SLC5A11 cDNA ORF clone, Corvus cornix cornix

Gene
Clones
gRNAs

Summary

Gene Symbol	SLC5A11
Entrez Gene ID	104684738
Full Name	solute carrier family 5 member 11
Gene Type	protein-coding
Organism	Corvus cornix cornix

mRNA and Protein(s)

mRNA	Protein	Name
XM_019281504.1	XP_019137049.1	sodium/myo-inositol cotransporter 2

Pathways from BioSystems
Gene Ontology

The following SLC5A11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SLC5A11 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
OCo98724	XM_019281504.1 Latest version!	Corvus cornix cornix solute carrier family 5 member 11 (SLC5A11), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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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)

SLC5A11 ( XM_019281504.1 ) cDNA ORF clone, Corvus cornix cornix -> XP_019137049.1 Corvus cornix cornix solute carrier family 5 member 11 (SLC5A11), mRNA.

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CloneID	OCo98724
Clone ID Related Accession (Same CDS sequence)	XM_019281504.1
Accession Version	XM_019281504.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2625bp) 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	2017-03-21
Organism	Corvus cornix cornix
Product	sodium/myo-inositol cotransporter 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018114002.1) 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 :: Corvus cornix cornix Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATGAGC CCAGAGGTGC TGTAGGACAC AGGGCAGGCC TTGCCCTCCT GAGCACTCCA 
GCACCTCCAT CCTGCAGCTC CTGCCACTCC AGTGCTCTCC TGGTTCACCC ACCTGGGCAG 
CCCCGCAGTG CTGCCAGGGC AGGAGTGCGG CCAGTCACAC TCTGGGCAAG TCCTCAGGCC 
ACAGGTGAGC TGAGGGCAGG TTCAGCTGCA GCTCCACACC TGGACAAGAG GTGCTGTGAA 
ACCCGTGGGA CAGGAGGCTG CCCTGGCCCG GCTTTGCTGC CCGGAGCTCA GAGGAAGAAC 
TTGTCTGACC GCCTGTCATG CGAGCGTCCG TGCCGGCTGC CCCAGCCCAG TGCAGCCACA 
CCTTCTGGCA GGGGGCAGCC TATAAGTGTC CCCTTACAAG TGCAAGAGAG GCCAAAGGAC 
CTGGTCAGAT GTGCAGGACA GGGACCGGCA GACACCTGGC ACAAGCATCT GGTGACACCA 
AGACTGGACC CAGGGCTGTC CTGGCTGCGA GGCAGCACCG AGGCTGGTGA CCGCTCCTCT 
CTGGGGGAAC CCTCTCCTCG GCTCAGCAGG GTATATGCAT CAGGACAAAG GAGTGCTCAG 
CCGGCCCAGG AAGCCATGGA TCCCACCAGC ATCCCCCCGG CCTCTGTGAC CCCCTCGTGG 
GACGTGTTCC CCCAGCAGAC ACTGGAGCCC ATAGACATCG CTGTGCTCGT GCTCTATTTC 
CTCTTCGTCC TCGCTGTTGG GCTGTGGTCC ATGTGGAAGA CGCAGCGCAG CACTGTCAAA 
GGCTATTTCC TCGCCGGGGG ACAGATGGTC TGGTGGCCTG TGGGTGCATC CCTGTTTGCC 
AGCAACGTGG GAAGCGGCCA CTTCATCGGC CTGGCCGGGT CGGGAGCTGC CTCGGGAATT 
GCTGCAACAG CCTACGAGTG GAATGGGATG TTCTGTGTCT TGGTGCTGGC CTGGCTCTTC 
CTGCCCATCT ACATCGCCTC GGGGGTTACG ACCATGCCAG AATATTTGCG GAAACGTTTC 
GGAGGCAAAA GAATTCAGAT ATTCCTGGCC ATTCTCTATT TGTTCATCTA CATCTTCACC 
AAAATATCTG TGGACATGTA CGCCGGGGCC CTGTTCATCC AGCAGGCCTT GCACTGGGAC 
CTGTACATCG CCGTGGCCGG GCTGCTGGCC ATCACTGCCG TGTACACCGT GTCCGGTGGC 
CTGGCAGCCG TGATCTACAC TGATGCCCTG CAGACCCTCA TCATGCTCAT CGGGGCCGTG 
TCCCTCATGG TCTTCAGTTT TATTGAAGTT GGTGGCCTTG AAGGTTTGCA GGCAAAATAC 
TTCTATGCCA TTCCCAGCAT CCGCAAGGAA AACAGCAGCT GTGGCTTGCC CAGGGAAGAT 
GCTTTCCACA TTTTCCGAGA CCCTGTGAAC TCTGACCTGC CCTGGCCAGG AGTCTTGGTG 
GGAATGACCA TCCCATCCCT GTGGTACTGG TGCACAGATC AGGTCATTGT TCAGAGGTCC 
CTCGCTGCCA AAAACCTCTC CCACGCCAAA GGAGGCTCCT TGATGACCTC CTACTTGAAG 
ATTTTGCCCC TCTTTATGAT GGTAATGCCA GGCATGATCA GCCGGGTTCT CTTCCCAGAT 
CTGGTGGCTT GTGCAGACCC GGAAATTTGC CAAAAAATCT GTGGCAACCC CTCTGGATGT 
TCTGATATTG CTTATCCCAA GCTGGTATTG GAGCTTCTGC CTGTAGGACT CAGGGGCCTG 
ATGATGTCAG TGATGATTGC AGCCCTCATG TCCTCCCTGA CTTCCATCTT CAACAGCGCC 
AGCACCATTT TCACCATGGA CCTCTGGAAA CACTTCCGTC CTCGGTGCTC GGAGTGGGAG 
CTCATGATTG TTGGCAGGGT CTTTGTGCTG CTGCTCACCG TGGTGTCCAT CCTGTGGATC 
CCCCTGGTGC AGGCTGGCCA GGGCGGGCAG CTCTTCATCT ACATCCAGTC CATCAGCTCC 
TACCTGCAGC CGCCCGTGGC CATGGTGTTC ATTCTGGGCT GCTTCTGGAA AAGAGCAAAC 
GAGAAGGGTG CCTTCTGGGG GCTGGTGCTG GGGCTGCTGC TGGGTTTCGT GCGGCTGGTG 
CTGGACTTCA TCTACCCTGA GCCCCAGTGT GGCGAGCCCG ACAGCCGGCC TGGCGTGGTC 
AAGTACATGC ACTACCTCTA CTTCTCCATG GTGCTGGCGG CCATCTCCAC CCTCACCATG 
CTCGTGGTCA GCATGGCCAC CGAGCCCCCA GCCCCTGAAA TGATAAGTCG GCTCACCTGG 
TTCACTCGTG GGGATCCTCC GCCCAAGCAG GAGCTGGCAG CCAGCCCCGG CCCCGCCGCT 
GCCAAGGACC CGGCCGCGCT GCAGCTTGAG CTGAGCACTG CTCCCGAGAA TAGTTCAGAT 
GGTAACAAAT GTGCAGCTGA GGCCAAGGGG AGCTCGAAGC TGCTGAGCAC CTTCCTGTGG 
CTCTGCGGGA TGGAGCGCAG GCAGGAGAGC GCTGAGAGTG CACCCAAACC CGAGCCCCTG 
CCCGTGGCTT CCCTGGAGGA GAAACCACTG GTGAAACACG TCCTGAACAT CAACCTGCTC 
CTCTGTGTGT GTGCTGGGGT CTTCCTCTGG GCGTACTTTG CATAG

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

RefSeq	XP_019137049.1
CDS	592..3216
Translation	MDEPRGAVGHRAGLALLSTPAPPSCSSCHSSALLVHPPGQPRSAARAGVRPVTLWASPQATGELRAGSAAAPHLDKRCCETRGTGGCPGPALLPGAQRKNLSDRLSCERPCRLPQPSAATPSGRGQPISVPLQVQERPKDLVRCAGQGPADTWHKHLVTPRLDPGLSWLRGSTEAGDRSSLGEPSPRLSRVYASGQRSAQPAQEAMDPTSIPPASVTPSWDVFPQQTLEPIDIAVLVLYFLFVLAVGLWSMWKTQRSTVKGYFLAGGQMVWWPVGASLFASNVGSGHFIGLAGSGAASGIAATAYEWNGMFCVLVLAWLFLPIYIASGVTTMPEYLRKRFGGKRIQIFLAILYLFIYIFTKISVDMYAGALFIQQALHWDLYIAVAGLLAITAVYTVSGGLAAVIYTDALQTLIMLIGAVSLMVFSFIEVGGLEGLQAKYFYAIPSIRKENSSCGLPREDAFHIFRDPVNSDLPWPGVLVGMTIPSLWYWCTDQVIVQRSLAAKNLSHAKGGSLMTSYLKILPLFMMVMPGMISRVLFPDLVACADPEICQKICGNPSGCSDIAYPKLVLELLPVGLRGLMMSVMIAALMSSLTSIFNSASTIFTMDLWKHFRPRCSEWELMIVGRVFVLLLTVVSILWIPLVQAGQGGQLFIYIQSISSYLQPPVAMVFILGCFWKRANEKGAFWGLVLGLLLGFVRLVLDFIYPEPQCGEPDSRPGVVKYMHYLYFSMVLAAISTLTMLVVSMATEPPAPEMISRLTWFTRGDPPPKQELAASPGPAAAKDPAALQLELSTAPENSSDGNKCAAEAKGSSKLLSTFLWLCGMERRQESAESAPKPEPLPVASLEEKPLVKHVLNINLLLCVCAGVFLWAYFA

Target ORF information:

RefSeq Version	XM_019281504.1
Organism	Corvus cornix cornix
Definition	Corvus cornix cornix solute carrier family 5 member 11 (SLC5A11), mRNA.

Target ORF information:

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

XM_019281504.1

ORF Insert Sequence:

ATGGATGAGC CCAGAGGTGC TGTAGGACAC AGGGCAGGCC TTGCCCTCCT GAGCACTCCA 
GCACCTCCAT CCTGCAGCTC CTGCCACTCC AGTGCTCTCC TGGTTCACCC ACCTGGGCAG 
CCCCGCAGTG CTGCCAGGGC AGGAGTGCGG CCAGTCACAC TCTGGGCAAG TCCTCAGGCC 
ACAGGTGAGC TGAGGGCAGG TTCAGCTGCA GCTCCACACC TGGACAAGAG GTGCTGTGAA 
ACCCGTGGGA CAGGAGGCTG CCCTGGCCCG GCTTTGCTGC CCGGAGCTCA GAGGAAGAAC 
TTGTCTGACC GCCTGTCATG CGAGCGTCCG TGCCGGCTGC CCCAGCCCAG TGCAGCCACA 
CCTTCTGGCA GGGGGCAGCC TATAAGTGTC CCCTTACAAG TGCAAGAGAG GCCAAAGGAC 
CTGGTCAGAT GTGCAGGACA GGGACCGGCA GACACCTGGC ACAAGCATCT GGTGACACCA 
AGACTGGACC CAGGGCTGTC CTGGCTGCGA GGCAGCACCG AGGCTGGTGA CCGCTCCTCT 
CTGGGGGAAC CCTCTCCTCG GCTCAGCAGG GTATATGCAT CAGGACAAAG GAGTGCTCAG 
CCGGCCCAGG AAGCCATGGA TCCCACCAGC ATCCCCCCGG CCTCTGTGAC CCCCTCGTGG 
GACGTGTTCC CCCAGCAGAC ACTGGAGCCC ATAGACATCG CTGTGCTCGT GCTCTATTTC 
CTCTTCGTCC TCGCTGTTGG GCTGTGGTCC ATGTGGAAGA CGCAGCGCAG CACTGTCAAA 
GGCTATTTCC TCGCCGGGGG ACAGATGGTC TGGTGGCCTG TGGGTGCATC CCTGTTTGCC 
AGCAACGTGG GAAGCGGCCA CTTCATCGGC CTGGCCGGGT CGGGAGCTGC CTCGGGAATT 
GCTGCAACAG CCTACGAGTG GAATGGGATG TTCTGTGTCT TGGTGCTGGC CTGGCTCTTC 
CTGCCCATCT ACATCGCCTC GGGGGTTACG ACCATGCCAG AATATTTGCG GAAACGTTTC 
GGAGGCAAAA GAATTCAGAT ATTCCTGGCC ATTCTCTATT TGTTCATCTA CATCTTCACC 
AAAATATCTG TGGACATGTA CGCCGGGGCC CTGTTCATCC AGCAGGCCTT GCACTGGGAC 
CTGTACATCG CCGTGGCCGG GCTGCTGGCC ATCACTGCCG TGTACACCGT GTCCGGTGGC 
CTGGCAGCCG TGATCTACAC TGATGCCCTG CAGACCCTCA TCATGCTCAT CGGGGCCGTG 
TCCCTCATGG TCTTCAGTTT TATTGAAGTT GGTGGCCTTG AAGGTTTGCA GGCAAAATAC 
TTCTATGCCA TTCCCAGCAT CCGCAAGGAA AACAGCAGCT GTGGCTTGCC CAGGGAAGAT 
GCTTTCCACA TTTTCCGAGA CCCTGTGAAC TCTGACCTGC CCTGGCCAGG AGTCTTGGTG 
GGAATGACCA TCCCATCCCT GTGGTACTGG TGCACAGATC AGGTCATTGT TCAGAGGTCC 
CTCGCTGCCA AAAACCTCTC CCACGCCAAA GGAGGCTCCT TGATGACCTC CTACTTGAAG 
ATTTTGCCCC TCTTTATGAT GGTAATGCCA GGCATGATCA GCCGGGTTCT CTTCCCAGAT 
CTGGTGGCTT GTGCAGACCC GGAAATTTGC CAAAAAATCT GTGGCAACCC CTCTGGATGT 
TCTGATATTG CTTATCCCAA GCTGGTATTG GAGCTTCTGC CTGTAGGACT CAGGGGCCTG 
ATGATGTCAG TGATGATTGC AGCCCTCATG TCCTCCCTGA CTTCCATCTT CAACAGCGCC 
AGCACCATTT TCACCATGGA CCTCTGGAAA CACTTCCGTC CTCGGTGCTC GGAGTGGGAG 
CTCATGATTG TTGGCAGGGT CTTTGTGCTG CTGCTCACCG TGGTGTCCAT CCTGTGGATC 
CCCCTGGTGC AGGCTGGCCA GGGCGGGCAG CTCTTCATCT ACATCCAGTC CATCAGCTCC 
TACCTGCAGC CGCCCGTGGC CATGGTGTTC ATTCTGGGCT GCTTCTGGAA AAGAGCAAAC 
GAGAAGGGTG CCTTCTGGGG GCTGGTGCTG GGGCTGCTGC TGGGTTTCGT GCGGCTGGTG 
CTGGACTTCA TCTACCCTGA GCCCCAGTGT GGCGAGCCCG ACAGCCGGCC TGGCGTGGTC 
AAGTACATGC ACTACCTCTA CTTCTCCATG GTGCTGGCGG CCATCTCCAC CCTCACCATG 
CTCGTGGTCA GCATGGCCAC CGAGCCCCCA GCCCCTGAAA TGATAAGTCG GCTCACCTGG 
TTCACTCGTG GGGATCCTCC GCCCAAGCAG GAGCTGGCAG CCAGCCCCGG CCCCGCCGCT 
GCCAAGGACC CGGCCGCGCT GCAGCTTGAG CTGAGCACTG CTCCCGAGAA TAGTTCAGAT 
GGTAACAAAT GTGCAGCTGA GGCCAAGGGG AGCTCGAAGC TGCTGAGCAC CTTCCTGTGG 
CTCTGCGGGA TGGAGCGCAG GCAGGAGAGC GCTGAGAGTG CACCCAAACC CGAGCCCCTG 
CCCGTGGCTT CCCTGGAGGA GAAACCACTG GTGAAACACG TCCTGAACAT CAACCTGCTC 
CTCTGTGTGT GTGCTGGGGT CTTCCTCTGG GCGTACTTTG CATAG