ORF » Species Summary » Tuber melanosporum Mel28 » GSTUM_00006250001 cDNA ORF clone

GSTUM_00006250001 cDNA ORF clone, Tuber melanosporum Mel28

The following GSTUM_00006250001 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GSTUM_00006250001 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
OTk03236 XM_002838431.1
Latest version!		 Tuber melanosporum Mel28 hypothetical protein (GSTUM_00006250001) mRNA, complete cds. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
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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)
    GSTUM_00006250001 ( XM_002838431.1 ) cDNA ORF clone, Tuber melanosporum Mel28 -> XP_002838477.1 Tuber melanosporum Mel28 hypothetical protein (GSTUM_00006250001) mRNA, complete cds.
    Price & Availability↑
    CloneID OTk03236
    Clone ID Related Accession (Same CDS sequence) XM_002838431.1
    Accession Version XM_002838431.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 1274198400000
    Organism Tuber melanosporum Mel28
    Product hypothetical protein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_003298919). Project: 49017 This is a 'working draft' sequence, generated by whole genome shotgun. This release consists of contigs automatically generated, that have not been checked further, and may contain consensus and assembly errors. This assembly was made at a 10X coverage of the genome, sequenced by Sanger method. Sequencing and annotation efforts has been performed by GENOSCOPE. COMPLETENESS: incomplete on both ends. 

    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
    ATGTCGGGCA ACTCTAATAT GTTCATGTAC TCGCTGACGG TACTTCAACC ATCGGCCATA 
    ACCCAAGCAA TCCTTGGAGC GTTCAGCGGA AAGAAGCAGC AGGAAATAAT TGTTGCCCAA 
    GGATCTCGGT TATCATTATT ACGACCCGAT GCAGCGCAGG GAAAAGTACA TTCGGTTCTT 
    ACGATTGATG TGTTTGGGAT TATTCGATGT TTGGCGGCAT TCAGATTAGC CGGTAGCTCA 
    AAAGATTATG TGATTGTCGG GTCCGATTCT GGTCGTATTA CTATTCTCGA GTACCAGCCA 
    CAAGTTAATA AGTTCCACCG GCTACATCTC GAGACTTTTG GAAAGTCTGG TGTTCGCCGT 
    GTTATTCCGG GACAATTCCT TGCGTGCGAT CCAAAGGGGA GGGCGTGTCT TATATCTTCG 
    GTAGAGAAGA ATAAACTCGT CTATGTTCTC AATCGCAATG CTCAGGCGGA ACTGACGATA 
    TCCAGTCCTT TAGAGGCACA CAAACCCCAT TGTCTTGTGT TTGCACTTGT AGCCCTGGAC 
    GTCGGATATG ATAATCCGGT GTTTGCAGCA CTCGAAGTTG ATTACGGGGA GTCAGATCAG 
    GATGCCACAG GAGTTGCGTA TGAGAACATT GAGAAAATGC TAGTCTACTA CGAGCTGGAT 
    TTAGGGCTCA ATCATGTGGT ACGAAAGTGG TCAGATACTG TGGACCGATC TGCCAATATT 
    CTTTTCCAGG TACCAGGTGG CACAGATGGG CCTTCGGGTG TTTTAGTATG TGCAGAGGAT 
    AGTATATACT ACCGTCATAT GGGGAGATCG ACCCATAGAG TGCCTATACC TAGGCGTCGG 
    GGAGCATGCG AAGACCCTAA TAGAAGAAGA ACTATTATTT CAGGTGTCAT GCATAAGATG 
    AGGGGTGCAT TCTTTTTTCT GTTACAAACA GAAGATGGTG ATTTACTCAA AGTAACATTG 
    GATTATGATG ATGAATCCGG TGTCTCGCGA ATAAAGGTGA AATACTTTGA TACTGTTCCT 
    ATTGCTTCGA GCCTGTGCAT CTTGAAGAGC GGGTTCTTGT TTGTGGCCTC GGAAGGAGGC 
    AACCATCATT TTTACCAATT CGAAAAGCTG GGGGACGATG ATGAGGAGAT TGAGTTCTCA 
    AGTGATAATT TCTCACCGGA TCCACTGGAT AGAACTGTAC CTATATATTT CCACCCACGC 
    GCACCAGAGA ACTTATCCCT CGTCGAGGCC ATCGATAGCA TGAATCCTTT GGTCGACTGC 
    AAAATTGCCA ATTTGACTGA CGATGATGCG CCCCAAATAT ATACTGTTTG TGGGTCTGGC 
    CCACGATCTA CTTTCCGGAC CTTGAAGCAT GGCCTTGAAA CTACAGAGAT TGTCTCATCC 
    GAACTACCTG GTGTGCCTAG CGCTGTGTGG ACCACAAAAC TTACAAACGG CGACGAGTTC 
    GATGCCTACA TTGTCTTATC ATTCACCAAT GGGACACTGG TGCTCAGTAT CGGGGAGACA 
    GTGGAGGAGG TTACCGACAC TGGCTTCTTA TCATCCGCTC CAACACTCGC AGTTCAACAG 
    TTGGGCGAGG ATGCGTTACT CCAAGTCCAC CCCAAGGGAA TTCGCCACAT TAGGGCAGAT 
    AGGAGAGTCA ATGAATGGCC AGCACCTCAG CATAGATCAA TTGTCGCGGC TTCTACAAAC 
    TCCCGACAAG TTGCTGTGGC TCTATCTAGC GGAGAGATCG TGTATTTCGA GATGGACAGT 
    GATGGACAGC TGGCAGAGTA TGAGGAGAAG AAAGAGATGT CGGGGACAGT CACCTGTCTC 
    TCACTCGGGG AGGTTCCAGA GGGGAGGGTG CGGAGTTCCT TTTTGGCGGT TGGCTGTGAT 
    GATGCCACCG TTCGAATACT CTCACTAGAT CCTGATTCCA CTTTGGAATC AAAATCTGTT 
    CAAGCCCTTA CCTCTGCACC TTCGTCGTTA TGCATCATGT CTATGCCTGA CTCTGCGTCG 
    GAAACATCAC GTTCCTTAAC ACTTTATCTG CACATTGGTC TTTATAGTGG TGTATATCTC 
    AGAACAGTAC TCGATACAGT AACTGGAGAA TTGACAGATA CTCGAACAAG GTTTTTGGGG 
    CCCAAGCCAG TCAAGATATT CAAAGTTATT GCGCAGGGGC TACCGTCAGT CCTCGCCCTG 
    AGCAGTCGAC CATGGCTGGG ATATAGTGAT GCAAGAGGTC AATTCATGCT TACACCTTTG 
    ACGTATCCCA TGCTAGAATG GGGTTGGACA TTCAGCAGTG AGCAGTGCCC GGAGGGAATG 
    GTAGGAATTC AAGGGCAGAA TCTGAGAATT TTTACCATCG AGAAGCTCAC AGACAATCTC 
    CAACAAGAGT CCATCCCACT ATCATACACC CCCCGAAAAA TGCTCAAGCA TCCTGATCAA 
    CCTGTATTCT ATGTTGCTGA GGCAGACGCC AACACGCTCT CCGTCGCTAC TAAACAAAAG 
    CTAATGAACA GCGCCCAAAA CGGTGACACT AACGAGCTCG CCCCGGCAGA GTTCGGGAAC 
    CCGCGTGGCG AAGGCCACTG GGCATCCTGC ATCTCTGTTG TGGACCCCAT CAGCAAAGAG 
    GTGACCCAGC GGATCGAACT CGAAGAGAAC GAAGCTGCCT TCAGCATTGC GGCAGTCAGC 
    TTCTCCAGCC AAGATGACGA ATGGTTTCTA GTAGTCGGTA CAGGAAAAGA CACCTGCCTC 
    TCTCCGCGCA AGTCTGCAAA TGGCTATATT CACATCTACC GCTTCTTAAA TGACGGTAAG 
    GAGCTAGAAT TTATACATAA AACAAAAGTA GACGAACCTC CTCTCGCCCT CCTAGGATTC 
    CAAGGCCGGC TGCTAGCGGG CATAGGCAAA GATTTAAAAA TCTACGATTT AGGGATGAAG 
    CAACTCCTGC GCAAAGCTCA AGGCCAGGTT GCTCCGAACG TCATCAATGG TCTCCAGACA 
    CAGGGATCGA GAATCATAGT CTCGGATGTG CAGGAATCGG TGACTTACGT GGTATACAAG 
    TACCAGGACA ACCGTCTAAT CCCATTTGCA GACGACATGA TCCCGCGCTT CACCACGTGC 
    ACCACAATGG TAGACTACGA GACAGTTGCT GGTGGTGACA GATTTGGTAA CTTCTGGATC 
    GTCCGCTGTC CACAAAAGGC CTCCGACGAA TCCGACGAAG ACCCCGCCGG TGGACACCTC 
    ATTCACGAAC GATCATACCT CCAGGGCGCC CCCAACCGTC TAAACCTAAT GTGCCACTTC 
    TACCCCCAGG ACATCCCAAC CAGCGTTCAG AAGGCACAGT TGGTGACCGG CGGCCGCGAC 
    ACACTTGTCT GGACTGGCCT CCAGGGAACA ATCGGCCTGA TGGTCCCGTT TGTCAGCCGC 
    GAGGATGTGG ACTTTTTTCA GACACTGGAA CAACACATGA GGACCGAAGA CGCGCCCATT 
    GCTGGAAGGG ATCACTTAAT TTATAGGAGT TACTACGTAC CCGTAAAGGG CGTTATTGAT 
    GGGGATTTGT GTGAGAATTA CTCGCTCTTG TCCAGGGATA AGAAGGCCAT GATCGCCGCA 
    GAGTTGGACA GGAGCGTTAG GGAGGTGGAG AGGAAGATTG CTGATATGCG GAGTCGGGTT 
    GCGTATTAG

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

    RefSeq XP_002838477.1
    CDS1..3609
    Translation

    Target ORF information:

    RefSeq Version XM_002838431.1
    Organism Tuber melanosporum Mel28
    Definition Tuber melanosporum Mel28 hypothetical protein (GSTUM_00006250001) mRNA, complete cds.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002838431.1

    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
    ATGTCGGGCA ACTCTAATAT GTTCATGTAC TCGCTGACGG TACTTCAACC ATCGGCCATA 
    ACCCAAGCAA TCCTTGGAGC GTTCAGCGGA AAGAAGCAGC AGGAAATAAT TGTTGCCCAA 
    GGATCTCGGT TATCATTATT ACGACCCGAT GCAGCGCAGG GAAAAGTACA TTCGGTTCTT 
    ACGATTGATG TGTTTGGGAT TATTCGATGT TTGGCGGCAT TCAGATTAGC CGGTAGCTCA 
    AAAGATTATG TGATTGTCGG GTCCGATTCT GGTCGTATTA CTATTCTCGA GTACCAGCCA 
    CAAGTTAATA AGTTCCACCG GCTACATCTC GAGACTTTTG GAAAGTCTGG TGTTCGCCGT 
    GTTATTCCGG GACAATTCCT TGCGTGCGAT CCAAAGGGGA GGGCGTGTCT TATATCTTCG 
    GTAGAGAAGA ATAAACTCGT CTATGTTCTC AATCGCAATG CTCAGGCGGA ACTGACGATA 
    TCCAGTCCTT TAGAGGCACA CAAACCCCAT TGTCTTGTGT TTGCACTTGT AGCCCTGGAC 
    GTCGGATATG ATAATCCGGT GTTTGCAGCA CTCGAAGTTG ATTACGGGGA GTCAGATCAG 
    GATGCCACAG GAGTTGCGTA TGAGAACATT GAGAAAATGC TAGTCTACTA CGAGCTGGAT 
    TTAGGGCTCA ATCATGTGGT ACGAAAGTGG TCAGATACTG TGGACCGATC TGCCAATATT 
    CTTTTCCAGG TACCAGGTGG CACAGATGGG CCTTCGGGTG TTTTAGTATG TGCAGAGGAT 
    AGTATATACT ACCGTCATAT GGGGAGATCG ACCCATAGAG TGCCTATACC TAGGCGTCGG 
    GGAGCATGCG AAGACCCTAA TAGAAGAAGA ACTATTATTT CAGGTGTCAT GCATAAGATG 
    AGGGGTGCAT TCTTTTTTCT GTTACAAACA GAAGATGGTG ATTTACTCAA AGTAACATTG 
    GATTATGATG ATGAATCCGG TGTCTCGCGA ATAAAGGTGA AATACTTTGA TACTGTTCCT 
    ATTGCTTCGA GCCTGTGCAT CTTGAAGAGC GGGTTCTTGT TTGTGGCCTC GGAAGGAGGC 
    AACCATCATT TTTACCAATT CGAAAAGCTG GGGGACGATG ATGAGGAGAT TGAGTTCTCA 
    AGTGATAATT TCTCACCGGA TCCACTGGAT AGAACTGTAC CTATATATTT CCACCCACGC 
    GCACCAGAGA ACTTATCCCT CGTCGAGGCC ATCGATAGCA TGAATCCTTT GGTCGACTGC 
    AAAATTGCCA ATTTGACTGA CGATGATGCG CCCCAAATAT ATACTGTTTG TGGGTCTGGC 
    CCACGATCTA CTTTCCGGAC CTTGAAGCAT GGCCTTGAAA CTACAGAGAT TGTCTCATCC 
    GAACTACCTG GTGTGCCTAG CGCTGTGTGG ACCACAAAAC TTACAAACGG CGACGAGTTC 
    GATGCCTACA TTGTCTTATC ATTCACCAAT GGGACACTGG TGCTCAGTAT CGGGGAGACA 
    GTGGAGGAGG TTACCGACAC TGGCTTCTTA TCATCCGCTC CAACACTCGC AGTTCAACAG 
    TTGGGCGAGG ATGCGTTACT CCAAGTCCAC CCCAAGGGAA TTCGCCACAT TAGGGCAGAT 
    AGGAGAGTCA ATGAATGGCC AGCACCTCAG CATAGATCAA TTGTCGCGGC TTCTACAAAC 
    TCCCGACAAG TTGCTGTGGC TCTATCTAGC GGAGAGATCG TGTATTTCGA GATGGACAGT 
    GATGGACAGC TGGCAGAGTA TGAGGAGAAG AAAGAGATGT CGGGGACAGT CACCTGTCTC 
    TCACTCGGGG AGGTTCCAGA GGGGAGGGTG CGGAGTTCCT TTTTGGCGGT TGGCTGTGAT 
    GATGCCACCG TTCGAATACT CTCACTAGAT CCTGATTCCA CTTTGGAATC AAAATCTGTT 
    CAAGCCCTTA CCTCTGCACC TTCGTCGTTA TGCATCATGT CTATGCCTGA CTCTGCGTCG 
    GAAACATCAC GTTCCTTAAC ACTTTATCTG CACATTGGTC TTTATAGTGG TGTATATCTC 
    AGAACAGTAC TCGATACAGT AACTGGAGAA TTGACAGATA CTCGAACAAG GTTTTTGGGG 
    CCCAAGCCAG TCAAGATATT CAAAGTTATT GCGCAGGGGC TACCGTCAGT CCTCGCCCTG 
    AGCAGTCGAC CATGGCTGGG ATATAGTGAT GCAAGAGGTC AATTCATGCT TACACCTTTG 
    ACGTATCCCA TGCTAGAATG GGGTTGGACA TTCAGCAGTG AGCAGTGCCC GGAGGGAATG 
    GTAGGAATTC AAGGGCAGAA TCTGAGAATT TTTACCATCG AGAAGCTCAC AGACAATCTC 
    CAACAAGAGT CCATCCCACT ATCATACACC CCCCGAAAAA TGCTCAAGCA TCCTGATCAA 
    CCTGTATTCT ATGTTGCTGA GGCAGACGCC AACACGCTCT CCGTCGCTAC TAAACAAAAG 
    CTAATGAACA GCGCCCAAAA CGGTGACACT AACGAGCTCG CCCCGGCAGA GTTCGGGAAC 
    CCGCGTGGCG AAGGCCACTG GGCATCCTGC ATCTCTGTTG TGGACCCCAT CAGCAAAGAG 
    GTGACCCAGC GGATCGAACT CGAAGAGAAC GAAGCTGCCT TCAGCATTGC GGCAGTCAGC 
    TTCTCCAGCC AAGATGACGA ATGGTTTCTA GTAGTCGGTA CAGGAAAAGA CACCTGCCTC 
    TCTCCGCGCA AGTCTGCAAA TGGCTATATT CACATCTACC GCTTCTTAAA TGACGGTAAG 
    GAGCTAGAAT TTATACATAA AACAAAAGTA GACGAACCTC CTCTCGCCCT CCTAGGATTC 
    CAAGGCCGGC TGCTAGCGGG CATAGGCAAA GATTTAAAAA TCTACGATTT AGGGATGAAG 
    CAACTCCTGC GCAAAGCTCA AGGCCAGGTT GCTCCGAACG TCATCAATGG TCTCCAGACA 
    CAGGGATCGA GAATCATAGT CTCGGATGTG CAGGAATCGG TGACTTACGT GGTATACAAG 
    TACCAGGACA ACCGTCTAAT CCCATTTGCA GACGACATGA TCCCGCGCTT CACCACGTGC 
    ACCACAATGG TAGACTACGA GACAGTTGCT GGTGGTGACA GATTTGGTAA CTTCTGGATC 
    GTCCGCTGTC CACAAAAGGC CTCCGACGAA TCCGACGAAG ACCCCGCCGG TGGACACCTC 
    ATTCACGAAC GATCATACCT CCAGGGCGCC CCCAACCGTC TAAACCTAAT GTGCCACTTC 
    TACCCCCAGG ACATCCCAAC CAGCGTTCAG AAGGCACAGT TGGTGACCGG CGGCCGCGAC 
    ACACTTGTCT GGACTGGCCT CCAGGGAACA ATCGGCCTGA TGGTCCCGTT TGTCAGCCGC 
    GAGGATGTGG ACTTTTTTCA GACACTGGAA CAACACATGA GGACCGAAGA CGCGCCCATT 
    GCTGGAAGGG ATCACTTAAT TTATAGGAGT TACTACGTAC CCGTAAAGGG CGTTATTGAT 
    GGGGATTTGT GTGAGAATTA CTCGCTCTTG TCCAGGGATA AGAAGGCCAT GATCGCCGCA 
    GAGTTGGACA GGAGCGTTAG GGAGGTGGAG AGGAAGATTG CTGATATGCG GAGTCGGGTT 
    GCGTATTAG

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

  • PubMed

    Périgord black truffle genome uncovers evolutionary origins and mechanisms of symbiosis.
    Nature464(7291)1033-8(2010 Apr)
    Martin F,Kohler A,Murat C,Balestrini R,Coutinho PM,Jaillon O,Montanini B,Morin E,Noel B,Percudani R,Porcel B,Rubini A,Amicucci A,Amselem J,Anthouard V,Arcioni S,Artiguenave F,Aury JM,Ballario P,Bolchi A,Brenna A,Brun A,Buée M,Cantarel B,Chevalier G,Couloux A,Da Silva C,Denoeud F,Duplessis S,Ghignone S,Hilselberger B,Iotti M,Marçais B,Mello A,Miranda M,Pacioni G,Quesneville H,Riccioni C,Ruotolo R,Splivallo R,Stocchi V,Tisserant E,Viscomi AR,Zambonelli A,Zampieri E,Henrissat B,Lebrun MH,Paolocci F,Bonfante P,Ottonello S,Wincker P


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