wdr35 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	wdr35
Entrez Gene ID	106607832
Full Name	WD repeat domain 35
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014205269.1	XP_014060744.1	WD repeat-containing protein 35 isoform X1
XM_014205357.1	XP_014060832.1	WD repeat-containing protein 35 isoform X2

Pathways from BioSystems
Gene Ontology

The following wdr35 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the wdr35 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
OAt03732	XM_014205269.1 Latest version!	Salmo salar WD repeat domain 35 (wdr35), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAt03733	XM_014205357.1 Latest version!	Salmo salar WD repeat domain 35 (wdr35), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*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)

wdr35 ( XM_014205269.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060744.1 Salmo salar WD repeat domain 35 (wdr35), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt03732
Clone ID Related Accession (Same CDS sequence)	XM_014205269.1
Accession Version	XM_014205269.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3552bp) 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	WD repeat-containing protein 35 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332481.1) 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 :: 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##

ATGTTTATTT ATCTCAGTAA GAAGATTGCC ATCCCCAACA ACATACGGCT GAAGTGTGTG 
TCATGGAACA AAGACCAAGG CTTTATAGCC TGTGGAGGGG ATGAGGGTCT TCTCAAAGTC 
CTGAAGCTGG AGACACAGAC AGACGATGCC AAACTCAAAG GACTTGCAGC ACCCAGCAAT 
TTGTCAATGA ATCAAACACT TGAAGGCCAC AGTGGTGCAG TCCAGGTTGT GACGTGGAAT 
GAGCAGTACC AGAAGCTCAC CACGAGTGAC CAGAATGGTC TCATTATTGT GTGGATGCTC 
TACAAAGGCT GCTGGTACGA GGAGATGATT AACAACAGGA ACAAGTCCGT GGTGAGGAGC 
ATGAGTTGGA ATGCAGACGG CCAGAAGATT TGTATTGTTT ACGAGGACGG GGCAGTCATT 
GTTGGATCTG TAGATGGTAA CCGAATCTGG GGGAAAGAGC TCAAGGGAAT TCAGCTCGCT 
CACGTGGCCT GGTCACCAGA TAGCAAGATC CTCCTTTTTG GGATGGCCAA TGGGGAAATC 
CACATCTACG ACAATCAGGG AAACTTCATT ATGAAGATGA CGGTCAGTTG TCTGCATAAC 
GTGACTGGAG CCATCAGTAT CGCAGGGATC CACTGGTACG CAGGGTCAGA GGGCTACGTG 
GAGCCAGACT GCCCCTGCCT GGCCATCTGC TTCGATAACG GACGGTGTCA GGTCATGCGA 
TACGAGAGTG ATGAAAGCCC AGTGTTCATA GACACACTGA TGAACGTGGC CAGTATCCAG 
TGGAACCAGT GTGGCAGCGT GCTGGCTGTG GCAGGCTCCC TGAGGGGCAT GGAGAAGGAG 
GTCAACGTGG TGCAGTTCTA CACCCCATTC GGAGAGCATT TGCGAACTTT GAAGGTACCT 
GGCAAGCAGA TGACAGAGGT TGCTTGGGAA GGGGGAGGAC TGAGGATTGG ACTGGCTGTG 
GACTCCTACA TTTACTTTGC CAACATAAGG CCTGATTACA AGTGGGGCTA CTGCTCCAAC 
ACAGTGGTGT ATGCCTACAC CAAGCCTGAC CGGCTGGAGT ACTGTGTGGT GTTCTGGGAC 
ACCAAGAACA ACGAGAAGTT TATCAAGTAC GTCAAGAGCC TCATGTCCAT CACCACATCC 
GGAGACTTCT GCATCCTGGC CACCAAGGCA GATGACACAC ACCCACAGGA GGATGCTGAC 
GTAGAGTCGG GAAATAATGC CATGTATGTG CTGGTTCTCT GTAACTCCAT TGGGACCCCA 
CTGGATTCAA AATACATTGA CATTGATCCT CTGTTCGTGA CCATGACTAA GACCCATGTG 
ATCGCTGCGT CCAAGGAGGC TTTCTACACC TGGCAGTACC GCGTGGCTAA GAAGCTAACT 
GCCATGGAGA TCAACCAGGT GTCCAGGACC AGGAAGGAGG GTAGGGAGAG GGTTTATCAT 
ATTGATGATA GTCCATCTGG GACCACTGAG GGCCCCCTGG ACTTTGCCAA GGCCTTCACT 
GCAACACGAG ACCCCATTTG TTGCATCACA GCAACAGACA AGACACTGAT TGTGGGCCGT 
GAGTCTGGTA CCATCCACAA ATACAGCCTC CCTAACGTCG CTCTGGTGCA GAAATACTCC 
TTAAACTACC GGGCCTACCA GCTCTCACTC AACTGTACCT CCAGCCGCTT GGCGATTATT 
GACATTTCGG GAGTGCTGAC GTTTTTGGAC CTGGAGGTGC GTTCGTCTTC GGATGATGGC 
TCTGGAAGCC AGGCGGGGAC AGGCGACCCC TCCAAGTTTG AGCGCAAGGA CGTCTGGGAC 
ATGCAGTGGG CCAATGACAA CCCTGATCTG TTTGCCATGA TGGAAAAGAC CAGGATGTAC 
GTGTTCAGGA ACCTGGACCC AGAGGAACCC ATTCAAACGT CTGGATACAT TTGCAACTTT 
GAAGACCTGG AAATCAAATC GGTCCTGCTA GATGAAATCA TGAAGGATCC GGAGAGGCCG 
AACAAGGATT ACCTCATCAA CTTTGAGATC CGCTCCCTCC GCGACAGCCG CGCACTGATC 
GAGAAAGTGG GCATCGAGGA CGCCTCCCAG TTCATCGAAG ACAACCCTCA CCCCAGACTC 
TGGCGCCTGT TGGCCGAGGC TGCCCTCCAG AAGCTGGACC TGAAGACGGC TGAGCAGGCT 
TTTGTCCGCT GTAAGGACTA CCAGGGCATC GAGTTCGTCA AGAGCCTGGG AAACCTGCAG 
AGCGAAGCCA TGAAACAGGC CGAGGTGGCG GCCTACTTCG GCAGGTTCGA GGAGGCCGAG 
AGAATGTACC TGGACATGGA TCGCAGGGAC CTGGCCATCA GCCTGAGGAT TAAGCTAGGG 
GATTGGTTCC GCGTCCTGCA GCTCCTGAAG ACTGGATCAG GTGACTGTGA TGATGCACTG 
CTGGAGCAGG CGTACAATGC CATCGGGGAC TACTTTGCAG ACCGACAGAA GTGGGTGAAT 
GCGGTCCAAT ACTACCTTCA GGGGCGCAAC CAGGAGAGGC TGGCAGAGTG TTACTACATG 
CTGGAGGATT ACGACGGACT GGAACGACTG GCTAGTTCTC TACCGGAGAA CCACAAACTG 
CTACCGGACA TCGGCCAGAT GTTTGTCACC GTAGGCATGT GTGAGCAGAC GGTGAACGCC 
TACCTGAAGT GCAACCAGCC CAAGGCTGCT GTCGACGCCT GCGTTCATCT AAACCAGTGG 
AACAAAGCTG TGGAGCTGGC CAAAAACCAC AACATGAAAG AGATCAACTC TCTTCTGGCC 
AAGTATGCCT CTCACCTGCT GGAGAAGAAC AAGCCTTTGG AGGCTGTGGA GTTGTACCGT 
AAAGCCCACC ATTTCCTAGA AGCAGCTAAA CTCATGTTCA AGATAGCGGA TGAGGAGGCT 
AAGAGGAGGA CCCGGCCATT GAGGGTGAAG AAGCTTTATG TGCTGGCAGC CCTGCTAGTG 
GAGAACTACC ACAGCCAAGT GAAGACATCC CAGCAGAACA AGACCAAAGG GAAGACGTCA 
GAGGCTACAT CTGCTCTAGC TGGCCTGCTG GAGGAGGACG CCACCTCCTC AGACAACCGC 
GTGGTGGACA GCGCCTGGCG TGGGGCCGAG GCCTACCACT TCTTCCTGCT GGCTCAGAGG 
CAGCTGTACG AAGGCTACAT GGTGAAAGCC ATGAAGACAG CTCTCCACCT ACGGGACTAC 
GAGGACATCA TCCCAGCGGT TGAGATCTAC TCCCTGCTGG CCATCTGCTC GTCAGCCAAC 
CGGGCTTTCA GTACGTGTTC CAGAGCCTTC ATCAAGCTGG AGTCCCTGGA GAGCCTGAGC 
CCTGAGCAGA GACAGCTCTA CGAAGACCTG GCCCTGGAGA TCTTCACCAA ACACAGCCCC 
AAGAACAACC ACATGTCTGG ACTGGACAGC GCTCCTGAGG GGGCTGAAGG GAAGCTGCCC 
ACCTGCATTG TGACCGGCTG GACCATCTCA GAGTACCAGT TCTGGATGTG CAGCGTGTGT 
AAGCACTGTG CACTGGAAAA CGAGATTGGC AGCCACAACT TCTGCCCTCT GTGCCACAGC 
TCGCTGGCAT AA

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

RefSeq	XP_014060744.1
CDS	324..3875
Translation	MFIYLSKKIAIPNNIRLKCVSWNKDQGFIACGGDEGLLKVLKLETQTDDAKLKGLAAPSNLSMNQTLEGHSGAVQVVTWNEQYQKLTTSDQNGLIIVWMLYKGCWYEEMINNRNKSVVRSMSWNADGQKICIVYEDGAVIVGSVDGNRIWGKELKGIQLAHVAWSPDSKILLFGMANGEIHIYDNQGNFIMKMTVSCLHNVTGAISIAGIHWYAGSEGYVEPDCPCLAICFDNGRCQVMRYESDESPVFIDTLMNVASIQWNQCGSVLAVAGSLRGMEKEVNVVQFYTPFGEHLRTLKVPGKQMTEVAWEGGGLRIGLAVDSYIYFANIRPDYKWGYCSNTVVYAYTKPDRLEYCVVFWDTKNNEKFIKYVKSLMSITTSGDFCILATKADDTHPQEDADVESGNNAMYVLVLCNSIGTPLDSKYIDIDPLFVTMTKTHVIAASKEAFYTWQYRVAKKLTAMEINQVSRTRKEGRERVYHIDDSPSGTTEGPLDFAKAFTATRDPICCITATDKTLIVGRESGTIHKYSLPNVALVQKYSLNYRAYQLSLNCTSSRLAIIDISGVLTFLDLEVRSSSDDGSGSQAGTGDPSKFERKDVWDMQWANDNPDLFAMMEKTRMYVFRNLDPEEPIQTSGYICNFEDLEIKSVLLDEIMKDPERPNKDYLINFEIRSLRDSRALIEKVGIEDASQFIEDNPHPRLWRLLAEAALQKLDLKTAEQAFVRCKDYQGIEFVKSLGNLQSEAMKQAEVAAYFGRFEEAERMYLDMDRRDLAISLRIKLGDWFRVLQLLKTGSGDCDDALLEQAYNAIGDYFADRQKWVNAVQYYLQGRNQERLAECYYMLEDYDGLERLASSLPENHKLLPDIGQMFVTVGMCEQTVNAYLKCNQPKAAVDACVHLNQWNKAVELAKNHNMKEINSLLAKYASHLLEKNKPLEAVELYRKAHHFLEAAKLMFKIADEEAKRRTRPLRVKKLYVLAALLVENYHSQVKTSQQNKTKGKTSEATSALAGLLEEDATSSDNRVVDSAWRGAEAYHFFLLAQRQLYEGYMVKAMKTALHLRDYEDIIPAVEIYSLLAICSSANRAFSTCSRAFIKLESLESLSPEQRQLYEDLALEIFTKHSPKNNHMSGLDSAPEGAEGKLPTCIVTGWTISEYQFWMCSVCKHCALENEIGSHNFCPLCHSSLA

Target ORF information:

RefSeq Version	XM_014205269.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar WD repeat domain 35 (wdr35), transcript variant X1, mRNA.

Target ORF information:

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

XM_014205269.1

ORF Insert Sequence:

ATGTTTATTT ATCTCAGTAA GAAGATTGCC ATCCCCAACA ACATACGGCT GAAGTGTGTG 
TCATGGAACA AAGACCAAGG CTTTATAGCC TGTGGAGGGG ATGAGGGTCT TCTCAAAGTC 
CTGAAGCTGG AGACACAGAC AGACGATGCC AAACTCAAAG GACTTGCAGC ACCCAGCAAT 
TTGTCAATGA ATCAAACACT TGAAGGCCAC AGTGGTGCAG TCCAGGTTGT GACGTGGAAT 
GAGCAGTACC AGAAGCTCAC CACGAGTGAC CAGAATGGTC TCATTATTGT GTGGATGCTC 
TACAAAGGCT GCTGGTACGA GGAGATGATT AACAACAGGA ACAAGTCCGT GGTGAGGAGC 
ATGAGTTGGA ATGCAGACGG CCAGAAGATT TGTATTGTTT ACGAGGACGG GGCAGTCATT 
GTTGGATCTG TAGATGGTAA CCGAATCTGG GGGAAAGAGC TCAAGGGAAT TCAGCTCGCT 
CACGTGGCCT GGTCACCAGA TAGCAAGATC CTCCTTTTTG GGATGGCCAA TGGGGAAATC 
CACATCTACG ACAATCAGGG AAACTTCATT ATGAAGATGA CGGTCAGTTG TCTGCATAAC 
GTGACTGGAG CCATCAGTAT CGCAGGGATC CACTGGTACG CAGGGTCAGA GGGCTACGTG 
GAGCCAGACT GCCCCTGCCT GGCCATCTGC TTCGATAACG GACGGTGTCA GGTCATGCGA 
TACGAGAGTG ATGAAAGCCC AGTGTTCATA GACACACTGA TGAACGTGGC CAGTATCCAG 
TGGAACCAGT GTGGCAGCGT GCTGGCTGTG GCAGGCTCCC TGAGGGGCAT GGAGAAGGAG 
GTCAACGTGG TGCAGTTCTA CACCCCATTC GGAGAGCATT TGCGAACTTT GAAGGTACCT 
GGCAAGCAGA TGACAGAGGT TGCTTGGGAA GGGGGAGGAC TGAGGATTGG ACTGGCTGTG 
GACTCCTACA TTTACTTTGC CAACATAAGG CCTGATTACA AGTGGGGCTA CTGCTCCAAC 
ACAGTGGTGT ATGCCTACAC CAAGCCTGAC CGGCTGGAGT ACTGTGTGGT GTTCTGGGAC 
ACCAAGAACA ACGAGAAGTT TATCAAGTAC GTCAAGAGCC TCATGTCCAT CACCACATCC 
GGAGACTTCT GCATCCTGGC CACCAAGGCA GATGACACAC ACCCACAGGA GGATGCTGAC 
GTAGAGTCGG GAAATAATGC CATGTATGTG CTGGTTCTCT GTAACTCCAT TGGGACCCCA 
CTGGATTCAA AATACATTGA CATTGATCCT CTGTTCGTGA CCATGACTAA GACCCATGTG 
ATCGCTGCGT CCAAGGAGGC TTTCTACACC TGGCAGTACC GCGTGGCTAA GAAGCTAACT 
GCCATGGAGA TCAACCAGGT GTCCAGGACC AGGAAGGAGG GTAGGGAGAG GGTTTATCAT 
ATTGATGATA GTCCATCTGG GACCACTGAG GGCCCCCTGG ACTTTGCCAA GGCCTTCACT 
GCAACACGAG ACCCCATTTG TTGCATCACA GCAACAGACA AGACACTGAT TGTGGGCCGT 
GAGTCTGGTA CCATCCACAA ATACAGCCTC CCTAACGTCG CTCTGGTGCA GAAATACTCC 
TTAAACTACC GGGCCTACCA GCTCTCACTC AACTGTACCT CCAGCCGCTT GGCGATTATT 
GACATTTCGG GAGTGCTGAC GTTTTTGGAC CTGGAGGTGC GTTCGTCTTC GGATGATGGC 
TCTGGAAGCC AGGCGGGGAC AGGCGACCCC TCCAAGTTTG AGCGCAAGGA CGTCTGGGAC 
ATGCAGTGGG CCAATGACAA CCCTGATCTG TTTGCCATGA TGGAAAAGAC CAGGATGTAC 
GTGTTCAGGA ACCTGGACCC AGAGGAACCC ATTCAAACGT CTGGATACAT TTGCAACTTT 
GAAGACCTGG AAATCAAATC GGTCCTGCTA GATGAAATCA TGAAGGATCC GGAGAGGCCG 
AACAAGGATT ACCTCATCAA CTTTGAGATC CGCTCCCTCC GCGACAGCCG CGCACTGATC 
GAGAAAGTGG GCATCGAGGA CGCCTCCCAG TTCATCGAAG ACAACCCTCA CCCCAGACTC 
TGGCGCCTGT TGGCCGAGGC TGCCCTCCAG AAGCTGGACC TGAAGACGGC TGAGCAGGCT 
TTTGTCCGCT GTAAGGACTA CCAGGGCATC GAGTTCGTCA AGAGCCTGGG AAACCTGCAG 
AGCGAAGCCA TGAAACAGGC CGAGGTGGCG GCCTACTTCG GCAGGTTCGA GGAGGCCGAG 
AGAATGTACC TGGACATGGA TCGCAGGGAC CTGGCCATCA GCCTGAGGAT TAAGCTAGGG 
GATTGGTTCC GCGTCCTGCA GCTCCTGAAG ACTGGATCAG GTGACTGTGA TGATGCACTG 
CTGGAGCAGG CGTACAATGC CATCGGGGAC TACTTTGCAG ACCGACAGAA GTGGGTGAAT 
GCGGTCCAAT ACTACCTTCA GGGGCGCAAC CAGGAGAGGC TGGCAGAGTG TTACTACATG 
CTGGAGGATT ACGACGGACT GGAACGACTG GCTAGTTCTC TACCGGAGAA CCACAAACTG 
CTACCGGACA TCGGCCAGAT GTTTGTCACC GTAGGCATGT GTGAGCAGAC GGTGAACGCC 
TACCTGAAGT GCAACCAGCC CAAGGCTGCT GTCGACGCCT GCGTTCATCT AAACCAGTGG 
AACAAAGCTG TGGAGCTGGC CAAAAACCAC AACATGAAAG AGATCAACTC TCTTCTGGCC 
AAGTATGCCT CTCACCTGCT GGAGAAGAAC AAGCCTTTGG AGGCTGTGGA GTTGTACCGT 
AAAGCCCACC ATTTCCTAGA AGCAGCTAAA CTCATGTTCA AGATAGCGGA TGAGGAGGCT 
AAGAGGAGGA CCCGGCCATT GAGGGTGAAG AAGCTTTATG TGCTGGCAGC CCTGCTAGTG 
GAGAACTACC ACAGCCAAGT GAAGACATCC CAGCAGAACA AGACCAAAGG GAAGACGTCA 
GAGGCTACAT CTGCTCTAGC TGGCCTGCTG GAGGAGGACG CCACCTCCTC AGACAACCGC 
GTGGTGGACA GCGCCTGGCG TGGGGCCGAG GCCTACCACT TCTTCCTGCT GGCTCAGAGG 
CAGCTGTACG AAGGCTACAT GGTGAAAGCC ATGAAGACAG CTCTCCACCT ACGGGACTAC 
GAGGACATCA TCCCAGCGGT TGAGATCTAC TCCCTGCTGG CCATCTGCTC GTCAGCCAAC 
CGGGCTTTCA GTACGTGTTC CAGAGCCTTC ATCAAGCTGG AGTCCCTGGA GAGCCTGAGC 
CCTGAGCAGA GACAGCTCTA CGAAGACCTG GCCCTGGAGA TCTTCACCAA ACACAGCCCC 
AAGAACAACC ACATGTCTGG ACTGGACAGC GCTCCTGAGG GGGCTGAAGG GAAGCTGCCC 
ACCTGCATTG TGACCGGCTG GACCATCTCA GAGTACCAGT TCTGGATGTG CAGCGTGTGT 
AAGCACTGTG CACTGGAAAA CGAGATTGGC AGCCACAACT TCTGCCCTCT GTGCCACAGC 
TCGCTGGCAT AA

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

wdr35 ( XM_014205357.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060832.1 Salmo salar WD repeat domain 35 (wdr35), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAt03733
Clone ID Related Accession (Same CDS sequence)	XM_014205357.1
Accession Version	XM_014205357.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3516bp) 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	WD repeat-containing protein 35 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332481.1) 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 :: 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##

ATGTTTATTT ATCTCAGTAA GAAGATTGCC ATCCCCAACA ACATACGGCT GAAGTGTGTG 
TCATGGAACA AAGACCAAGG CTTTATAGCC TGTGGAGGGG ATGAGGGTCT TCTCAAAGTC 
CTGAAGCTGG AGACACAGAC AGACGATGCC AAACTCAAAG GACTTGCAGC ACCCAGCAAT 
TTGTCAATGA ATCAAACACT TGAAGGCCAC AGTGGTGCAG TCCAGGTTGT GACGTGGAAT 
GAGCAGTACC AGAAGCTCAC CACGAGTGAC CAGAATGGTC TCATTATTGT GTGGATGCTC 
TACAAAGGCT GCTGGTACGA GGAGATGATT AACAACAGGA ACAAGTCCGT GGTGAGGAGC 
ATGAGTTGGA ATGCAGACGG CCAGAAGATT TGTATTGTTT ACGAGGACGG GGCAGTCATT 
GTTGGATCTG TAGATGGTAA CCGAATCTGG GGGAAAGAGC TCAAGGGAAT TCAGCTCGCT 
CACGTGGCCT GGTCACCAGA TAGCAAGATC CTCCTTTTTG GGATGGCCAA TGGGGAAATC 
CACATCTACG ACAATCAGGG AAACTTCATT ATGAAGATGA CGGTCAGTTG TCTGCATAAC 
GTGACTGGAG CCATCAGTAT CGCAGGGATC CACTGGTACG CAGGGTCAGA GGGCTACGTG 
GAGCCAGACT GCCCCTGCCT GGCCATCTGC TTCGATAACG GACGGTGTCA GGTCATGCGA 
TACGAGAGTG ATGAAAGCCC AGTGTTCATA GACACACTGA TGAACGTGGC CAGTATCCAG 
TGGAACCAGT GTGGCAGCGT GCTGGCTGTG GCAGGCTCCC TGAGGGGCAT GGAGAAGGAG 
GTCAACGTGG TGCAGTTCTA CACCCCATTC GGAGAGCATT TGCGAACTTT GAAGGTACCT 
GGCAAGCAGA TGACAGAGGT TGCTTGGGAA GGGGGAGGAC TGAGGATTGG ACTGGCTGTG 
GACTCCTACA TTTACTTTGC CAACATAAGG CCTGATTACA AGTGGGGCTA CTGCTCCAAC 
ACAGTGGTGT ATGCCTACAC CAAGCCTGAC CGGCTGGAGT ACTGTGTGGT GTTCTGGGAC 
ACCAAGAACA ACGAGAAGTT TATCAAGTAC GTCAAGAGCC TCATGTCCAT CACCACATCC 
GGAGACTTCT GCATCCTGGC CACCAAGGCA GATGACACAC ACCCACAGTA TGTGCTGGTT 
CTCTGTAACT CCATTGGGAC CCCACTGGAT TCAAAATACA TTGACATTGA TCCTCTGTTC 
GTGACCATGA CTAAGACCCA TGTGATCGCT GCGTCCAAGG AGGCTTTCTA CACCTGGCAG 
TACCGCGTGG CTAAGAAGCT AACTGCCATG GAGATCAACC AGGTGTCCAG GACCAGGAAG 
GAGGGTAGGG AGAGGGTTTA TCATATTGAT GATAGTCCAT CTGGGACCAC TGAGGGCCCC 
CTGGACTTTG CCAAGGCCTT CACTGCAACA CGAGACCCCA TTTGTTGCAT CACAGCAACA 
GACAAGACAC TGATTGTGGG CCGTGAGTCT GGTACCATCC ACAAATACAG CCTCCCTAAC 
GTCGCTCTGG TGCAGAAATA CTCCTTAAAC TACCGGGCCT ACCAGCTCTC ACTCAACTGT 
ACCTCCAGCC GCTTGGCGAT TATTGACATT TCGGGAGTGC TGACGTTTTT GGACCTGGAG 
GTGCGTTCGT CTTCGGATGA TGGCTCTGGA AGCCAGGCGG GGACAGGCGA CCCCTCCAAG 
TTTGAGCGCA AGGACGTCTG GGACATGCAG TGGGCCAATG ACAACCCTGA TCTGTTTGCC 
ATGATGGAAA AGACCAGGAT GTACGTGTTC AGGAACCTGG ACCCAGAGGA ACCCATTCAA 
ACGTCTGGAT ACATTTGCAA CTTTGAAGAC CTGGAAATCA AATCGGTCCT GCTAGATGAA 
ATCATGAAGG ATCCGGAGAG GCCGAACAAG GATTACCTCA TCAACTTTGA GATCCGCTCC 
CTCCGCGACA GCCGCGCACT GATCGAGAAA GTGGGCATCG AGGACGCCTC CCAGTTCATC 
GAAGACAACC CTCACCCCAG ACTCTGGCGC CTGTTGGCCG AGGCTGCCCT CCAGAAGCTG 
GACCTGAAGA CGGCTGAGCA GGCTTTTGTC CGCTGTAAGG ACTACCAGGG CATCGAGTTC 
GTCAAGAGCC TGGGAAACCT GCAGAGCGAA GCCATGAAAC AGGCCGAGGT GGCGGCCTAC 
TTCGGCAGGT TCGAGGAGGC CGAGAGAATG TACCTGGACA TGGATCGCAG GGACCTGGCC 
ATCAGCCTGA GGATTAAGCT AGGGGATTGG TTCCGCGTCC TGCAGCTCCT GAAGACTGGA 
TCAGGTGACT GTGATGATGC ACTGCTGGAG CAGGCGTACA ATGCCATCGG GGACTACTTT 
GCAGACCGAC AGAAGTGGGT GAATGCGGTC CAATACTACC TTCAGGGGCG CAACCAGGAG 
AGGCTGGCAG AGTGTTACTA CATGCTGGAG GATTACGACG GACTGGAACG ACTGGCTAGT 
TCTCTACCGG AGAACCACAA ACTGCTACCG GACATCGGCC AGATGTTTGT CACCGTAGGC 
ATGTGTGAGC AGACGGTGAA CGCCTACCTG AAGTGCAACC AGCCCAAGGC TGCTGTCGAC 
GCCTGCGTTC ATCTAAACCA GTGGAACAAA GCTGTGGAGC TGGCCAAAAA CCACAACATG 
AAAGAGATCA ACTCTCTTCT GGCCAAGTAT GCCTCTCACC TGCTGGAGAA GAACAAGCCT 
TTGGAGGCTG TGGAGTTGTA CCGTAAAGCC CACCATTTCC TAGAAGCAGC TAAACTCATG 
TTCAAGATAG CGGATGAGGA GGCTAAGAGG AGGACCCGGC CATTGAGGGT GAAGAAGCTT 
TATGTGCTGG CAGCCCTGCT AGTGGAGAAC TACCACAGCC AAGTGAAGAC ATCCCAGCAG 
AACAAGACCA AAGGGAAGAC GTCAGAGGCT ACATCTGCTC TAGCTGGCCT GCTGGAGGAG 
GACGCCACCT CCTCAGACAA CCGCGTGGTG GACAGCGCCT GGCGTGGGGC CGAGGCCTAC 
CACTTCTTCC TGCTGGCTCA GAGGCAGCTG TACGAAGGCT ACATGGTGAA AGCCATGAAG 
ACAGCTCTCC ACCTACGGGA CTACGAGGAC ATCATCCCAG CGGTTGAGAT CTACTCCCTG 
CTGGCCATCT GCTCGTCAGC CAACCGGGCT TTCAGTACGT GTTCCAGAGC CTTCATCAAG 
CTGGAGTCCC TGGAGAGCCT GAGCCCTGAG CAGAGACAGC TCTACGAAGA CCTGGCCCTG 
GAGATCTTCA CCAAACACAG CCCCAAGAAC AACCACATGT CTGGACTGGA CAGCGCTCCT 
GAGGGGGCTG AAGGGAAGCT GCCCACCTGC ATTGTGACCG GCTGGACCAT CTCAGAGTAC 
CAGTTCTGGA TGTGCAGCGT GTGTAAGCAC TGTGCACTGG AAAACGAGAT TGGCAGCCAC 
AACTTCTGCC CTCTGTGCCA CAGCTCGCTG GCATAA

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

RefSeq	XP_014060832.1
CDS	324..3839
Translation	MFIYLSKKIAIPNNIRLKCVSWNKDQGFIACGGDEGLLKVLKLETQTDDAKLKGLAAPSNLSMNQTLEGHSGAVQVVTWNEQYQKLTTSDQNGLIIVWMLYKGCWYEEMINNRNKSVVRSMSWNADGQKICIVYEDGAVIVGSVDGNRIWGKELKGIQLAHVAWSPDSKILLFGMANGEIHIYDNQGNFIMKMTVSCLHNVTGAISIAGIHWYAGSEGYVEPDCPCLAICFDNGRCQVMRYESDESPVFIDTLMNVASIQWNQCGSVLAVAGSLRGMEKEVNVVQFYTPFGEHLRTLKVPGKQMTEVAWEGGGLRIGLAVDSYIYFANIRPDYKWGYCSNTVVYAYTKPDRLEYCVVFWDTKNNEKFIKYVKSLMSITTSGDFCILATKADDTHPQYVLVLCNSIGTPLDSKYIDIDPLFVTMTKTHVIAASKEAFYTWQYRVAKKLTAMEINQVSRTRKEGRERVYHIDDSPSGTTEGPLDFAKAFTATRDPICCITATDKTLIVGRESGTIHKYSLPNVALVQKYSLNYRAYQLSLNCTSSRLAIIDISGVLTFLDLEVRSSSDDGSGSQAGTGDPSKFERKDVWDMQWANDNPDLFAMMEKTRMYVFRNLDPEEPIQTSGYICNFEDLEIKSVLLDEIMKDPERPNKDYLINFEIRSLRDSRALIEKVGIEDASQFIEDNPHPRLWRLLAEAALQKLDLKTAEQAFVRCKDYQGIEFVKSLGNLQSEAMKQAEVAAYFGRFEEAERMYLDMDRRDLAISLRIKLGDWFRVLQLLKTGSGDCDDALLEQAYNAIGDYFADRQKWVNAVQYYLQGRNQERLAECYYMLEDYDGLERLASSLPENHKLLPDIGQMFVTVGMCEQTVNAYLKCNQPKAAVDACVHLNQWNKAVELAKNHNMKEINSLLAKYASHLLEKNKPLEAVELYRKAHHFLEAAKLMFKIADEEAKRRTRPLRVKKLYVLAALLVENYHSQVKTSQQNKTKGKTSEATSALAGLLEEDATSSDNRVVDSAWRGAEAYHFFLLAQRQLYEGYMVKAMKTALHLRDYEDIIPAVEIYSLLAICSSANRAFSTCSRAFIKLESLESLSPEQRQLYEDLALEIFTKHSPKNNHMSGLDSAPEGAEGKLPTCIVTGWTISEYQFWMCSVCKHCALENEIGSHNFCPLCHSSLA

Target ORF information:

RefSeq Version	XM_014205357.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar WD repeat domain 35 (wdr35), transcript variant X2, mRNA.

Target ORF information:

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

XM_014205357.1

ORF Insert Sequence:

ATGTTTATTT ATCTCAGTAA GAAGATTGCC ATCCCCAACA ACATACGGCT GAAGTGTGTG 
TCATGGAACA AAGACCAAGG CTTTATAGCC TGTGGAGGGG ATGAGGGTCT TCTCAAAGTC 
CTGAAGCTGG AGACACAGAC AGACGATGCC AAACTCAAAG GACTTGCAGC ACCCAGCAAT 
TTGTCAATGA ATCAAACACT TGAAGGCCAC AGTGGTGCAG TCCAGGTTGT GACGTGGAAT 
GAGCAGTACC AGAAGCTCAC CACGAGTGAC CAGAATGGTC TCATTATTGT GTGGATGCTC 
TACAAAGGCT GCTGGTACGA GGAGATGATT AACAACAGGA ACAAGTCCGT GGTGAGGAGC 
ATGAGTTGGA ATGCAGACGG CCAGAAGATT TGTATTGTTT ACGAGGACGG GGCAGTCATT 
GTTGGATCTG TAGATGGTAA CCGAATCTGG GGGAAAGAGC TCAAGGGAAT TCAGCTCGCT 
CACGTGGCCT GGTCACCAGA TAGCAAGATC CTCCTTTTTG GGATGGCCAA TGGGGAAATC 
CACATCTACG ACAATCAGGG AAACTTCATT ATGAAGATGA CGGTCAGTTG TCTGCATAAC 
GTGACTGGAG CCATCAGTAT CGCAGGGATC CACTGGTACG CAGGGTCAGA GGGCTACGTG 
GAGCCAGACT GCCCCTGCCT GGCCATCTGC TTCGATAACG GACGGTGTCA GGTCATGCGA 
TACGAGAGTG ATGAAAGCCC AGTGTTCATA GACACACTGA TGAACGTGGC CAGTATCCAG 
TGGAACCAGT GTGGCAGCGT GCTGGCTGTG GCAGGCTCCC TGAGGGGCAT GGAGAAGGAG 
GTCAACGTGG TGCAGTTCTA CACCCCATTC GGAGAGCATT TGCGAACTTT GAAGGTACCT 
GGCAAGCAGA TGACAGAGGT TGCTTGGGAA GGGGGAGGAC TGAGGATTGG ACTGGCTGTG 
GACTCCTACA TTTACTTTGC CAACATAAGG CCTGATTACA AGTGGGGCTA CTGCTCCAAC 
ACAGTGGTGT ATGCCTACAC CAAGCCTGAC CGGCTGGAGT ACTGTGTGGT GTTCTGGGAC 
ACCAAGAACA ACGAGAAGTT TATCAAGTAC GTCAAGAGCC TCATGTCCAT CACCACATCC 
GGAGACTTCT GCATCCTGGC CACCAAGGCA GATGACACAC ACCCACAGTA TGTGCTGGTT 
CTCTGTAACT CCATTGGGAC CCCACTGGAT TCAAAATACA TTGACATTGA TCCTCTGTTC 
GTGACCATGA CTAAGACCCA TGTGATCGCT GCGTCCAAGG AGGCTTTCTA CACCTGGCAG 
TACCGCGTGG CTAAGAAGCT AACTGCCATG GAGATCAACC AGGTGTCCAG GACCAGGAAG 
GAGGGTAGGG AGAGGGTTTA TCATATTGAT GATAGTCCAT CTGGGACCAC TGAGGGCCCC 
CTGGACTTTG CCAAGGCCTT CACTGCAACA CGAGACCCCA TTTGTTGCAT CACAGCAACA 
GACAAGACAC TGATTGTGGG CCGTGAGTCT GGTACCATCC ACAAATACAG CCTCCCTAAC 
GTCGCTCTGG TGCAGAAATA CTCCTTAAAC TACCGGGCCT ACCAGCTCTC ACTCAACTGT 
ACCTCCAGCC GCTTGGCGAT TATTGACATT TCGGGAGTGC TGACGTTTTT GGACCTGGAG 
GTGCGTTCGT CTTCGGATGA TGGCTCTGGA AGCCAGGCGG GGACAGGCGA CCCCTCCAAG 
TTTGAGCGCA AGGACGTCTG GGACATGCAG TGGGCCAATG ACAACCCTGA TCTGTTTGCC 
ATGATGGAAA AGACCAGGAT GTACGTGTTC AGGAACCTGG ACCCAGAGGA ACCCATTCAA 
ACGTCTGGAT ACATTTGCAA CTTTGAAGAC CTGGAAATCA AATCGGTCCT GCTAGATGAA 
ATCATGAAGG ATCCGGAGAG GCCGAACAAG GATTACCTCA TCAACTTTGA GATCCGCTCC 
CTCCGCGACA GCCGCGCACT GATCGAGAAA GTGGGCATCG AGGACGCCTC CCAGTTCATC 
GAAGACAACC CTCACCCCAG ACTCTGGCGC CTGTTGGCCG AGGCTGCCCT CCAGAAGCTG 
GACCTGAAGA CGGCTGAGCA GGCTTTTGTC CGCTGTAAGG ACTACCAGGG CATCGAGTTC 
GTCAAGAGCC TGGGAAACCT GCAGAGCGAA GCCATGAAAC AGGCCGAGGT GGCGGCCTAC 
TTCGGCAGGT TCGAGGAGGC CGAGAGAATG TACCTGGACA TGGATCGCAG GGACCTGGCC 
ATCAGCCTGA GGATTAAGCT AGGGGATTGG TTCCGCGTCC TGCAGCTCCT GAAGACTGGA 
TCAGGTGACT GTGATGATGC ACTGCTGGAG CAGGCGTACA ATGCCATCGG GGACTACTTT 
GCAGACCGAC AGAAGTGGGT GAATGCGGTC CAATACTACC TTCAGGGGCG CAACCAGGAG 
AGGCTGGCAG AGTGTTACTA CATGCTGGAG GATTACGACG GACTGGAACG ACTGGCTAGT 
TCTCTACCGG AGAACCACAA ACTGCTACCG GACATCGGCC AGATGTTTGT CACCGTAGGC 
ATGTGTGAGC AGACGGTGAA CGCCTACCTG AAGTGCAACC AGCCCAAGGC TGCTGTCGAC 
GCCTGCGTTC ATCTAAACCA GTGGAACAAA GCTGTGGAGC TGGCCAAAAA CCACAACATG 
AAAGAGATCA ACTCTCTTCT GGCCAAGTAT GCCTCTCACC TGCTGGAGAA GAACAAGCCT 
TTGGAGGCTG TGGAGTTGTA CCGTAAAGCC CACCATTTCC TAGAAGCAGC TAAACTCATG 
TTCAAGATAG CGGATGAGGA GGCTAAGAGG AGGACCCGGC CATTGAGGGT GAAGAAGCTT 
TATGTGCTGG CAGCCCTGCT AGTGGAGAAC TACCACAGCC AAGTGAAGAC ATCCCAGCAG 
AACAAGACCA AAGGGAAGAC GTCAGAGGCT ACATCTGCTC TAGCTGGCCT GCTGGAGGAG 
GACGCCACCT CCTCAGACAA CCGCGTGGTG GACAGCGCCT GGCGTGGGGC CGAGGCCTAC 
CACTTCTTCC TGCTGGCTCA GAGGCAGCTG TACGAAGGCT ACATGGTGAA AGCCATGAAG 
ACAGCTCTCC ACCTACGGGA CTACGAGGAC ATCATCCCAG CGGTTGAGAT CTACTCCCTG 
CTGGCCATCT GCTCGTCAGC CAACCGGGCT TTCAGTACGT GTTCCAGAGC CTTCATCAAG 
CTGGAGTCCC TGGAGAGCCT GAGCCCTGAG CAGAGACAGC TCTACGAAGA CCTGGCCCTG 
GAGATCTTCA CCAAACACAG CCCCAAGAAC AACCACATGT CTGGACTGGA CAGCGCTCCT 
GAGGGGGCTG AAGGGAAGCT GCCCACCTGC ATTGTGACCG GCTGGACCAT CTCAGAGTAC 
CAGTTCTGGA TGTGCAGCGT GTGTAAGCAC TGTGCACTGG AAAACGAGAT TGGCAGCCAC 
AACTTCTGCC CTCTGTGCCA CAGCTCGCTG GCATAA

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

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wdr35 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:

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