Uggt1 cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Uggt1
Entrez Gene ID	320011
Full Name	UDP-glucose glycoprotein glucosyltransferase 1
Synonyms	0910001L17Rik,A930007H10Rik,AA589501,AI414429,AI448372,C820010P03Rik,GT,UGT1,Ugcgl1
General protein information	Preferred Names UDP-glucose glycoprotein glucosyltransferase 1 Names UDP-glucose:glycoprotein glucosyltransferase 1 UDP--Glc:glycoprotein glucosyltransferase UDP-glucose ceramide glucosyltransferase-like 1 UDP-glucose:glycoprotein glucosyltransferase
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 1 Map Location: 1\|1 B

mRNA and Protein(s)

mRNA	Protein	Name
XM_006496062.4	XP_006496125.1	UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
XM_006496062.3	XP_006496125.1	UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
NM_198899.2	NP_942602.2	UDP-glucose:glycoprotein glucosyltransferase 1 precursor

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	UGGT1	XP_001141314.1
Drosophila melanogaster (fruit fly)	Ugt	NP_524151.2
	UGGT1	XP_001091373.1
Bos taurus (cattle)	UGGT1	XP_002685277.1
Gallus gallus (chicken)	UGGT1	XP_004937020.1
Danio rerio (zebrafish)	uggt1	NP_001071002.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP003560	XP_313307.5
Caenorhabditis elegans (roundworm)	uggt-1	NP_509268.1
Arabidopsis thaliana (thale cress)	EBS1	NP_001185370.1
Schizosaccharomyces pombe (fission yeast)	gpt1	NP_595281.1
Magnaporthe oryzae (rice blast fungus)	MGG_03510	XP_003716409.1
Canis lupus familiaris (dog)	UGGT1	XP_005631915.1
Mus musculus (house mouse)	Uggt1	NP_942602.2
Neurospora crassa	NCU02349	XP_959471.1
Homo sapiens (human)	UGGT1	NP_064505.1
Rattus norvegicus (Norway rat)	Uggt1	NP_598280.1
Xenopus tropicalis (tropical clawed frog)	uggt1	XP_004914541.1

Gene Ontology
Bibliography

Related articles in PubMed

UGGT1 enhances enterovirus 71 pathogenicity by promoting viral RNA synthesis and viral replication.
Huang PN, Jheng JR, Arnold JJ, Wang JR, Cameron CE, Shih SR
PLoS pathogens13(5)e1006375(2017 May)

Modulation of bilirubin neurotoxicity by the Abcb1 transporter in the Ugt1-/- lethal mouse model of neonatal hyperbilirubinemia.
Bockor L, Bortolussi G, Vodret S, Iaconcig A, Ja?prov? J, Zelenka J, Vitek L, Tiribelli C, Muro AF
Human molecular genetics26(1)145-157(2017 01)

Progesterone regulates the expression and activity of two mouse isoforms of the glycoprotein folding sensor UDP-Glc: glycoprotein glucosyltransferase (UGGT).
Prados MB, Caramelo JJ, Miranda SE
Biochimica et biophysica acta1833(12)3368-3374(2013 Dec)

UDP-glucose:glycoprotein glucosyltransferase (UGGT1) promotes substrate solubility in the endoplasmic reticulum.
Ferris SP, Jaber NS, Molinari M, Arvan P, Kaufman RJ
Molecular biology of the cell24(17)2597-608(2013 Sep)

A role for UDP-glucose glycoprotein glucosyltransferase in expression and quality control of MHC class I molecules.
Zhang W, Wearsch PA, Zhu Y, Leonhardt RM, Cresswell P
Proceedings of the National Academy of Sciences of the United States of America108(12)4956-61(2011 Mar)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Increased UGGT1 levels elevated viral growth rates, while viral pathogenicity was observed to be lower in heterozygous knockout mice (Uggt1 +/- mice). These findings provide important insight on the role of UPR and host UGGT1 in regulating RNA virus replication and pathogenicity.
Title: UGGT1 enhances enterovirus 71 pathogenicity by promoting viral RNA synthesis and viral replication.

Loss of UGT1 expression is associated with neonatal hyperbilirubinemia.
Title: Modulation of bilirubin neurotoxicity by the Abcb1 transporter in the Ugt1-/- lethal mouse model of neonatal hyperbilirubinemia.

the expression of two UGGT isoforms, UGGT1 and UGGT2 was demonstrated and both isoforms are active mouse hybridoma cells.
Title: Progesterone regulates the expression and activity of two mouse isoforms of the glycoprotein folding sensor UDP-Glc: glycoprotein glucosyltransferase (UGGT).

study demonstrates that UGGT1 enzymatic activity, in conjunction with lectin-like chaperones, helps to limit aggregation and polymer formation of misfolded glycoprotein substrates, decreasing their BiP association and ER stress
Title: UDP-glucose:glycoprotein glucosyltransferase (UGGT1) promotes substrate solubility in the endoplasmic reticulum.

UGT1 aids in the folding of sequential domain-containing proteins such as prosaposin.
Title: The role of UDP-Glc:glycoprotein glucosyltransferase 1 in the maturation of an obligate substrate prosaposin.

The following Uggt1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Uggt1 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)
OMu27468	XM_006496062.4 Latest version!	Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OMu15231	NM_198899.2 Latest version!	Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
View Old Accession Versions >>
OMu27468	XM_006496062.3	Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
Hide Old Accession Versions >>

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** 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)

Uggt1 ( XM_006496062.4 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006496125.1 Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), transcript variant X1, mRNA.

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CloneID	OMu27468
Clone ID Related Accession (Same CDS sequence)	XM_006496062.4 , XM_006496062.3
Accession Version	XM_006496062.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4632bp) 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	2019-08-07
Organism	Mus musculus(house mouse)
Product	UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000067.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 8, 2019 this sequence version replaced XM_006496062.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGCAGCC GGGGGGATGC GAACACTGCG GATGCCGCGG CTGCGCGGCG GGTGACAGGG 
CTCCGTTACA ACATGAGACT CCTGATTGCA CTGGCCTTAC CGTGCCTGTT TTCCTTAGCA 
GAAGCCAATT CAAAAGCCAT TACCACCTCT CTCACCACAA AGTGGTTTTC TGCCCCACTG 
CTGCTGGAAG CCAGTGAGTT CTTAGCAGAA GACAGTCAAG AGAAATTTTG GAGTTTTGTA 
GAAGCCACTC AAAACATTGG ATCATCAGAT CATCACGATA CTGATCACTC CTATTACGAT 
GCCGTATTGG AAGCTGCGTT TCGCTTCCTG TCCCCTCTGC AGCAGAATTT GTTGAAGTTT 
TGTCTCTCTC TCCGTTCCTA CTCAGCCTCA ATTCAAGCCT TCCAGCAGAT AGCAGTTGAC 
GAGCCTCCAC CAGAAGGGTG CAAGTCGTTT CTCTCAGTGC ATGGAAAGCA GACTTGTGAT 
CTAGACACTC TGGAGAGCCT TCTGCTGACT GCCGCTGACA GACCGAAACC ATTATTGTTC 
AAAGGAGATC ACAGATATCC CTCATCAAAT CCTGAGAGTC CAGTGGTCAT CCTTTATTCT 
GAGATTGGCC ATGAAGAATT TTCTAATATT CACCACCAAC TTATATCAAA AAGCAACGAA 
GGCAAAATTA ATTATGTATT CCGACATTAT ATATCTAATC CCAGCAAGGA GCCGGTTTAC 
CTTTCTGGCT ATGGAGTGGA ACTGGCGATC AAGAGCACGG AGTACAAGGC CAAGGATGAT 
ACTCAGGTGA AAGGAACTGA GGTAAATGCC ACGGTCATCG GGGAGAGCGA CCCTATTGAT 
GAAGTGCAGG GATTCCTCTT TGGAAAATTA AGAGAACTGT ACCCCGCCTT GGAAGGACAG 
CTGAAAGAGT TCCGGAAGCA CCTTGTGGAG AGCACCAACG AGATGGCCCC CCTGAAAGTC 
TGGCAGCTGC AAGATCTCAG CTTCCAGACT GCTGCCCGAA TCTTGGCTGC TTCTGGGGCA 
TTATCTCTGG TGGTGATGAA GGACATTAGT CAGAACTTTC CTACCAAGGC CAGAGCAATA 
ACGAAAACGG CTGTGAGCGC GCAGCTTAGA GCGGAAGTGG AAGAGAACCA GAAGTATTTC 
AAGGGAACTA TAGGATTACA GCCTGGAGAC TCAGCGCTCT TCATCAATGG ACTTCATATC 
GATTTAGACA CCCAGGATAT ATTCAGTCTA TTTGATACAT TGAGGAATGA AGCCCGTGTA 
ATGGAGGGTC TGCACAGGCT GGGAATAGAA GGCCTTTCTC TACATAATAT TTTGAAGCTG 
AACATCCAGC CCTCTGAGAC TGACTACGCA GTAGACATCA GGAGTCCTGC TATTTCCTGG 
GTCAACAACC TAGAGGTCGA TAGCCGATAT AACTCATGGC CTTCAAGCTT ACAGGAGTTA 
CTCCGCCCCA CGTTTCCTGG TGTCATACGG CAGATCAGAA AGAACCTGCA TAACATGGTT 
TTCATTATCG ATCCTGTACA CGAGACCACA GCCGAGTTGA TTAGCATCGC CGAGATGTTC 
CTCAGCAATC ACATACCGCT AAGGATTGGT TTTATCTTTG TGGTCAATGA CTCTGAAGAT 
GTTGATGGGA TGCAAGATGC TGGAGTCGCT GTTCTGAGAG CGTATAATTA TGTGGCTCAG 
GAAGTGGATG GCTATCACGC CTTCCAGACT CTCACACAGA TCTATAACAA GGTGAGGACT 
GGAGAGACAG TGAAAGTGGA GCACGTGGTC AGTGTCTTGG AGAAGAAGTA CCCGTACGTG 
GAAGTGAATA GCATTCTGGG AATTGATTCT GCTTACGATC AGAATCGGAA GGAAGCAAGA 
GGCTACTATG AGCAGACTGG AGTAGGCCCC CTGCCTGTTG TCCTGTTCAA TGGAATGCCC 
TTTGAAAAGG AGCAGTTAGA CCCGGATGAG CTGGAAACCA TCACAATGCA CAAGATCTTG 
GAGACAACCA CCTTCTTCCA AAGAGCTGTG TACTTGGGTG AGCTGTCCCA TGATCAAGAT 
GTGGTAGAGT ACATCATGAA TCAGCCAAAT GTTGTTCCAA GAATCAACTC TAGGATTCTG 
ACAGCTAAGC GAGAGTATCT GGACCTAACA GCAAGCAATA ATTTTTATGT GGATGACTTT 
GCCAGATTTT CTGCCTTGGA CTCTCGGGGC AAGACGGCTG CTATTGCCAA CAGTATGAAC 
TATCTGACGA AAAAAGATGA TTCTTTTATT AGACCAGTGA CTTTTTGGAT TGTTGGAGAT 
TTTGATAGCC CTTCTGGGCG GCAGCTACTA TATGATGCCA TTAAACATCA GAAAACCAGT 
AACAATGTTA GGATAAGTAT GATCAACAAT CCCAGCCAAG AGATCAGTGA CTCAAGCACC 
CCCATCTTCA GAGCCATCTG GGCAGCTCTG CAAACACAGG CCTCCAGCTC TGCTAAGAAC 
TTCATCACCA AGATGGCCAA AGAGGAGACG GCAGAGGCCC TGGCCGCAGG AGTGGACATT 
GCGGAATTCT CTGTCGGGGG CATGGATGTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC 
AGAATGGATT TCATTTTGTC TCATGCCCTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG 
GGACAGCGAG TGGTGATCAG CAACGGAAGG ATCATTGGGC CTCTGGAGGA CAATGAGCTC 
TTCAACCAAG ATGATTTCCA CCTCCTGGAA AATATCATCC TGAAAACATC GGGACAGAAA 
ATAAAGTCTC ATATCCAACA GCTTCGAGTA GAAGAAGACG TGGCCAGTGA TTTGGTAATG 
AAGGTGGATG CTCTCCTGTC AGCACAACCC AAAGGAGAGG CGAGGATCGA GTACCAGTTC 
TTTGAGGATA AACACAGTGC AATTAAGCTG AAGCCCAAAG AAGGAGAGAC ATACTATGAT 
GTGGTAGCCG TTGTTGACCC TGTCACACGA GAAGCACAGA GGCTCGCCCC CTTGCTCTTG 
GTTTTGACTC AGCTGATAAA CATGAATCTA AGAGTATTTA TGAATTGCCA ATCCAAGCTT 
TCCGACATGC CTTTAAAAAG CTTTTACCGT TACGTCTTAG AGCCGGAGAT TTCTTTCACT 
GCAGACAGCA GCTTTGCTAA GGGACCGATA GCAAAGTTTC TGGATATGCC ACAGTCTCCG 
CTGTTTACTT TGAATCTGAA CACACCTGAG AGTTGGATGG TAGAATCTGT CAGAACACCA 
TATGATCTGG ATAATATTTA TCTAGAAGAG GTGGACAGTA TAGTGGCTGC TGAGTATGAG 
CTGGAATATC TGTTACTAGA AGGTCATTGT TACGACATCA CCACAGGCCA GCCCCCTCGA 
GGACTACAGT TCACTTTAGG AACTTCAGCC AACCCAACAA TTGTGGACAC AATTGTGATG 
GCCAATCTGG GATATTTTCA GCTCAAAGCC AATCCGGGAG CCTGGATTCT GAGACTGAGG 
AAGGGGCGCT CAGATGACAT TTATAGGATC TACAGCCATG ATGGTACAGA TTCCCCTCCT 
GATGCAAACG ACGTTGTTGT CATCCTCAAT AACTTCAAGA GCAAGATCAT CAAAGTGAAG 
GTTCAGAAGA AGGCAGACAT GGCTAATGAA GACTTGCTGA GTGATGGGAC AAATGAGAAC 
GAGTCTGGAT TCTGGGACTC ATTCAAGTGG GGCTTCTCAG GACAGAAGGC TGAAGAAGTG 
AAGCAAGATA AAGATGACAT AATCAATATT TTCTCTGTTG CATCTGGTCA TCTCTACGAA 
AGATTTCTTC GCATCATGAT GCTCTCAGTC CTGAAGAATA CCAAGACTCC TGTGAAGTTC 
TGGTTCTTGA AGAACTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCCAAA 
AAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CAAGGTGGCT TCACCAGCAG 
ACGGAGAAGC AGCGAATCAT CTGGGGCTAC AAGATCCTCT TCCTGGACGT GCTTTTCCCG 
CTGGTTGTTG ACAAGTTCCT CTTTGTGGAT GCTGATCAGA TTGTACGGAC AGATCTGAAG 
GAGTTAAGAG ATTTCAATTT GGATGGTGCG CCTTACGGTT ACACTCCCTT CTGCGACAGC 
AGGAGAGAGA TGGATGGCTA CCGCTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTGGCT 
GGACGAAAGT ATCACATCAG TGCGCTGTAT GTCGTGGATC TGAAGAAGTT TAGGAAAATA 
GCTGCTGGAG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GCCAGGATCC CAACAGTCTT 
TCAAATCTTG ATCAAGATTT GCCCAATAAC ATGATCCATC AGGTGCCAAT CAAATCGCTC 
CCTCAGGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA GCGGGCAAAG 
ACCATCGACC TGTGTAATAA TCCCATGACT AAGGAGCCCA AACTGGAGGC TGCCGTGCGG 
ATCGTCCCTG AGTGGCAAGA CTACGACCAG GAGATCAAGC AGCTGCAGAC CCTCTTCCAA 
GAGGAGAAGG AGCTGGGGAC CCTGCATACA GAGGAGACGC AGGAAGGCTC TCAGAAGCAT 
GAGGAATTAT GA

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

RefSeq	XP_006496125.1
CDS	194..4825
Translation	MCSRGDANTADAAAARRVTGLRYNMRLLIALALPCLFSLAEANSKAITTSLTTKWFSAPLLLEASEFLAEDSQEKFWSFVEATQNIGSSDHHDTDHSYYDAVLEAAFRFLSPLQQNLLKFCLSLRSYSASIQAFQQIAVDEPPPEGCKSFLSVHGKQTCDLDTLESLLLTAADRPKPLLFKGDHRYPSSNPESPVVILYSEIGHEEFSNIHHQLISKSNEGKINYVFRHYISNPSKEPVYLSGYGVELAIKSTEYKAKDDTQVKGTEVNATVIGESDPIDEVQGFLFGKLRELYPALEGQLKEFRKHLVESTNEMAPLKVWQLQDLSFQTAARILAASGALSLVVMKDISQNFPTKARAITKTAVSAQLRAEVEENQKYFKGTIGLQPGDSALFINGLHIDLDTQDIFSLFDTLRNEARVMEGLHRLGIEGLSLHNILKLNIQPSETDYAVDIRSPAISWVNNLEVDSRYNSWPSSLQELLRPTFPGVIRQIRKNLHNMVFIIDPVHETTAELISIAEMFLSNHIPLRIGFIFVVNDSEDVDGMQDAGVAVLRAYNYVAQEVDGYHAFQTLTQIYNKVRTGETVKVEHVVSVLEKKYPYVEVNSILGIDSAYDQNRKEARGYYEQTGVGPLPVVLFNGMPFEKEQLDPDELETITMHKILETTTFFQRAVYLGELSHDQDVVEYIMNQPNVVPRINSRILTAKREYLDLTASNNFYVDDFARFSALDSRGKTAAIANSMNYLTKKDDSFIRPVTFWIVGDFDSPSGRQLLYDAIKHQKTSNNVRISMINNPSQEISDSSTPIFRAIWAALQTQASSSAKNFITKMAKEETAEALAAGVDIAEFSVGGMDVSLFKEVFESSRMDFILSHALYCRDVLKLKKGQRVVISNGRIIGPLEDNELFNQDDFHLLENIILKTSGQKIKSHIQQLRVEEDVASDLVMKVDALLSAQPKGEARIEYQFFEDKHSAIKLKPKEGETYYDVVAVVDPVTREAQRLAPLLLVLTQLINMNLRVFMNCQSKLSDMPLKSFYRYVLEPEISFTADSSFAKGPIAKFLDMPQSPLFTLNLNTPESWMVESVRTPYDLDNIYLEEVDSIVAAEYELEYLLLEGHCYDITTGQPPRGLQFTLGTSANPTIVDTIVMANLGYFQLKANPGAWILRLRKGRSDDIYRIYSHDGTDSPPDANDVVVILNNFKSKIIKVKVQKKADMANEDLLSDGTNENESGFWDSFKWGFSGQKAEEVKQDKDDIINIFSVASGHLYERFLRIMMLSVLKNTKTPVKFWFLKNYLSPTFKEFIPYMAKKYNFQYELVQYKWPRWLHQQTEKQRIIWGYKILFLDVLFPLVVDKFLFVDADQIVRTDLKELRDFNLDGAPYGYTPFCDSRREMDGYRFWKSGYWASHLAGRKYHISALYVVDLKKFRKIAAGDRLRGQYQGLSQDPNSLSNLDQDLPNNMIHQVPIKSLPQEWLWCETWCDDASKKRAKTIDLCNNPMTKEPKLEAAVRIVPEWQDYDQEIKQLQTLFQEEKELGTLHTEETQEGSQKHEEL

Target ORF information:

RefSeq Version	XM_006496062.4
Organism	Mus musculus(house mouse)
Definition	Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), transcript variant X1, mRNA.

Target ORF information:

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

XM_006496062.4

ORF Insert Sequence:

ATGTGCAGCC GGGGGGATGC GAACACTGCG GATGCCGCGG CTGCGCGGCG GGTGACAGGG 
CTCCGTTACA ACATGAGACT CCTGATTGCA CTGGCCTTAC CGTGCCTGTT TTCCTTAGCA 
GAAGCCAATT CAAAAGCCAT TACCACCTCT CTCACCACAA AGTGGTTTTC TGCCCCACTG 
CTGCTGGAAG CCAGTGAGTT CTTAGCAGAA GACAGTCAAG AGAAATTTTG GAGTTTTGTA 
GAAGCCACTC AAAACATTGG ATCATCAGAT CATCACGATA CTGATCACTC CTATTACGAT 
GCCGTATTGG AAGCTGCGTT TCGCTTCCTG TCCCCTCTGC AGCAGAATTT GTTGAAGTTT 
TGTCTCTCTC TCCGTTCCTA CTCAGCCTCA ATTCAAGCCT TCCAGCAGAT AGCAGTTGAC 
GAGCCTCCAC CAGAAGGGTG CAAGTCGTTT CTCTCAGTGC ATGGAAAGCA GACTTGTGAT 
CTAGACACTC TGGAGAGCCT TCTGCTGACT GCCGCTGACA GACCGAAACC ATTATTGTTC 
AAAGGAGATC ACAGATATCC CTCATCAAAT CCTGAGAGTC CAGTGGTCAT CCTTTATTCT 
GAGATTGGCC ATGAAGAATT TTCTAATATT CACCACCAAC TTATATCAAA AAGCAACGAA 
GGCAAAATTA ATTATGTATT CCGACATTAT ATATCTAATC CCAGCAAGGA GCCGGTTTAC 
CTTTCTGGCT ATGGAGTGGA ACTGGCGATC AAGAGCACGG AGTACAAGGC CAAGGATGAT 
ACTCAGGTGA AAGGAACTGA GGTAAATGCC ACGGTCATCG GGGAGAGCGA CCCTATTGAT 
GAAGTGCAGG GATTCCTCTT TGGAAAATTA AGAGAACTGT ACCCCGCCTT GGAAGGACAG 
CTGAAAGAGT TCCGGAAGCA CCTTGTGGAG AGCACCAACG AGATGGCCCC CCTGAAAGTC 
TGGCAGCTGC AAGATCTCAG CTTCCAGACT GCTGCCCGAA TCTTGGCTGC TTCTGGGGCA 
TTATCTCTGG TGGTGATGAA GGACATTAGT CAGAACTTTC CTACCAAGGC CAGAGCAATA 
ACGAAAACGG CTGTGAGCGC GCAGCTTAGA GCGGAAGTGG AAGAGAACCA GAAGTATTTC 
AAGGGAACTA TAGGATTACA GCCTGGAGAC TCAGCGCTCT TCATCAATGG ACTTCATATC 
GATTTAGACA CCCAGGATAT ATTCAGTCTA TTTGATACAT TGAGGAATGA AGCCCGTGTA 
ATGGAGGGTC TGCACAGGCT GGGAATAGAA GGCCTTTCTC TACATAATAT TTTGAAGCTG 
AACATCCAGC CCTCTGAGAC TGACTACGCA GTAGACATCA GGAGTCCTGC TATTTCCTGG 
GTCAACAACC TAGAGGTCGA TAGCCGATAT AACTCATGGC CTTCAAGCTT ACAGGAGTTA 
CTCCGCCCCA CGTTTCCTGG TGTCATACGG CAGATCAGAA AGAACCTGCA TAACATGGTT 
TTCATTATCG ATCCTGTACA CGAGACCACA GCCGAGTTGA TTAGCATCGC CGAGATGTTC 
CTCAGCAATC ACATACCGCT AAGGATTGGT TTTATCTTTG TGGTCAATGA CTCTGAAGAT 
GTTGATGGGA TGCAAGATGC TGGAGTCGCT GTTCTGAGAG CGTATAATTA TGTGGCTCAG 
GAAGTGGATG GCTATCACGC CTTCCAGACT CTCACACAGA TCTATAACAA GGTGAGGACT 
GGAGAGACAG TGAAAGTGGA GCACGTGGTC AGTGTCTTGG AGAAGAAGTA CCCGTACGTG 
GAAGTGAATA GCATTCTGGG AATTGATTCT GCTTACGATC AGAATCGGAA GGAAGCAAGA 
GGCTACTATG AGCAGACTGG AGTAGGCCCC CTGCCTGTTG TCCTGTTCAA TGGAATGCCC 
TTTGAAAAGG AGCAGTTAGA CCCGGATGAG CTGGAAACCA TCACAATGCA CAAGATCTTG 
GAGACAACCA CCTTCTTCCA AAGAGCTGTG TACTTGGGTG AGCTGTCCCA TGATCAAGAT 
GTGGTAGAGT ACATCATGAA TCAGCCAAAT GTTGTTCCAA GAATCAACTC TAGGATTCTG 
ACAGCTAAGC GAGAGTATCT GGACCTAACA GCAAGCAATA ATTTTTATGT GGATGACTTT 
GCCAGATTTT CTGCCTTGGA CTCTCGGGGC AAGACGGCTG CTATTGCCAA CAGTATGAAC 
TATCTGACGA AAAAAGATGA TTCTTTTATT AGACCAGTGA CTTTTTGGAT TGTTGGAGAT 
TTTGATAGCC CTTCTGGGCG GCAGCTACTA TATGATGCCA TTAAACATCA GAAAACCAGT 
AACAATGTTA GGATAAGTAT GATCAACAAT CCCAGCCAAG AGATCAGTGA CTCAAGCACC 
CCCATCTTCA GAGCCATCTG GGCAGCTCTG CAAACACAGG CCTCCAGCTC TGCTAAGAAC 
TTCATCACCA AGATGGCCAA AGAGGAGACG GCAGAGGCCC TGGCCGCAGG AGTGGACATT 
GCGGAATTCT CTGTCGGGGG CATGGATGTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC 
AGAATGGATT TCATTTTGTC TCATGCCCTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG 
GGACAGCGAG TGGTGATCAG CAACGGAAGG ATCATTGGGC CTCTGGAGGA CAATGAGCTC 
TTCAACCAAG ATGATTTCCA CCTCCTGGAA AATATCATCC TGAAAACATC GGGACAGAAA 
ATAAAGTCTC ATATCCAACA GCTTCGAGTA GAAGAAGACG TGGCCAGTGA TTTGGTAATG 
AAGGTGGATG CTCTCCTGTC AGCACAACCC AAAGGAGAGG CGAGGATCGA GTACCAGTTC 
TTTGAGGATA AACACAGTGC AATTAAGCTG AAGCCCAAAG AAGGAGAGAC ATACTATGAT 
GTGGTAGCCG TTGTTGACCC TGTCACACGA GAAGCACAGA GGCTCGCCCC CTTGCTCTTG 
GTTTTGACTC AGCTGATAAA CATGAATCTA AGAGTATTTA TGAATTGCCA ATCCAAGCTT 
TCCGACATGC CTTTAAAAAG CTTTTACCGT TACGTCTTAG AGCCGGAGAT TTCTTTCACT 
GCAGACAGCA GCTTTGCTAA GGGACCGATA GCAAAGTTTC TGGATATGCC ACAGTCTCCG 
CTGTTTACTT TGAATCTGAA CACACCTGAG AGTTGGATGG TAGAATCTGT CAGAACACCA 
TATGATCTGG ATAATATTTA TCTAGAAGAG GTGGACAGTA TAGTGGCTGC TGAGTATGAG 
CTGGAATATC TGTTACTAGA AGGTCATTGT TACGACATCA CCACAGGCCA GCCCCCTCGA 
GGACTACAGT TCACTTTAGG AACTTCAGCC AACCCAACAA TTGTGGACAC AATTGTGATG 
GCCAATCTGG GATATTTTCA GCTCAAAGCC AATCCGGGAG CCTGGATTCT GAGACTGAGG 
AAGGGGCGCT CAGATGACAT TTATAGGATC TACAGCCATG ATGGTACAGA TTCCCCTCCT 
GATGCAAACG ACGTTGTTGT CATCCTCAAT AACTTCAAGA GCAAGATCAT CAAAGTGAAG 
GTTCAGAAGA AGGCAGACAT GGCTAATGAA GACTTGCTGA GTGATGGGAC AAATGAGAAC 
GAGTCTGGAT TCTGGGACTC ATTCAAGTGG GGCTTCTCAG GACAGAAGGC TGAAGAAGTG 
AAGCAAGATA AAGATGACAT AATCAATATT TTCTCTGTTG CATCTGGTCA TCTCTACGAA 
AGATTTCTTC GCATCATGAT GCTCTCAGTC CTGAAGAATA CCAAGACTCC TGTGAAGTTC 
TGGTTCTTGA AGAACTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCCAAA 
AAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CAAGGTGGCT TCACCAGCAG 
ACGGAGAAGC AGCGAATCAT CTGGGGCTAC AAGATCCTCT TCCTGGACGT GCTTTTCCCG 
CTGGTTGTTG ACAAGTTCCT CTTTGTGGAT GCTGATCAGA TTGTACGGAC AGATCTGAAG 
GAGTTAAGAG ATTTCAATTT GGATGGTGCG CCTTACGGTT ACACTCCCTT CTGCGACAGC 
AGGAGAGAGA TGGATGGCTA CCGCTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTGGCT 
GGACGAAAGT ATCACATCAG TGCGCTGTAT GTCGTGGATC TGAAGAAGTT TAGGAAAATA 
GCTGCTGGAG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GCCAGGATCC CAACAGTCTT 
TCAAATCTTG ATCAAGATTT GCCCAATAAC ATGATCCATC AGGTGCCAAT CAAATCGCTC 
CCTCAGGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA GCGGGCAAAG 
ACCATCGACC TGTGTAATAA TCCCATGACT AAGGAGCCCA AACTGGAGGC TGCCGTGCGG 
ATCGTCCCTG AGTGGCAAGA CTACGACCAG GAGATCAAGC AGCTGCAGAC CCTCTTCCAA 
GAGGAGAAGG AGCTGGGGAC CCTGCATACA GAGGAGACGC AGGAAGGCTC TCAGAAGCAT 
GAGGAATTAT GA

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

Uggt1 ( NM_198899.2 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_942602.2 Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), mRNA.

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CloneID	OMu15231
Clone ID Related Accession (Same CDS sequence)	NM_198899.2
Accession Version	NM_198899.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4656bp) 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	2019-06-07
Organism	Mus musculus(house mouse)
Product	UDP-glucose:glycoprotein glucosyltransferase 1 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CK639915.1, BC062936.1, CD808359.1, AK044321.1, AK134231.1, AK162491.1 and AI877337.1. On May 13, 2009 this sequence version replaced NM_198899.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC068283.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMN00849374, SAMN00849375 [ECO:0000350] ##Evidence-Data-END##

ATGTGCAGCC GGGGGGATGC GAACACTGCG GATGCCGCGG CTGCGCGGCG GGTGACAGGG 
CTCCGTTACA ACATGAGACT CCTGATTGCA CTGGCCTTAC CGTGCCTGTT TTCCTTAGCA 
GAAGCCAATT CAAAAGCCAT TACCACCTCT CTCACCACAA AGTGGTTTTC TGCCCCACTG 
CTGCTGGAAG CCAGTGAGTT CTTAGCAGAA GACAGTCAAG AGAAATTTTG GAGTTTTGTA 
GAAGCCACTC AAAACATTGG ATCATCAGAT CATCACGATA CTGATCACTC CTATTACGAT 
GCCGTATTGG AAGCTGCGTT TCGCTTCCTG TCCCCTCTGC AGCAGAATTT GTTGAAGTTT 
TGTCTCTCTC TCCGTTCCTA CTCAGCCTCA ATTCAAGCCT TCCAGCAGAT AGCAGTTGAC 
GAGCCTCCAC CAGAAGGGTG CAAGTCGTTT CTCTCAGTGC ATGGAAAGCA GACTTGTGAT 
CTAGACACTC TGGAGAGCCT TCTGCTGACT GCCGCTGACA GACCGAAACC ATTATTGTTC 
AAAGGAGATC ACAGATATCC CTCATCAAAT CCTGAGAGTC CAGTGGTCAT CCTTTATTCT 
GAGATTGGCC ATGAAGAATT TTCTAATATT CACCACCAAC TTATATCAAA AAGCAACGAA 
GGCAAAATTA ATTATGTATT CCGACATTAT ATATCTAATC CCAGCAAGGA GCCGGTTTAC 
CTTTCTGGCT ATGGAGTGGA ACTGGCGATC AAGAGCACGG AGTACAAGGC CAAGGATGAT 
ACTCAGGTGA AAGGAACTGA GGTAAATGCC ACGGTCATCG GGGAGAGCGA CCCTATTGAT 
GAAGTGCAGG GATTCCTCTT TGGAAAATTA AGAGAACTGT ACCCCGCCTT GGAAGGACAG 
CTGAAAGAGT TCCGGAAGCA CCTTGTGGAG AGCACCAACG AGATGGCCCC CCTGAAAGTC 
TGGCAGCTGC AAGATCTCAG CTTCCAGACT GCTGCCCGAA TCTTGGCTGC TTCTGGGGCA 
TTATCTCTGG TGGTGATGAA GGACATTAGT CAGAACTTTC CTACCAAGGC CAGAGCAATA 
ACGAAAACGG CTGTGAGCGC GCAGCTTAGA GCGGAAGTGG AAGAGAACCA GAAGTATTTC 
AAGGGAACTA TAGGATTACA GCCTGGAGAC TCAGCGCTCT TCATCAATGG ACTTCATATC 
GATTTAGACA CCCAGGATAT ATTCAGTCTA TTTGATACAT TGAGGAATGA AGCCCGTGTA 
ATGGAGGGTC TGCACAGGCT GGGAATAGAA GGCCTTTCTC TACATAATAT TTTGAAGCTG 
AACATCCAGC CCTCTGAGAC TGACTACGCA GTAGACATCA GGAGTCCTGC TATTTCCTGG 
GTCAACAACC TAGAGGTCGA TAGCCGATAT AACTCATGGC CTTCAAGCTT ACAGGAGTTA 
CTCCGCCCCA CGTTTCCTGG TGTCATACGG CAGATCAGAA AGAACCTGCA TAACATGGTT 
TTCATTATCG ATCCTGTACA CGAGACCACA GCCGAGTTGA TTAGCATCGC CGAGATGTTC 
CTCAGCAATC ACATACCGCT AAGGATTGGT TTTATCTTTG TGGTCAATGA CTCTGAAGAT 
GTTGATGGGA TGCAAGATGC TGGAGTCGCT GTTCTGAGAG CGTATAATTA TGTGGCTCAG 
GAAGTGGATG GCTATCACGC CTTCCAGACT CTCACACAGA TCTATAACAA GGTGAGGACT 
GGAGAGACAG TGAAAGTGGA GCACGTGGTC AGTGTCTTGG AGAAGAAGTA CCCGTACGTG 
GAAGTGAATA GCATTCTGGG AATTGATTCT GCTTACGATC AGAATCGGAA GGAAGCAAGA 
GGCTACTATG AGCAGACTGG AGTAGGCCCC CTGCCTGTTG TCCTGTTCAA TGGAATGCCC 
TTTGAAAAGG AGCAGTTAGA CCCGGATGAG CTGGAAACCA TCACAATGCA CAAGATCTTG 
GAGACAACCA CCTTCTTCCA AAGAGCTGTG TACTTGGGTG AGCTGTCCCA TGATCAAGAT 
GTGGTAGAGT ACATCATGAA TCAGCCAAAT GTTGTTCCAA GAATCAACTC TAGGATTCTG 
ACAGCTAAGC GAGAGTATCT GGACCTAACA GCAAGCAATA ATTTTTATGT GGATGACTTT 
GCCAGATTTT CTGCCTTGGA CTCTCGGGGC AAGACGGCTG CTATTGCCAA CAGTATGAAC 
TATCTGACGA AAAAAGGAAT GTCCTCCAAG GAAATCTATG ATGATTCTTT TATTAGACCA 
GTGACTTTTT GGATTGTTGG AGATTTTGAT AGCCCTTCTG GGCGGCAGCT ACTATATGAT 
GCCATTAAAC ATCAGAAAAC CAGTAACAAT GTTAGGATAA GTATGATCAA CAATCCCAGC 
CAAGAGATCA GTGACTCAAG CACCCCCATC TTCAGAGCCA TCTGGGCAGC TCTGCAAACA 
CAGGCCTCCA GCTCTGCTAA GAACTTCATC ACCAAGATGG CCAAAGAGGA GACGGCAGAG 
GCCCTGGCCG CAGGAGTGGA CATTGCGGAA TTCTCTGTCG GGGGCATGGA TGTCAGTCTT 
TTTAAAGAGG TCTTTGAGTC TTCCAGAATG GATTTCATTT TGTCTCATGC CCTGTACTGC 
AGGGATGTTC TGAAGCTGAA GAAGGGACAG CGAGTGGTGA TCAGCAACGG AAGGATCATT 
GGGCCTCTGG AGGACAATGA GCTCTTCAAC CAAGATGATT TCCACCTCCT GGAAAATATC 
ATCCTGAAAA CATCGGGACA GAAAATAAAG TCTCATATCC AACAGCTTCG AGTAGAAGAA 
GACGTGGCCA GTGATTTGGT AATGAAGGTG GATGCTCTCC TGTCAGCACA ACCCAAAGGA 
GAGGCGAGGA TCGAGTACCA GTTCTTTGAG GATAAACACA GTGCAATTAA GCTGAAGCCC 
AAAGAAGGAG AGACATACTA TGATGTGGTA GCCGTTGTTG ACCCTGTCAC ACGAGAAGCA 
CAGAGGCTCG CCCCCTTGCT CTTGGTTTTG ACTCAGCTGA TAAACATGAA TCTAAGAGTA 
TTTATGAATT GCCAATCCAA GCTTTCCGAC ATGCCTTTAA AAAGCTTTTA CCGTTACGTC 
TTAGAGCCGG AGATTTCTTT CACTGCAGAC AGCAGCTTTG CTAAGGGACC GATAGCAAAG 
TTTCTGGATA TGCCACAGTC TCCGCTGTTT ACTTTGAATC TGAACACACC TGAGAGTTGG 
ATGGTAGAAT CTGTCAGAAC ACCATATGAT CTGGATAATA TTTATCTAGA AGAGGTGGAC 
AGTATAGTGG CTGCTGAGTA TGAGCTGGAA TATCTGTTAC TAGAAGGTCA TTGTTACGAC 
ATCACCACAG GCCAGCCCCC TCGAGGACTA CAGTTCACTT TAGGAACTTC AGCCAACCCA 
ACAATTGTGG ACACAATTGT GATGGCCAAT CTGGGATATT TTCAGCTCAA AGCCAATCCG 
GGAGCCTGGA TTCTGAGACT GAGGAAGGGG CGCTCAGATG ACATTTATAG GATCTACAGC 
CATGATGGTA CAGATTCCCC TCCTGATGCA AACGACGTTG TTGTCATCCT CAATAACTTC 
AAGAGCAAGA TCATCAAAGT GAAGGTTCAG AAGAAGGCAG ACATGGCTAA TGAAGACTTG 
CTGAGTGATG GGACAAATGA GAACGAGTCT GGATTCTGGG ACTCATTCAA GTGGGGCTTC 
TCAGGACAGA AGGCTGAAGA AGTGAAGCAA GATAAAGATG ACATAATCAA TATTTTCTCT 
GTTGCATCTG GTCATCTCTA CGAAAGATTT CTTCGCATCA TGATGCTCTC AGTCCTGAAG 
AATACCAAGA CTCCTGTGAA GTTCTGGTTC TTGAAGAACT ACTTGTCCCC CACATTTAAG 
GAGTTTATAC CTTACATGGC CAAAAAATAC AATTTCCAGT ATGAGCTTGT TCAGTACAAA 
TGGCCAAGGT GGCTTCACCA GCAGACGGAG AAGCAGCGAA TCATCTGGGG CTACAAGATC 
CTCTTCCTGG ACGTGCTTTT CCCGCTGGTT GTTGACAAGT TCCTCTTTGT GGATGCTGAT 
CAGATTGTAC GGACAGATCT GAAGGAGTTA AGAGATTTCA ATTTGGATGG TGCGCCTTAC 
GGTTACACTC CCTTCTGCGA CAGCAGGAGA GAGATGGATG GCTACCGCTT CTGGAAGTCA 
GGGTACTGGG CCAGTCATTT GGCTGGACGA AAGTATCACA TCAGTGCGCT GTATGTCGTG 
GATCTGAAGA AGTTTAGGAA AATAGCTGCT GGAGACAGAC TCAGGGGACA GTACCAAGGT 
CTGAGCCAGG ATCCCAACAG TCTTTCAAAT CTTGATCAAG ATTTGCCCAA TAACATGATC 
CATCAGGTGC CAATCAAATC GCTCCCTCAG GAATGGCTTT GGTGTGAAAC GTGGTGTGAT 
GACGCCTCTA AGAAGCGGGC AAAGACCATC GACCTGTGTA ATAATCCCAT GACTAAGGAG 
CCCAAACTGG AGGCTGCCGT GCGGATCGTC CCTGAGTGGC AAGACTACGA CCAGGAGATC 
AAGCAGCTGC AGACCCTCTT CCAAGAGGAG AAGGAGCTGG GGACCCTGCA TACAGAGGAG 
ACGCAGGAAG GCTCTCAGAA GCATGAGGAA TTATGA

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

RefSeq	NP_942602.2
CDS	176..4831
Translation	MCSRGDANTADAAAARRVTGLRYNMRLLIALALPCLFSLAEANSKAITTSLTTKWFSAPLLLEASEFLAEDSQEKFWSFVEATQNIGSSDHHDTDHSYYDAVLEAAFRFLSPLQQNLLKFCLSLRSYSASIQAFQQIAVDEPPPEGCKSFLSVHGKQTCDLDTLESLLLTAADRPKPLLFKGDHRYPSSNPESPVVILYSEIGHEEFSNIHHQLISKSNEGKINYVFRHYISNPSKEPVYLSGYGVELAIKSTEYKAKDDTQVKGTEVNATVIGESDPIDEVQGFLFGKLRELYPALEGQLKEFRKHLVESTNEMAPLKVWQLQDLSFQTAARILAASGALSLVVMKDISQNFPTKARAITKTAVSAQLRAEVEENQKYFKGTIGLQPGDSALFINGLHIDLDTQDIFSLFDTLRNEARVMEGLHRLGIEGLSLHNILKLNIQPSETDYAVDIRSPAISWVNNLEVDSRYNSWPSSLQELLRPTFPGVIRQIRKNLHNMVFIIDPVHETTAELISIAEMFLSNHIPLRIGFIFVVNDSEDVDGMQDAGVAVLRAYNYVAQEVDGYHAFQTLTQIYNKVRTGETVKVEHVVSVLEKKYPYVEVNSILGIDSAYDQNRKEARGYYEQTGVGPLPVVLFNGMPFEKEQLDPDELETITMHKILETTTFFQRAVYLGELSHDQDVVEYIMNQPNVVPRINSRILTAKREYLDLTASNNFYVDDFARFSALDSRGKTAAIANSMNYLTKKGMSSKEIYDDSFIRPVTFWIVGDFDSPSGRQLLYDAIKHQKTSNNVRISMINNPSQEISDSSTPIFRAIWAALQTQASSSAKNFITKMAKEETAEALAAGVDIAEFSVGGMDVSLFKEVFESSRMDFILSHALYCRDVLKLKKGQRVVISNGRIIGPLEDNELFNQDDFHLLENIILKTSGQKIKSHIQQLRVEEDVASDLVMKVDALLSAQPKGEARIEYQFFEDKHSAIKLKPKEGETYYDVVAVVDPVTREAQRLAPLLLVLTQLINMNLRVFMNCQSKLSDMPLKSFYRYVLEPEISFTADSSFAKGPIAKFLDMPQSPLFTLNLNTPESWMVESVRTPYDLDNIYLEEVDSIVAAEYELEYLLLEGHCYDITTGQPPRGLQFTLGTSANPTIVDTIVMANLGYFQLKANPGAWILRLRKGRSDDIYRIYSHDGTDSPPDANDVVVILNNFKSKIIKVKVQKKADMANEDLLSDGTNENESGFWDSFKWGFSGQKAEEVKQDKDDIINIFSVASGHLYERFLRIMMLSVLKNTKTPVKFWFLKNYLSPTFKEFIPYMAKKYNFQYELVQYKWPRWLHQQTEKQRIIWGYKILFLDVLFPLVVDKFLFVDADQIVRTDLKELRDFNLDGAPYGYTPFCDSRREMDGYRFWKSGYWASHLAGRKYHISALYVVDLKKFRKIAAGDRLRGQYQGLSQDPNSLSNLDQDLPNNMIHQVPIKSLPQEWLWCETWCDDASKKRAKTIDLCNNPMTKEPKLEAAVRIVPEWQDYDQEIKQLQTLFQEEKELGTLHTEETQEGSQKHEEL

Target ORF information:

RefSeq Version	NM_198899.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), mRNA.

Target ORF information:

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

NM_198899.2

ORF Insert Sequence:

ATGTGCAGCC GGGGGGATGC GAACACTGCG GATGCCGCGG CTGCGCGGCG GGTGACAGGG 
CTCCGTTACA ACATGAGACT CCTGATTGCA CTGGCCTTAC CGTGCCTGTT TTCCTTAGCA 
GAAGCCAATT CAAAAGCCAT TACCACCTCT CTCACCACAA AGTGGTTTTC TGCCCCACTG 
CTGCTGGAAG CCAGTGAGTT CTTAGCAGAA GACAGTCAAG AGAAATTTTG GAGTTTTGTA 
GAAGCCACTC AAAACATTGG ATCATCAGAT CATCACGATA CTGATCACTC CTATTACGAT 
GCCGTATTGG AAGCTGCGTT TCGCTTCCTG TCCCCTCTGC AGCAGAATTT GTTGAAGTTT 
TGTCTCTCTC TCCGTTCCTA CTCAGCCTCA ATTCAAGCCT TCCAGCAGAT AGCAGTTGAC 
GAGCCTCCAC CAGAAGGGTG CAAGTCGTTT CTCTCAGTGC ATGGAAAGCA GACTTGTGAT 
CTAGACACTC TGGAGAGCCT TCTGCTGACT GCCGCTGACA GACCGAAACC ATTATTGTTC 
AAAGGAGATC ACAGATATCC CTCATCAAAT CCTGAGAGTC CAGTGGTCAT CCTTTATTCT 
GAGATTGGCC ATGAAGAATT TTCTAATATT CACCACCAAC TTATATCAAA AAGCAACGAA 
GGCAAAATTA ATTATGTATT CCGACATTAT ATATCTAATC CCAGCAAGGA GCCGGTTTAC 
CTTTCTGGCT ATGGAGTGGA ACTGGCGATC AAGAGCACGG AGTACAAGGC CAAGGATGAT 
ACTCAGGTGA AAGGAACTGA GGTAAATGCC ACGGTCATCG GGGAGAGCGA CCCTATTGAT 
GAAGTGCAGG GATTCCTCTT TGGAAAATTA AGAGAACTGT ACCCCGCCTT GGAAGGACAG 
CTGAAAGAGT TCCGGAAGCA CCTTGTGGAG AGCACCAACG AGATGGCCCC CCTGAAAGTC 
TGGCAGCTGC AAGATCTCAG CTTCCAGACT GCTGCCCGAA TCTTGGCTGC TTCTGGGGCA 
TTATCTCTGG TGGTGATGAA GGACATTAGT CAGAACTTTC CTACCAAGGC CAGAGCAATA 
ACGAAAACGG CTGTGAGCGC GCAGCTTAGA GCGGAAGTGG AAGAGAACCA GAAGTATTTC 
AAGGGAACTA TAGGATTACA GCCTGGAGAC TCAGCGCTCT TCATCAATGG ACTTCATATC 
GATTTAGACA CCCAGGATAT ATTCAGTCTA TTTGATACAT TGAGGAATGA AGCCCGTGTA 
ATGGAGGGTC TGCACAGGCT GGGAATAGAA GGCCTTTCTC TACATAATAT TTTGAAGCTG 
AACATCCAGC CCTCTGAGAC TGACTACGCA GTAGACATCA GGAGTCCTGC TATTTCCTGG 
GTCAACAACC TAGAGGTCGA TAGCCGATAT AACTCATGGC CTTCAAGCTT ACAGGAGTTA 
CTCCGCCCCA CGTTTCCTGG TGTCATACGG CAGATCAGAA AGAACCTGCA TAACATGGTT 
TTCATTATCG ATCCTGTACA CGAGACCACA GCCGAGTTGA TTAGCATCGC CGAGATGTTC 
CTCAGCAATC ACATACCGCT AAGGATTGGT TTTATCTTTG TGGTCAATGA CTCTGAAGAT 
GTTGATGGGA TGCAAGATGC TGGAGTCGCT GTTCTGAGAG CGTATAATTA TGTGGCTCAG 
GAAGTGGATG GCTATCACGC CTTCCAGACT CTCACACAGA TCTATAACAA GGTGAGGACT 
GGAGAGACAG TGAAAGTGGA GCACGTGGTC AGTGTCTTGG AGAAGAAGTA CCCGTACGTG 
GAAGTGAATA GCATTCTGGG AATTGATTCT GCTTACGATC AGAATCGGAA GGAAGCAAGA 
GGCTACTATG AGCAGACTGG AGTAGGCCCC CTGCCTGTTG TCCTGTTCAA TGGAATGCCC 
TTTGAAAAGG AGCAGTTAGA CCCGGATGAG CTGGAAACCA TCACAATGCA CAAGATCTTG 
GAGACAACCA CCTTCTTCCA AAGAGCTGTG TACTTGGGTG AGCTGTCCCA TGATCAAGAT 
GTGGTAGAGT ACATCATGAA TCAGCCAAAT GTTGTTCCAA GAATCAACTC TAGGATTCTG 
ACAGCTAAGC GAGAGTATCT GGACCTAACA GCAAGCAATA ATTTTTATGT GGATGACTTT 
GCCAGATTTT CTGCCTTGGA CTCTCGGGGC AAGACGGCTG CTATTGCCAA CAGTATGAAC 
TATCTGACGA AAAAAGGAAT GTCCTCCAAG GAAATCTATG ATGATTCTTT TATTAGACCA 
GTGACTTTTT GGATTGTTGG AGATTTTGAT AGCCCTTCTG GGCGGCAGCT ACTATATGAT 
GCCATTAAAC ATCAGAAAAC CAGTAACAAT GTTAGGATAA GTATGATCAA CAATCCCAGC 
CAAGAGATCA GTGACTCAAG CACCCCCATC TTCAGAGCCA TCTGGGCAGC TCTGCAAACA 
CAGGCCTCCA GCTCTGCTAA GAACTTCATC ACCAAGATGG CCAAAGAGGA GACGGCAGAG 
GCCCTGGCCG CAGGAGTGGA CATTGCGGAA TTCTCTGTCG GGGGCATGGA TGTCAGTCTT 
TTTAAAGAGG TCTTTGAGTC TTCCAGAATG GATTTCATTT TGTCTCATGC CCTGTACTGC 
AGGGATGTTC TGAAGCTGAA GAAGGGACAG CGAGTGGTGA TCAGCAACGG AAGGATCATT 
GGGCCTCTGG AGGACAATGA GCTCTTCAAC CAAGATGATT TCCACCTCCT GGAAAATATC 
ATCCTGAAAA CATCGGGACA GAAAATAAAG TCTCATATCC AACAGCTTCG AGTAGAAGAA 
GACGTGGCCA GTGATTTGGT AATGAAGGTG GATGCTCTCC TGTCAGCACA ACCCAAAGGA 
GAGGCGAGGA TCGAGTACCA GTTCTTTGAG GATAAACACA GTGCAATTAA GCTGAAGCCC 
AAAGAAGGAG AGACATACTA TGATGTGGTA GCCGTTGTTG ACCCTGTCAC ACGAGAAGCA 
CAGAGGCTCG CCCCCTTGCT CTTGGTTTTG ACTCAGCTGA TAAACATGAA TCTAAGAGTA 
TTTATGAATT GCCAATCCAA GCTTTCCGAC ATGCCTTTAA AAAGCTTTTA CCGTTACGTC 
TTAGAGCCGG AGATTTCTTT CACTGCAGAC AGCAGCTTTG CTAAGGGACC GATAGCAAAG 
TTTCTGGATA TGCCACAGTC TCCGCTGTTT ACTTTGAATC TGAACACACC TGAGAGTTGG 
ATGGTAGAAT CTGTCAGAAC ACCATATGAT CTGGATAATA TTTATCTAGA AGAGGTGGAC 
AGTATAGTGG CTGCTGAGTA TGAGCTGGAA TATCTGTTAC TAGAAGGTCA TTGTTACGAC 
ATCACCACAG GCCAGCCCCC TCGAGGACTA CAGTTCACTT TAGGAACTTC AGCCAACCCA 
ACAATTGTGG ACACAATTGT GATGGCCAAT CTGGGATATT TTCAGCTCAA AGCCAATCCG 
GGAGCCTGGA TTCTGAGACT GAGGAAGGGG CGCTCAGATG ACATTTATAG GATCTACAGC 
CATGATGGTA CAGATTCCCC TCCTGATGCA AACGACGTTG TTGTCATCCT CAATAACTTC 
AAGAGCAAGA TCATCAAAGT GAAGGTTCAG AAGAAGGCAG ACATGGCTAA TGAAGACTTG 
CTGAGTGATG GGACAAATGA GAACGAGTCT GGATTCTGGG ACTCATTCAA GTGGGGCTTC 
TCAGGACAGA AGGCTGAAGA AGTGAAGCAA GATAAAGATG ACATAATCAA TATTTTCTCT 
GTTGCATCTG GTCATCTCTA CGAAAGATTT CTTCGCATCA TGATGCTCTC AGTCCTGAAG 
AATACCAAGA CTCCTGTGAA GTTCTGGTTC TTGAAGAACT ACTTGTCCCC CACATTTAAG 
GAGTTTATAC CTTACATGGC CAAAAAATAC AATTTCCAGT ATGAGCTTGT TCAGTACAAA 
TGGCCAAGGT GGCTTCACCA GCAGACGGAG AAGCAGCGAA TCATCTGGGG CTACAAGATC 
CTCTTCCTGG ACGTGCTTTT CCCGCTGGTT GTTGACAAGT TCCTCTTTGT GGATGCTGAT 
CAGATTGTAC GGACAGATCT GAAGGAGTTA AGAGATTTCA ATTTGGATGG TGCGCCTTAC 
GGTTACACTC CCTTCTGCGA CAGCAGGAGA GAGATGGATG GCTACCGCTT CTGGAAGTCA 
GGGTACTGGG CCAGTCATTT GGCTGGACGA AAGTATCACA TCAGTGCGCT GTATGTCGTG 
GATCTGAAGA AGTTTAGGAA AATAGCTGCT GGAGACAGAC TCAGGGGACA GTACCAAGGT 
CTGAGCCAGG ATCCCAACAG TCTTTCAAAT CTTGATCAAG ATTTGCCCAA TAACATGATC 
CATCAGGTGC CAATCAAATC GCTCCCTCAG GAATGGCTTT GGTGTGAAAC GTGGTGTGAT 
GACGCCTCTA AGAAGCGGGC AAAGACCATC GACCTGTGTA ATAATCCCAT GACTAAGGAG 
CCCAAACTGG AGGCTGCCGT GCGGATCGTC CCTGAGTGGC AAGACTACGA CCAGGAGATC 
AAGCAGCTGC AGACCCTCTT CCAAGAGGAG AAGGAGCTGG GGACCCTGCA TACAGAGGAG 
ACGCAGGAAG GCTCTCAGAA GCATGAGGAA TTATGA

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

Uggt1 ( XM_006496062.3 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006496125.1 Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMu27468
Clone ID Related Accession (Same CDS sequence)	XM_006496062.4 , XM_006496062.3
Accession Version	XM_006496062.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4632bp) 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	2016-06-21
Organism	Mus musculus(house mouse)
Product	UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000067.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 22, 2016 this sequence version replaced XM_006496062.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus musculus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGCAGCC GGGGGGATGC GAACACTGCG GATGCCGCGG CTGCGCGGCG GGTGACAGGG 
CTCCGTTACA ACATGAGACT CCTGATTGCA CTGGCCTTAC CGTGCCTGTT TTCCTTAGCA 
GAAGCCAATT CAAAAGCCAT TACCACCTCT CTCACCACAA AGTGGTTTTC TGCCCCACTG 
CTGCTGGAAG CCAGTGAGTT CTTAGCAGAA GACAGTCAAG AGAAATTTTG GAGTTTTGTA 
GAAGCCACTC AAAACATTGG ATCATCAGAT CATCACGATA CTGATCACTC CTATTACGAT 
GCCGTATTGG AAGCTGCGTT TCGCTTCCTG TCCCCTCTGC AGCAGAATTT GTTGAAGTTT 
TGTCTCTCTC TCCGTTCCTA CTCAGCCTCA ATTCAAGCCT TCCAGCAGAT AGCAGTTGAC 
GAGCCTCCAC CAGAAGGGTG CAAGTCGTTT CTCTCAGTGC ATGGAAAGCA GACTTGTGAT 
CTAGACACTC TGGAGAGCCT TCTGCTGACT GCCGCTGACA GACCGAAACC ATTATTGTTC 
AAAGGAGATC ACAGATATCC CTCATCAAAT CCTGAGAGTC CAGTGGTCAT CCTTTATTCT 
GAGATTGGCC ATGAAGAATT TTCTAATATT CACCACCAAC TTATATCAAA AAGCAACGAA 
GGCAAAATTA ATTATGTATT CCGACATTAT ATATCTAATC CCAGCAAGGA GCCGGTTTAC 
CTTTCTGGCT ATGGAGTGGA ACTGGCGATC AAGAGCACGG AGTACAAGGC CAAGGATGAT 
ACTCAGGTGA AAGGAACTGA GGTAAATGCC ACGGTCATCG GGGAGAGCGA CCCTATTGAT 
GAAGTGCAGG GATTCCTCTT TGGAAAATTA AGAGAACTGT ACCCCGCCTT GGAAGGACAG 
CTGAAAGAGT TCCGGAAGCA CCTTGTGGAG AGCACCAACG AGATGGCCCC CCTGAAAGTC 
TGGCAGCTGC AAGATCTCAG CTTCCAGACT GCTGCCCGAA TCTTGGCTGC TTCTGGGGCA 
TTATCTCTGG TGGTGATGAA GGACATTAGT CAGAACTTTC CTACCAAGGC CAGAGCAATA 
ACGAAAACGG CTGTGAGCGC GCAGCTTAGA GCGGAAGTGG AAGAGAACCA GAAGTATTTC 
AAGGGAACTA TAGGATTACA GCCTGGAGAC TCAGCGCTCT TCATCAATGG ACTTCATATC 
GATTTAGACA CCCAGGATAT ATTCAGTCTA TTTGATACAT TGAGGAATGA AGCCCGTGTA 
ATGGAGGGTC TGCACAGGCT GGGAATAGAA GGCCTTTCTC TACATAATAT TTTGAAGCTG 
AACATCCAGC CCTCTGAGAC TGACTACGCA GTAGACATCA GGAGTCCTGC TATTTCCTGG 
GTCAACAACC TAGAGGTCGA TAGCCGATAT AACTCATGGC CTTCAAGCTT ACAGGAGTTA 
CTCCGCCCCA CGTTTCCTGG TGTCATACGG CAGATCAGAA AGAACCTGCA TAACATGGTT 
TTCATTATCG ATCCTGTACA CGAGACCACA GCCGAGTTGA TTAGCATCGC CGAGATGTTC 
CTCAGCAATC ACATACCGCT AAGGATTGGT TTTATCTTTG TGGTCAATGA CTCTGAAGAT 
GTTGATGGGA TGCAAGATGC TGGAGTCGCT GTTCTGAGAG CGTATAATTA TGTGGCTCAG 
GAAGTGGATG GCTATCACGC CTTCCAGACT CTCACACAGA TCTATAACAA GGTGAGGACT 
GGAGAGACAG TGAAAGTGGA GCACGTGGTC AGTGTCTTGG AGAAGAAGTA CCCGTACGTG 
GAAGTGAATA GCATTCTGGG AATTGATTCT GCTTACGATC AGAATCGGAA GGAAGCAAGA 
GGCTACTATG AGCAGACTGG AGTAGGCCCC CTGCCTGTTG TCCTGTTCAA TGGAATGCCC 
TTTGAAAAGG AGCAGTTAGA CCCGGATGAG CTGGAAACCA TCACAATGCA CAAGATCTTG 
GAGACAACCA CCTTCTTCCA AAGAGCTGTG TACTTGGGTG AGCTGTCCCA TGATCAAGAT 
GTGGTAGAGT ACATCATGAA TCAGCCAAAT GTTGTTCCAA GAATCAACTC TAGGATTCTG 
ACAGCTAAGC GAGAGTATCT GGACCTAACA GCAAGCAATA ATTTTTATGT GGATGACTTT 
GCCAGATTTT CTGCCTTGGA CTCTCGGGGC AAGACGGCTG CTATTGCCAA CAGTATGAAC 
TATCTGACGA AAAAAGATGA TTCTTTTATT AGACCAGTGA CTTTTTGGAT TGTTGGAGAT 
TTTGATAGCC CTTCTGGGCG GCAGCTACTA TATGATGCCA TTAAACATCA GAAAACCAGT 
AACAATGTTA GGATAAGTAT GATCAACAAT CCCAGCCAAG AGATCAGTGA CTCAAGCACC 
CCCATCTTCA GAGCCATCTG GGCAGCTCTG CAAACACAGG CCTCCAGCTC TGCTAAGAAC 
TTCATCACCA AGATGGCCAA AGAGGAGACG GCAGAGGCCC TGGCCGCAGG AGTGGACATT 
GCGGAATTCT CTGTCGGGGG CATGGATGTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC 
AGAATGGATT TCATTTTGTC TCATGCCCTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG 
GGACAGCGAG TGGTGATCAG CAACGGAAGG ATCATTGGGC CTCTGGAGGA CAATGAGCTC 
TTCAACCAAG ATGATTTCCA CCTCCTGGAA AATATCATCC TGAAAACATC GGGACAGAAA 
ATAAAGTCTC ATATCCAACA GCTTCGAGTA GAAGAAGACG TGGCCAGTGA TTTGGTAATG 
AAGGTGGATG CTCTCCTGTC AGCACAACCC AAAGGAGAGG CGAGGATCGA GTACCAGTTC 
TTTGAGGATA AACACAGTGC AATTAAGCTG AAGCCCAAAG AAGGAGAGAC ATACTATGAT 
GTGGTAGCCG TTGTTGACCC TGTCACACGA GAAGCACAGA GGCTCGCCCC CTTGCTCTTG 
GTTTTGACTC AGCTGATAAA CATGAATCTA AGAGTATTTA TGAATTGCCA ATCCAAGCTT 
TCCGACATGC CTTTAAAAAG CTTTTACCGT TACGTCTTAG AGCCGGAGAT TTCTTTCACT 
GCAGACAGCA GCTTTGCTAA GGGACCGATA GCAAAGTTTC TGGATATGCC ACAGTCTCCG 
CTGTTTACTT TGAATCTGAA CACACCTGAG AGTTGGATGG TAGAATCTGT CAGAACACCA 
TATGATCTGG ATAATATTTA TCTAGAAGAG GTGGACAGTA TAGTGGCTGC TGAGTATGAG 
CTGGAATATC TGTTACTAGA AGGTCATTGT TACGACATCA CCACAGGCCA GCCCCCTCGA 
GGACTACAGT TCACTTTAGG AACTTCAGCC AACCCAACAA TTGTGGACAC AATTGTGATG 
GCCAATCTGG GATATTTTCA GCTCAAAGCC AATCCGGGAG CCTGGATTCT GAGACTGAGG 
AAGGGGCGCT CAGATGACAT TTATAGGATC TACAGCCATG ATGGTACAGA TTCCCCTCCT 
GATGCAAACG ACGTTGTTGT CATCCTCAAT AACTTCAAGA GCAAGATCAT CAAAGTGAAG 
GTTCAGAAGA AGGCAGACAT GGCTAATGAA GACTTGCTGA GTGATGGGAC AAATGAGAAC 
GAGTCTGGAT TCTGGGACTC ATTCAAGTGG GGCTTCTCAG GACAGAAGGC TGAAGAAGTG 
AAGCAAGATA AAGATGACAT AATCAATATT TTCTCTGTTG CATCTGGTCA TCTCTACGAA 
AGATTTCTTC GCATCATGAT GCTCTCAGTC CTGAAGAATA CCAAGACTCC TGTGAAGTTC 
TGGTTCTTGA AGAACTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCCAAA 
AAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CAAGGTGGCT TCACCAGCAG 
ACGGAGAAGC AGCGAATCAT CTGGGGCTAC AAGATCCTCT TCCTGGACGT GCTTTTCCCG 
CTGGTTGTTG ACAAGTTCCT CTTTGTGGAT GCTGATCAGA TTGTACGGAC AGATCTGAAG 
GAGTTAAGAG ATTTCAATTT GGATGGTGCG CCTTACGGTT ACACTCCCTT CTGCGACAGC 
AGGAGAGAGA TGGATGGCTA CCGCTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTGGCT 
GGACGAAAGT ATCACATCAG TGCGCTGTAT GTCGTGGATC TGAAGAAGTT TAGGAAAATA 
GCTGCTGGAG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GCCAGGATCC CAACAGTCTT 
TCAAATCTTG ATCAAGATTT GCCCAATAAC ATGATCCATC AGGTGCCAAT CAAATCGCTC 
CCTCAGGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA GCGGGCAAAG 
ACCATCGACC TGTGTAATAA TCCCATGACT AAGGAGCCCA AACTGGAGGC TGCCGTGCGG 
ATCGTCCCTG AGTGGCAAGA CTACGACCAG GAGATCAAGC AGCTGCAGAC CCTCTTCCAA 
GAGGAGAAGG AGCTGGGGAC CCTGCATACA GAGGAGACGC AGGAAGGCTC TCAGAAGCAT 
GAGGAATTAT GA

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

RefSeq	XP_006496125.1
CDS	171..4802
Translation	MCSRGDANTADAAAARRVTGLRYNMRLLIALALPCLFSLAEANSKAITTSLTTKWFSAPLLLEASEFLAEDSQEKFWSFVEATQNIGSSDHHDTDHSYYDAVLEAAFRFLSPLQQNLLKFCLSLRSYSASIQAFQQIAVDEPPPEGCKSFLSVHGKQTCDLDTLESLLLTAADRPKPLLFKGDHRYPSSNPESPVVILYSEIGHEEFSNIHHQLISKSNEGKINYVFRHYISNPSKEPVYLSGYGVELAIKSTEYKAKDDTQVKGTEVNATVIGESDPIDEVQGFLFGKLRELYPALEGQLKEFRKHLVESTNEMAPLKVWQLQDLSFQTAARILAASGALSLVVMKDISQNFPTKARAITKTAVSAQLRAEVEENQKYFKGTIGLQPGDSALFINGLHIDLDTQDIFSLFDTLRNEARVMEGLHRLGIEGLSLHNILKLNIQPSETDYAVDIRSPAISWVNNLEVDSRYNSWPSSLQELLRPTFPGVIRQIRKNLHNMVFIIDPVHETTAELISIAEMFLSNHIPLRIGFIFVVNDSEDVDGMQDAGVAVLRAYNYVAQEVDGYHAFQTLTQIYNKVRTGETVKVEHVVSVLEKKYPYVEVNSILGIDSAYDQNRKEARGYYEQTGVGPLPVVLFNGMPFEKEQLDPDELETITMHKILETTTFFQRAVYLGELSHDQDVVEYIMNQPNVVPRINSRILTAKREYLDLTASNNFYVDDFARFSALDSRGKTAAIANSMNYLTKKDDSFIRPVTFWIVGDFDSPSGRQLLYDAIKHQKTSNNVRISMINNPSQEISDSSTPIFRAIWAALQTQASSSAKNFITKMAKEETAEALAAGVDIAEFSVGGMDVSLFKEVFESSRMDFILSHALYCRDVLKLKKGQRVVISNGRIIGPLEDNELFNQDDFHLLENIILKTSGQKIKSHIQQLRVEEDVASDLVMKVDALLSAQPKGEARIEYQFFEDKHSAIKLKPKEGETYYDVVAVVDPVTREAQRLAPLLLVLTQLINMNLRVFMNCQSKLSDMPLKSFYRYVLEPEISFTADSSFAKGPIAKFLDMPQSPLFTLNLNTPESWMVESVRTPYDLDNIYLEEVDSIVAAEYELEYLLLEGHCYDITTGQPPRGLQFTLGTSANPTIVDTIVMANLGYFQLKANPGAWILRLRKGRSDDIYRIYSHDGTDSPPDANDVVVILNNFKSKIIKVKVQKKADMANEDLLSDGTNENESGFWDSFKWGFSGQKAEEVKQDKDDIINIFSVASGHLYERFLRIMMLSVLKNTKTPVKFWFLKNYLSPTFKEFIPYMAKKYNFQYELVQYKWPRWLHQQTEKQRIIWGYKILFLDVLFPLVVDKFLFVDADQIVRTDLKELRDFNLDGAPYGYTPFCDSRREMDGYRFWKSGYWASHLAGRKYHISALYVVDLKKFRKIAAGDRLRGQYQGLSQDPNSLSNLDQDLPNNMIHQVPIKSLPQEWLWCETWCDDASKKRAKTIDLCNNPMTKEPKLEAAVRIVPEWQDYDQEIKQLQTLFQEEKELGTLHTEETQEGSQKHEEL

Target ORF information:

RefSeq Version	XM_006496062.3
Organism	Mus musculus(house mouse)
Definition	Mus musculus UDP-glucose glycoprotein glucosyltransferase 1 (Uggt1), transcript variant X1, mRNA.

Target ORF information:

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

XM_006496062.3

ORF Insert Sequence:

ATGTGCAGCC GGGGGGATGC GAACACTGCG GATGCCGCGG CTGCGCGGCG GGTGACAGGG 
CTCCGTTACA ACATGAGACT CCTGATTGCA CTGGCCTTAC CGTGCCTGTT TTCCTTAGCA 
GAAGCCAATT CAAAAGCCAT TACCACCTCT CTCACCACAA AGTGGTTTTC TGCCCCACTG 
CTGCTGGAAG CCAGTGAGTT CTTAGCAGAA GACAGTCAAG AGAAATTTTG GAGTTTTGTA 
GAAGCCACTC AAAACATTGG ATCATCAGAT CATCACGATA CTGATCACTC CTATTACGAT 
GCCGTATTGG AAGCTGCGTT TCGCTTCCTG TCCCCTCTGC AGCAGAATTT GTTGAAGTTT 
TGTCTCTCTC TCCGTTCCTA CTCAGCCTCA ATTCAAGCCT TCCAGCAGAT AGCAGTTGAC 
GAGCCTCCAC CAGAAGGGTG CAAGTCGTTT CTCTCAGTGC ATGGAAAGCA GACTTGTGAT 
CTAGACACTC TGGAGAGCCT TCTGCTGACT GCCGCTGACA GACCGAAACC ATTATTGTTC 
AAAGGAGATC ACAGATATCC CTCATCAAAT CCTGAGAGTC CAGTGGTCAT CCTTTATTCT 
GAGATTGGCC ATGAAGAATT TTCTAATATT CACCACCAAC TTATATCAAA AAGCAACGAA 
GGCAAAATTA ATTATGTATT CCGACATTAT ATATCTAATC CCAGCAAGGA GCCGGTTTAC 
CTTTCTGGCT ATGGAGTGGA ACTGGCGATC AAGAGCACGG AGTACAAGGC CAAGGATGAT 
ACTCAGGTGA AAGGAACTGA GGTAAATGCC ACGGTCATCG GGGAGAGCGA CCCTATTGAT 
GAAGTGCAGG GATTCCTCTT TGGAAAATTA AGAGAACTGT ACCCCGCCTT GGAAGGACAG 
CTGAAAGAGT TCCGGAAGCA CCTTGTGGAG AGCACCAACG AGATGGCCCC CCTGAAAGTC 
TGGCAGCTGC AAGATCTCAG CTTCCAGACT GCTGCCCGAA TCTTGGCTGC TTCTGGGGCA 
TTATCTCTGG TGGTGATGAA GGACATTAGT CAGAACTTTC CTACCAAGGC CAGAGCAATA 
ACGAAAACGG CTGTGAGCGC GCAGCTTAGA GCGGAAGTGG AAGAGAACCA GAAGTATTTC 
AAGGGAACTA TAGGATTACA GCCTGGAGAC TCAGCGCTCT TCATCAATGG ACTTCATATC 
GATTTAGACA CCCAGGATAT ATTCAGTCTA TTTGATACAT TGAGGAATGA AGCCCGTGTA 
ATGGAGGGTC TGCACAGGCT GGGAATAGAA GGCCTTTCTC TACATAATAT TTTGAAGCTG 
AACATCCAGC CCTCTGAGAC TGACTACGCA GTAGACATCA GGAGTCCTGC TATTTCCTGG 
GTCAACAACC TAGAGGTCGA TAGCCGATAT AACTCATGGC CTTCAAGCTT ACAGGAGTTA 
CTCCGCCCCA CGTTTCCTGG TGTCATACGG CAGATCAGAA AGAACCTGCA TAACATGGTT 
TTCATTATCG ATCCTGTACA CGAGACCACA GCCGAGTTGA TTAGCATCGC CGAGATGTTC 
CTCAGCAATC ACATACCGCT AAGGATTGGT TTTATCTTTG TGGTCAATGA CTCTGAAGAT 
GTTGATGGGA TGCAAGATGC TGGAGTCGCT GTTCTGAGAG CGTATAATTA TGTGGCTCAG 
GAAGTGGATG GCTATCACGC CTTCCAGACT CTCACACAGA TCTATAACAA GGTGAGGACT 
GGAGAGACAG TGAAAGTGGA GCACGTGGTC AGTGTCTTGG AGAAGAAGTA CCCGTACGTG 
GAAGTGAATA GCATTCTGGG AATTGATTCT GCTTACGATC AGAATCGGAA GGAAGCAAGA 
GGCTACTATG AGCAGACTGG AGTAGGCCCC CTGCCTGTTG TCCTGTTCAA TGGAATGCCC 
TTTGAAAAGG AGCAGTTAGA CCCGGATGAG CTGGAAACCA TCACAATGCA CAAGATCTTG 
GAGACAACCA CCTTCTTCCA AAGAGCTGTG TACTTGGGTG AGCTGTCCCA TGATCAAGAT 
GTGGTAGAGT ACATCATGAA TCAGCCAAAT GTTGTTCCAA GAATCAACTC TAGGATTCTG 
ACAGCTAAGC GAGAGTATCT GGACCTAACA GCAAGCAATA ATTTTTATGT GGATGACTTT 
GCCAGATTTT CTGCCTTGGA CTCTCGGGGC AAGACGGCTG CTATTGCCAA CAGTATGAAC 
TATCTGACGA AAAAAGATGA TTCTTTTATT AGACCAGTGA CTTTTTGGAT TGTTGGAGAT 
TTTGATAGCC CTTCTGGGCG GCAGCTACTA TATGATGCCA TTAAACATCA GAAAACCAGT 
AACAATGTTA GGATAAGTAT GATCAACAAT CCCAGCCAAG AGATCAGTGA CTCAAGCACC 
CCCATCTTCA GAGCCATCTG GGCAGCTCTG CAAACACAGG CCTCCAGCTC TGCTAAGAAC 
TTCATCACCA AGATGGCCAA AGAGGAGACG GCAGAGGCCC TGGCCGCAGG AGTGGACATT 
GCGGAATTCT CTGTCGGGGG CATGGATGTC AGTCTTTTTA AAGAGGTCTT TGAGTCTTCC 
AGAATGGATT TCATTTTGTC TCATGCCCTG TACTGCAGGG ATGTTCTGAA GCTGAAGAAG 
GGACAGCGAG TGGTGATCAG CAACGGAAGG ATCATTGGGC CTCTGGAGGA CAATGAGCTC 
TTCAACCAAG ATGATTTCCA CCTCCTGGAA AATATCATCC TGAAAACATC GGGACAGAAA 
ATAAAGTCTC ATATCCAACA GCTTCGAGTA GAAGAAGACG TGGCCAGTGA TTTGGTAATG 
AAGGTGGATG CTCTCCTGTC AGCACAACCC AAAGGAGAGG CGAGGATCGA GTACCAGTTC 
TTTGAGGATA AACACAGTGC AATTAAGCTG AAGCCCAAAG AAGGAGAGAC ATACTATGAT 
GTGGTAGCCG TTGTTGACCC TGTCACACGA GAAGCACAGA GGCTCGCCCC CTTGCTCTTG 
GTTTTGACTC AGCTGATAAA CATGAATCTA AGAGTATTTA TGAATTGCCA ATCCAAGCTT 
TCCGACATGC CTTTAAAAAG CTTTTACCGT TACGTCTTAG AGCCGGAGAT TTCTTTCACT 
GCAGACAGCA GCTTTGCTAA GGGACCGATA GCAAAGTTTC TGGATATGCC ACAGTCTCCG 
CTGTTTACTT TGAATCTGAA CACACCTGAG AGTTGGATGG TAGAATCTGT CAGAACACCA 
TATGATCTGG ATAATATTTA TCTAGAAGAG GTGGACAGTA TAGTGGCTGC TGAGTATGAG 
CTGGAATATC TGTTACTAGA AGGTCATTGT TACGACATCA CCACAGGCCA GCCCCCTCGA 
GGACTACAGT TCACTTTAGG AACTTCAGCC AACCCAACAA TTGTGGACAC AATTGTGATG 
GCCAATCTGG GATATTTTCA GCTCAAAGCC AATCCGGGAG CCTGGATTCT GAGACTGAGG 
AAGGGGCGCT CAGATGACAT TTATAGGATC TACAGCCATG ATGGTACAGA TTCCCCTCCT 
GATGCAAACG ACGTTGTTGT CATCCTCAAT AACTTCAAGA GCAAGATCAT CAAAGTGAAG 
GTTCAGAAGA AGGCAGACAT GGCTAATGAA GACTTGCTGA GTGATGGGAC AAATGAGAAC 
GAGTCTGGAT TCTGGGACTC ATTCAAGTGG GGCTTCTCAG GACAGAAGGC TGAAGAAGTG 
AAGCAAGATA AAGATGACAT AATCAATATT TTCTCTGTTG CATCTGGTCA TCTCTACGAA 
AGATTTCTTC GCATCATGAT GCTCTCAGTC CTGAAGAATA CCAAGACTCC TGTGAAGTTC 
TGGTTCTTGA AGAACTACTT GTCCCCCACA TTTAAGGAGT TTATACCTTA CATGGCCAAA 
AAATACAATT TCCAGTATGA GCTTGTTCAG TACAAATGGC CAAGGTGGCT TCACCAGCAG 
ACGGAGAAGC AGCGAATCAT CTGGGGCTAC AAGATCCTCT TCCTGGACGT GCTTTTCCCG 
CTGGTTGTTG ACAAGTTCCT CTTTGTGGAT GCTGATCAGA TTGTACGGAC AGATCTGAAG 
GAGTTAAGAG ATTTCAATTT GGATGGTGCG CCTTACGGTT ACACTCCCTT CTGCGACAGC 
AGGAGAGAGA TGGATGGCTA CCGCTTCTGG AAGTCAGGGT ACTGGGCCAG TCATTTGGCT 
GGACGAAAGT ATCACATCAG TGCGCTGTAT GTCGTGGATC TGAAGAAGTT TAGGAAAATA 
GCTGCTGGAG ACAGACTCAG GGGACAGTAC CAAGGTCTGA GCCAGGATCC CAACAGTCTT 
TCAAATCTTG ATCAAGATTT GCCCAATAAC ATGATCCATC AGGTGCCAAT CAAATCGCTC 
CCTCAGGAAT GGCTTTGGTG TGAAACGTGG TGTGATGACG CCTCTAAGAA GCGGGCAAAG 
ACCATCGACC TGTGTAATAA TCCCATGACT AAGGAGCCCA AACTGGAGGC TGCCGTGCGG 
ATCGTCCCTG AGTGGCAAGA CTACGACCAG GAGATCAAGC AGCTGCAGAC CCTCTTCCAA 
GAGGAGAAGG AGCTGGGGAC CCTGCATACA GAGGAGACGC AGGAAGGCTC TCAGAAGCAT 
GAGGAATTAT GA

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

PubMed

UGGT1 enhances enterovirus 71 pathogenicity by promoting viral RNA synthesis and viral replication.
PLoS pathogens13(5)e1006375(2017 May)
Huang PN,Jheng JR,Arnold JJ,Wang JR,Cameron CE,Shih SR

Modulation of bilirubin neurotoxicity by the Abcb1 transporter in the Ugt1-/- lethal mouse model of neonatal hyperbilirubinemia.
Human molecular genetics26(1)145-157(2017 01)
Bockor L,Bortolussi G,Vodret S,Iaconcig A,Ja?prov? J,Zelenka J,Vitek L,Tiribelli C,Muro AF

Progesterone regulates the expression and activity of two mouse isoforms of the glycoprotein folding sensor UDP-Glc: glycoprotein glucosyltransferase (UGGT).
Biochimica et biophysica acta1833(12)3368-3374(2013 Dec)
Prados MB,Caramelo JJ,Miranda SE

UDP-glucose:glycoprotein glucosyltransferase (UGGT1) promotes substrate solubility in the endoplasmic reticulum.
Molecular biology of the cell24(17)2597-608(2013 Sep)
Ferris SP,Jaber NS,Molinari M,Arvan P,Kaufman RJ

A role for UDP-glucose glycoprotein glucosyltransferase in expression and quality control of MHC class I molecules.
Proceedings of the National Academy of Sciences of the United States of America108(12)4956-61(2011 Mar)
Zhang W,Wearsch PA,Zhu Y,Leonhardt RM,Cresswell P

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Uggt1 cDNA ORF clone, Mus musculus(house mouse)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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