| Gene Symbol | CNBD2060 |
| Entrez Gene ID | 4935595 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Cryptococcus neoformans var. neoformans B-3501A |
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CNBD2060 cDNA ORF clone, Cryptococcus neoformans var. neoformans B-3501A
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Gene
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Clones
gRNAs
The following CNBD2060 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CNBD2060 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.
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Reference Sequences (Refseq)
CloneID OCo02305 Clone ID Related Accession (Same CDS sequence) XM_771066.1 Accession Version XM_771066.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1205942400000 Organism Cryptococcus neoformans var. neoformans B-3501A 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 (NC_009180). 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
3361ATGGCCTCAA CAGCTCGCGC AAAGAGCGTG AGGAACATCC TCATGGAGCT AAGGAAAGTT
TGCCAACACC CGTATCTATC TGCACCAGAA CTGGAAATAT TCGATTTACC CTTAGAGGAG
CAGCATAGAC AGCTTCTCAA CGCCAGCGGG AAACTCCAGT TTCTGAAATT GCTTCTGCCG
AAGTTGATTG CCAGGGGGCA TAGAATTCTA CTCTTTAGTC AATTCAAAAT GGCACTGGAC
CGGAATTTCC TATATGGCGA AAATGTTAAG CACCTGCGCC TTGACGGGGA TACCCAGCAA
GCACAAAGGC AAAAGTATAT GGACCAATTC AATGCGCCTA ACTCAGATTA TCATATATTT
CTTCTTACAA CAAGAGCTGG GGGCGTGGGG ATCAATTTGG CCTCCGCAGA CACAGTCATT
CTACACGACC CCGATTTCAA TCCTCATCAG GACCAGCAGG CCATTGCGAG AGCGTATAGG
TACGGGCAGG AAAAGAGGGT ACTCGTATTC AAGTTAATGA TCAAAGGAAG CGTGGAAGAA
ACTATCATAA ACAAAGGCAA AAGAAAGATG GTATTGGACC ACCTGGTCGT CCAACAAATG
GGCAAAGAAA CCGAAGAAAA TGATTTCGAG GACTTGTTTC TTAAAGGGGT CGAAGGCATG
TACTCTGGCC AGGGCGGCAT CAACATACCT GATATCAATT ACAACTCTAA GAATGTCGAC
GAACTCATTG ACAGGGTTGA AGCTGACGCT GAGGCAGAAG CCAAGGCCAT GGCAGAACGT
GAGAGACAGG ATAAGAATGG AGTAGTCAAG CAGATGAAGT CAAAGCAAGG TGTTCCATTC
CAATTCTCAA GGATTTGGGA GGCTGATAAA AACGAGTTGA TCCATGATGA GGTGCAGGAC
ACCGTGAAAG ATGAAGAAGA AGAGGAGGAT GTGGACTGGG AACAACTGAT GGTGGCCGTT
CAAGCTGAGC GTCAACTACG ACTTCAGAAG GAGATGGAAG AGAGCAGAAT TAGGAGAAAG
CTGAAGTCAA AGGAAGGAGT CTATAAAATC GACGATGATT TCGAAGTTGA CGAAAAGAAA
AGAAGAAAGA ATAAGGGGAA AGGCAAGGGG GTTGAACTGT CATCTTCAGA CGCAGAGTAT
ATGGATGGTG GATTGAGCGA CAATGGCTCT GCAACTGATA TACCTGACAT AGACCTGGAA
ACTTTGAAAG ACGACTTATC GATTGACCCC ATAGTCGCAA AGTCGTCAGG TGGAGTCAAA
AGGAAAAGGT CCAAAAAGAT CCTTGATAAT GTCTTCAATC AATCCACGGC ACCACATGTT
TGCCCCCGAA GTTCGCTTTC TCACGTTAGT ACCAGTGAAA CTCCTCCTGG AAGCTTAACG
ACTTATCCCG CTCAACCCGG ACTTTCTTTA ATCGAACCAC GGCAAAATAA CACAGCGCAA
TACTCAAGTC TATCCAAGAC AGGGCTTTCT GGATCAATGC TGTCCGCTAA TGCGCCTGAA
GAAGCGAACG ACACTTTTTC TTCTTCAAAA AAGAGAAACC CAGTTGACTT TGCTCAAGCA
AGGCAGACGC ATCCTCCAAT TCATAGTGTC AGACCCCCTA TCGAGATCAT TGCTGCTCAA
AATATCGTCC AATGGCTTTT TCTGATAATC CGGGAGCTTG CTTGGGGTCA TCACATAGGG
CACTGGGCTA CATTGGGCGT ACGCGAAATA CCCGCGGAAA AGAGAAAAAG GCTCTATTGT
ATCATCGCGG CGGATGTCGA CGGTTATCTT CGTCGCTTCC GACAAACCCC GTATTTTCTG
GAGCGAGAGC AACGTGAGGC TGTTGAGAGA TTACTGGATA GTGGGTGGCC CATCATACCT
GACATTTCTG CTCTGATAGC AGTGCCAGAA AAGGCGGCTG TTCTCATTGA TCCGCCATTT
CCAGTCAGTG GCTCGGGGCA TAGAGAAAGC ACATATGCCT CCATGCCTCC TGCACCTCCA
AAGTATGTGT CAGAGACTTC GGAAATCTTG CGTGGAGCTA CAGCGCCTGA GATTTCTGAG
AATGATGGAA ATACTGGTGA TGCTGCCAAA ACATCTTCGA ATTCTGTGAC CTCTCAAGGT
ACTGTATCTA TGCCTCCTGC ACCTCCAAAG TATGTGCCAG AGGCTCAGGC AATCCTGCCC
GATGCTACGC CTCCTGAGAC CCCGGAGAAC AATGAAAATA CTGGTGGTGC TGCCAAATCG
CTTTTGAGCT ATGAAACCTC TCGAGATACC GTATCTTTAC CCGATATTAG AGGACCAGGA
GCTGCCGTGC TCCCTTCCTC TTTCAAAGAG AAGGAAGATA TTCAGAACAG GTCTGATACA
ACGAGCGCTG GGGGCCACAG CATCCCACTG GCTCCACAAA TTCTCGAGCA GACCCTGCAT
TCCCCTGTCC AAATGCCAAC GCTCGTTGCT TCAACTCCAT CTCTGTCTAC TGAAATAGCA
CCTGTCGAAA TCTCTCAATC TGCACATATA TCAAATGGGT CCCCTAGTGT ATCACGTCAG
CCCGGGCATG TGACTCCGAC GCATTCCACT GGTTCTTCTC TCCCTGAATT GAATCTTCAA
ACCAATGGCG TAAATGATAT TCACAAAAGC AGTGAAGCAG CCTCTGCCTC AGAACCTGCA
CCACTGGCCC ATACCTCTGA ACCTGCATTG ATTCAGTCAT CTCTGAAAAT TCCGTCTGGA
TTGCCTATCC AATTATCGTC ATCACAAGCC GTCAAGGGGA CACTTCCCTC GTCTTCACGA
CAATCCTCCG AGATTATCGT CGCTGACAGC AGCGGTGAGC CTGGCCGCTG TGAATACTGC
CTTGAGGATG GCCACAGGTT ACAGGACTGT CAGCGGATGT ATAGCGTAGA AATTCTAGAA
AAAGCTTTTC TTGCAATTAA GCAATCGAAT TTATCGGAGG GACAAAAGCG TAGGGATCTT
GAGACACTTG ACAGATTGAA GAGCTTCATG ATAAAAGCCG GAAAATTACA AAAGGACTAT
CATTTTCCTG AATCAAGTTT CGTTGCTGTC ATGAGTAACA GATCTCCCTC TTCCAATGCC
TGTCACTCAA GTGTGCCCGA GCCTGGTGCT CAAGGTCAGC TAACAATTGA TAAGGACACT
CGAAATGAGG GTAAACGCGA CATATCTGCG TCTGAAAGAC CTCTCCGTGC TTGCATCCAG
GCCACCGGCG ATAGAAAATC CCTGAAAAGG AAAATCAGGA AGCTGAAGGA AAAAATTGAT
GGGTTAACAA AAGCCCCGGG GGAGCCTCAA ACCGATAAGC AGCAGATGGA AAGGATAATG
TTGAGAAAGA TGCAGTCATC ACTTTTTGAT TGCTACAAAA AATGGCCTAA AGAACGGCCG
TCAGATCTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_776159.1 CDS 1..3372 Translation 
Target ORF information:
RefSeq Version XM_771066.1 Organism Cryptococcus neoformans var. neoformans B-3501A Definition Cryptococcus neoformans var. neoformans B-3501A hypothetical protein (CNBD2060) partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_771066.1
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
3361ATGGCCTCAA CAGCTCGCGC AAAGAGCGTG AGGAACATCC TCATGGAGCT AAGGAAAGTT
TGCCAACACC CGTATCTATC TGCACCAGAA CTGGAAATAT TCGATTTACC CTTAGAGGAG
CAGCATAGAC AGCTTCTCAA CGCCAGCGGG AAACTCCAGT TTCTGAAATT GCTTCTGCCG
AAGTTGATTG CCAGGGGGCA TAGAATTCTA CTCTTTAGTC AATTCAAAAT GGCACTGGAC
CGGAATTTCC TATATGGCGA AAATGTTAAG CACCTGCGCC TTGACGGGGA TACCCAGCAA
GCACAAAGGC AAAAGTATAT GGACCAATTC AATGCGCCTA ACTCAGATTA TCATATATTT
CTTCTTACAA CAAGAGCTGG GGGCGTGGGG ATCAATTTGG CCTCCGCAGA CACAGTCATT
CTACACGACC CCGATTTCAA TCCTCATCAG GACCAGCAGG CCATTGCGAG AGCGTATAGG
TACGGGCAGG AAAAGAGGGT ACTCGTATTC AAGTTAATGA TCAAAGGAAG CGTGGAAGAA
ACTATCATAA ACAAAGGCAA AAGAAAGATG GTATTGGACC ACCTGGTCGT CCAACAAATG
GGCAAAGAAA CCGAAGAAAA TGATTTCGAG GACTTGTTTC TTAAAGGGGT CGAAGGCATG
TACTCTGGCC AGGGCGGCAT CAACATACCT GATATCAATT ACAACTCTAA GAATGTCGAC
GAACTCATTG ACAGGGTTGA AGCTGACGCT GAGGCAGAAG CCAAGGCCAT GGCAGAACGT
GAGAGACAGG ATAAGAATGG AGTAGTCAAG CAGATGAAGT CAAAGCAAGG TGTTCCATTC
CAATTCTCAA GGATTTGGGA GGCTGATAAA AACGAGTTGA TCCATGATGA GGTGCAGGAC
ACCGTGAAAG ATGAAGAAGA AGAGGAGGAT GTGGACTGGG AACAACTGAT GGTGGCCGTT
CAAGCTGAGC GTCAACTACG ACTTCAGAAG GAGATGGAAG AGAGCAGAAT TAGGAGAAAG
CTGAAGTCAA AGGAAGGAGT CTATAAAATC GACGATGATT TCGAAGTTGA CGAAAAGAAA
AGAAGAAAGA ATAAGGGGAA AGGCAAGGGG GTTGAACTGT CATCTTCAGA CGCAGAGTAT
ATGGATGGTG GATTGAGCGA CAATGGCTCT GCAACTGATA TACCTGACAT AGACCTGGAA
ACTTTGAAAG ACGACTTATC GATTGACCCC ATAGTCGCAA AGTCGTCAGG TGGAGTCAAA
AGGAAAAGGT CCAAAAAGAT CCTTGATAAT GTCTTCAATC AATCCACGGC ACCACATGTT
TGCCCCCGAA GTTCGCTTTC TCACGTTAGT ACCAGTGAAA CTCCTCCTGG AAGCTTAACG
ACTTATCCCG CTCAACCCGG ACTTTCTTTA ATCGAACCAC GGCAAAATAA CACAGCGCAA
TACTCAAGTC TATCCAAGAC AGGGCTTTCT GGATCAATGC TGTCCGCTAA TGCGCCTGAA
GAAGCGAACG ACACTTTTTC TTCTTCAAAA AAGAGAAACC CAGTTGACTT TGCTCAAGCA
AGGCAGACGC ATCCTCCAAT TCATAGTGTC AGACCCCCTA TCGAGATCAT TGCTGCTCAA
AATATCGTCC AATGGCTTTT TCTGATAATC CGGGAGCTTG CTTGGGGTCA TCACATAGGG
CACTGGGCTA CATTGGGCGT ACGCGAAATA CCCGCGGAAA AGAGAAAAAG GCTCTATTGT
ATCATCGCGG CGGATGTCGA CGGTTATCTT CGTCGCTTCC GACAAACCCC GTATTTTCTG
GAGCGAGAGC AACGTGAGGC TGTTGAGAGA TTACTGGATA GTGGGTGGCC CATCATACCT
GACATTTCTG CTCTGATAGC AGTGCCAGAA AAGGCGGCTG TTCTCATTGA TCCGCCATTT
CCAGTCAGTG GCTCGGGGCA TAGAGAAAGC ACATATGCCT CCATGCCTCC TGCACCTCCA
AAGTATGTGT CAGAGACTTC GGAAATCTTG CGTGGAGCTA CAGCGCCTGA GATTTCTGAG
AATGATGGAA ATACTGGTGA TGCTGCCAAA ACATCTTCGA ATTCTGTGAC CTCTCAAGGT
ACTGTATCTA TGCCTCCTGC ACCTCCAAAG TATGTGCCAG AGGCTCAGGC AATCCTGCCC
GATGCTACGC CTCCTGAGAC CCCGGAGAAC AATGAAAATA CTGGTGGTGC TGCCAAATCG
CTTTTGAGCT ATGAAACCTC TCGAGATACC GTATCTTTAC CCGATATTAG AGGACCAGGA
GCTGCCGTGC TCCCTTCCTC TTTCAAAGAG AAGGAAGATA TTCAGAACAG GTCTGATACA
ACGAGCGCTG GGGGCCACAG CATCCCACTG GCTCCACAAA TTCTCGAGCA GACCCTGCAT
TCCCCTGTCC AAATGCCAAC GCTCGTTGCT TCAACTCCAT CTCTGTCTAC TGAAATAGCA
CCTGTCGAAA TCTCTCAATC TGCACATATA TCAAATGGGT CCCCTAGTGT ATCACGTCAG
CCCGGGCATG TGACTCCGAC GCATTCCACT GGTTCTTCTC TCCCTGAATT GAATCTTCAA
ACCAATGGCG TAAATGATAT TCACAAAAGC AGTGAAGCAG CCTCTGCCTC AGAACCTGCA
CCACTGGCCC ATACCTCTGA ACCTGCATTG ATTCAGTCAT CTCTGAAAAT TCCGTCTGGA
TTGCCTATCC AATTATCGTC ATCACAAGCC GTCAAGGGGA CACTTCCCTC GTCTTCACGA
CAATCCTCCG AGATTATCGT CGCTGACAGC AGCGGTGAGC CTGGCCGCTG TGAATACTGC
CTTGAGGATG GCCACAGGTT ACAGGACTGT CAGCGGATGT ATAGCGTAGA AATTCTAGAA
AAAGCTTTTC TTGCAATTAA GCAATCGAAT TTATCGGAGG GACAAAAGCG TAGGGATCTT
GAGACACTTG ACAGATTGAA GAGCTTCATG ATAAAAGCCG GAAAATTACA AAAGGACTAT
CATTTTCCTG AATCAAGTTT CGTTGCTGTC ATGAGTAACA GATCTCCCTC TTCCAATGCC
TGTCACTCAA GTGTGCCCGA GCCTGGTGCT CAAGGTCAGC TAACAATTGA TAAGGACACT
CGAAATGAGG GTAAACGCGA CATATCTGCG TCTGAAAGAC CTCTCCGTGC TTGCATCCAG
GCCACCGGCG ATAGAAAATC CCTGAAAAGG AAAATCAGGA AGCTGAAGGA AAAAATTGAT
GGGTTAACAA AAGCCCCGGG GGAGCCTCAA ACCGATAAGC AGCAGATGGA AAGGATAATG
TTGAGAAAGA TGCAGTCATC ACTTTTTGAT TGCTACAAAA AATGGCCTAA AGAACGGCCG
TCAGATCTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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