| Gene Symbol | CNBG3650 |
| Entrez Gene ID | 4937401 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Cryptococcus neoformans var. neoformans B-3501A |
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CNBG3650 cDNA ORF clone, Cryptococcus neoformans var. neoformans B-3501A
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Gene
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Clones
gRNAs
The following CNBG3650 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CNBG3650 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 OCo04082 Clone ID Related Accession (Same CDS sequence) XM_769291.1 Accession Version XM_769291.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3333bp)
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_009183). 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
3301ATGTCGGGTA CTCTGGACAA CCACACCCGC ACTAGCGGAA CCGCCCCCAC CTCTCTCCAT
CTCTCAGACT CCGTTGCCGC CAGAGACACC ATGGCGGCCC CCACGCTCCC AGCCATCCCG
CCCATATCTC CCCTCCCGCC GCCCTCGCCC TCCTCCTCCT TCTCCGGCCT CCACCGCCCG
TCTTCCGCCC TTGCTGCGAT CGCATACGCC AGCCCGTCAG GCAGTCTCAC CACAGACCGC
AGCTACCAGC GTCCTTTGGC TCATTCCCTC ACCGTCCACA TTCCGGCGCC CCTTACTCCC
TCCCCGTCGG ACATTGATCT GCCCCCGTCT CCCATGGAGT CTCATGTTGA GCCGACCTCT
TCATCCGTTC CTGTCCGTAC CCAGTCACAG TCGCAACCCT CTCCCCCGCC ATCTTCAAGC
TGGCCGCCTC TCAACGTGCT TCGAACTGAA CCACCTGCTT CGTCACAGCC TATGCAACTT
CCCGCACAGC ATCAGCAGGT GCCGCCGACG TTCTATCATA AACATCAGCA AAATAAGTCT
GCATCTAGCT TACCCGTCAT TCCGGGAATA AGCGATGCAG GACCTTATCC GTCTTCCAAT
TCTATTCGCC AGCCTCAAGG CCCTCCCAAA CCTCAGGTCC AGCAGCCTAA ACCAAATCTC
GGTTTGGGCC GCCCAACCGC CCCGCCAAAT GGTGCAGGGT CAAGTCGAAA TCTTCAGGAA
GAGGTTTGTT TGGAATGTAT GATGCGAGAC CGGGATCTGG CAGACGTCGA TGTACAGGGT
GAAGACGTAT GGGATCGCGA AAGTGATGCT GGGTTCATAG AGTTGGTACG GCGTGAAGAA
GGCCTCTTAA GGTCTATGGG CAGCTTGGAT TCTGCCGAGA CCTCTGCAGC CCATGGAAAG
TTTAGGAGTG TTATTGACAT GGATGACACT TCGTCATCTG ATGAATGCTC ACAAAACGCG
GGCAGCGATG GGCCGGAAAC GAGGAGACAT AGGGAGGAAG AGAGACATAG GAAGCAGGCA
GTGAAAGCAA GGCACAAGGA AGCAGACTGG AGAGTTAGCA AAGAGGTTGG ATGGAGAGGT
TTCTCATGGG AGGAAGGGCA AGGTGGAGAA GGGTTGCCTG CTGGCTTCAG AGGAGGAAAG
GGAGGACCTT TAACAGAGGA AGGTATAAAG TCAATTATGG CTAAATTCCC TTCTGCCTCA
GCCCATAGAT ATCAAAAGTT GCAAGACTTT CTTCGAAACC AGTGGCTACT TGTGCTTGAG
ATTCGCGCCG AAGCTCAACG TCTAGGGCAT TTTGCTTTCC CCGATGATCT TTCATGCGAT
TCTTCTCTTT CGAGCCACGA AGCCAGGTTT CCTACAGGGG CCACGTCCTC AGCTTCTTAT
AGTTATCGCC GCCCACTTCT CCCCGAACAA ACTGGCGGCC TTCGACAAAG TCCATCATCA
CCAGCCAATC TTCTTGCTTC TCCTGTCGCG CCCATTGCAA CTTCTAGATC TAATCCACAG
AGACCTATGA CACAATATCT CCCTCGGCGT GAACCTGCCA GGGAATTTCG TACTCCCAGA
GGTTACGATT CAAGCAGTGT AGGCAAGAGG GGCCACTCAA AGAATACAAG TTCGACGAGC
GCGCTCGAGC CATTGACTAT CAATACCAAT GTCAAAGGTA CCGGTGACGA TGGGAGGAGG
ATTGACGATG ATGATCTTTG GACTCCGGAT CAACCTCAAG GTCTCCGGCC ATTCTCATTC
GCCGTTAGAG CCGGTGCCGC TGCCGCGAGG GAGGGAAGTG AGGGGCATGG CAGCGTACGT
GATGGATCCG GGCAGAGGAA AAGTCTATGG GGCCGATGGG GTGGAAGCGT TACGAGTTTC
TTTGGTGGAA GTCAGGGTGG AAGCGGCAGC ATGGTTGACA TGCACCTTGG TCTTGATAAC
GAGCGACGTA GCAGGGCTAT ATCACAGGTT TATCCTCGAG CAATTTCCCT TGCTTCTCCG
ACTAGACCTT CCTTCTTCAG TCGAGACTCT CGAGGGTCAT CTGTTTTAGA CCACGAGCCT
CGCATGTCTC GGGTTATCAG CCAGTCACGC TTGTCACAAG TCCATACTGG CGGCGAAGGC
GATATGGAAG ATGATGGGAA GGCGGAGAAG AAGAAGGGTA TCAAGGGATT CTTCAAAAAG
ATGAAGCCGA AAGGATCAAG GAAAAACTCC AAGGCGGAGT CTCCTAATTT GTCCAATTAC
CGCCAGTCTT CAAGTACCCA AGAATACAAC CCTAGACCCT CCGCATCATC CGTACCCTCC
GCGCCCGAGA CACCTCTTGC CCTCCCGCCT CCGATTTCTG TCCTTGTCCG AGGTGGTGAC
CGCGGACACG CTCGAACCGG CAGTGGTTCG TCCAGCTCAA TGTTGACCGA TGGTCAAGAA
TCAGTTAGTA ATCGACTTTC CGGCTCTCAT CTCTATGGCT CTCGGTCGGT CTCCGCTCCA
TTTGGCAACA CTTCCACTTC CGATGTGAGC ATGGGTCAGT CCGCAAGCCC TGGGAGCTCA
AAGTTTGCCA CTACTACAAG CGCCGCGAAA CGTGAAAGCT ATGCGTCTGG TGGAAATCGG
AGGAGCACCA CTATCGGGGA GATGGGAGAG GACAGGCGAA GCGTCGTCGA GATCCTTTCT
AATGCTAATG GTGCAAATGG TGATAGACTG ATGTGCGACG AGCCTATGCC TGTGCGTCCC
TGTGCAGCTC GACCTCATAA CAAGACTAGC ACTTCTCTCT CAGCATCTAG CCAGACTATG
CTCGAGACTC CGCCCCCCAT CAATTATAGT AACGCCAACG CATTCTTCAA CCATCAACAA
CATATTAGAT CTAGTAGTAT TGACACTGGC GGCTCTCTTT CTCCCAACAG GTACAAGAAC
CTTCCCCCGC TACCACCTCC GGGATCGAAT GACAACTTGC ATATCGTCCA TCCTAAAGGG
TCCACTGCTT CCCCAGACTC CTTCTCGGCT GTTTTCCCAG ACCAAGAATT GTCTCAAAAC
AAGGCTTCGT TCTACAGTTA CCCGCAGCCC CAACCTGTAG CTCAACCAAG CTACCGGCAG
TACCCCCAGC GTTTCCATCA ACAGCAGCAT TTTCAGCCCA CTGTGTCATA TGCCCCGGGC
TACGGTTATG GTGGTCGAGC ATCTCTTGAT CAGAGAGGGT CGAGACCGAG GGTGGAGAAG
CAGAGGGCTG TGCAAACAAT GTACGGCCAT CCAATGATGG GTATGGATGG TATGAACGGT
ATGGGCGGTA CGGCAGAGGT TGGAGAGGTG GAGAAGAAGA AGAAAGGGTT GAAGAGCTTT
TTCGGGGTGA ACAAGGCCGG GAGGATGGCG TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_774384.1 CDS 1..3333 Translation 
Target ORF information:
RefSeq Version XM_769291.1 Organism Cryptococcus neoformans var. neoformans B-3501A Definition Cryptococcus neoformans var. neoformans B-3501A hypothetical protein (CNBG3650) partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_769291.1
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
3301ATGTCGGGTA CTCTGGACAA CCACACCCGC ACTAGCGGAA CCGCCCCCAC CTCTCTCCAT
CTCTCAGACT CCGTTGCCGC CAGAGACACC ATGGCGGCCC CCACGCTCCC AGCCATCCCG
CCCATATCTC CCCTCCCGCC GCCCTCGCCC TCCTCCTCCT TCTCCGGCCT CCACCGCCCG
TCTTCCGCCC TTGCTGCGAT CGCATACGCC AGCCCGTCAG GCAGTCTCAC CACAGACCGC
AGCTACCAGC GTCCTTTGGC TCATTCCCTC ACCGTCCACA TTCCGGCGCC CCTTACTCCC
TCCCCGTCGG ACATTGATCT GCCCCCGTCT CCCATGGAGT CTCATGTTGA GCCGACCTCT
TCATCCGTTC CTGTCCGTAC CCAGTCACAG TCGCAACCCT CTCCCCCGCC ATCTTCAAGC
TGGCCGCCTC TCAACGTGCT TCGAACTGAA CCACCTGCTT CGTCACAGCC TATGCAACTT
CCCGCACAGC ATCAGCAGGT GCCGCCGACG TTCTATCATA AACATCAGCA AAATAAGTCT
GCATCTAGCT TACCCGTCAT TCCGGGAATA AGCGATGCAG GACCTTATCC GTCTTCCAAT
TCTATTCGCC AGCCTCAAGG CCCTCCCAAA CCTCAGGTCC AGCAGCCTAA ACCAAATCTC
GGTTTGGGCC GCCCAACCGC CCCGCCAAAT GGTGCAGGGT CAAGTCGAAA TCTTCAGGAA
GAGGTTTGTT TGGAATGTAT GATGCGAGAC CGGGATCTGG CAGACGTCGA TGTACAGGGT
GAAGACGTAT GGGATCGCGA AAGTGATGCT GGGTTCATAG AGTTGGTACG GCGTGAAGAA
GGCCTCTTAA GGTCTATGGG CAGCTTGGAT TCTGCCGAGA CCTCTGCAGC CCATGGAAAG
TTTAGGAGTG TTATTGACAT GGATGACACT TCGTCATCTG ATGAATGCTC ACAAAACGCG
GGCAGCGATG GGCCGGAAAC GAGGAGACAT AGGGAGGAAG AGAGACATAG GAAGCAGGCA
GTGAAAGCAA GGCACAAGGA AGCAGACTGG AGAGTTAGCA AAGAGGTTGG ATGGAGAGGT
TTCTCATGGG AGGAAGGGCA AGGTGGAGAA GGGTTGCCTG CTGGCTTCAG AGGAGGAAAG
GGAGGACCTT TAACAGAGGA AGGTATAAAG TCAATTATGG CTAAATTCCC TTCTGCCTCA
GCCCATAGAT ATCAAAAGTT GCAAGACTTT CTTCGAAACC AGTGGCTACT TGTGCTTGAG
ATTCGCGCCG AAGCTCAACG TCTAGGGCAT TTTGCTTTCC CCGATGATCT TTCATGCGAT
TCTTCTCTTT CGAGCCACGA AGCCAGGTTT CCTACAGGGG CCACGTCCTC AGCTTCTTAT
AGTTATCGCC GCCCACTTCT CCCCGAACAA ACTGGCGGCC TTCGACAAAG TCCATCATCA
CCAGCCAATC TTCTTGCTTC TCCTGTCGCG CCCATTGCAA CTTCTAGATC TAATCCACAG
AGACCTATGA CACAATATCT CCCTCGGCGT GAACCTGCCA GGGAATTTCG TACTCCCAGA
GGTTACGATT CAAGCAGTGT AGGCAAGAGG GGCCACTCAA AGAATACAAG TTCGACGAGC
GCGCTCGAGC CATTGACTAT CAATACCAAT GTCAAAGGTA CCGGTGACGA TGGGAGGAGG
ATTGACGATG ATGATCTTTG GACTCCGGAT CAACCTCAAG GTCTCCGGCC ATTCTCATTC
GCCGTTAGAG CCGGTGCCGC TGCCGCGAGG GAGGGAAGTG AGGGGCATGG CAGCGTACGT
GATGGATCCG GGCAGAGGAA AAGTCTATGG GGCCGATGGG GTGGAAGCGT TACGAGTTTC
TTTGGTGGAA GTCAGGGTGG AAGCGGCAGC ATGGTTGACA TGCACCTTGG TCTTGATAAC
GAGCGACGTA GCAGGGCTAT ATCACAGGTT TATCCTCGAG CAATTTCCCT TGCTTCTCCG
ACTAGACCTT CCTTCTTCAG TCGAGACTCT CGAGGGTCAT CTGTTTTAGA CCACGAGCCT
CGCATGTCTC GGGTTATCAG CCAGTCACGC TTGTCACAAG TCCATACTGG CGGCGAAGGC
GATATGGAAG ATGATGGGAA GGCGGAGAAG AAGAAGGGTA TCAAGGGATT CTTCAAAAAG
ATGAAGCCGA AAGGATCAAG GAAAAACTCC AAGGCGGAGT CTCCTAATTT GTCCAATTAC
CGCCAGTCTT CAAGTACCCA AGAATACAAC CCTAGACCCT CCGCATCATC CGTACCCTCC
GCGCCCGAGA CACCTCTTGC CCTCCCGCCT CCGATTTCTG TCCTTGTCCG AGGTGGTGAC
CGCGGACACG CTCGAACCGG CAGTGGTTCG TCCAGCTCAA TGTTGACCGA TGGTCAAGAA
TCAGTTAGTA ATCGACTTTC CGGCTCTCAT CTCTATGGCT CTCGGTCGGT CTCCGCTCCA
TTTGGCAACA CTTCCACTTC CGATGTGAGC ATGGGTCAGT CCGCAAGCCC TGGGAGCTCA
AAGTTTGCCA CTACTACAAG CGCCGCGAAA CGTGAAAGCT ATGCGTCTGG TGGAAATCGG
AGGAGCACCA CTATCGGGGA GATGGGAGAG GACAGGCGAA GCGTCGTCGA GATCCTTTCT
AATGCTAATG GTGCAAATGG TGATAGACTG ATGTGCGACG AGCCTATGCC TGTGCGTCCC
TGTGCAGCTC GACCTCATAA CAAGACTAGC ACTTCTCTCT CAGCATCTAG CCAGACTATG
CTCGAGACTC CGCCCCCCAT CAATTATAGT AACGCCAACG CATTCTTCAA CCATCAACAA
CATATTAGAT CTAGTAGTAT TGACACTGGC GGCTCTCTTT CTCCCAACAG GTACAAGAAC
CTTCCCCCGC TACCACCTCC GGGATCGAAT GACAACTTGC ATATCGTCCA TCCTAAAGGG
TCCACTGCTT CCCCAGACTC CTTCTCGGCT GTTTTCCCAG ACCAAGAATT GTCTCAAAAC
AAGGCTTCGT TCTACAGTTA CCCGCAGCCC CAACCTGTAG CTCAACCAAG CTACCGGCAG
TACCCCCAGC GTTTCCATCA ACAGCAGCAT TTTCAGCCCA CTGTGTCATA TGCCCCGGGC
TACGGTTATG GTGGTCGAGC ATCTCTTGAT CAGAGAGGGT CGAGACCGAG GGTGGAGAAG
CAGAGGGCTG TGCAAACAAT GTACGGCCAT CCAATGATGG GTATGGATGG TATGAACGGT
ATGGGCGGTA CGGCAGAGGT TGGAGAGGTG GAGAAGAAGA AGAAAGGGTT GAAGAGCTTT
TTCGGGGTGA ACAAGGCCGG GAGGATGGCG TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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