xylt1 cDNA ORF clone, Pundamilia nyererei

Gene
Clones
gRNAs

Summary

Gene Symbol	xylt1
Entrez Gene ID	102196459
Full Name	xylosyltransferase 1
Gene Type	protein-coding
Organism	Pundamilia nyererei

mRNA and Protein(s)

mRNA	Protein	Name
XM_005735796.2	XP_005735853.1	xylosyltransferase 1

Pathways from BioSystems
Gene Ontology

The following xylt1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the xylt1 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
OPu65993	XM_005735796.2 Latest version!	Pundamilia nyererei xylosyltransferase I (xylt1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

xylt1 ( XM_005735796.2 ) cDNA ORF clone, Pundamilia nyererei -> XP_005735853.1 Pundamilia nyererei xylosyltransferase I (xylt1), mRNA.

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CloneID	OPu65993
Clone ID Related Accession (Same CDS sequence)	XM_005735796.2
Accession Version	XM_005735796.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2829bp) 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	2015-08-30
Organism	Pundamilia nyererei
Product	xylosyltransferase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005187466.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 31, 2015 this sequence version replaced XM_005735796.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pundamilia nyererei Annotation Release 101 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##

ATGGTCGGCG GCTTGTGTGC TCGCAGGCTG GCCCGACGGT CGCGGTCCGC GCTCATAGCT 
GCCCTCACGG TGCTGCTGGT GCAGACGCTG ATTGTGTGGA ACTTCAGCAC CCTCGACTCC 
GGGGAAGAAA GAGAAAACGG AGGGTCAAAC GTGCGGGAGA AGAGGGACCG GGTCGCGGGC 
AACAAAGCCG CTGGCAGCCA CTATTTCCAG CACGGGGACA AGCAGCGGCA GCATCTTCCT 
GCGCCTGGGA GAGGGGGGTC TCGCCACACA CAGCAGCCGG ATGGATATTA CTCCCACCGC 
CCAAAAGAGA AAAGTAGAGT CGACAGCAAC AATGAGAACT CTGTGCCCAA AGACTTTGAA 
AATATAGACA ATAGTAACTT TGGTGCACGC TCACAGCCGC ACCGACAGCC TGCAGGGGCC 
ATCAGCAGTA AGCAGCAGCG GGAGCATCTG CAGGAGAAGG CCCACGCCCA GCAGCAGGCC 
TGGCGGGACA GCTCCCCCGG TCTGGGCCGC AGCTCAAATG AGGTTCTGCC ATTAGGCCAC 
CAGCCACTGG CAGTTGGCAA CAACGCCTCT TATCCAGTTG GTGGAGGACC GCAGCAGCGC 
TACCATGCCT CGCAAGCGCA GCAGACCCAG TCACAGCACA GACATCAGCA TCCCCACAGG 
AAGCAAGCAA CTGCAGCAAC TCTGGAGGTG ACCTACGACC AGCCACCTAA GTGTGAGATC 
AGTGGAAAGG AAGCCATTTC AGCTCTGTCT CGAGCCAAAA GCAAGGAGTG TCGGCAGCAG 
ATCGCTGAGG TGTACTGCAG ACACAAGGAG GGGCAGTTAA TGCCTGAGAA GGTCACTCGC 
TACTGCCCAA TTGAGGGTAA AGCCAACGTG AATATCCAGT GGGATGAGGA CTCGGCTGAG 
AGCTTTCCAT CAAAACCAGT GAGAATAGCG TTCGTACTGG TGGTTCATGG ACGAGCCTCT 
CGCCAATTCC AACGTCTCTT CAAAGCCATC TACCACGCCT CTCACTACTA CTACATACAT 
GTCGACCAGC GCTCTAACTA CCTGCACAGG CAGGTACAGG CCTTGGCTAC CCAGTATCCC 
AATGTGAGGG TGACTCCATG GCGCATGGCC ACCATCTGGG GTGGAGCCAG TTTGCTGACC 
ATGTATCTTC GCAGTATGGC TGACCTGCTG GCCATGAGAG ACTGGAGCTG GGATTTCTTT 
ATCAATCTCA GTGCTGCCGA CTACCCCATA AGGACCAATG ACCAGCTGGT GGCCTTCCTG 
TCTAAATACA GATACATGAA CTTCATCAAG TCCCACGGCA GGGACAATGC AAGGTTCATC 
CGTAAGCAAG GTTTGGATCG TCTGTTCTAT GAATGCGACA CCCACATGTG GAGGCTGGGT 
GACCGTAAAA TCCCAGAAGG CATCTCTGTG GATGGTGGGT CCGACTGGTT TCTTCTAAAC 
CGCCTGTTCG TGGAATATGT TATCAACTCC AAGGACAATT TGGTCACTAA CATGAAGCGC 
TTCTACGCCT ACACTCTGCT TCCTGCTGAG TCATTCTTTC ACACTGTGCT GGAGAACAGC 
GCCCACTGTG AGAGCATGGT CGACAACAAC CTGCGCATAA CAAACTGGAA CCGTAAACTG 
GGATGCAAAT GTCAGTACAA GCACATTGTG GACTGGTGTG GATGCTCTCC TAATGACTTC 
AAGCCAGCAG ACTTCCATCG CTTCCAGCAA ACAGTGCGGC CCACCTTCTT TGCCAGGAAG 
TTCGAAGCCA GCGTTAACCA GGAGATAGTG AACCAGCTGG ATGCCTACCT GTTTGGACCA 
TTTCCCCAGG GGTCGCTGGC ATTGAACTCA TACTGGGAGA ACGTGTACGA CGAGCCAGAT 
GGCGTGGCCA GCCTGTCCGA CACGCAGCTA ACGTACTACC ACGCTTTCTC ACGACTGGGC 
CTGGCCAGGG CTGCCGCCTC GCTGCAGGGG AACCCAAAGG ATCACAGCTG CAGGTATTTC 
CCCATGGGCC ACCCAGTATC AGTGCATCTC TACTTCCAGT CAGACCAGTT CCAGGGCTAT 
CTGGTCAAGC ACCATGCTAC TAACCTGGCA ACAAGCAAGC TGGAGACCAT GGAGACCTGG 
GTGGCACCCA CAAAGAACTT CAAGTTAACC ACTCCTCCTA CGAGCACATT CAGCAGGTTG 
CAGTTCGCAG AGATTGGGAC AGAATGGGAT GCCAAAGAAC GCATTTTCAG AAACTTTGGC 
GGCCTAATGG GTCCCATGGA TGAGACGGTG GGCATGCAGA AGTGGGTTAA AGGGCCGAAT 
GTCACCGTCA CGGTTGTGTG GATCGACCCT ACCAACGTCA TCGCAGCCAC TTATGACATT 
TTGATTGATG CAAGTGCCGA GTTTACCCAC TATCGCCCAC CGCTCAACCA GCCTCTGCGG 
CCCGGTGTGT GGAACGTCCG CATCCTGCAT CACTGGAGTC CTGTAGCGGA GATGCGCTTC 
CTCATTGCCC CGTTGGCTTA TAACAAACAC CAGCCCATAC AACAAGAGGA TACTCTGAAG 
CTCCACAATG GGCCAGCTAA GAATAGCTAC ATGGAGCAGA GTTTCCACGG CCTCAACCCG 
GTGCTCAACA TCCCTGTCAG TCTGAGTTAC GTGGAGCAGG CCAAGAGGAA CGCAGCCCTG 
ACCGGCCATG AGCTCGAGCG TTGGATAGAC AGCCTGGTGG GCGAGTTGTG GGAGGCAGCT 
GACGTCTGTG CTGTGGGCCC TACGGCCTGT CCTGTCATGC AGGCGTGCCC CAAGAGCCCG 
TGGAGCTCCA TGAGCCCAGA CCCCAAATCT CAGCTGGGAG CACCTCGTGC CAATGGTCGT 
ATCAGGTAG

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

RefSeq	XP_005735853.1
CDS	69..2897
Translation	MVGGLCARRLARRSRSALIAALTVLLVQTLIVWNFSTLDSGEERENGGSNVREKRDRVAGNKAAGSHYFQHGDKQRQHLPAPGRGGSRHTQQPDGYYSHRPKEKSRVDSNNENSVPKDFENIDNSNFGARSQPHRQPAGAISSKQQREHLQEKAHAQQQAWRDSSPGLGRSSNEVLPLGHQPLAVGNNASYPVGGGPQQRYHASQAQQTQSQHRHQHPHRKQATAATLEVTYDQPPKCEISGKEAISALSRAKSKECRQQIAEVYCRHKEGQLMPEKVTRYCPIEGKANVNIQWDEDSAESFPSKPVRIAFVLVVHGRASRQFQRLFKAIYHASHYYYIHVDQRSNYLHRQVQALATQYPNVRVTPWRMATIWGGASLLTMYLRSMADLLAMRDWSWDFFINLSAADYPIRTNDQLVAFLSKYRYMNFIKSHGRDNARFIRKQGLDRLFYECDTHMWRLGDRKIPEGISVDGGSDWFLLNRLFVEYVINSKDNLVTNMKRFYAYTLLPAESFFHTVLENSAHCESMVDNNLRITNWNRKLGCKCQYKHIVDWCGCSPNDFKPADFHRFQQTVRPTFFARKFEASVNQEIVNQLDAYLFGPFPQGSLALNSYWENVYDEPDGVASLSDTQLTYYHAFSRLGLARAAASLQGNPKDHSCRYFPMGHPVSVHLYFQSDQFQGYLVKHHATNLATSKLETMETWVAPTKNFKLTTPPTSTFSRLQFAEIGTEWDAKERIFRNFGGLMGPMDETVGMQKWVKGPNVTVTVVWIDPTNVIAATYDILIDASAEFTHYRPPLNQPLRPGVWNVRILHHWSPVAEMRFLIAPLAYNKHQPIQQEDTLKLHNGPAKNSYMEQSFHGLNPVLNIPVSLSYVEQAKRNAALTGHELERWIDSLVGELWEAADVCAVGPTACPVMQACPKSPWSSMSPDPKSQLGAPRANGRIR

Target ORF information:

RefSeq Version	XM_005735796.2
Organism	Pundamilia nyererei
Definition	Pundamilia nyererei xylosyltransferase I (xylt1), mRNA.

Target ORF information:

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

XM_005735796.2

ORF Insert Sequence:

ATGGTCGGCG GCTTGTGTGC TCGCAGGCTG GCCCGACGGT CGCGGTCCGC GCTCATAGCT 
GCCCTCACGG TGCTGCTGGT GCAGACGCTG ATTGTGTGGA ACTTCAGCAC CCTCGACTCC 
GGGGAAGAAA GAGAAAACGG AGGGTCAAAC GTGCGGGAGA AGAGGGACCG GGTCGCGGGC 
AACAAAGCCG CTGGCAGCCA CTATTTCCAG CACGGGGACA AGCAGCGGCA GCATCTTCCT 
GCGCCTGGGA GAGGGGGGTC TCGCCACACA CAGCAGCCGG ATGGATATTA CTCCCACCGC 
CCAAAAGAGA AAAGTAGAGT CGACAGCAAC AATGAGAACT CTGTGCCCAA AGACTTTGAA 
AATATAGACA ATAGTAACTT TGGTGCACGC TCACAGCCGC ACCGACAGCC TGCAGGGGCC 
ATCAGCAGTA AGCAGCAGCG GGAGCATCTG CAGGAGAAGG CCCACGCCCA GCAGCAGGCC 
TGGCGGGACA GCTCCCCCGG TCTGGGCCGC AGCTCAAATG AGGTTCTGCC ATTAGGCCAC 
CAGCCACTGG CAGTTGGCAA CAACGCCTCT TATCCAGTTG GTGGAGGACC GCAGCAGCGC 
TACCATGCCT CGCAAGCGCA GCAGACCCAG TCACAGCACA GACATCAGCA TCCCCACAGG 
AAGCAAGCAA CTGCAGCAAC TCTGGAGGTG ACCTACGACC AGCCACCTAA GTGTGAGATC 
AGTGGAAAGG AAGCCATTTC AGCTCTGTCT CGAGCCAAAA GCAAGGAGTG TCGGCAGCAG 
ATCGCTGAGG TGTACTGCAG ACACAAGGAG GGGCAGTTAA TGCCTGAGAA GGTCACTCGC 
TACTGCCCAA TTGAGGGTAA AGCCAACGTG AATATCCAGT GGGATGAGGA CTCGGCTGAG 
AGCTTTCCAT CAAAACCAGT GAGAATAGCG TTCGTACTGG TGGTTCATGG ACGAGCCTCT 
CGCCAATTCC AACGTCTCTT CAAAGCCATC TACCACGCCT CTCACTACTA CTACATACAT 
GTCGACCAGC GCTCTAACTA CCTGCACAGG CAGGTACAGG CCTTGGCTAC CCAGTATCCC 
AATGTGAGGG TGACTCCATG GCGCATGGCC ACCATCTGGG GTGGAGCCAG TTTGCTGACC 
ATGTATCTTC GCAGTATGGC TGACCTGCTG GCCATGAGAG ACTGGAGCTG GGATTTCTTT 
ATCAATCTCA GTGCTGCCGA CTACCCCATA AGGACCAATG ACCAGCTGGT GGCCTTCCTG 
TCTAAATACA GATACATGAA CTTCATCAAG TCCCACGGCA GGGACAATGC AAGGTTCATC 
CGTAAGCAAG GTTTGGATCG TCTGTTCTAT GAATGCGACA CCCACATGTG GAGGCTGGGT 
GACCGTAAAA TCCCAGAAGG CATCTCTGTG GATGGTGGGT CCGACTGGTT TCTTCTAAAC 
CGCCTGTTCG TGGAATATGT TATCAACTCC AAGGACAATT TGGTCACTAA CATGAAGCGC 
TTCTACGCCT ACACTCTGCT TCCTGCTGAG TCATTCTTTC ACACTGTGCT GGAGAACAGC 
GCCCACTGTG AGAGCATGGT CGACAACAAC CTGCGCATAA CAAACTGGAA CCGTAAACTG 
GGATGCAAAT GTCAGTACAA GCACATTGTG GACTGGTGTG GATGCTCTCC TAATGACTTC 
AAGCCAGCAG ACTTCCATCG CTTCCAGCAA ACAGTGCGGC CCACCTTCTT TGCCAGGAAG 
TTCGAAGCCA GCGTTAACCA GGAGATAGTG AACCAGCTGG ATGCCTACCT GTTTGGACCA 
TTTCCCCAGG GGTCGCTGGC ATTGAACTCA TACTGGGAGA ACGTGTACGA CGAGCCAGAT 
GGCGTGGCCA GCCTGTCCGA CACGCAGCTA ACGTACTACC ACGCTTTCTC ACGACTGGGC 
CTGGCCAGGG CTGCCGCCTC GCTGCAGGGG AACCCAAAGG ATCACAGCTG CAGGTATTTC 
CCCATGGGCC ACCCAGTATC AGTGCATCTC TACTTCCAGT CAGACCAGTT CCAGGGCTAT 
CTGGTCAAGC ACCATGCTAC TAACCTGGCA ACAAGCAAGC TGGAGACCAT GGAGACCTGG 
GTGGCACCCA CAAAGAACTT CAAGTTAACC ACTCCTCCTA CGAGCACATT CAGCAGGTTG 
CAGTTCGCAG AGATTGGGAC AGAATGGGAT GCCAAAGAAC GCATTTTCAG AAACTTTGGC 
GGCCTAATGG GTCCCATGGA TGAGACGGTG GGCATGCAGA AGTGGGTTAA AGGGCCGAAT 
GTCACCGTCA CGGTTGTGTG GATCGACCCT ACCAACGTCA TCGCAGCCAC TTATGACATT 
TTGATTGATG CAAGTGCCGA GTTTACCCAC TATCGCCCAC CGCTCAACCA GCCTCTGCGG 
CCCGGTGTGT GGAACGTCCG CATCCTGCAT CACTGGAGTC CTGTAGCGGA GATGCGCTTC 
CTCATTGCCC CGTTGGCTTA TAACAAACAC CAGCCCATAC AACAAGAGGA TACTCTGAAG 
CTCCACAATG GGCCAGCTAA GAATAGCTAC ATGGAGCAGA GTTTCCACGG CCTCAACCCG 
GTGCTCAACA TCCCTGTCAG TCTGAGTTAC GTGGAGCAGG CCAAGAGGAA CGCAGCCCTG 
ACCGGCCATG AGCTCGAGCG TTGGATAGAC AGCCTGGTGG GCGAGTTGTG GGAGGCAGCT 
GACGTCTGTG CTGTGGGCCC TACGGCCTGT CCTGTCATGC AGGCGTGCCC CAAGAGCCCG 
TGGAGCTCCA TGAGCCCAGA CCCCAAATCT CAGCTGGGAG CACCTCGTGC CAATGGTCGT 
ATCAGGTAG