UGGT2 cDNA ORF clone, Pongo abelii(Sumatran orangutan)

Gene
Clones
gRNAs

Summary

Gene Symbol	UGGT2
Entrez Gene ID	100446884
Full Name	UDP-glucose glycoprotein glucosyltransferase 2
Gene Type	protein-coding
Organism	Pongo abelii(Sumatran orangutan)

mRNA and Protein(s)

mRNA	Protein	Name
XM_024230998.1	XP_024086766.1	UDP-glucose:glycoprotein glucosyltransferase 2
XM_009248741.1	XP_009247016.1	LOW QUALITY PROTEIN: UDP-glucose:glycoprotein glucosyltransferase 2

Pathways from BioSystems
Gene Ontology

The following UGGT2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UGGT2 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
OSa30533	XM_009248741.1 Latest version!	Pongo abelii UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OSa168624	XM_024230998.1 Latest version!	Pongo abelii UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
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)

UGGT2 ( XM_009248741.1 ) cDNA ORF clone, Pongo abelii(Sumatran orangutan) -> XP_009247016.1 Pongo abelii UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.

Price & Availability↑

CloneID	OSa30533
Clone ID Related Accession (Same CDS sequence)	XM_009248741.1
Accession Version	XM_009248741.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4095bp) 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	1411315200000
Organism	Pongo abelii(Sumatran orangutan)
Product	LOW QUALITY PROTEIN: UDP-glucose:glycoprotein glucosyltransferase 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002886874.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 4% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGCGCCAG CGAAAGCCAC GAACGTGGTG CGGCTGCTCC TAGGCTCCAC GGCGCTGTGG 
NCTTCGCAGC TCGGCGCCGG GACGGTCGCC GCGTCCAAGT CGGTGACGGC CCACTTGGCT 
GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGCGGGTGT CTGGCTCCCA CCCGGCTTCT 
CCAGACGCCC CCGCTCTGTC CCTGAGCATC ACCACCTCTT TCCTTCCCGA CCCGGGGCGG 
CTTCTCGGTT CCCGTGCAGC ACTCAACTTG CGGTTCCTTT CCTCCTCAGT CTTACTTTAC 
CTGCGGTTTT TAAAGCTTCC CTGCTCTGCT TTAAAACCAA GCTCACGGAA AATGTACTTA 
TCTGGGTATG GTGTGGAGCT AGCAATTAAG AGTACAGAAT ACAAAGCACT GGATGATACC 
CAAGTTAAAA CTGTGACTAA TACTACTGTA GAGGATGAGA CTGAAACAAA TGAAGTTCAA 
GGATTTCTCT TTGGGAAACT AAAAGAAATA TATTCAGATC TTAGAGATAA TCTGACAGCA 
TTCCAAAAAT ACCTGACTGA GAGTAACAAA CAAATGACGC CTTTGAAAGT CTGGGAACTA 
CAAGATCTTA GTTTTCAAGC AGCTTCTCAA ATAATGTCCA CTCCAGTTTA TGATGCCATT 
AAATTAATGA AAGACATTTC ACAGAACTTC CCTATAAAAG CCAGATCTCT AACCAGAATT 
GCTGTAAATC AACATATGAG AGAAGAAATA AAGGAAAATC AAAAGGATCT TCAAGATAGA 
TTTGAAATTC AGCCAGGCGA TGCTCGTCTA TTTATAAATG GCCTTCGTGT TGATATGGAT 
GTTTATGACC CTTTTAGTAT TTTGGATATG CTGAAATTAG AAGGAAAAAT GATGAATGGC 
CTTCGCAATC TTGGGATCAA TGGGGAAGAT ATGAGCAAAT TTTTAAAATT AAATTCACAC 
ATTTGGGAAT ATACTTATGT ATTAGATATT CGACATTCTT CTATAATGTG GATTAATGAC 
TTGGAAAATG ATGATTTGTA TATTACATGG CCTACAAGTT GCCAGAAACT TCTGAAGCCA 
GTATTTCCTG GAAGTGTACC TTCCATAAGG CGCAATTTTC ATAATTTGGT TCTGTTTATT 
GATCCGGCCC AAGAATATAC CTTGGATTTT ATAAAACTTG CTGATGTTTT CTATTCTCAC 
GAAGTTCCTC TTAGAGTACA TATGTACCAA AAAGTGAAGA AGGATCAAAA TATACTCACT 
GTGGACAATG TGAAGAGTGT TCTCCAAAAT ACATTTCCTC ATGCTAATAT TTGGGATATT 
TTAGGAATTC ATTCTAAATA TGATGAAGAA AGAACGGCTG GAGCAAGCTT TTATAAGATG 
ACTGGCCTGG GTCCTTTGCC TCAAGCTCTT TATAATGGTG AACCCTTTAA ACATGAAGAG 
ATGAATATTA AAGAACTAAA AATGGCTGTT CTTCAAAGAA TGATGGATGC ATCTGTATAT 
TTACAAAGAG AAGTTTTTTT GGGCACATTA AATGATCGCA CGAATGCAAT TGATTTTCTA 
ATGGATAGGA ATAATGTTGT ACCCCGTATA AATTCTTTGA TTTTGCATAG TAACCAGCAG 
TACCTCAATT TAATGTCTAC ATCAGTAACT GCTGATGTTG AAGATTTCTC TACTTTCTTT 
TTCTTGGATT CACAAGATAA GAGTGCTGTA ATTGCAAAGA ACATGTATTA TTTAACCCGA 
GACGATGACA GTATAATTTC TGCAGTCAGT CTCTGGATTA TTGCAGATTT TGATAAGCCT 
TCTGGGAGAA AACTTCTTTT TAATGCATTA AAGCACATGA AAACAAGTAT TCATAGTCGG 
TTGGGGATTA TTTATAATCC TACATCAAAA ATAAATGAAG AGAACACAGC TATTTCTAGA 
GGAATTTTGG CAGCTTTTCT TACACAGAAG AACATGTTTT TGAGAAGCTT TCTTGGGCAA 
CTGGCAAAGG AAGAAACTGC TACAGCTATT TACTCTGGAG ATAAAATTAA AACATTCCTT 
ATTGAGGGGA TGGATAAGAA TGCTTTTGAG AAAAAATATA ATACTGTTGG AGTGAATATT 
TTTCGAACTC ACCAGTTGTT CTGTCAAGAT GTACTTAAAT TGCGTCCTGG AGAAATGGGT 
ATTGTCAGCA ATGGGAGATT CTTAGGACCT TTAGATGAAG ATTTTTATGC AGAAGATTTT 
TACTTGTTGG AAAAGATAAC ATTTAGTAAT TTAGGAGAGA AAATTAAAGG CATTGTTGAA 
AATATGGGAA TCAATGCAAA TAACATGAGT GACTTTATCA TGAAAGTCGA TGCCCTTATG 
TCCTCTGTGC CTAAGCGTGC ATCTCAATAT GATGTCACAT TTCTTAGGGA GAATCACAGT 
GTTATAAAGA TGAATCCTCA AGAGAATGAT ATGTTCTTCA ATGTCATTGC TATTGTTGAT 
CCATTAACAA GAGAAGCACA GAAAATGGCA CAGTTGTTGG TTGTACTTGG CAAGATTATC 
AACATGAAGA TAAAGTTGTT CATGAACTGT AGGGGCAGGC TTTCAGAAGC CCCTTTACAG 
AGCTTTTACC GTTTTGTTCT GGAACCAGAA CTGATGTCAG GGGCTAATGA CGTTTCTTCT 
CTTGGACCAG TGGCAAAATT TTTGGATATT CCTGAATCAC CCCTCCTAAT CCTCAACATG 
ATTACTCCAG AAGGCTGGTT GGTTGAAACA GTACACAGCA ACTGTGACCT TGATAATATT 
CACTTAAAGG ATACTGAGAA AACTGTTACA GCAGAATATG AGCTAGAATA CTTACTACTG 
GAAGGACAAT GCTTTGATAA AGTGACAGAA CAGCCTCCTC AGGGTCTGCA GTTCACACTA 
GGCACAAAAA ATAAACCTGT TGTGGTTGAT ACAATAGTGA TGGCCAATCA TGGGTATTTT 
CAATTAAAAG CAAATCCAGG TGCTTGGATA CTGAGGTTAC ACCAAGGAAA ATCTGAAGAT 
ATTTATCAAA TAGTTGGGCA TGAAGGAACT GACTCTCAAG CAGACCTAGA AGATATCATT 
GTTGTATTAA ACAGCTTCAA AAGGAAGATA CTGGAAGTAA AAGTGAAAAA AGAAACAGAC 
AAAATTAAGG AAGATATCCT TACCGATGAA GATGAAAAAA CGAAAGGACT GTGGGATTCC 
ATTAAAAGTT TCACAGTAAG CTTGCATAAA GAAGACAAAA AGGAAAAAGA TGTCCTAAAC 
ATTTTTTCAG TTGCTTCTGG TCATTTATAT GAACGTTTTT TAAGAATTAT GATGCTTTCT 
GTTTTGCGTA ACACCAAAAC ACCAGTGAAA TTCTGGTTGC TAAAAAATTA TCTCTCACCG 
ACATTTAAAG AAGTAATTCC TCACATGGCT AAAGAGTATG GATTCCGATA TGAACTAGTT 
CAATATAGGT GGCCCCGTTG GCTTCGTCAA CAGACTGAAA GACAGAGGAT TATTTGGGGT 
TACAAAATTC TTTTCCTTGA TGTTCTTTTC CCACTAGCAG TGGACAAAAT CATTTTTGTT 
GATGCTGACC AGATTGTGAG ACATGATCTA AAAGAACTTC GAGATTTCGA TCTGGATGGA 
GCTCCTTATG GGTATACTCC ATTTTGTGAT AGCCGCAGGG AAATGGATGG ATATCGTTTC 
TGGAAAACAG GATACTGGGC ATCACATCTT TTAAGACGGA AATACCATAT CAGTGCTTTA 
TATGTAGTGG ATCTCAAGAA GTTCAGGAGA ATTGGAGCAG GTGACAGGCT CAGGAGCCAG 
TACCAAGCTC TCAGTCAAGA TCCAAACAGT CTTTCAAACC TAGATCAGGA TCTCCCCAAT 
AATATGATTT ACCAAGTCGC CATTAAGTCT CTTCCTCAAG ACTGGCTGTG GTGTGAAACC 
TGGTGTGATG ATGAATCCAA ACAAAGAGCC AAAACAATTG ATCTGTGCAA TAATCCCAAA 
ACAAAAGAAC CCAAACTAAA AGCTGCTGCC AGAATTGTCC CAGAATGGGT GGAGTATGAT 
GCTGAGATAA GACAACTATT AGATCATCTT GAAAACAAGA AGCAAGATAC AATTTTGACA 
CATGATGAAC TCTAG

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

RefSeq	XP_009247016.1
CDS	94..4188
Translation	MAPAKATNVVRLLLGSTALWnullSQLGAGTVAASKSVTAHLAAKWPETPLLLERVSGSHPASPDAPALSLSITTSFLPDPGRLLGSRAALNLRFLSSSVLLYLRFLKLPCSALKPSSRKMYLSGYGVELAIKSTEYKALDDTQVKTVTNTTVEDETETNEVQGFLFGKLKEIYSDLRDNLTAFQKYLTESNKQMTPLKVWELQDLSFQAASQIMSTPVYDAIKLMKDISQNFPIKARSLTRIAVNQHMREEIKENQKDLQDRFEIQPGDARLFINGLRVDMDVYDPFSILDMLKLEGKMMNGLRNLGINGEDMSKFLKLNSHIWEYTYVLDIRHSSIMWINDLENDDLYITWPTSCQKLLKPVFPGSVPSIRRNFHNLVLFIDPAQEYTLDFIKLADVFYSHEVPLRVHMYQKVKKDQNILTVDNVKSVLQNTFPHANIWDILGIHSKYDEERTAGASFYKMTGLGPLPQALYNGEPFKHEEMNIKELKMAVLQRMMDASVYLQREVFLGTLNDRTNAIDFLMDRNNVVPRINSLILHSNQQYLNLMSTSVTADVEDFSTFFFLDSQDKSAVIAKNMYYLTRDDDSIISAVSLWIIADFDKPSGRKLLFNALKHMKTSIHSRLGIIYNPTSKINEENTAISRGILAAFLTQKNMFLRSFLGQLAKEETATAIYSGDKIKTFLIEGMDKNAFEKKYNTVGVNIFRTHQLFCQDVLKLRPGEMGIVSNGRFLGPLDEDFYAEDFYLLEKITFSNLGEKIKGIVENMGINANNMSDFIMKVDALMSSVPKRASQYDVTFLRENHSVIKMNPQENDMFFNVIAIVDPLTREAQKMAQLLVVLGKIINMKIKLFMNCRGRLSEAPLQSFYRFVLEPELMSGANDVSSLGPVAKFLDIPESPLLILNMITPEGWLVETVHSNCDLDNIHLKDTEKTVTAEYELEYLLLEGQCFDKVTEQPPQGLQFTLGTKNKPVVVDTIVMANHGYFQLKANPGAWILRLHQGKSEDIYQIVGHEGTDSQADLEDIIVVLNSFKRKILEVKVKKETDKIKEDILTDEDEKTKGLWDSIKSFTVSLHKEDKKEKDVLNIFSVASGHLYERFLRIMMLSVLRNTKTPVKFWLLKNYLSPTFKEVIPHMAKEYGFRYELVQYRWPRWLRQQTERQRIIWGYKILFLDVLFPLAVDKIIFVDADQIVRHDLKELRDFDLDGAPYGYTPFCDSRREMDGYRFWKTGYWASHLLRRKYHISALYVVDLKKFRRIGAGDRLRSQYQALSQDPNSLSNLDQDLPNNMIYQVAIKSLPQDWLWCETWCDDESKQRAKTIDLCNNPKTKEPKLKAAARIVPEWVEYDAEIRQLLDHLENKKQDTILTHDEL

Target ORF information:

RefSeq Version	XM_009248741.1
Organism	Pongo abelii(Sumatran orangutan)
Definition	Pongo abelii UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.

Target ORF information:

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

XM_009248741.1

ORF Insert Sequence:

ATGGCGCCAG CGAAAGCCAC GAACGTGGTG CGGCTGCTCC TAGGCTCCAC GGCGCTGTGG 
NCTTCGCAGC TCGGCGCCGG GACGGTCGCC GCGTCCAAGT CGGTGACGGC CCACTTGGCT 
GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGCGGGTGT CTGGCTCCCA CCCGGCTTCT 
CCAGACGCCC CCGCTCTGTC CCTGAGCATC ACCACCTCTT TCCTTCCCGA CCCGGGGCGG 
CTTCTCGGTT CCCGTGCAGC ACTCAACTTG CGGTTCCTTT CCTCCTCAGT CTTACTTTAC 
CTGCGGTTTT TAAAGCTTCC CTGCTCTGCT TTAAAACCAA GCTCACGGAA AATGTACTTA 
TCTGGGTATG GTGTGGAGCT AGCAATTAAG AGTACAGAAT ACAAAGCACT GGATGATACC 
CAAGTTAAAA CTGTGACTAA TACTACTGTA GAGGATGAGA CTGAAACAAA TGAAGTTCAA 
GGATTTCTCT TTGGGAAACT AAAAGAAATA TATTCAGATC TTAGAGATAA TCTGACAGCA 
TTCCAAAAAT ACCTGACTGA GAGTAACAAA CAAATGACGC CTTTGAAAGT CTGGGAACTA 
CAAGATCTTA GTTTTCAAGC AGCTTCTCAA ATAATGTCCA CTCCAGTTTA TGATGCCATT 
AAATTAATGA AAGACATTTC ACAGAACTTC CCTATAAAAG CCAGATCTCT AACCAGAATT 
GCTGTAAATC AACATATGAG AGAAGAAATA AAGGAAAATC AAAAGGATCT TCAAGATAGA 
TTTGAAATTC AGCCAGGCGA TGCTCGTCTA TTTATAAATG GCCTTCGTGT TGATATGGAT 
GTTTATGACC CTTTTAGTAT TTTGGATATG CTGAAATTAG AAGGAAAAAT GATGAATGGC 
CTTCGCAATC TTGGGATCAA TGGGGAAGAT ATGAGCAAAT TTTTAAAATT AAATTCACAC 
ATTTGGGAAT ATACTTATGT ATTAGATATT CGACATTCTT CTATAATGTG GATTAATGAC 
TTGGAAAATG ATGATTTGTA TATTACATGG CCTACAAGTT GCCAGAAACT TCTGAAGCCA 
GTATTTCCTG GAAGTGTACC TTCCATAAGG CGCAATTTTC ATAATTTGGT TCTGTTTATT 
GATCCGGCCC AAGAATATAC CTTGGATTTT ATAAAACTTG CTGATGTTTT CTATTCTCAC 
GAAGTTCCTC TTAGAGTACA TATGTACCAA AAAGTGAAGA AGGATCAAAA TATACTCACT 
GTGGACAATG TGAAGAGTGT TCTCCAAAAT ACATTTCCTC ATGCTAATAT TTGGGATATT 
TTAGGAATTC ATTCTAAATA TGATGAAGAA AGAACGGCTG GAGCAAGCTT TTATAAGATG 
ACTGGCCTGG GTCCTTTGCC TCAAGCTCTT TATAATGGTG AACCCTTTAA ACATGAAGAG 
ATGAATATTA AAGAACTAAA AATGGCTGTT CTTCAAAGAA TGATGGATGC ATCTGTATAT 
TTACAAAGAG AAGTTTTTTT GGGCACATTA AATGATCGCA CGAATGCAAT TGATTTTCTA 
ATGGATAGGA ATAATGTTGT ACCCCGTATA AATTCTTTGA TTTTGCATAG TAACCAGCAG 
TACCTCAATT TAATGTCTAC ATCAGTAACT GCTGATGTTG AAGATTTCTC TACTTTCTTT 
TTCTTGGATT CACAAGATAA GAGTGCTGTA ATTGCAAAGA ACATGTATTA TTTAACCCGA 
GACGATGACA GTATAATTTC TGCAGTCAGT CTCTGGATTA TTGCAGATTT TGATAAGCCT 
TCTGGGAGAA AACTTCTTTT TAATGCATTA AAGCACATGA AAACAAGTAT TCATAGTCGG 
TTGGGGATTA TTTATAATCC TACATCAAAA ATAAATGAAG AGAACACAGC TATTTCTAGA 
GGAATTTTGG CAGCTTTTCT TACACAGAAG AACATGTTTT TGAGAAGCTT TCTTGGGCAA 
CTGGCAAAGG AAGAAACTGC TACAGCTATT TACTCTGGAG ATAAAATTAA AACATTCCTT 
ATTGAGGGGA TGGATAAGAA TGCTTTTGAG AAAAAATATA ATACTGTTGG AGTGAATATT 
TTTCGAACTC ACCAGTTGTT CTGTCAAGAT GTACTTAAAT TGCGTCCTGG AGAAATGGGT 
ATTGTCAGCA ATGGGAGATT CTTAGGACCT TTAGATGAAG ATTTTTATGC AGAAGATTTT 
TACTTGTTGG AAAAGATAAC ATTTAGTAAT TTAGGAGAGA AAATTAAAGG CATTGTTGAA 
AATATGGGAA TCAATGCAAA TAACATGAGT GACTTTATCA TGAAAGTCGA TGCCCTTATG 
TCCTCTGTGC CTAAGCGTGC ATCTCAATAT GATGTCACAT TTCTTAGGGA GAATCACAGT 
GTTATAAAGA TGAATCCTCA AGAGAATGAT ATGTTCTTCA ATGTCATTGC TATTGTTGAT 
CCATTAACAA GAGAAGCACA GAAAATGGCA CAGTTGTTGG TTGTACTTGG CAAGATTATC 
AACATGAAGA TAAAGTTGTT CATGAACTGT AGGGGCAGGC TTTCAGAAGC CCCTTTACAG 
AGCTTTTACC GTTTTGTTCT GGAACCAGAA CTGATGTCAG GGGCTAATGA CGTTTCTTCT 
CTTGGACCAG TGGCAAAATT TTTGGATATT CCTGAATCAC CCCTCCTAAT CCTCAACATG 
ATTACTCCAG AAGGCTGGTT GGTTGAAACA GTACACAGCA ACTGTGACCT TGATAATATT 
CACTTAAAGG ATACTGAGAA AACTGTTACA GCAGAATATG AGCTAGAATA CTTACTACTG 
GAAGGACAAT GCTTTGATAA AGTGACAGAA CAGCCTCCTC AGGGTCTGCA GTTCACACTA 
GGCACAAAAA ATAAACCTGT TGTGGTTGAT ACAATAGTGA TGGCCAATCA TGGGTATTTT 
CAATTAAAAG CAAATCCAGG TGCTTGGATA CTGAGGTTAC ACCAAGGAAA ATCTGAAGAT 
ATTTATCAAA TAGTTGGGCA TGAAGGAACT GACTCTCAAG CAGACCTAGA AGATATCATT 
GTTGTATTAA ACAGCTTCAA AAGGAAGATA CTGGAAGTAA AAGTGAAAAA AGAAACAGAC 
AAAATTAAGG AAGATATCCT TACCGATGAA GATGAAAAAA CGAAAGGACT GTGGGATTCC 
ATTAAAAGTT TCACAGTAAG CTTGCATAAA GAAGACAAAA AGGAAAAAGA TGTCCTAAAC 
ATTTTTTCAG TTGCTTCTGG TCATTTATAT GAACGTTTTT TAAGAATTAT GATGCTTTCT 
GTTTTGCGTA ACACCAAAAC ACCAGTGAAA TTCTGGTTGC TAAAAAATTA TCTCTCACCG 
ACATTTAAAG AAGTAATTCC TCACATGGCT AAAGAGTATG GATTCCGATA TGAACTAGTT 
CAATATAGGT GGCCCCGTTG GCTTCGTCAA CAGACTGAAA GACAGAGGAT TATTTGGGGT 
TACAAAATTC TTTTCCTTGA TGTTCTTTTC CCACTAGCAG TGGACAAAAT CATTTTTGTT 
GATGCTGACC AGATTGTGAG ACATGATCTA AAAGAACTTC GAGATTTCGA TCTGGATGGA 
GCTCCTTATG GGTATACTCC ATTTTGTGAT AGCCGCAGGG AAATGGATGG ATATCGTTTC 
TGGAAAACAG GATACTGGGC ATCACATCTT TTAAGACGGA AATACCATAT CAGTGCTTTA 
TATGTAGTGG ATCTCAAGAA GTTCAGGAGA ATTGGAGCAG GTGACAGGCT CAGGAGCCAG 
TACCAAGCTC TCAGTCAAGA TCCAAACAGT CTTTCAAACC TAGATCAGGA TCTCCCCAAT 
AATATGATTT ACCAAGTCGC CATTAAGTCT CTTCCTCAAG ACTGGCTGTG GTGTGAAACC 
TGGTGTGATG ATGAATCCAA ACAAAGAGCC AAAACAATTG ATCTGTGCAA TAATCCCAAA 
ACAAAAGAAC CCAAACTAAA AGCTGCTGCC AGAATTGTCC CAGAATGGGT GGAGTATGAT 
GCTGAGATAA GACAACTATT AGATCATCTT GAAAACAAGA AGCAAGATAC AATTTTGACA 
CATGATGAAC TCTAG

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

UGGT2 ( XM_024230998.1 ) cDNA ORF clone, Pongo abelii(Sumatran orangutan) -> XP_024086766.1 Pongo abelii UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.

Price & Availability↑

CloneID	OSa168624
Clone ID Related Accession (Same CDS sequence)	XM_024230998.1
Accession Version	XM_024230998.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4551bp) 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	1519660800000
Organism	Pongo abelii(Sumatran orangutan)
Product	UDP-glucose:glycoprotein glucosyltransferase 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036916.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGCCAG CGAAAGCCAC GAACGTGGTG CGGCTGCTCC TAGGCTCCAC GGCGCTGTGG 
CTTTCGCAGC TCAGCGCCGG GACGGTCGCC GCGTCCAAGT CGGTGACGGC CCACTTGGCT 
GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGGCAAGTG AATTTATGGC AGAAGAAAGT 
AATGAAAAAT TTTGGCAGTT TTTGGAAACT GTGCAAGAAT TAGCAATTTA TAAGCAAACA 
GAATCAGATT ATTCTTATTA CAACTTAATC CTGAAGAAAG CTGGACAGTT TCTAGACAAT 
TTACACATCA ACCTCTTAAA GTTTGCTTTC TCTATAAGGG CATACTCCCC AGCTATTCAG 
ATGTTTCAGC AGATTGCAGC TGATGAGCCA CCACCAGATG GTTGTAATGC ATTTGTGGTT 
ATTCATAAGA AGCACACCTG TAAAATTAAT GAGATTAAAA AGCTGCTGAA GAAAGCTGCT 
TCAAGGACTA GACCTTATCT ATTTAAAGGA GATCATAAAT TTCCTACAAA CAAAGAGAAC 
TTACCAGTGG TGATTCTCTA TGCCGAAATG GGTACTAGAA CATTTAGTGC ATTTCACAAA 
GTATTGTCTG AAAAAGCTCA AAATGAGGAA ATTCTGTATG TTCTTCGCCA TTATATTCAG 
AAACCAAGCT CACGGAAAAT GTACTTATCT GGGTATGGTG TGGAGCTAGC AATTAAGAGT 
ACAGAATACA AAGCACTGGA TGATACCCAA GTTAAAACTG TGACTAATAC TACTGTAGAG 
GATGAGACTG AAACAAATGA AGTTCAAGGA TTTCTCTTTG GGAAACTAAA AGAAATATAT 
TCAGATCTTA GAGATAATCT GACAGCATTC CAAAAATACC TGACTGAGAG TAACAAACAA 
ATGACGCCTT TGAAAGTCTG GGAACTACAA GATCTTAGTT TTCAAGCAGC TTCTCAAATA 
ATGTCCACTC CAGTTTATGA TGCCATTAAA TTAATGAAAG ACATTTCACA GAACTTCCCT 
ATAAAAGCCA GATCTCTAAC CAGAATTGCT GTAAATCAAC ATATGAGAGA AGAAATAAAG 
GAAAATCAAA AGGATCTTCA AGATAGATTT GAAATTCAGC CAGGCGATGC TCGTCTATTT 
ATAAATGGCC TTCGTGTTGA TATGGATGTT TATGACCCTT TTAGTATTTT GGATATGCTG 
AAATTAGAAG GAAAAATGAT GAATGGCCTT CGCAATCTTG GGATCAATGG GGAAGATATG 
AGCAAATTTT TAAAATTAAA TTCACACATT TGGGAATATA CTTATGTATT AGATATTCGA 
CATTCTTCTA TAATGTGGAT TAATGACTTG GAAAATGATG ATTTGTATAT TACATGGCCT 
ACAAGTTGCC AGAAACTTCT GAAGCCAGTA TTTCCTGGAA GTGTACCTTC CATAAGGCGC 
AATTTTCATA ATTTGGTTCT GTTTATTGAT CCGGCCCAAG AATATACCTT GGATTTTATA 
AAACTTGCTG ATGTTTTCTA TTCTCACGAA GTTCCTCTTA GAATTGGTTT TGTGTTCATT 
CTTAATACAG ATGATGAAGT TGATGGAGCA AATGATGCTG GAGTTGCTCT TTGGCGAGCT 
TTCAACTATG TTGCAGAAGA ATTTGATATA TCAGAAGCAT TTATTTCTAT AGTACATATG 
TACCAAAAAG TGAAGAAGGA TCAAAATATA CTCACTGTGG ACAATGTGAA GAGTGTTCTC 
CAAAATACAT TTCCTCATGC TAATATTTGG GATATTTTAG GAATTCATTC TAAATATGAT 
GAAGAAAGAA CGGCTGGAGC AAGCTTTTAT AAGATGACTG GCCTGGGTCC TTTGCCTCAA 
GCTCTTTATA ATGGTGAACC CTTTAAACAT GAAGAGATGA ATATTAAAGA ACTAAAAATG 
GCTGTTCTTC AAAGAATGAT GGATGCATCT GTATATTTAC AAAGAGAAGT TTTTTTGGGC 
ACATTAAATG ATCGCACGAA TGCAATTGAT TTTCTAATGG ATAGGAATAA TGTTGTACCC 
CGTATAAATT CTTTGATTTT GCATAGTAAC CAGCAGTACC TCAATTTAAT GTCTACATCA 
GTAACTGCTG ATGTTGAAGA TTTCTCTACT TTCTTTTTCT TGGATTCACA AGATAAGAGT 
GCTGTAATTG CAAAGAACAT GTATTATTTA ACCCGAGACG ATGACAGTAT AATTTCTGCA 
GTCAGTCTCT GGATTATTGC AGATTTTGAT AAGCCTTCTG GGAGAAAACT TCTTTTTAAT 
GCATTAAAGC ACATGAAAAC AAGTATTCAT AGTCGGTTGG GGATTATTTA TAATCCTACA 
TCAAAAATAA ATGAAGAGAA CACAGCTATT TCTAGAGGAA TTTTGGCAGC TTTTCTTACA 
CAGAAGAACA TGTTTTTGAG AAGCTTTCTT GGGCAACTGG CAAAGGAAGA AACTGCTACA 
GCTATTTACT CTGGAGATAA AATTAAAACA TTCCTTATTG AGGGGATGGA TAAGAATGCT 
TTTGAGAAAA AATATAATAC TGTTGGAGTG AATATTTTTC GAACTCACCA GTTGTTCTGT 
CAAGATGTAC TTAAATTGCG TCCTGGAGAA ATGGGTATTG TCAGCAATGG GAGATTCTTA 
GGACCTTTAG ATGAAGATTT TTATGCAGAA GATTTTTACT TGTTGGAAAA GATAACATTT 
AGTAATTTAG GAGAGAAAAT TAAAGGCATT GTTGAAAATA TGGGAATCAA TGCAAATAAC 
ATGAGTGACT TTATCATGAA AGTCGATGCC CTTATGTCCT CTGTGCCTAA GCGTGCATCT 
CAATATGATG TCACATTTCT TAGGGAGAAT CACAGTGTTA TAAAGATGAA TCCTCAAGAG 
AATGATATGT TCTTCAATGT CATTGCTATT GTTGATCCAT TAACAAGAGA AGCACAGAAA 
ATGGCACAGT TGTTGGTTGT ACTTGGCAAG ATTATCAACA TGAAGATAAA GTTGTTCATG 
AACTGTAGGG GCAGGCTTTC AGAAGCCCCT TTACAGAGCT TTTACCGTTT TGTTCTGGAA 
CCAGAACTGA TGTCAGGGGC TAATGACGTT TCTTCTCTTG GACCAGTGGC AAAATTTTTG 
GATATTCCTG AATCACCCCT CCTAATCCTC AACATGATTA CTCCAGAAGG CTGGTTGGTT 
GAAACAGTAC ACAGCAACTG TGACCTTGAT AATATTCACT TAAAGGATAC TGAGAAAACT 
GTTACAGCAG AATATGAGCT AGAATACTTA CTACTGGAAG GACAATGCTT TGATAAAGTG 
ACAGAACAGC CTCCTCAGGG TCTGCAGTTC ACACTAGGCA CAAAAAATAA ACCTGTTGTG 
GTTGATACAA TAGTGATGGC CAATCATGGG TATTTTCAAT TAAAAGCAAA TCCAGGTGCT 
TGGATACTGA GGTTACACCA AGGAAAATCT GAAGATATTT ATCAAATAGT TGGGCATGAA 
GGAACTGACT CTCAAGCAGA CCTAGAAGAT ATCATTGTTG TATTAAACAG CTTCAAAAGG 
AAGATACTGG AAGTAAAAGT GAAAAAAGAA ACAGACAAAA TTAAGGAAGA TATCCTTACC 
GATGAAGATG AAAAAACGAA AGGACTGTGG GATTCCATTA AAAGTTTCAC AGTAAGCTTG 
CATAAAGAAG ACAAAAAGGA AAAAGATGTC CTAAACATTT TTTCAGTTGC TTCTGGTCAT 
TTATATGAAC GTTTTTTAAG AATTATGATG CTTTCTGTTT TGCGTAACAC CAAAACACCA 
GTGAAATTCT GGTTGCTAAA AAATTATCTC TCACCGACAT TTAAAGAAGT AATTCCTCAC 
ATGGCTAAAG AGTATGGATT CCGATATGAA CTAGTTCAAT ATAGGTGGCC CCGTTGGCTT 
CGTCAACAGA CTGAAAGACA GAGGATTATT TGGGGTTACA AAATTCTTTT CCTTGATGTT 
CTTTTCCCAC TAGCAGTGGA CAAAATCATT TTTGTTGATG CTGACCAGAT TGTGAGACAT 
GATCTAAAAG AACTTCGAGA TTTCGATCTG GATGGAGCTC CTTATGGGTA TACTCCATTT 
TGTGATAGCC GCAGGGAAAT GGATGGATAT CGTTTCTGGA AAACAGGATA CTGGGCATCA 
CATCTTTTAA GACGGAAATA CCATATCAGT GCTTTATATG TAGTGGATCT CAAGAAGTTC 
AGGAGAATTG GAGCAGGTGA CAGGCTCAGG AGCCAGTACC AAGCTCTCAG TCAAGATCCA 
AACAGTCTTT CAAACCTAGA TCAGGATCTC CCCAATAATA TGATTTACCA AGTCGCCATT 
AAGTCTCTTC CTCAAGACTG GCTGTGGTGT GAAACCTGGT GTGATGATGA ATCCAAACAA 
AGAGCCAAAA CAATTGATCT GTGCAATAAT CCCAAAACAA AAGAACCCAA ACTAAAAGCT 
GCTGCCAGAA TTGTCCCAGA ATGGGTGGAG TATGATGCTG AGATAAGACA ACTATTAGAT 
CATCTTGAAA ACAAGAAGCA AGATACAATT TTGACACATG ATGAACTCTA G

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

RefSeq	XP_024086766.1
CDS	171..4721
Translation	MAPAKATNVVRLLLGSTALWLSQLSAGTVAASKSVTAHLAAKWPETPLLLEASEFMAEESNEKFWQFLETVQELAIYKQTESDYSYYNLILKKAGQFLDNLHINLLKFAFSIRAYSPAIQMFQQIAADEPPPDGCNAFVVIHKKHTCKINEIKKLLKKAASRTRPYLFKGDHKFPTNKENLPVVILYAEMGTRTFSAFHKVLSEKAQNEEILYVLRHYIQKPSSRKMYLSGYGVELAIKSTEYKALDDTQVKTVTNTTVEDETETNEVQGFLFGKLKEIYSDLRDNLTAFQKYLTESNKQMTPLKVWELQDLSFQAASQIMSTPVYDAIKLMKDISQNFPIKARSLTRIAVNQHMREEIKENQKDLQDRFEIQPGDARLFINGLRVDMDVYDPFSILDMLKLEGKMMNGLRNLGINGEDMSKFLKLNSHIWEYTYVLDIRHSSIMWINDLENDDLYITWPTSCQKLLKPVFPGSVPSIRRNFHNLVLFIDPAQEYTLDFIKLADVFYSHEVPLRIGFVFILNTDDEVDGANDAGVALWRAFNYVAEEFDISEAFISIVHMYQKVKKDQNILTVDNVKSVLQNTFPHANIWDILGIHSKYDEERTAGASFYKMTGLGPLPQALYNGEPFKHEEMNIKELKMAVLQRMMDASVYLQREVFLGTLNDRTNAIDFLMDRNNVVPRINSLILHSNQQYLNLMSTSVTADVEDFSTFFFLDSQDKSAVIAKNMYYLTRDDDSIISAVSLWIIADFDKPSGRKLLFNALKHMKTSIHSRLGIIYNPTSKINEENTAISRGILAAFLTQKNMFLRSFLGQLAKEETATAIYSGDKIKTFLIEGMDKNAFEKKYNTVGVNIFRTHQLFCQDVLKLRPGEMGIVSNGRFLGPLDEDFYAEDFYLLEKITFSNLGEKIKGIVENMGINANNMSDFIMKVDALMSSVPKRASQYDVTFLRENHSVIKMNPQENDMFFNVIAIVDPLTREAQKMAQLLVVLGKIINMKIKLFMNCRGRLSEAPLQSFYRFVLEPELMSGANDVSSLGPVAKFLDIPESPLLILNMITPEGWLVETVHSNCDLDNIHLKDTEKTVTAEYELEYLLLEGQCFDKVTEQPPQGLQFTLGTKNKPVVVDTIVMANHGYFQLKANPGAWILRLHQGKSEDIYQIVGHEGTDSQADLEDIIVVLNSFKRKILEVKVKKETDKIKEDILTDEDEKTKGLWDSIKSFTVSLHKEDKKEKDVLNIFSVASGHLYERFLRIMMLSVLRNTKTPVKFWLLKNYLSPTFKEVIPHMAKEYGFRYELVQYRWPRWLRQQTERQRIIWGYKILFLDVLFPLAVDKIIFVDADQIVRHDLKELRDFDLDGAPYGYTPFCDSRREMDGYRFWKTGYWASHLLRRKYHISALYVVDLKKFRRIGAGDRLRSQYQALSQDPNSLSNLDQDLPNNMIYQVAIKSLPQDWLWCETWCDDESKQRAKTIDLCNNPKTKEPKLKAAARIVPEWVEYDAEIRQLLDHLENKKQDTILTHDEL

Target ORF information:

RefSeq Version	XM_024230998.1
Organism	Pongo abelii(Sumatran orangutan)
Definition	Pongo abelii UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.

Target ORF information:

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

XM_024230998.1

ORF Insert Sequence:

ATGGCGCCAG CGAAAGCCAC GAACGTGGTG CGGCTGCTCC TAGGCTCCAC GGCGCTGTGG 
CTTTCGCAGC TCAGCGCCGG GACGGTCGCC GCGTCCAAGT CGGTGACGGC CCACTTGGCT 
GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGGCAAGTG AATTTATGGC AGAAGAAAGT 
AATGAAAAAT TTTGGCAGTT TTTGGAAACT GTGCAAGAAT TAGCAATTTA TAAGCAAACA 
GAATCAGATT ATTCTTATTA CAACTTAATC CTGAAGAAAG CTGGACAGTT TCTAGACAAT 
TTACACATCA ACCTCTTAAA GTTTGCTTTC TCTATAAGGG CATACTCCCC AGCTATTCAG 
ATGTTTCAGC AGATTGCAGC TGATGAGCCA CCACCAGATG GTTGTAATGC ATTTGTGGTT 
ATTCATAAGA AGCACACCTG TAAAATTAAT GAGATTAAAA AGCTGCTGAA GAAAGCTGCT 
TCAAGGACTA GACCTTATCT ATTTAAAGGA GATCATAAAT TTCCTACAAA CAAAGAGAAC 
TTACCAGTGG TGATTCTCTA TGCCGAAATG GGTACTAGAA CATTTAGTGC ATTTCACAAA 
GTATTGTCTG AAAAAGCTCA AAATGAGGAA ATTCTGTATG TTCTTCGCCA TTATATTCAG 
AAACCAAGCT CACGGAAAAT GTACTTATCT GGGTATGGTG TGGAGCTAGC AATTAAGAGT 
ACAGAATACA AAGCACTGGA TGATACCCAA GTTAAAACTG TGACTAATAC TACTGTAGAG 
GATGAGACTG AAACAAATGA AGTTCAAGGA TTTCTCTTTG GGAAACTAAA AGAAATATAT 
TCAGATCTTA GAGATAATCT GACAGCATTC CAAAAATACC TGACTGAGAG TAACAAACAA 
ATGACGCCTT TGAAAGTCTG GGAACTACAA GATCTTAGTT TTCAAGCAGC TTCTCAAATA 
ATGTCCACTC CAGTTTATGA TGCCATTAAA TTAATGAAAG ACATTTCACA GAACTTCCCT 
ATAAAAGCCA GATCTCTAAC CAGAATTGCT GTAAATCAAC ATATGAGAGA AGAAATAAAG 
GAAAATCAAA AGGATCTTCA AGATAGATTT GAAATTCAGC CAGGCGATGC TCGTCTATTT 
ATAAATGGCC TTCGTGTTGA TATGGATGTT TATGACCCTT TTAGTATTTT GGATATGCTG 
AAATTAGAAG GAAAAATGAT GAATGGCCTT CGCAATCTTG GGATCAATGG GGAAGATATG 
AGCAAATTTT TAAAATTAAA TTCACACATT TGGGAATATA CTTATGTATT AGATATTCGA 
CATTCTTCTA TAATGTGGAT TAATGACTTG GAAAATGATG ATTTGTATAT TACATGGCCT 
ACAAGTTGCC AGAAACTTCT GAAGCCAGTA TTTCCTGGAA GTGTACCTTC CATAAGGCGC 
AATTTTCATA ATTTGGTTCT GTTTATTGAT CCGGCCCAAG AATATACCTT GGATTTTATA 
AAACTTGCTG ATGTTTTCTA TTCTCACGAA GTTCCTCTTA GAATTGGTTT TGTGTTCATT 
CTTAATACAG ATGATGAAGT TGATGGAGCA AATGATGCTG GAGTTGCTCT TTGGCGAGCT 
TTCAACTATG TTGCAGAAGA ATTTGATATA TCAGAAGCAT TTATTTCTAT AGTACATATG 
TACCAAAAAG TGAAGAAGGA TCAAAATATA CTCACTGTGG ACAATGTGAA GAGTGTTCTC 
CAAAATACAT TTCCTCATGC TAATATTTGG GATATTTTAG GAATTCATTC TAAATATGAT 
GAAGAAAGAA CGGCTGGAGC AAGCTTTTAT AAGATGACTG GCCTGGGTCC TTTGCCTCAA 
GCTCTTTATA ATGGTGAACC CTTTAAACAT GAAGAGATGA ATATTAAAGA ACTAAAAATG 
GCTGTTCTTC AAAGAATGAT GGATGCATCT GTATATTTAC AAAGAGAAGT TTTTTTGGGC 
ACATTAAATG ATCGCACGAA TGCAATTGAT TTTCTAATGG ATAGGAATAA TGTTGTACCC 
CGTATAAATT CTTTGATTTT GCATAGTAAC CAGCAGTACC TCAATTTAAT GTCTACATCA 
GTAACTGCTG ATGTTGAAGA TTTCTCTACT TTCTTTTTCT TGGATTCACA AGATAAGAGT 
GCTGTAATTG CAAAGAACAT GTATTATTTA ACCCGAGACG ATGACAGTAT AATTTCTGCA 
GTCAGTCTCT GGATTATTGC AGATTTTGAT AAGCCTTCTG GGAGAAAACT TCTTTTTAAT 
GCATTAAAGC ACATGAAAAC AAGTATTCAT AGTCGGTTGG GGATTATTTA TAATCCTACA 
TCAAAAATAA ATGAAGAGAA CACAGCTATT TCTAGAGGAA TTTTGGCAGC TTTTCTTACA 
CAGAAGAACA TGTTTTTGAG AAGCTTTCTT GGGCAACTGG CAAAGGAAGA AACTGCTACA 
GCTATTTACT CTGGAGATAA AATTAAAACA TTCCTTATTG AGGGGATGGA TAAGAATGCT 
TTTGAGAAAA AATATAATAC TGTTGGAGTG AATATTTTTC GAACTCACCA GTTGTTCTGT 
CAAGATGTAC TTAAATTGCG TCCTGGAGAA ATGGGTATTG TCAGCAATGG GAGATTCTTA 
GGACCTTTAG ATGAAGATTT TTATGCAGAA GATTTTTACT TGTTGGAAAA GATAACATTT 
AGTAATTTAG GAGAGAAAAT TAAAGGCATT GTTGAAAATA TGGGAATCAA TGCAAATAAC 
ATGAGTGACT TTATCATGAA AGTCGATGCC CTTATGTCCT CTGTGCCTAA GCGTGCATCT 
CAATATGATG TCACATTTCT TAGGGAGAAT CACAGTGTTA TAAAGATGAA TCCTCAAGAG 
AATGATATGT TCTTCAATGT CATTGCTATT GTTGATCCAT TAACAAGAGA AGCACAGAAA 
ATGGCACAGT TGTTGGTTGT ACTTGGCAAG ATTATCAACA TGAAGATAAA GTTGTTCATG 
AACTGTAGGG GCAGGCTTTC AGAAGCCCCT TTACAGAGCT TTTACCGTTT TGTTCTGGAA 
CCAGAACTGA TGTCAGGGGC TAATGACGTT TCTTCTCTTG GACCAGTGGC AAAATTTTTG 
GATATTCCTG AATCACCCCT CCTAATCCTC AACATGATTA CTCCAGAAGG CTGGTTGGTT 
GAAACAGTAC ACAGCAACTG TGACCTTGAT AATATTCACT TAAAGGATAC TGAGAAAACT 
GTTACAGCAG AATATGAGCT AGAATACTTA CTACTGGAAG GACAATGCTT TGATAAAGTG 
ACAGAACAGC CTCCTCAGGG TCTGCAGTTC ACACTAGGCA CAAAAAATAA ACCTGTTGTG 
GTTGATACAA TAGTGATGGC CAATCATGGG TATTTTCAAT TAAAAGCAAA TCCAGGTGCT 
TGGATACTGA GGTTACACCA AGGAAAATCT GAAGATATTT ATCAAATAGT TGGGCATGAA 
GGAACTGACT CTCAAGCAGA CCTAGAAGAT ATCATTGTTG TATTAAACAG CTTCAAAAGG 
AAGATACTGG AAGTAAAAGT GAAAAAAGAA ACAGACAAAA TTAAGGAAGA TATCCTTACC 
GATGAAGATG AAAAAACGAA AGGACTGTGG GATTCCATTA AAAGTTTCAC AGTAAGCTTG 
CATAAAGAAG ACAAAAAGGA AAAAGATGTC CTAAACATTT TTTCAGTTGC TTCTGGTCAT 
TTATATGAAC GTTTTTTAAG AATTATGATG CTTTCTGTTT TGCGTAACAC CAAAACACCA 
GTGAAATTCT GGTTGCTAAA AAATTATCTC TCACCGACAT TTAAAGAAGT AATTCCTCAC 
ATGGCTAAAG AGTATGGATT CCGATATGAA CTAGTTCAAT ATAGGTGGCC CCGTTGGCTT 
CGTCAACAGA CTGAAAGACA GAGGATTATT TGGGGTTACA AAATTCTTTT CCTTGATGTT 
CTTTTCCCAC TAGCAGTGGA CAAAATCATT TTTGTTGATG CTGACCAGAT TGTGAGACAT 
GATCTAAAAG AACTTCGAGA TTTCGATCTG GATGGAGCTC CTTATGGGTA TACTCCATTT 
TGTGATAGCC GCAGGGAAAT GGATGGATAT CGTTTCTGGA AAACAGGATA CTGGGCATCA 
CATCTTTTAA GACGGAAATA CCATATCAGT GCTTTATATG TAGTGGATCT CAAGAAGTTC 
AGGAGAATTG GAGCAGGTGA CAGGCTCAGG AGCCAGTACC AAGCTCTCAG TCAAGATCCA 
AACAGTCTTT CAAACCTAGA TCAGGATCTC CCCAATAATA TGATTTACCA AGTCGCCATT 
AAGTCTCTTC CTCAAGACTG GCTGTGGTGT GAAACCTGGT GTGATGATGA ATCCAAACAA 
AGAGCCAAAA CAATTGATCT GTGCAATAAT CCCAAAACAA AAGAACCCAA ACTAAAAGCT 
GCTGCCAGAA TTGTCCCAGA ATGGGTGGAG TATGATGCTG AGATAAGACA ACTATTAGAT 
CATCTTGAAA ACAAGAAGCA AGATACAATT TTGACACATG ATGAACTCTA G

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

PubMed

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UGGT2 cDNA ORF clone, Pongo abelii(Sumatran orangutan)

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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