ORF » Species Summary » Schizosaccharomyces pombe » adg3 cDNA ORF clone

adg3 cDNA ORF clone, Schizosaccharomyces pombe(fission yeast)

The following adg3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adg3 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
OSc99111 NM_001023371.2
Latest version!		 Schizosaccharomyces pombe putative beta-glucosidase Adg3 (adg3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $629.30
$899.00

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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)
    adg3 ( NM_001023371.2 ) cDNA ORF clone, Schizosaccharomyces pombe(fission yeast) -> NP_588380.2 Schizosaccharomyces pombe putative beta-glucosidase Adg3 (adg3), mRNA.
    Price & Availability↑
    CloneID OSc99111
    Clone ID Related Accession (Same CDS sequence) NM_001023371.2
    Accession Version NM_001023371.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3396bp)
    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 2018-04-02
    Organism Schizosaccharomyces pombe(fission yeast)
    Product putative beta-glucosidase Adg3
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_003421). On Dec 10, 2012 this sequence version replaced NM_001023371.1. 

    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
    ATGCCTTCCA AAATTGAAAA AATTTGTCTT TTGTTGTTGG GTTTTACTGC AGCATCAAAT 
    GTGAATGCAT ACTCACATCG TCGGGCCGGT GATACTTTGC ACCATCGGCA TAAACATGAA 
    AAGCACAATG ATCTGACTGA TTCCAGTTAT GAACCACTGA CTTTGTCTTA TAATGATACG 
    CAAATCCAGC AATTACAACG ACGCGATACT GTACAGTGTG CCTTCCCCTA TGGAGATAAG 
    ATGGTAGCAG TAACACCCGA CGAAGGTAAT GCCGGTTGGG CAATGTCTCC AGATCAATAT 
    TGCACTGCTG GTACATGGTG TCCTTACGCT TGTGAACCTG GCTACTTAAT GGGACAATGG 
    GACCCCAATG CCACTTCTTA TACTTATCCT GAATCCATGT ATGGAGGTTT ATATTGCAAC 
    TCAGATGGTG TGGCAGTCAA GCCATTTCCT TCAAAGGATT ATTGTTATCC GGGTGTCGGT 
    GATTTATCCG TTGTCGATCA GACGGGTGAT GGAATCGCTT TTTGTCAAAC GGTTCTCCCG 
    GGTAATGAAG CTATGCTCAT TCCTACGTGG GTTGCCCCTG ATTCTGAACA AGTTTTAGCT 
    GTGCCCGACA TCTCTTATTG GGATGAAACT GCTGCTCATT ATTATGTAAA TCCACCTGGC 
    GTATCTACCA CTGATGGTTG TGTTTGGGGT ACTTCTGCGA ATCCTTATGG AAACTGGGCT 
    CCTTACGTTG CTGGTGCAAA CATGGATGAA AATAACATTA CCTATGTTAA GTTGGGTGCG 
    AACCCAATCT ACCTCGATGA TTCTTACTGG TCAACTGTGA AACCTACATA TGGTTTGGCA 
    CTCGAGTGTG AAGGTGATAC CTGCTCTGGC TTACCTTGCT ATGTCGATCC TCGCGAAAAT 
    GGTGTTCAAG GTTGTCCAGA GGGAAGTCCC ATTGGTGCTG GAGGCGCTTG CTTTTGTGTG 
    GTAGGGTTTC AGCAAGGCAC CACTGCTAAA ATTGTTGTTG TTGATTATAG TGAAGAGATG 
    GCTTCTAGTT CTTCCTCGGC ATCTGCTACA GCAACATCAA GTGCGGAGTC TTCTATAGCT 
    ACATCTCCTA TCACTTCTTC AAGCAACGTT GTATCATCAA TCTCAACGTC GTCTATGGAC 
    TCTTCTGCAG TTTCTTCGTA CTCGGTGGTA CAGTCCTCCT TGGCGAGCAT TATTTCAAAT 
    GCCTACATTG CTACTTCCAA GAGTGGCCTT AACTCGGGAG TCTCAACCCT ATTGGCTTCG 
    CCCACTTCGT CTTCTACATT TGTAACGTCG TTGCTTCGTC GCTCATCAAT TGATGGTAGC 
    GCTAGTAGTA GCTCGGCTTC TTTGGCTGTT CCAACTGTTT CTTCCTCTAC TACTGGCTCA 
    CTCCATTATA AAACGACGAC AACTGTATGG GTTACAGAAG TGTTTACTAG GTATCTTGGT 
    GATGACTCGA CTCCCGTGAC TTCTAGTTCA ATCTTTAGTA CCGCCACTGA AGCAACGGAT 
    ACATCCGTTC AGACATCTAG TGCAATTTAT GATTCATCTT CGACTTCGAA TATACAATCT 
    TCCTCTTCAG TTTACGCTAG CAGCACTGGA GCTTTAAGCA GTAATAGCTT ATCAAGTTCA 
    ACTTCCTCAG TCTCTACTAG CTATATTCCC AACGCTTCTT CTTCAGTTTA CGCTAGCAGC 
    ACCGAAGCTT TAAGCAGTAA TAGCTTATCA AGTTCAACTT CCTCAGCCTC TACTAGCTAT 
    ATTCCCAGCG CTTCCTCTTC TTACGAGGTA GCAAGTAATA GTAGTGATTA TTACAGCCAA 
    ACTGTGAGCT CAATTACTGC GTCTGGAACT ACATCCTCAA CTTCCGAAAT TGTTTCTACT 
    CCTGCATCTA ATAGTAATAC TGGTTCTTTG AATGGAACTA GTAGCTTCAA TGTTAATAGT 
    GTTGGTCCAT CCTCCTCTCA GACGACACCT ACATCGAGTA GCTCAATCAC AGGCTCTCAG 
    TCTTTGAAAG AAACTAGTAG TCCTGCTTAT GTTTCTTCTA CAGTATCATA CACGAGCTCT 
    TCAGTTGATT CGTCTTCTAC TTATAATTCA ACCGGAAGTT CATCATCAGA TTCTCAATCA 
    TTTTCTGGTA CCACTTACAG TGACCCAACT ACTACTATCA CTAGTGAAGT TTCAAGCATT 
    TTAAGTTCTC CTACCTCAAT GCAAAGCTCT GTTTCAAGAC CTCAGTCTTC CGGTGATGCC 
    AGCGGATTTA ATACCATATT TACTTCAATT TCACAGTCTA GTGATGGTGA GACTTCGGGT 
    TATACAATCT CTTCTAATTC ATCTCAAAAT TCTGCATCAG AGCCACAAAC CGCTTTTACT 
    TCTTCCAGTT CAAGCGCTAC TCCAACTATT ACACAAAGTA GTATTTCTAC TTCCGTCTCT 
    TCGCAATCGT CAATGAACTC GTCTTATAGC TCACCAATTT CTTCTAACTC TGTGACTTCT 
    AGTACGAGCA TTATATCGTC TATAGCCTCT AGCTCTTATA CATCTATCCC CTCCATCTCC 
    TCAATAGCCA GTTCTTTCTT TGATGCTAGT GGGTTTACCT CAATTTATAA CGGAACAAAA 
    GCAGGATTTT CAAGTTCTTT CGCTTTGGCT TCTAACTCAG AAAGTGGAGC ATCCGACGTA 
    TTAAGCAGTA CGATCGCTAA ACCGACTTTC AAATTTTCAA CTTCGAATTC GGGGTCTACT 
    AGCTATTCTA TCCCAAGTTC CAGTTCTCGT AACGAAGGAA CTACATCATA TTCGTCGAAC 
    ATTACAGTCA CTTCATCCAC TTTGAAACCT TCTTTAACCA GTTCAGTATC TACAGCATCA 
    AGCTATATTG CTTCTTCTGC TTCTTCAAAT ACCTTGTCTA CAGAACCCAA GACGTTTTCG 
    AGTTCATCAA CCTTAAGCGA ATCAATTTCT TCTATTAATA CAAATTCCTT GACCGTTAAA 
    CCTGAGTCAT CTTTGAGCTC GTCAACCACG AGTGGATTAA CCTCCTCTTC TTCCACTATT 
    CCATCTTCTA CTAGGTCGGA AAGCAACTCA GAAAGTGCTA GTACATCTTC GGCCAGTAAG 
    CGATCGTCAT CTTCTACTTC TCTCGTGCAA TCAAATCCTG TTAAGACGGT TGTGTCCCTT 
    GAATCATATA AATTTACAAC GTCTAAGATT TCGTTAGTGA AAAATCCAAC AAAAACCTAC 
    ACTGTAACTG ATGTTGAAAC AAATGTTGTT GTGCAAACCC ACACAGTTTC ATATGTTGAG 
    CACTCGACAT CTTATACTTG GGTCCACACT ACTCTTTATG AGTATGCAGA CGTAGAGGCA 
    AGCACGAAAT CCACTAGCGA GCCAAGTGCG AAGTCCAAAA GAAATGCAGT TTCAACGTTT 
    GAAACAGTAT TTTTGAAAAG CAAATCCTCT GCGTAG

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

    RefSeq NP_588380.2
    CDS647..4042
    Translation

    Target ORF information:

    RefSeq Version NM_001023371.2
    Organism Schizosaccharomyces pombe(fission yeast)
    Definition Schizosaccharomyces pombe putative beta-glucosidase Adg3 (adg3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001023371.2

    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
    ATGCCTTCCA AAATTGAAAA AATTTGTCTT TTGTTGTTGG GTTTTACTGC AGCATCAAAT 
    GTGAATGCAT ACTCACATCG TCGGGCCGGT GATACTTTGC ACCATCGGCA TAAACATGAA 
    AAGCACAATG ATCTGACTGA TTCCAGTTAT GAACCACTGA CTTTGTCTTA TAATGATACG 
    CAAATCCAGC AATTACAACG ACGCGATACT GTACAGTGTG CCTTCCCCTA TGGAGATAAG 
    ATGGTAGCAG TAACACCCGA CGAAGGTAAT GCCGGTTGGG CAATGTCTCC AGATCAATAT 
    TGCACTGCTG GTACATGGTG TCCTTACGCT TGTGAACCTG GCTACTTAAT GGGACAATGG 
    GACCCCAATG CCACTTCTTA TACTTATCCT GAATCCATGT ATGGAGGTTT ATATTGCAAC 
    TCAGATGGTG TGGCAGTCAA GCCATTTCCT TCAAAGGATT ATTGTTATCC GGGTGTCGGT 
    GATTTATCCG TTGTCGATCA GACGGGTGAT GGAATCGCTT TTTGTCAAAC GGTTCTCCCG 
    GGTAATGAAG CTATGCTCAT TCCTACGTGG GTTGCCCCTG ATTCTGAACA AGTTTTAGCT 
    GTGCCCGACA TCTCTTATTG GGATGAAACT GCTGCTCATT ATTATGTAAA TCCACCTGGC 
    GTATCTACCA CTGATGGTTG TGTTTGGGGT ACTTCTGCGA ATCCTTATGG AAACTGGGCT 
    CCTTACGTTG CTGGTGCAAA CATGGATGAA AATAACATTA CCTATGTTAA GTTGGGTGCG 
    AACCCAATCT ACCTCGATGA TTCTTACTGG TCAACTGTGA AACCTACATA TGGTTTGGCA 
    CTCGAGTGTG AAGGTGATAC CTGCTCTGGC TTACCTTGCT ATGTCGATCC TCGCGAAAAT 
    GGTGTTCAAG GTTGTCCAGA GGGAAGTCCC ATTGGTGCTG GAGGCGCTTG CTTTTGTGTG 
    GTAGGGTTTC AGCAAGGCAC CACTGCTAAA ATTGTTGTTG TTGATTATAG TGAAGAGATG 
    GCTTCTAGTT CTTCCTCGGC ATCTGCTACA GCAACATCAA GTGCGGAGTC TTCTATAGCT 
    ACATCTCCTA TCACTTCTTC AAGCAACGTT GTATCATCAA TCTCAACGTC GTCTATGGAC 
    TCTTCTGCAG TTTCTTCGTA CTCGGTGGTA CAGTCCTCCT TGGCGAGCAT TATTTCAAAT 
    GCCTACATTG CTACTTCCAA GAGTGGCCTT AACTCGGGAG TCTCAACCCT ATTGGCTTCG 
    CCCACTTCGT CTTCTACATT TGTAACGTCG TTGCTTCGTC GCTCATCAAT TGATGGTAGC 
    GCTAGTAGTA GCTCGGCTTC TTTGGCTGTT CCAACTGTTT CTTCCTCTAC TACTGGCTCA 
    CTCCATTATA AAACGACGAC AACTGTATGG GTTACAGAAG TGTTTACTAG GTATCTTGGT 
    GATGACTCGA CTCCCGTGAC TTCTAGTTCA ATCTTTAGTA CCGCCACTGA AGCAACGGAT 
    ACATCCGTTC AGACATCTAG TGCAATTTAT GATTCATCTT CGACTTCGAA TATACAATCT 
    TCCTCTTCAG TTTACGCTAG CAGCACTGGA GCTTTAAGCA GTAATAGCTT ATCAAGTTCA 
    ACTTCCTCAG TCTCTACTAG CTATATTCCC AACGCTTCTT CTTCAGTTTA CGCTAGCAGC 
    ACCGAAGCTT TAAGCAGTAA TAGCTTATCA AGTTCAACTT CCTCAGCCTC TACTAGCTAT 
    ATTCCCAGCG CTTCCTCTTC TTACGAGGTA GCAAGTAATA GTAGTGATTA TTACAGCCAA 
    ACTGTGAGCT CAATTACTGC GTCTGGAACT ACATCCTCAA CTTCCGAAAT TGTTTCTACT 
    CCTGCATCTA ATAGTAATAC TGGTTCTTTG AATGGAACTA GTAGCTTCAA TGTTAATAGT 
    GTTGGTCCAT CCTCCTCTCA GACGACACCT ACATCGAGTA GCTCAATCAC AGGCTCTCAG 
    TCTTTGAAAG AAACTAGTAG TCCTGCTTAT GTTTCTTCTA CAGTATCATA CACGAGCTCT 
    TCAGTTGATT CGTCTTCTAC TTATAATTCA ACCGGAAGTT CATCATCAGA TTCTCAATCA 
    TTTTCTGGTA CCACTTACAG TGACCCAACT ACTACTATCA CTAGTGAAGT TTCAAGCATT 
    TTAAGTTCTC CTACCTCAAT GCAAAGCTCT GTTTCAAGAC CTCAGTCTTC CGGTGATGCC 
    AGCGGATTTA ATACCATATT TACTTCAATT TCACAGTCTA GTGATGGTGA GACTTCGGGT 
    TATACAATCT CTTCTAATTC ATCTCAAAAT TCTGCATCAG AGCCACAAAC CGCTTTTACT 
    TCTTCCAGTT CAAGCGCTAC TCCAACTATT ACACAAAGTA GTATTTCTAC TTCCGTCTCT 
    TCGCAATCGT CAATGAACTC GTCTTATAGC TCACCAATTT CTTCTAACTC TGTGACTTCT 
    AGTACGAGCA TTATATCGTC TATAGCCTCT AGCTCTTATA CATCTATCCC CTCCATCTCC 
    TCAATAGCCA GTTCTTTCTT TGATGCTAGT GGGTTTACCT CAATTTATAA CGGAACAAAA 
    GCAGGATTTT CAAGTTCTTT CGCTTTGGCT TCTAACTCAG AAAGTGGAGC ATCCGACGTA 
    TTAAGCAGTA CGATCGCTAA ACCGACTTTC AAATTTTCAA CTTCGAATTC GGGGTCTACT 
    AGCTATTCTA TCCCAAGTTC CAGTTCTCGT AACGAAGGAA CTACATCATA TTCGTCGAAC 
    ATTACAGTCA CTTCATCCAC TTTGAAACCT TCTTTAACCA GTTCAGTATC TACAGCATCA 
    AGCTATATTG CTTCTTCTGC TTCTTCAAAT ACCTTGTCTA CAGAACCCAA GACGTTTTCG 
    AGTTCATCAA CCTTAAGCGA ATCAATTTCT TCTATTAATA CAAATTCCTT GACCGTTAAA 
    CCTGAGTCAT CTTTGAGCTC GTCAACCACG AGTGGATTAA CCTCCTCTTC TTCCACTATT 
    CCATCTTCTA CTAGGTCGGA AAGCAACTCA GAAAGTGCTA GTACATCTTC GGCCAGTAAG 
    CGATCGTCAT CTTCTACTTC TCTCGTGCAA TCAAATCCTG TTAAGACGGT TGTGTCCCTT 
    GAATCATATA AATTTACAAC GTCTAAGATT TCGTTAGTGA AAAATCCAAC AAAAACCTAC 
    ACTGTAACTG ATGTTGAAAC AAATGTTGTT GTGCAAACCC ACACAGTTTC ATATGTTGAG 
    CACTCGACAT CTTATACTTG GGTCCACACT ACTCTTTATG AGTATGCAGA CGTAGAGGCA 
    AGCACGAAAT CCACTAGCGA GCCAAGTGCG AAGTCCAAAA GAAATGCAGT TTCAACGTTT 
    GAAACAGTAT TTTTGAAAAG CAAATCCTCT GCGTAG

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

  • PubMed

    The genome sequence of Schizosaccharomyces pombe.
    Nature415(6874)871-80(2002 Feb)
    Wood V,Gwilliam R,Rajandream MA,Lyne M,Lyne R,Stewart A,Sgouros J,Peat N,Hayles J,Baker S,Basham D,Bowman S,Brooks K,Brown D,Brown S,Chillingworth T,Churcher C,Collins M,Connor R,Cronin A,Davis P,Feltwell T,Fraser A,Gentles S,Goble A,Hamlin N,Harris D,Hidalgo J,Hodgson G,Holroyd S,Hornsby T,Howarth S,Huckle EJ,Hunt S,Jagels K,James K,Jones L,Jones M,Leather S,McDonald S,McLean J,Mooney P,Moule S,Mungall K,Murphy L,Niblett D,Odell C,Oliver K,O'Neil S,Pearson D,Quail MA,Rabbinowitsch E,Rutherford K,Rutter S,Saunders D,Seeger K,Sharp S,Skelton J,Simmonds M,Squares R,Squares S,Stevens K,Taylor K,Taylor RG,Tivey A,Walsh S,Warren T,Whitehead S,Woodward J,Volckaert G,Aert R,Robben J,Grymonprez B,Weltjens I,Vanstreels E,Rieger M,Sch?fer M,M?ller-Auer S,Gabel C,Fuchs M,D?sterh?ft A,Fritzc C,Holzer E,Moestl D,Hilbert H,Borzym K,Langer I,Beck A,Lehrach H,Reinhardt R,Pohl TM,Eger P,Zimmermann W,Wedler H,Wambutt R,Purnelle B,Goffeau A,Cadieu E,Dr?ano S,Gloux S,Lelaure V,Mottier S,Galibert F,Aves SJ,Xiang Z,Hunt C,Moore K,Hurst SM,Lucas M,Rochet M,Gaillardin C,Tallada VA,Garzon A,Thode G,Daga RR,Cruzado L,Jimenez J,S?nchez M,del Rey F,Benito J,Dom?nguez A,Revuelta JL,Moreno S,Armstrong J,Forsburg SL,Cerutti L,Lowe T,McCombie WR,Paulsen I,Potashkin J,Shpakovski GV,Ussery D,Barrell BG,Nurse P,Cerrutti L


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