LOC105778349 cDNA ORF clone, Gossypium raimondii

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC105778349
Entrez Gene ID	105778349
Full Name	putative calcium-transporting ATPase 11, plasma membrane-type
Gene Type	protein-coding
Organism	Gossypium raimondii

mRNA and Protein(s)

mRNA	Protein	Name
XM_012602037.1	XP_012457491.1	putative calcium-transporting ATPase 11, plasma membrane-type

Pathways from BioSystems
Gene Ontology

The following LOC105778349 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC105778349 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
OGo195389	XM_012602037.1 Latest version!	Gossypium raimondii putative calcium-transporting ATPase 11, plasma membrane-type (LOC105778349), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

LOC105778349 ( XM_012602037.1 ) cDNA ORF clone, Gossypium raimondii -> XP_012457491.1 Gossypium raimondii putative calcium-transporting ATPase 11, plasma membrane-type (LOC105778349), mRNA.

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CloneID	OGo195389
Clone ID Related Accession (Same CDS sequence)	XM_012602037.1
Accession Version	XM_012602037.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3126bp) 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	2015-05-21
Organism	Gossypium raimondii
Product	putative calcium-transporting ATPase 11, plasma membrane-type
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012160878.1) 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 :: Gossypium raimondii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGACT ACTTGAGAAA GAACTTTGCC GTTGAACCCA AAAGGCCATC CGAAGAAGCT 
CTAAGGAGAT GGAGGTCTGC TGTCGCTCTC GTCAAGAACC GCAGTCGTAG GTTTCGTATG 
GTTGCTGATC TTGCTAAGCG TGCTGAAGCT GATCGCAGGC GTAAAATTAT CCAGGAAAAA 
ATTAGGGTAG CTCTTTATGT GCAAAAAGCG GCATTGAATT TCATTGATGC TGGCAAGCAA 
GCTGAAAGCA AGCTTCCAGA AGATGTTAGG AAAGCTGGTT TTCACATTGG AGCGGATGAG 
CTAGCATCCA TTGTTCGGTC CCATGACATG AGTAGCTTTG AAGAACATGG AGGAGTAGAA 
GGCTTAGCCA AAAAAGTCTC TGTTTCACTG ACCAACGGCG TTGTTCCAAC TGATATCTCA 
TTCAGGCAAA ATATATATGG CAACAACAAA TTTGATGAAA AACCTGCTAG ATCCTTTTGG 
ATGTTTGTGT GGGAAGCGCT GCATGACCTG ACTTTGATTA TTCTCATAGT ATGTGCTGTT 
GTTTCTATAG GTGTTGGAGT TGCTACTGAA GGGTGGCCTG GTGGCCTGTA TGATGGGCTA 
GGAATAGTAC TTTGCATTTT CCTGGTTGTA TTTGTTACTG CCATTAGTGA TTACAAGCAG 
TCCTTGCAAT TCAAAGACTT GGATAAAGAA AAGAAAAATA TACTTGTTCA GGTCACCAGA 
GAAGGGTGCA GGCAGAAGAT TTCTATCTAT GATCTGGTGG TTGGGGATAT TGTTCATCTA 
TCAATTGGAG ATCAAGTTCC AGCAGACGGT GTTCTAATAT CTGGTTACAG CTTATCGATC 
GATGAATCAA GCTTGTCTGG GGAGAGTGAG CCTGTAAAAG TAACTCAGGA GAGACCTTTT 
CTTCTCTCAG GGACAAAAGT CCAGGATGGC TCTGGGAAAA TGTTAGTGAC AACAGTTGGT 
ATGAGGACTG AATGGGGAAG ACTGATGGTT ACTCTAAGCG AAGGTGGAGT AGATGAAACA 
CCTCTACAGG TGAAGCTCAA CGGAGTTGCT ACGGTTATTG GAAAGATTGG TTTGGTATTT 
GCTGTTTTGA CATTTTTGGT TCTCACCATA AGGTTTATGG TGACAAAGGC ACAGCTCGGG 
GAGATTGAAA AGTGGGGTAT GAGCGACGTT CTGGTTCTCT TGAATTTCTT TGCCGTTGCA 
GTGACCATAA TTGTAGTTGC AGTTCCAGAA GGATTACCAC TGGCAGTAAC ATTAAGTCTT 
GCATTTGCAA TGAAGAAGTT AATGAGTGAT AAAGCTCTTG TAAGACATCT CTCAGCATGT 
GAGACAATGG GTTCAGCCAC TTGCATTTGT ACTGACAAAA CAGGGACACT CACTACTAAT 
CATATGGTTG TTGACAAAAT TTGGACTTGT GGGCGAACCA TAAGTATTGC AGGAGATAAC 
AAGAGGGAGG ATGTTTTGCG GTCCTCAATT GCTGGAGAAG TATTGGACCT ACTTTTGCAG 
TCCATATTTC AAAATACAGG AGCTGAAGTA GTCAAGGGAA AAGATGGCAA GAACAACATT 
TTGGGTTCTC CAACAGAGAC AGCAATATTA GAGTTTGGTT TGCTGTTGGG AGGTGAATTC 
AAAAAGTATA GGAAGGAATC TACAATTCTG AAAGTTGAGC CTTTCAATTC AGAGAAGAAA 
AGGATGTCCG TCCTTGTCTC CCTTTCTAAT GGTGGTGAGA ATAGAGCATT TTGCAAAGGT 
GCATCAGAAA TCATTTTAGA ATCTTGCAAC AAGGTAATCA ATGTTGATGG GAAGGCTGAA 
CATCTATCCA AAGAGCAGAA GAAGTACATC ACTGATGTAA TTAATGGCTT TGCCTGTGAG 
GCTCTAAGAA CTCTATGCTT GGCTTTCAAG GATGTAAAAG ACACTTCAGA TGTACATAGC 
GATAGCATCC CTCAAGAAAA CTATACGTTG ATAGCTGTGA TTGGAATTAA GGATCCTGTA 
CGTCCTGGGG TAAGGCAAGC AGTGGAAACT TGTTTATCTG CTGGAATTAA AGTGCGGATA 
GTTACTGGAG ACAACATTAA TACTGCTAAA GCTATAGCAA GAGAGTGTGG AATTTTGACA 
GAAAACGGTT TGGCAATTGA AGGGCCAGAA TTTCGTGACA TGAGCCCACG GCAGATGGAG 
GAGACCATAC CAAAACTTCA GGTTCTGGCC CGATCATTGC CCTTGGACAA GCACAAACTT 
GTAACCTACT TGAGGAAGGA GTTTAAAGAA GTGGTGGCCG TGACTGGTGA TGGGACAAAC 
GATGCACCAG CTTTGCATGA GGCTGACATT GGACTTGCTA TGGGAATAGC TGGTACAGAG 
GTTGCAAAAG AAAATGCCGA TGTTATCATA ATGGATGACA ACTTCGCGAC TATACAGAAT 
GTAGCCAGAT GGGGCCGTGC AGTTTATATC AATATCCAAA AGTTTGTACA GTTCCAGCTA 
ACAGTTAACA TTGTGGCTCT CATGCTCAAT TTTGTTTCTG CTTGCATCTC AGGTTCTGCC 
CCTCTGACGG CTGTTCAGCT ACTTTGGGTG AACATGATCA TGGACACTCT CGGTGCATTG 
GCATTGGCCA CAGAACCTCC TCATGAAGGC CTAATGAAAA GACCCCCTAT TGGAAGGGAT 
GTAGCCTTCA TCACCAGGGT CATGTGGAGG AATATAATTG GTCAGACAAT TTATCAATTG 
ATTGTACTTG CAATTCTCAA ATTTGATGGG GAACGGCTTT TGAAGATTTC TGGTTCAAAT 
GCTACTGCTA TTTTAAATAC ACTCATCTTC AATTCATTTG TGTTTTGCCA GGTGTTCAAT 
GAAATCAATA GCAGGGATAT GGAGAAGATA AATGTTTTCC GAGGCTTCTT CGATAGCTGG 
CTATTCATTA TGGTGATGGT CTGTACAGTG GGTTTCCAAA GCATAATAGT GGAACTATTG 
GGTACAGTTG CAGATACTGT GCCACTGAGC TGGGAGTTAT GGCTGACCAG CATTTTACTT 
GGAGCAGGAA GCCTCATTGT TGCTGTTATC CTCAAATGCA TACCCGTTGA GAACTGCAAA 
GAAGCTTCCA CAACCAAGCA CCATGATGGC TACGAACCGC TCCCGACTGG CCCAGATATG 
GCTTGA

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

RefSeq	XP_012457491.1
CDS	315..3440
Translation	MEDYLRKNFAVEPKRPSEEALRRWRSAVALVKNRSRRFRMVADLAKRAEADRRRKIIQEKIRVALYVQKAALNFIDAGKQAESKLPEDVRKAGFHIGADELASIVRSHDMSSFEEHGGVEGLAKKVSVSLTNGVVPTDISFRQNIYGNNKFDEKPARSFWMFVWEALHDLTLIILIVCAVVSIGVGVATEGWPGGLYDGLGIVLCIFLVVFVTAISDYKQSLQFKDLDKEKKNILVQVTREGCRQKISIYDLVVGDIVHLSIGDQVPADGVLISGYSLSIDESSLSGESEPVKVTQERPFLLSGTKVQDGSGKMLVTTVGMRTEWGRLMVTLSEGGVDETPLQVKLNGVATVIGKIGLVFAVLTFLVLTIRFMVTKAQLGEIEKWGMSDVLVLLNFFAVAVTIIVVAVPEGLPLAVTLSLAFAMKKLMSDKALVRHLSACETMGSATCICTDKTGTLTTNHMVVDKIWTCGRTISIAGDNKREDVLRSSIAGEVLDLLLQSIFQNTGAEVVKGKDGKNNILGSPTETAILEFGLLLGGEFKKYRKESTILKVEPFNSEKKRMSVLVSLSNGGENRAFCKGASEIILESCNKVINVDGKAEHLSKEQKKYITDVINGFACEALRTLCLAFKDVKDTSDVHSDSIPQENYTLIAVIGIKDPVRPGVRQAVETCLSAGIKVRIVTGDNINTAKAIARECGILTENGLAIEGPEFRDMSPRQMEETIPKLQVLARSLPLDKHKLVTYLRKEFKEVVAVTGDGTNDAPALHEADIGLAMGIAGTEVAKENADVIIMDDNFATIQNVARWGRAVYINIQKFVQFQLTVNIVALMLNFVSACISGSAPLTAVQLLWVNMIMDTLGALALATEPPHEGLMKRPPIGRDVAFITRVMWRNIIGQTIYQLIVLAILKFDGERLLKISGSNATAILNTLIFNSFVFCQVFNEINSRDMEKINVFRGFFDSWLFIMVMVCTVGFQSIIVELLGTVADTVPLSWELWLTSILLGAGSLIVAVILKCIPVENCKEASTTKHHDGYEPLPTGPDMA

Target ORF information:

RefSeq Version	XM_012602037.1
Organism	Gossypium raimondii
Definition	Gossypium raimondii putative calcium-transporting ATPase 11, plasma membrane-type (LOC105778349), mRNA.

Target ORF information:

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

XM_012602037.1

ORF Insert Sequence:

ATGGAGGACT ACTTGAGAAA GAACTTTGCC GTTGAACCCA AAAGGCCATC CGAAGAAGCT 
CTAAGGAGAT GGAGGTCTGC TGTCGCTCTC GTCAAGAACC GCAGTCGTAG GTTTCGTATG 
GTTGCTGATC TTGCTAAGCG TGCTGAAGCT GATCGCAGGC GTAAAATTAT CCAGGAAAAA 
ATTAGGGTAG CTCTTTATGT GCAAAAAGCG GCATTGAATT TCATTGATGC TGGCAAGCAA 
GCTGAAAGCA AGCTTCCAGA AGATGTTAGG AAAGCTGGTT TTCACATTGG AGCGGATGAG 
CTAGCATCCA TTGTTCGGTC CCATGACATG AGTAGCTTTG AAGAACATGG AGGAGTAGAA 
GGCTTAGCCA AAAAAGTCTC TGTTTCACTG ACCAACGGCG TTGTTCCAAC TGATATCTCA 
TTCAGGCAAA ATATATATGG CAACAACAAA TTTGATGAAA AACCTGCTAG ATCCTTTTGG 
ATGTTTGTGT GGGAAGCGCT GCATGACCTG ACTTTGATTA TTCTCATAGT ATGTGCTGTT 
GTTTCTATAG GTGTTGGAGT TGCTACTGAA GGGTGGCCTG GTGGCCTGTA TGATGGGCTA 
GGAATAGTAC TTTGCATTTT CCTGGTTGTA TTTGTTACTG CCATTAGTGA TTACAAGCAG 
TCCTTGCAAT TCAAAGACTT GGATAAAGAA AAGAAAAATA TACTTGTTCA GGTCACCAGA 
GAAGGGTGCA GGCAGAAGAT TTCTATCTAT GATCTGGTGG TTGGGGATAT TGTTCATCTA 
TCAATTGGAG ATCAAGTTCC AGCAGACGGT GTTCTAATAT CTGGTTACAG CTTATCGATC 
GATGAATCAA GCTTGTCTGG GGAGAGTGAG CCTGTAAAAG TAACTCAGGA GAGACCTTTT 
CTTCTCTCAG GGACAAAAGT CCAGGATGGC TCTGGGAAAA TGTTAGTGAC AACAGTTGGT 
ATGAGGACTG AATGGGGAAG ACTGATGGTT ACTCTAAGCG AAGGTGGAGT AGATGAAACA 
CCTCTACAGG TGAAGCTCAA CGGAGTTGCT ACGGTTATTG GAAAGATTGG TTTGGTATTT 
GCTGTTTTGA CATTTTTGGT TCTCACCATA AGGTTTATGG TGACAAAGGC ACAGCTCGGG 
GAGATTGAAA AGTGGGGTAT GAGCGACGTT CTGGTTCTCT TGAATTTCTT TGCCGTTGCA 
GTGACCATAA TTGTAGTTGC AGTTCCAGAA GGATTACCAC TGGCAGTAAC ATTAAGTCTT 
GCATTTGCAA TGAAGAAGTT AATGAGTGAT AAAGCTCTTG TAAGACATCT CTCAGCATGT 
GAGACAATGG GTTCAGCCAC TTGCATTTGT ACTGACAAAA CAGGGACACT CACTACTAAT 
CATATGGTTG TTGACAAAAT TTGGACTTGT GGGCGAACCA TAAGTATTGC AGGAGATAAC 
AAGAGGGAGG ATGTTTTGCG GTCCTCAATT GCTGGAGAAG TATTGGACCT ACTTTTGCAG 
TCCATATTTC AAAATACAGG AGCTGAAGTA GTCAAGGGAA AAGATGGCAA GAACAACATT 
TTGGGTTCTC CAACAGAGAC AGCAATATTA GAGTTTGGTT TGCTGTTGGG AGGTGAATTC 
AAAAAGTATA GGAAGGAATC TACAATTCTG AAAGTTGAGC CTTTCAATTC AGAGAAGAAA 
AGGATGTCCG TCCTTGTCTC CCTTTCTAAT GGTGGTGAGA ATAGAGCATT TTGCAAAGGT 
GCATCAGAAA TCATTTTAGA ATCTTGCAAC AAGGTAATCA ATGTTGATGG GAAGGCTGAA 
CATCTATCCA AAGAGCAGAA GAAGTACATC ACTGATGTAA TTAATGGCTT TGCCTGTGAG 
GCTCTAAGAA CTCTATGCTT GGCTTTCAAG GATGTAAAAG ACACTTCAGA TGTACATAGC 
GATAGCATCC CTCAAGAAAA CTATACGTTG ATAGCTGTGA TTGGAATTAA GGATCCTGTA 
CGTCCTGGGG TAAGGCAAGC AGTGGAAACT TGTTTATCTG CTGGAATTAA AGTGCGGATA 
GTTACTGGAG ACAACATTAA TACTGCTAAA GCTATAGCAA GAGAGTGTGG AATTTTGACA 
GAAAACGGTT TGGCAATTGA AGGGCCAGAA TTTCGTGACA TGAGCCCACG GCAGATGGAG 
GAGACCATAC CAAAACTTCA GGTTCTGGCC CGATCATTGC CCTTGGACAA GCACAAACTT 
GTAACCTACT TGAGGAAGGA GTTTAAAGAA GTGGTGGCCG TGACTGGTGA TGGGACAAAC 
GATGCACCAG CTTTGCATGA GGCTGACATT GGACTTGCTA TGGGAATAGC TGGTACAGAG 
GTTGCAAAAG AAAATGCCGA TGTTATCATA ATGGATGACA ACTTCGCGAC TATACAGAAT 
GTAGCCAGAT GGGGCCGTGC AGTTTATATC AATATCCAAA AGTTTGTACA GTTCCAGCTA 
ACAGTTAACA TTGTGGCTCT CATGCTCAAT TTTGTTTCTG CTTGCATCTC AGGTTCTGCC 
CCTCTGACGG CTGTTCAGCT ACTTTGGGTG AACATGATCA TGGACACTCT CGGTGCATTG 
GCATTGGCCA CAGAACCTCC TCATGAAGGC CTAATGAAAA GACCCCCTAT TGGAAGGGAT 
GTAGCCTTCA TCACCAGGGT CATGTGGAGG AATATAATTG GTCAGACAAT TTATCAATTG 
ATTGTACTTG CAATTCTCAA ATTTGATGGG GAACGGCTTT TGAAGATTTC TGGTTCAAAT 
GCTACTGCTA TTTTAAATAC ACTCATCTTC AATTCATTTG TGTTTTGCCA GGTGTTCAAT 
GAAATCAATA GCAGGGATAT GGAGAAGATA AATGTTTTCC GAGGCTTCTT CGATAGCTGG 
CTATTCATTA TGGTGATGGT CTGTACAGTG GGTTTCCAAA GCATAATAGT GGAACTATTG 
GGTACAGTTG CAGATACTGT GCCACTGAGC TGGGAGTTAT GGCTGACCAG CATTTTACTT 
GGAGCAGGAA GCCTCATTGT TGCTGTTATC CTCAAATGCA TACCCGTTGA GAACTGCAAA 
GAAGCTTCCA CAACCAAGCA CCATGATGGC TACGAACCGC TCCCGACTGG CCCAGATATG 
GCTTGA