Uggt2 cDNA ORF clone, Rattus norvegicus(Norway rat)

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
ORa36938 XM_006252469.3
Latest version!
Rattus norvegicus UDP-glucose glycoprotein glucosyltransferase 2 (Uggt2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
ORa54478 XM_017604950.1
Latest version!
Rattus norvegicus UDP-glucose glycoprotein glucosyltransferase 2 (Uggt2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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)
    CloneID ORa36938
    Clone ID Related Accession (Same CDS sequence) XM_006252469.3
    Accession Version XM_006252469.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4191bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product LOW QUALITY PROTEIN: UDP-glucose:glycoprotein glucosyltransferase 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005114.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006252469.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus 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## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCGCGGG CCGGAGCCGC GAAGGGACTG CGGCTGCTCC TACGTTCCGT CGCGCTGTGG 
    CTCGCCCTGC TCGGCGCCAG CACGGCGACT GCGTCCAAGG CGGTGACCGC ACACTTGGCT
    GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGGCCAGTG AATTCATGGC AGAAGAAAGT
    AATGAAAAGT TTTGGCAGTT TGTGGAAACA GTAACAGAAT TAGCAGTCTA TAAGCAGACG
    GAATCAGATT ATTCTTACTA CAACCTAATC CTGAAGAAAG CTGGGCAGTT TTTAGACAAT
    ATACACATCA ACCTCCTAAA GTTTGCTTTC TCGATAAGGG CATACTCTCC CACGATTCAG
    ATGTCCCAAC AGGTTGCTGC CGAGGAGCCA CCACCAGATG GCTGCGCAGC GTTTGTGGTC
    GTGCATACAA AGCGGACCTG CAAAACCAGC GAACTTAAGA AGTTGCTGAG TAAGGCTGCG
    TCAAGGCCCA GGCCTTACCT ATTTGAAAGA GACCATAAGT TTCCCACAAG CAGTGAGAAC
    TTACCAGTGG TTATTCTCTA TGCAGAAATT GGTACAAGAG CGTTTGCTGA ATTTCACAGA
    GTATTGTCTA AGAAATCAAA AAATGGTAAA ATCCTGTATG TTCTCCGCCA CTACATCAAG
    AAACCAAGCT CAAGAAAAAT GTACTTATCT GGCTATGGAG TGGAGCTGGC AATTAAAGAT
    ACAGAATACA AGGCATTGGA TGATATCCAA ATTAAAGCTA CGACTGATGC CACTGTAGAA
    AATGAGACCG GAGCAGATGA AGTTCAAGGA TTTCTTTTTG GGAAACTGAA TATTTTAGAT
    TTGCTGAGAT CAGAAGGGAA GCTGCTGAGT GGCCTTAAAA GTCTTGGGCT CAGTGAAGAA
    GAGAGGAGCA GGTTTTTAAA ATTAAACTCA CCCGTGTGGG ACGATGACTT TGTTTTAGAT
    ATTCGGCATT CTTCAATAGT GTGGATCAAT GACTTAGAAA ATGACGCTTT GTATACTGAT
    TGGCCGACAA GTTGCTGGGA ATTTCTAAAG CCAGTATTAC ATGGAACAGT GCCTTCTGTA
    AGGCGTAATT TTCATAATTT GGTTCTGTTT ATTGATCCTG CTCAAGAATA TACCTTGGAC
    TTTATAAATT TGGCAGAATT TTTTTATTTT AATGAAATCC CTCTTCGAAT TGGCTTTGTC
    TTCATTCTTA CTATGGACAA TGACGTTGAT GGAACAACAG ATGCTGGGGT TGCTCTTTGG
    CGAGCTTTCA GTTATATTGA AGAAAACTAT GGTGTGTCAG AAGCATTTCT TTCTATGACA
    CATATGTACC AAAAAGTGAA GGGTCGTCAT ATACTCACTG TGGATGATGT GAGGACTGTT
    CTTCAAAATA AATTTCCTCA TGCCGACATT TTGGATATCT TGGGAACCCA TTCCAAGTAT
    GACAGCAGAA GAAAGGAAGG AGCAAACTTT TATAAGATGA CCGGCCTAGG TCCTTTGCCT
    CAAGCTCTTT ATAACGGTGA ACACTTTGGC CTCAAAGAGA TAGACACTGA AGAACTAAAA
    GGGGCCATTC TGGAAAAAAT GATGGATGCG TTTATATATC TACAAAGAGA CGTTTTTATG
    GGCAAAATAA CGGATGAAAT CAATGCGNAT GATTTCCTGA TGGACAAGAG TAACGTTGTA
    CCCCGGCTAA ATTCTTTGAT TTTGCACACT GAACCACAGT ATCTTAACTT ACTGTCTTCA
    TCAGTAACTG CTGATATTGA AGATTTCTCT ACTTTCTCCT TCCTGGATTC ACAAGACAAG
    AGTGCTGTTG TCGCAAAGCA CATGCATTAC TTAACCCGAG ACGATGCTGT CATATCTGCA
    GTCACTCTGT GGATTGTTGC TGATTTTGAT GTGCCGTCGG GGAGAAAACT GCTCTCTCAT
    GCGTTAGAGC ACATGGAAAC AACTTTTCAT AGTCGGTTAG GAATTGTTTA CAACCCCACG
    TCAAAGATAA ATGAGGAGAA CACAGCCATT TCTAGAGGAA TTTTGGCAGC TTTTCTTACA
    CATGAAAACG ACCTCTTGAG AAGCTTTCTC AGGAAACTGG CAAAAGAAGA AACTGCTGAA
    GCAATTTATT CTGGAGATAA AATTAAAACC TTCCTTGCTA CGGAGATGGA TAAGAATGCT
    TTTGAGAAAA AATATAACAC CATTGGAGTA AATATTTTCC GAACTCACCA GTTATTCTGT
    CAAGAGGTTC TTAAGCTGCG ACCTGGAGAG CCCGGGATTG TCAGCAATGG AAGATTCTTA
    GGACCTTTAA ATGAAGAGCT CCACAAAGAA GATTTTCACT TGCTTGAAAA GATAACATTT
    AGTGATTCAG TAGTGAAAAT CGCAGGCATT GTTGAGAATA TGGAAATGAA CTCAAAACAC
    ATGAGCGACC TCGTGATGAA AATAGATGTG CTTACCTCTT CATTGCCCGT GCGTGCCTCT
    CGCTCTGATG TCACGTTACT CAAAGAAAAT CTCAGTGTTA TAAAGATAAA TCCTCCAGAG
    AACGATACGT TTTTTGATGT CATTGCTGTT GTCGATCCTT TGACAAGAGA AGCTCAGAAG
    ATGACACAGT TACTGGATGT GCTTGGGAAG ATCGTGAACG TGAGGATGAA GCTGTTCATG
    AACTGCAGGG GTAAGCTTTC AGAAGCCCCG TTAGACAGCT TTTACCGTTT TGTTCTGGAA
    CCAGAGCCAT TCTCAGGGGC TAGCAATAGT CCTTCTCAAG GACCAGTGGC AAAGTTCCTG
    GACATCCCAG AATCACACCT TCTGACCCTC AACATGATCA CCCCAGAAGG ATGGCTGGTG
    GAGCCAGTAC ACAGCAACTG TGACCTTGAC AACATTAACT TAAAGGATAT TGAGAGGAGT
    GTTACAGCAG AGTATGAACT AGAGCATCTG CTCCTTGAAG GACATTGCTT TGACATGACC
    ACAGAACAGC CCCCGCAGGG CCTGCAGTTC ACGCTGGGCA CAAGAAGCAA TCCTGACGTA
    GTTGACACAA TAGTAATGGC CAATCTGGGA TATTTTCAAC TAAAAGCCAA CCCAGGTGCA
    TGGATACTAA AATTACGTGA AGGAAAATCA GAAGATATTT ATGAAATAAT TGGGCATGAA
    GGAGCAGACT CTGAGACTGA CGTAGGCAAT GTCATTGTCG TGTTAAATAC TTTCAAGAGC
    AAGATTCTGA AAGTGCAGGT AAAGAAAAAA TCAGGTAAAA TTAAAGAAGA TGTCCTTGCT
    GATAAACATG AAGATAGAGG CATGTGGGAT TCAATTAAAA GCTTCACAGA AAGTCTGCAG
    AAAGATGGCA GAAAGGACAA CAACATCCTA AACATTTTTT CAGTTGCCTC TGGCCATTTA
    TATGAGCGGT TTCTACGGAT TATGATGCTT TCTGTTCTGC GGAACACCAA AACACCAGTG
    AAGTTCTGGT TCCTGAAGAA TTACCTCTCG CCAACATTTA AAGAGGTGAT CCCTCACATG
    GCTAAGGAAT ATGGATTCCA GTACGAGCTT GTCCAGTACA AGTGGCCCCG CTGGCTGCAC
    CAACAGAGCG AAAAGCAGCG GATCATCTGG GGCTACAAAA TCCTTTTCCT CGACGTCCTT
    TTCCCACTGG CTGTGGACAA GGTCATATTT GTTGATGCTG ACCAGATCGT GAGGCATGAC
    CTGACAGAAC TTCGAGACTT TGATCTGGAT GGAGCTCCTT ACGGATATAC TCCGTTCTGT
    GATAGCCGCA CTGAAATGGA TGGATACCGT TTCTGGAAGA CGGGATACTG GGCATCACAT
    CTCGTAAAAA GGAAATACCA TATCAGTAAA ACTCATTCTC CAGTGTCTAC CTGTAAAGTG
    GGAATTTCTG GTTTCTTTGG AGACTCGGGG ATAATGATGT TTTGCAGGGG CCGACAGGTG
    AAGGAGCAGT TTGCTGAAGC AGACACAGGT GATCTCCCCA ACAATATGAT TTACCAAGTT
    GCCATCAAGT CTCTTCCTCA AGACTGGCTG TGGTGCGAAA CCTGGTGTGA TGACGAATCT
    AAGCAAAGAG CCAAGACAAT CGACCTGTGC AATAATCCCA AAACAAAAGA ACCCAAACTA
    GAAGCTGCCG CAAGGATTGT CCCAGAATGG GTAGAGTATG ATACCGAGAT CCGGAAACTA
    TTAGATCATC TTGAAAATAA GAAGAAAAGT ACAATTCATG ATGAACTCTA G

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

    RefSeq XP_006252531.1
    CDS551..4741
    Translation

    Target ORF information:

    RefSeq Version XM_006252469.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus UDP-glucose glycoprotein glucosyltransferase 2 (Uggt2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006252469.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCGCGGG CCGGAGCCGC GAAGGGACTG CGGCTGCTCC TACGTTCCGT CGCGCTGTGG 
    CTCGCCCTGC TCGGCGCCAG CACGGCGACT GCGTCCAAGG CGGTGACCGC ACACTTGGCT
    GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGGCCAGTG AATTCATGGC AGAAGAAAGT
    AATGAAAAGT TTTGGCAGTT TGTGGAAACA GTAACAGAAT TAGCAGTCTA TAAGCAGACG
    GAATCAGATT ATTCTTACTA CAACCTAATC CTGAAGAAAG CTGGGCAGTT TTTAGACAAT
    ATACACATCA ACCTCCTAAA GTTTGCTTTC TCGATAAGGG CATACTCTCC CACGATTCAG
    ATGTCCCAAC AGGTTGCTGC CGAGGAGCCA CCACCAGATG GCTGCGCAGC GTTTGTGGTC
    GTGCATACAA AGCGGACCTG CAAAACCAGC GAACTTAAGA AGTTGCTGAG TAAGGCTGCG
    TCAAGGCCCA GGCCTTACCT ATTTGAAAGA GACCATAAGT TTCCCACAAG CAGTGAGAAC
    TTACCAGTGG TTATTCTCTA TGCAGAAATT GGTACAAGAG CGTTTGCTGA ATTTCACAGA
    GTATTGTCTA AGAAATCAAA AAATGGTAAA ATCCTGTATG TTCTCCGCCA CTACATCAAG
    AAACCAAGCT CAAGAAAAAT GTACTTATCT GGCTATGGAG TGGAGCTGGC AATTAAAGAT
    ACAGAATACA AGGCATTGGA TGATATCCAA ATTAAAGCTA CGACTGATGC CACTGTAGAA
    AATGAGACCG GAGCAGATGA AGTTCAAGGA TTTCTTTTTG GGAAACTGAA TATTTTAGAT
    TTGCTGAGAT CAGAAGGGAA GCTGCTGAGT GGCCTTAAAA GTCTTGGGCT CAGTGAAGAA
    GAGAGGAGCA GGTTTTTAAA ATTAAACTCA CCCGTGTGGG ACGATGACTT TGTTTTAGAT
    ATTCGGCATT CTTCAATAGT GTGGATCAAT GACTTAGAAA ATGACGCTTT GTATACTGAT
    TGGCCGACAA GTTGCTGGGA ATTTCTAAAG CCAGTATTAC ATGGAACAGT GCCTTCTGTA
    AGGCGTAATT TTCATAATTT GGTTCTGTTT ATTGATCCTG CTCAAGAATA TACCTTGGAC
    TTTATAAATT TGGCAGAATT TTTTTATTTT AATGAAATCC CTCTTCGAAT TGGCTTTGTC
    TTCATTCTTA CTATGGACAA TGACGTTGAT GGAACAACAG ATGCTGGGGT TGCTCTTTGG
    CGAGCTTTCA GTTATATTGA AGAAAACTAT GGTGTGTCAG AAGCATTTCT TTCTATGACA
    CATATGTACC AAAAAGTGAA GGGTCGTCAT ATACTCACTG TGGATGATGT GAGGACTGTT
    CTTCAAAATA AATTTCCTCA TGCCGACATT TTGGATATCT TGGGAACCCA TTCCAAGTAT
    GACAGCAGAA GAAAGGAAGG AGCAAACTTT TATAAGATGA CCGGCCTAGG TCCTTTGCCT
    CAAGCTCTTT ATAACGGTGA ACACTTTGGC CTCAAAGAGA TAGACACTGA AGAACTAAAA
    GGGGCCATTC TGGAAAAAAT GATGGATGCG TTTATATATC TACAAAGAGA CGTTTTTATG
    GGCAAAATAA CGGATGAAAT CAATGCGNAT GATTTCCTGA TGGACAAGAG TAACGTTGTA
    CCCCGGCTAA ATTCTTTGAT TTTGCACACT GAACCACAGT ATCTTAACTT ACTGTCTTCA
    TCAGTAACTG CTGATATTGA AGATTTCTCT ACTTTCTCCT TCCTGGATTC ACAAGACAAG
    AGTGCTGTTG TCGCAAAGCA CATGCATTAC TTAACCCGAG ACGATGCTGT CATATCTGCA
    GTCACTCTGT GGATTGTTGC TGATTTTGAT GTGCCGTCGG GGAGAAAACT GCTCTCTCAT
    GCGTTAGAGC ACATGGAAAC AACTTTTCAT AGTCGGTTAG GAATTGTTTA CAACCCCACG
    TCAAAGATAA ATGAGGAGAA CACAGCCATT TCTAGAGGAA TTTTGGCAGC TTTTCTTACA
    CATGAAAACG ACCTCTTGAG AAGCTTTCTC AGGAAACTGG CAAAAGAAGA AACTGCTGAA
    GCAATTTATT CTGGAGATAA AATTAAAACC TTCCTTGCTA CGGAGATGGA TAAGAATGCT
    TTTGAGAAAA AATATAACAC CATTGGAGTA AATATTTTCC GAACTCACCA GTTATTCTGT
    CAAGAGGTTC TTAAGCTGCG ACCTGGAGAG CCCGGGATTG TCAGCAATGG AAGATTCTTA
    GGACCTTTAA ATGAAGAGCT CCACAAAGAA GATTTTCACT TGCTTGAAAA GATAACATTT
    AGTGATTCAG TAGTGAAAAT CGCAGGCATT GTTGAGAATA TGGAAATGAA CTCAAAACAC
    ATGAGCGACC TCGTGATGAA AATAGATGTG CTTACCTCTT CATTGCCCGT GCGTGCCTCT
    CGCTCTGATG TCACGTTACT CAAAGAAAAT CTCAGTGTTA TAAAGATAAA TCCTCCAGAG
    AACGATACGT TTTTTGATGT CATTGCTGTT GTCGATCCTT TGACAAGAGA AGCTCAGAAG
    ATGACACAGT TACTGGATGT GCTTGGGAAG ATCGTGAACG TGAGGATGAA GCTGTTCATG
    AACTGCAGGG GTAAGCTTTC AGAAGCCCCG TTAGACAGCT TTTACCGTTT TGTTCTGGAA
    CCAGAGCCAT TCTCAGGGGC TAGCAATAGT CCTTCTCAAG GACCAGTGGC AAAGTTCCTG
    GACATCCCAG AATCACACCT TCTGACCCTC AACATGATCA CCCCAGAAGG ATGGCTGGTG
    GAGCCAGTAC ACAGCAACTG TGACCTTGAC AACATTAACT TAAAGGATAT TGAGAGGAGT
    GTTACAGCAG AGTATGAACT AGAGCATCTG CTCCTTGAAG GACATTGCTT TGACATGACC
    ACAGAACAGC CCCCGCAGGG CCTGCAGTTC ACGCTGGGCA CAAGAAGCAA TCCTGACGTA
    GTTGACACAA TAGTAATGGC CAATCTGGGA TATTTTCAAC TAAAAGCCAA CCCAGGTGCA
    TGGATACTAA AATTACGTGA AGGAAAATCA GAAGATATTT ATGAAATAAT TGGGCATGAA
    GGAGCAGACT CTGAGACTGA CGTAGGCAAT GTCATTGTCG TGTTAAATAC TTTCAAGAGC
    AAGATTCTGA AAGTGCAGGT AAAGAAAAAA TCAGGTAAAA TTAAAGAAGA TGTCCTTGCT
    GATAAACATG AAGATAGAGG CATGTGGGAT TCAATTAAAA GCTTCACAGA AAGTCTGCAG
    AAAGATGGCA GAAAGGACAA CAACATCCTA AACATTTTTT CAGTTGCCTC TGGCCATTTA
    TATGAGCGGT TTCTACGGAT TATGATGCTT TCTGTTCTGC GGAACACCAA AACACCAGTG
    AAGTTCTGGT TCCTGAAGAA TTACCTCTCG CCAACATTTA AAGAGGTGAT CCCTCACATG
    GCTAAGGAAT ATGGATTCCA GTACGAGCTT GTCCAGTACA AGTGGCCCCG CTGGCTGCAC
    CAACAGAGCG AAAAGCAGCG GATCATCTGG GGCTACAAAA TCCTTTTCCT CGACGTCCTT
    TTCCCACTGG CTGTGGACAA GGTCATATTT GTTGATGCTG ACCAGATCGT GAGGCATGAC
    CTGACAGAAC TTCGAGACTT TGATCTGGAT GGAGCTCCTT ACGGATATAC TCCGTTCTGT
    GATAGCCGCA CTGAAATGGA TGGATACCGT TTCTGGAAGA CGGGATACTG GGCATCACAT
    CTCGTAAAAA GGAAATACCA TATCAGTAAA ACTCATTCTC CAGTGTCTAC CTGTAAAGTG
    GGAATTTCTG GTTTCTTTGG AGACTCGGGG ATAATGATGT TTTGCAGGGG CCGACAGGTG
    AAGGAGCAGT TTGCTGAAGC AGACACAGGT GATCTCCCCA ACAATATGAT TTACCAAGTT
    GCCATCAAGT CTCTTCCTCA AGACTGGCTG TGGTGCGAAA CCTGGTGTGA TGACGAATCT
    AAGCAAAGAG CCAAGACAAT CGACCTGTGC AATAATCCCA AAACAAAAGA ACCCAAACTA
    GAAGCTGCCG CAAGGATTGT CCCAGAATGG GTAGAGTATG ATACCGAGAT CCGGAAACTA
    TTAGATCATC TTGAAAATAA GAAGAAAAGT ACAATTCATG ATGAACTCTA G

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

    CloneID ORa54478
    Clone ID Related Accession (Same CDS sequence) XM_017604950.1
    Accession Version XM_017604950.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4401bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product LOW QUALITY PROTEIN: UDP-glucose:glycoprotein glucosyltransferase 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000083.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCGCGGG CCGGAGCCGC GAAGGGACTG CGGCTGCTCC TACGTTCCGT CGCGCTGTGG 
    CTCGCCCTGC TCGGCGCCAG CACGGCGACT GCGTCCAAGG CGGTGACCGC ACACTTGGCT
    GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGGCCAGTG AATTCATGGC AGAAGAAAGT
    AATGAAAAGT TTTGGCAGTT TGTGGAAACA GTAACAGAAT TAGCAGTCTA TAAGCAGACG
    GAATCAGATT ATTCTTACTA CAACCTAATC CTGAAGAAAG CTGGGCAGTT TTTAGACAAT
    ATACACATCA ACCTCCTAAA GTTTGCTTTC TCGATAAGGG CATACTCTCC CACGATTCAG
    ATGTCCCAAC AGGTTGCTGC CGAGGAGCCA CCACCAGATG GCTGCGCAGC GTTTGTGGTC
    GTGCATACAA AGCGGACCTG CAAAACCAGC GAACTTAAGA AGTTGCTGAG TAAGGCTGCG
    TCAAGGCCCA GGCCTTACCT ATTTGAAAGA GACCATAAGT TTCCCACAAG CAGTGAGAAC
    TTACCAGTGG TTATTCTCTA TGCAGAAATT GGTACAAGAG CGTTTGCTGA ATTTCACAGA
    GTATTGTCTA AGAAATCAAA AAATGGTAAA ATCCTGTATG TTCTCCGCCA CTACATCAAG
    AAACCAAGCT CAAGAAAAAT GTACTTATCT GGCTATGGAG TGGAGCTGGC AATTAAAGAT
    ACAGAATACA AGGCATTGGA TGATATCCAA ATTAAAGCTA CGACTGATGC CACTGTAGAA
    AATGAGACCG GAGCAGATGA AGTTCAAGGA TTTCTTTTTG GGAAACTGAA AGAAATATAT
    TCAGATCTTA AAGAGAATCT GACAATATTC CAAAAGTACC TGATTGAGAG CAGCAAAGAA
    ATGACACCTT TGAAGGTCTG GGAATTACAA GGTATGGTGT ACACTTTAGA GCATTGCACA
    TATTCAGGAT TCTGTAGCAG AGCTAAAATA TTTACAACTA TGATTTTGCT TGGTTTCAAG
    GACTTACGTG ATAGATTCGA AATTATGCCA GGTGATGCTC ATCTGTTTAT CAATGGCCTT
    CCTGTTGACT TAGATGTTTA TGACCCCTTT AGTATTTTAG ATTTGCTGAG ATCAGAAGGG
    AAGCTGCTGA GTGGCCTTAA AAGTCTTGGG CTCAGTGAAG AAGAGAGGAG CAGGTTTTTA
    AAATTAAACT CACCCGTGTG GGACGATGAC TTTGTTTTAG ATATTCGGCA TTCTTCAATA
    GTGTGGATCA ATGACTTAGA AAATGACGCT TTGTATACTG ATTGGCCGAC AAGTTGCTGG
    GAATTTCTAA AGCCAGTATT ACATGGAACA GTGCCTTCTG TAAGGCGTAA TTTTCATAAC
    TTGGTTCTGT TTATTGATCC TGCTCAAGAA TATACCTTGG ACTTTATAAA TTTGGCAGAA
    TTTTTTTATT TTAATGAAAT CCCTCTTCGA ATTGGCTTTG TCTTCATTCT TACTATGGAC
    AATGACGTTG ATGGAACAAC AGATGCTGGG GTTGCTCTTT GGCGAGCTTT CAGTTATATT
    GAAGAAAACT ATGGTGTGTC AGAAGCATTT CTTTCTATGA CACATATGTA CCAAAAAGTG
    AAGGGTCGTC ATATACTCAC TGTGGATGAT GTGAGGACTG TTCTTCAAAA TAAATTTCCT
    CATGCCGACA TTTTGGATAT CTTGGGAACC CATTCCAAGT ATGACAGCAG AAGAAAGGAA
    GGAGCAAACT TTTATAAGAT GACCGGCCTA GGTCCTTTGC CTCAAGCTCT TTATAACGGT
    GAACACTTTG GCCTCAAAGA GATAGACACT GAAGAACTAA AAGGGGCCAT TCTGGAAAAA
    ATGATGGATG CGTTTATATA TCTACAAAGA GACGTTTTTA TGGGCAAAAT AACGGATGAA
    ATCAATGCGN ATGATTTCCT GATGGACAAG AGTAACGTTG TACCCCGGCT AAATTCTTTG
    ATTTTGCACA CTGAACCACA GTATCTTAAC TTACTGTCTT CATCAGTAAC TGCTGATATT
    GAAGATTTCT CTACTTTCTC CTTCCTGGAT TCACAAGACA AGAGTGCTGT TGTCGCAAAG
    CACATGCATT ACTTAACCCG AGACGATGCT GTCATATCTG CAGTCACTCT GTGGATTGTT
    GCTGATTTTG ATGTGCCGTC GGGGAGAAAA CTGCTCTCTC ATGCGTTAGA GCACATGGAA
    ACAACTTTTC ATAGTCGGTT AGGAATTGTT TACAACCCCA CGTCAAAGAT AAATGAGGAG
    AACACAGCCA TTTCTAGAGG AATTTTGGCA GCTTTTCTTA CACATGAAAA CGACCTCTTG
    AGAAGCTTTC TCAGGAAACT GGCAAAAGAA GAAACTGCTG AAGCAATTTA TTCTGGAGAT
    AAAATTAAAA CCTTCCTTGC TACGGAGATG GATAAGAATG CTTTTGAGAA AAAATATAAC
    ACCATTGGAG TAAATATTTT CCGAACTCAC CAGTTATTCT GTCAAGAGGT TCTTAAGCTG
    CGACCTGGAG AGCCCGGGAT TGTCAGCAAT GGAAGATTCT TAGGACCTTT AAATGAAGAG
    CTCCACAAAG AAGATTTTCA CTTGCTTGAA AAGATAACAT TTAGTGATTC AGTAGTGAAA
    ATCGCAGGCA TTGTTGAGAA TATGGAAATG AACTCAAAAC ACATGAGCGA CCTCGTGATG
    AAAATAGATG TGCTTACCTC TTCATTGCCC GTGCGTGCCT CTCGCTCTGA TGTCACGTTA
    CTCAAAGAAA ATCTCAGTGT TATAAAGATA AATCCTCCAG AGAACGATAC GTTTTTTGAT
    GTCATTGCTG TTGTCGATCC TTTGACAAGA GAAGCTCAGA AGATGACACA GTTACTGGAT
    TTGTGTTTTA TTAACAGCTT TTACCGTTTT GTTCTGGAAC CAGAGCCATT CTCAGGGGCT
    AGCAATAGTC CTTCTCAAGG ACCAGTGGCA AAGTTCCTGG ACATCCCAGA ATCACACCTT
    CTGACCCTCA ACATGATCAC CCCAGAAGGA TGGCTGGTGG AGCCAGTACA CAGCAACTGT
    GACCTTGACA ACATTAACTT AAAGGATATT GAGAGGAGTG TTACAGCAGA GTATGAACTA
    GAGCATCTGC TCCTTGAAGG ACATTGCTTT GACATGACCA CAGAACAGCC CCCGCAGGGC
    CTGCAGTTCA CGCTGGGCAC AAGAAGCAAT CCTGACGTAG TTGACACAAT AGTAATGGCC
    AATCTGGGAT ATTTTCAACT AAAAGCCAAC CCAGGTGCAT GGATACTAAA ATTACGTGAA
    GGAAAATCAG AAGATATTTA TGAAATAATT GGGCATGAAG GAGCAGACTC TGAGACTGAC
    GTAGGCAATG TCATTGTCGT GTTAAATACT TTCAAGAGCA AGATTCTGAA AGTGCAGGTA
    AAGAAAAAAT CAGGTAAAAT TAAAGAAGAT GTCCTTGCTG ATAAACATGA AGATAGAGGC
    ATGTGGGATT CAATTAAAAG CTTCACAGAA AGTCTGCAGA AAGATGGCAG AAAGGACAAC
    AACATCCTAA ACATTTTTTC AGTTGCCTCT GGCCATTTAT ATGAGCGGTT TCTACGGATT
    ATGATGCTTT CTGTTCTGCG GAACACCAAA ACACCAGTGA AGTTCTGGTT CCTGAAGAAT
    TACCTCTCGC CAACATTTAA AGAGGTGATC CCTCACATGG CTAAGGAATA TGGATTCCAG
    TACGAGCTTG TCCAGTACAA GTGGCCCCGC TGGCTGCACC AACAGAGCGA AAAGCAGCGG
    ATCATCTGGG GCTACAAAAT CCTTTTCCTC GACGTCCTTT TCCCACTGGC TGTGGACAAG
    GTCATATTTG TTGATGCTGA CCAGATCGTG AGGCATGACC TGACAGAACT TCGAGACTTT
    GATCTGGATG GAGCTCCTTA CGGATATACT CCGTTCTGTG ATAGCCGCAC TGAAATGGAT
    GGATACCGTT TCTGGAAGAC GGGATACTGG GCATCACATC TCGTAAAAAG GAAATACCAT
    ATCAGCGCCT TATACGTGGT GGATCTTAAG AAGTTCAGGA GAATTTCAGC AGGTGACAGG
    CTCCGGGGCC AGTACCAAGC TCTTAGCCAA GATCCAAATA GTCTTTCAAA CCTAGATCAG
    GATCTCCCCA ACAATATGAT TTACCAAGTT GCCATCAAGT CTCTTCCTCA AGACTGGCTG
    TGGTGCGAAA CCTGGTGTGA TGACGAATCT AAGCAAAGAG CCAAGACAAT CGACCTGTGC
    AATAATCCCA AAACAAAAGA ACCCAAACTA GAAGCTGCCG CAAGGATTGT CCCAGAATGG
    GTAGAGTATG ATACCGAGAT CCGGAAACTA TTAGATCATC TTGAAAATAA GAAGAAAAGT
    ACAATTCATG ATGAACTCTA G

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

    RefSeq XP_017460439.1
    CDS551..4951
    Translation

    Target ORF information:

    RefSeq Version XM_017604950.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus UDP-glucose glycoprotein glucosyltransferase 2 (Uggt2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017604950.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGCGCGGG CCGGAGCCGC GAAGGGACTG CGGCTGCTCC TACGTTCCGT CGCGCTGTGG 
    CTCGCCCTGC TCGGCGCCAG CACGGCGACT GCGTCCAAGG CGGTGACCGC ACACTTGGCT
    GCGAAGTGGC CCGAGACCCC GCTGCTGCTG GAGGCCAGTG AATTCATGGC AGAAGAAAGT
    AATGAAAAGT TTTGGCAGTT TGTGGAAACA GTAACAGAAT TAGCAGTCTA TAAGCAGACG
    GAATCAGATT ATTCTTACTA CAACCTAATC CTGAAGAAAG CTGGGCAGTT TTTAGACAAT
    ATACACATCA ACCTCCTAAA GTTTGCTTTC TCGATAAGGG CATACTCTCC CACGATTCAG
    ATGTCCCAAC AGGTTGCTGC CGAGGAGCCA CCACCAGATG GCTGCGCAGC GTTTGTGGTC
    GTGCATACAA AGCGGACCTG CAAAACCAGC GAACTTAAGA AGTTGCTGAG TAAGGCTGCG
    TCAAGGCCCA GGCCTTACCT ATTTGAAAGA GACCATAAGT TTCCCACAAG CAGTGAGAAC
    TTACCAGTGG TTATTCTCTA TGCAGAAATT GGTACAAGAG CGTTTGCTGA ATTTCACAGA
    GTATTGTCTA AGAAATCAAA AAATGGTAAA ATCCTGTATG TTCTCCGCCA CTACATCAAG
    AAACCAAGCT CAAGAAAAAT GTACTTATCT GGCTATGGAG TGGAGCTGGC AATTAAAGAT
    ACAGAATACA AGGCATTGGA TGATATCCAA ATTAAAGCTA CGACTGATGC CACTGTAGAA
    AATGAGACCG GAGCAGATGA AGTTCAAGGA TTTCTTTTTG GGAAACTGAA AGAAATATAT
    TCAGATCTTA AAGAGAATCT GACAATATTC CAAAAGTACC TGATTGAGAG CAGCAAAGAA
    ATGACACCTT TGAAGGTCTG GGAATTACAA GGTATGGTGT ACACTTTAGA GCATTGCACA
    TATTCAGGAT TCTGTAGCAG AGCTAAAATA TTTACAACTA TGATTTTGCT TGGTTTCAAG
    GACTTACGTG ATAGATTCGA AATTATGCCA GGTGATGCTC ATCTGTTTAT CAATGGCCTT
    CCTGTTGACT TAGATGTTTA TGACCCCTTT AGTATTTTAG ATTTGCTGAG ATCAGAAGGG
    AAGCTGCTGA GTGGCCTTAA AAGTCTTGGG CTCAGTGAAG AAGAGAGGAG CAGGTTTTTA
    AAATTAAACT CACCCGTGTG GGACGATGAC TTTGTTTTAG ATATTCGGCA TTCTTCAATA
    GTGTGGATCA ATGACTTAGA AAATGACGCT TTGTATACTG ATTGGCCGAC AAGTTGCTGG
    GAATTTCTAA AGCCAGTATT ACATGGAACA GTGCCTTCTG TAAGGCGTAA TTTTCATAAC
    TTGGTTCTGT TTATTGATCC TGCTCAAGAA TATACCTTGG ACTTTATAAA TTTGGCAGAA
    TTTTTTTATT TTAATGAAAT CCCTCTTCGA ATTGGCTTTG TCTTCATTCT TACTATGGAC
    AATGACGTTG ATGGAACAAC AGATGCTGGG GTTGCTCTTT GGCGAGCTTT CAGTTATATT
    GAAGAAAACT ATGGTGTGTC AGAAGCATTT CTTTCTATGA CACATATGTA CCAAAAAGTG
    AAGGGTCGTC ATATACTCAC TGTGGATGAT GTGAGGACTG TTCTTCAAAA TAAATTTCCT
    CATGCCGACA TTTTGGATAT CTTGGGAACC CATTCCAAGT ATGACAGCAG AAGAAAGGAA
    GGAGCAAACT TTTATAAGAT GACCGGCCTA GGTCCTTTGC CTCAAGCTCT TTATAACGGT
    GAACACTTTG GCCTCAAAGA GATAGACACT GAAGAACTAA AAGGGGCCAT TCTGGAAAAA
    ATGATGGATG CGTTTATATA TCTACAAAGA GACGTTTTTA TGGGCAAAAT AACGGATGAA
    ATCAATGCGN ATGATTTCCT GATGGACAAG AGTAACGTTG TACCCCGGCT AAATTCTTTG
    ATTTTGCACA CTGAACCACA GTATCTTAAC TTACTGTCTT CATCAGTAAC TGCTGATATT
    GAAGATTTCT CTACTTTCTC CTTCCTGGAT TCACAAGACA AGAGTGCTGT TGTCGCAAAG
    CACATGCATT ACTTAACCCG AGACGATGCT GTCATATCTG CAGTCACTCT GTGGATTGTT
    GCTGATTTTG ATGTGCCGTC GGGGAGAAAA CTGCTCTCTC ATGCGTTAGA GCACATGGAA
    ACAACTTTTC ATAGTCGGTT AGGAATTGTT TACAACCCCA CGTCAAAGAT AAATGAGGAG
    AACACAGCCA TTTCTAGAGG AATTTTGGCA GCTTTTCTTA CACATGAAAA CGACCTCTTG
    AGAAGCTTTC TCAGGAAACT GGCAAAAGAA GAAACTGCTG AAGCAATTTA TTCTGGAGAT
    AAAATTAAAA CCTTCCTTGC TACGGAGATG GATAAGAATG CTTTTGAGAA AAAATATAAC
    ACCATTGGAG TAAATATTTT CCGAACTCAC CAGTTATTCT GTCAAGAGGT TCTTAAGCTG
    CGACCTGGAG AGCCCGGGAT TGTCAGCAAT GGAAGATTCT TAGGACCTTT AAATGAAGAG
    CTCCACAAAG AAGATTTTCA CTTGCTTGAA AAGATAACAT TTAGTGATTC AGTAGTGAAA
    ATCGCAGGCA TTGTTGAGAA TATGGAAATG AACTCAAAAC ACATGAGCGA CCTCGTGATG
    AAAATAGATG TGCTTACCTC TTCATTGCCC GTGCGTGCCT CTCGCTCTGA TGTCACGTTA
    CTCAAAGAAA ATCTCAGTGT TATAAAGATA AATCCTCCAG AGAACGATAC GTTTTTTGAT
    GTCATTGCTG TTGTCGATCC TTTGACAAGA GAAGCTCAGA AGATGACACA GTTACTGGAT
    TTGTGTTTTA TTAACAGCTT TTACCGTTTT GTTCTGGAAC CAGAGCCATT CTCAGGGGCT
    AGCAATAGTC CTTCTCAAGG ACCAGTGGCA AAGTTCCTGG ACATCCCAGA ATCACACCTT
    CTGACCCTCA ACATGATCAC CCCAGAAGGA TGGCTGGTGG AGCCAGTACA CAGCAACTGT
    GACCTTGACA ACATTAACTT AAAGGATATT GAGAGGAGTG TTACAGCAGA GTATGAACTA
    GAGCATCTGC TCCTTGAAGG ACATTGCTTT GACATGACCA CAGAACAGCC CCCGCAGGGC
    CTGCAGTTCA CGCTGGGCAC AAGAAGCAAT CCTGACGTAG TTGACACAAT AGTAATGGCC
    AATCTGGGAT ATTTTCAACT AAAAGCCAAC CCAGGTGCAT GGATACTAAA ATTACGTGAA
    GGAAAATCAG AAGATATTTA TGAAATAATT GGGCATGAAG GAGCAGACTC TGAGACTGAC
    GTAGGCAATG TCATTGTCGT GTTAAATACT TTCAAGAGCA AGATTCTGAA AGTGCAGGTA
    AAGAAAAAAT CAGGTAAAAT TAAAGAAGAT GTCCTTGCTG ATAAACATGA AGATAGAGGC
    ATGTGGGATT CAATTAAAAG CTTCACAGAA AGTCTGCAGA AAGATGGCAG AAAGGACAAC
    AACATCCTAA ACATTTTTTC AGTTGCCTCT GGCCATTTAT ATGAGCGGTT TCTACGGATT
    ATGATGCTTT CTGTTCTGCG GAACACCAAA ACACCAGTGA AGTTCTGGTT CCTGAAGAAT
    TACCTCTCGC CAACATTTAA AGAGGTGATC CCTCACATGG CTAAGGAATA TGGATTCCAG
    TACGAGCTTG TCCAGTACAA GTGGCCCCGC TGGCTGCACC AACAGAGCGA AAAGCAGCGG
    ATCATCTGGG GCTACAAAAT CCTTTTCCTC GACGTCCTTT TCCCACTGGC TGTGGACAAG
    GTCATATTTG TTGATGCTGA CCAGATCGTG AGGCATGACC TGACAGAACT TCGAGACTTT
    GATCTGGATG GAGCTCCTTA CGGATATACT CCGTTCTGTG ATAGCCGCAC TGAAATGGAT
    GGATACCGTT TCTGGAAGAC GGGATACTGG GCATCACATC TCGTAAAAAG GAAATACCAT
    ATCAGCGCCT TATACGTGGT GGATCTTAAG AAGTTCAGGA GAATTTCAGC AGGTGACAGG
    CTCCGGGGCC AGTACCAAGC TCTTAGCCAA GATCCAAATA GTCTTTCAAA CCTAGATCAG
    GATCTCCCCA ACAATATGAT TTACCAAGTT GCCATCAAGT CTCTTCCTCA AGACTGGCTG
    TGGTGCGAAA CCTGGTGTGA TGACGAATCT AAGCAAAGAG CCAAGACAAT CGACCTGTGC
    AATAATCCCA AAACAAAAGA ACCCAAACTA GAAGCTGCCG CAAGGATTGT CCCAGAATGG
    GTAGAGTATG ATACCGAGAT CCGGAAACTA TTAGATCATC TTGAAAATAA GAAGAAAAGT
    ACAATTCATG ATGAACTCTA G

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