCLSHLTFPLGLQDSTTNSESTQSLPVINIKKLSSVSFQTKARKAVSEALRSVNPFTNSLLGDSEASKLLDTFVTDVETIVQSMQAHDSENFKMSKGSTLSAARIIYHRFREMLRWFLTPCQDSVKVIDGVTPIHNETLKQAPSESLDSQVTCNSDSLEIQADLQTCTKEVISQILTVYHSEESMEECISSLKGDTEDLSKLLDAVVSQIDVLAASKSYLFVYDYAVNTQDNLHGEINNIEEEASSRSFKSTAFDKLCTEEFQTKASHMAGGILQSGLIGIVNTNLDGRSADICAESSNEGDVKILQKSGTPSLFTSSLHTNSAASNIVISITKDLNSFTQMTKMSDASVSGQLERSLSASTLPVSVHNGANVKGKIIWPGTVNLFNNVFTKVKDFFAQQQPVLLDNVVEASKHAKSICRTATSTQMTYSEHEGSQTSMVNYSKTLISQTLMTIQRRVSMSERMSTSEKGLLTRSIVGSMLEDVDMVRTDGNEIHRPSSSKSSLSITSAMTRGSQSDFTNSLPGTPVPNEWPVEIYCPIIRSSVIDMSDSSTHSQGSTNYTRQTISAIVDTVMEVIPREDMEHIATADDVTSFTRRLARLSPRDGLQNFSHELTDKVYELIKSHNTPQAIFVPADKSVSDSILLKLKTGLNASEESREFPSDLVYSFATESIKRLLQQIVFWLPPPTQGSDFCQTVISDGSLQDTSQLIPSSSAISISSSQVYSDTKSPFTNIMVNQVMDTCSVASSSSEELSELMNIINGLSPTDAGTLDSDRPALMTTSRQSSAKSLPRTSLSGSSTHNGGTVDIQVLGEVESKMDNKDLEMCSVSVYPSTPSAMDSDTHASFDSTSNDYTSLVLLLIVRLLSMITPITLLESSDIGETSRVLTKRILSEFCGTSGLEPTQAYPQNLKIKKIFKAVYKGLLQEFGSEKMLQVAMKSTDYAFDDALVKSLTRELLTKCNEASSSPPSMTQLSSHLAVTLGSDEVGNSGLPTTGRKEKKRGRFSSLCGLNPKCTKKVNKKNHCIPTPSQNQTPAVSETAIVKRSRILPNRECMLHQEETKEAFAHFQDVFSYRQSLFQSLYFLL

Target ORF information:

RefSeq Version	XM_021592318.1
Organism	Oncorhynchus mykiss(rainbow trout)
Definition	Oncorhynchus mykiss uncharacterized LOC110511367 (LOC110511367), mRNA.

Target ORF information:

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

XM_021592318.1

ORF Insert Sequence:

ATGTCCCCTG TCATTTTTGC CAGTGGTGGT GTCTCCAGCA CCAAGGTGGT TGAGGAGATG 
GTGTCTGGCG TTTCCAACAT ACTTCAGATG TACATTAATG GGAAGAGTGT TGAGCAGAGT 
GTTGTTCTCA GAGAGGATGG TGTTGAGGTG GATATGACAC ATTTAACAGG ACAGGTCATG 
ACAGCCCTCA GTGGCACTGT TTTGAACTTC AGCAATAAGG AGGAAAATGA ACCCGACAAG 
AGGGAACTGC TTTGTGTTGT TGCTGACCAT ATGAAGAGGC TTGAAGCTTG TAAAAGTCCT 
GAGGAGATGC TAAAACAAGG AGAGAGCAAC CTCAATATCA AAGGTACCAA ATCTAGTCTT 
CGTCTGTCAA CACAAAGTAT GGACAGACTA CTCACTGAGG AGTTTCAGAC CAAGGCCATT 
GAATCGATCC GGGAGATCGT TAAAAGATTC AGGGGTTGTG CATCATGTTG TTCTGGCACT 
ACATCATCTA GTCCAACTCC TAGGATAGGT GGGATCAGAG ACCTTATGAT TGACCCTGAG 
GCTTCTGAGT TGGTAAGTAC CTTTGTTTCA GACATGGACA ATCTTACCCA GTCTATCAGG 
GCATCCTGCT CCCCTGCACA GAGTGAGCAG ATTCTTCTTG AAAACCATCA AAGTAAGATC 
TGGTCTTACA CTGTTGGTTG TTACTACGAC ATGAAAAATA CGCTGAAGAG ACTCCTTGCC 
TGTCCAGAAA AAGGGGATCT CGCAAGTACA TTTGTGGAGA GCACAAAAGA TTCTTTCACA 
ATGGTTCCAA CTTTGTGCCT GGACATCGGT CATTCCAGTA ATGGTAAGGC TGACACATCG 
GACTCCATTT CTTGTAAACC ACTTTTAATA ACCTCCTCAT CTATGAATGA ACAAAAAGGA 
CAAAGTGAGA CCCCAAAACC TCTCTTGGCT CTCAAAAAGT ATTTGCAAGA CCAAGTCCTC 
CTTGACACCG CAAAAGCGAT TGCTAGCCAG GTTCTAGTCT TGTATAAGAC TGAGGTGTTG 
GAGAAGTTCT CATCTTCTGT TGGAGAGTGT GATTCTGAAG AGTCTCTGGA GGCCATTCTA 
TTTGTGGATG GCATCATGTC TGACTTGAAT GATTTCACCA GTTCTTGTTC CGCCTCACCA 
TCTGAGTTGT TAGACAGTGA ACAATGTCTC TCCCATCTCA CTTTTCCACT TGGTCTGCAG 
GACAGCACCA CCAACAGTGA ATCTACCCAG AGTCTTCCAG TTATAAATAT TAAGAAACTC 
TCCAGTGTGT CTTTCCAGAC AAAGGCTAGA AAGGCAGTGA GTGAAGCTCT GAGATCTGTC 
AACCCCTTTA CAAACAGCTT ACTGGGAGAC TCGGAAGCAT CTAAATTGCT GGACACTTTT 
GTAACAGATG TGGAGACTAT TGTTCAGTCC ATGCAGGCAC ATGACTCTGA AAATTTCAAA 
ATGTCAAAAG GGAGCACCCT TTCTGCTGCT CGTATTATAT ATCATAGATT TCGAGAAATG 
CTGAGGTGGT TTCTCACTCC CTGCCAAGAC TCTGTAAAGG TCATCGATGG TGTTACACCA 
ATACATAATG AGACTCTCAA ACAGGCTCCT AGTGAAAGTT TAGATTCTCA GGTGACTTGT 
AATAGTGATT CTCTTGAAAT CCAAGCAGAC CTTCAAACCT GTACCAAGGA GGTCATTAGT 
CAGATCCTCA CTGTGTATCA CTCCGAGGAA TCCATGGAGG AATGCATCTC TAGCCTAAAA 
GGAGATACAG AAGACCTGTC CAAGCTTTTG GATGCCGTTG TTTCTCAGAT TGACGTCCTT 
GCCGCCTCCA AATCATATTT ATTTGTTTAT GACTATGCTG TCAATACACA GGACAATTTG 
CATGGTGAGA TCAACAATAT TGAGGAGGAG GCATCCTCTA GAAGTTTTAA ATCCACAGCC 
TTTGACAAAC TATGTACTGA GGAGTTTCAA ACTAAAGCCT CACATATGGC TGGTGGGATC 
CTTCAATCAG GGTTAATTGG CATTGTAAAT ACCAACCTTG ATGGTAGAAG TGCAGACATT 
TGTGCAGAGT CCAGTAATGA AGGTGATGTC AAAATCCTTC AGAAGAGTGG AACCCCATCT 
TTGTTCACCT CTTCTCTGCA CACCAATTCT GCAGCATCCA ACATCGTCAT AAGCATCACT 
AAAGACCTTA ATAGCTTCAC CCAGATGACT AAAATGTCTG ATGCTTCAGT GTCTGGCCAG 
TTAGAGAGAT CCCTGTCAGC TTCAACCCTT CCTGTCAGTG TTCACAACGG GGCCAATGTG 
AAAGGAAAGA TAATTTGGCC AGGCACCGTT AACCTGTTCA ACAATGTGTT CACCAAGGTC 
AAGGATTTTT TTGCCCAGCA ACAACCGGTC CTCCTAGACA ATGTGGTTGA GGCCTCCAAA 
CATGCCAAAT CCATATGCAG AACAGCTACT TCTACACAAA TGACTTACAG TGAACATGAA 
GGCAGCCAGA CCAGCATGGT AAATTATTCC AAAACCTTAA TTAGTCAGAC TCTGATGACA 
ATCCAGAGGA GAGTGTCTAT GTCAGAGAGG ATGAGCACCT CAGAGAAAGG CCTCTTGACT 
CGTTCCATCG TGGGCTCCAT GTTGGAGGAT GTTGACATGG TGAGAACTGA TGGAAACGAG 
ATACACCGGC CATCCTCCTC AAAGTCCTCC CTGTCCATCA CCTCTGCCAT GACCAGAGGG 
TCCCAGAGTG ATTTTACAAA TTCTCTTCCA GGCACTCCAG TCCCCAATGA GTGGCCTGTT 
GAAATCTATT GTCCTATCAT TAGGAGTTCG GTCATTGATA TGAGTGACTC CTCAACTCAT 
TCACAAGGGT CAACAAATTA CACAAGGCAA ACCATTTCTG CCATAGTTGA CACTGTTATG 
GAGGTCATTC CAAGAGAAGA TATGGAACAC ATAGCAACTG CAGATGATGT CACTTCTTTT 
ACAAGGAGAC TTGCGAGACT CAGCCCCAGG GACGGTCTTC AGAACTTCTC ACATGAGCTC 
ACTGACAAAG TTTATGAGCT CATAAAAAGT CACAACACCC CCCAGGCTAT TTTTGTGCCA 
GCTGACAAGA GCGTGTCTGA CTCTATTCTT TTGAAGCTGA AGACAGGATT GAATGCTTCT 
GAAGAATCCA GGGAGTTTCC ATCTGACCTT GTGTACTCCT TTGCTACGGA GTCAATAAAA 
CGTCTGCTAC AGCAGATTGT CTTCTGGCTT CCTCCACCAA CACAAGGATC CGATTTCTGC 
CAAACTGTCA TCTCTGATGG TTCTCTGCAG GACACAAGTC AGCTTATCCC GAGCTCTTCT 
GCCATCTCCA TTAGTTCCTC ACAGGTTTAC AGTGACACAA AGAGCCCTTT CACCAATATA 
ATGGTCAATC AGGTCATGGA TACCTGTTCT GTGGCCTCCA GTTCATCAGA AGAATTATCA 
GAGTTGATGA ACATAATCAA TGGGTTGTCC CCAACTGATG CTGGAACACT TGACTCTGAC 
AGACCGGCTC TCATGACCAC TAGCCGTCAG TCTAGTGCCA AATCATTGCC TAGAACCTCT 
CTGTCTGGCA GCAGCACACA CAACGGTGGA ACTGTGGATA TTCAAGTTTT AGGAGAGGTG 
GAATCCAAGA TGGACAACAA AGATCTGGAG ATGTGTAGTG TCTCTGTGTA TCCATCAACT 
CCATCAGCCA TGGACTCTGA TACACATGCA TCATTTGACT CCACTAGCAA TGACTACACC 
TCTTTGGTAC TTTTACTGAT TGTTAGATTG CTGTCAATGA TCACCCCTAT CACATTACTG 
GAATCCTCTG ACATTGGTGA AACATCAAGA GTTCTCACAA AGAGGATTCT GTCTGAGTTC 
TGTGGCACCT CAGGCCTTGA ACCAACTCAA GCCTACCCCC AGAATCTGAA AATCAAAAAG 
ATTTTCAAGG CTGTCTACAA GGGGCTTCTT CAAGAATTTG GGTCAGAGAA GATGCTCCAG 
GTTGCAATGA AGTCAACGGA TTATGCATTT GACGATGCCC TGGTCAAATC ATTAACTAGG 
GAACTACTAA CTAAATGCAA TGAGGCTAGC TCTTCACCTC CCTCCATGAC CCAGTTGTCA 
TCACACTTGG CAGTGACACT TGGCAGTGAC GAGGTAGGTA ATTCTGGGCT TCCAACAACT 
GGTAGAAAGG AAAAGAAGAG AGGAAGATTC AGCTCTCTCT GTGGACTCAA CCCAAAGTGT 
ACAAAGAAGG TCAACAAGAA GAACCACTGC ATTCCAACAC CTTCCCAGAA CCAGACACCT 
GCCGTCAGTG AAACAGCAAT TGTCAAAAGA TCAAGAATCC TGCCAAACAG AGAGTGTATG 
CTCCACCAAG AAGAAACCAA GGAAGCGTTC GCTCATTTCC AGGATGTTTT CAGCTATAGG 
CAAAGCCTTT TCCAGTCCCT TTACTTCCTG CTATAA

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

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LOC110511367 cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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