| Gene Symbol | CNBD4420 |
| Entrez Gene ID | 4935831 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Cryptococcus neoformans var. neoformans B-3501A |
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CNBD4420 cDNA ORF clone, Cryptococcus neoformans var. neoformans B-3501A
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Gene
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Clones
gRNAs
The following CNBD4420 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CNBD4420 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 OCo02538 Clone ID Related Accession (Same CDS sequence) XM_770620.1 Accession Version XM_770620.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3510bp)
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
3361
3421
3481ATGGTGGTCA CGGTCATTGC TCCTCACGAT TTACATCGAA ACAGTCCATC CAACGCTGCT
GACGCTTTGA GCTCTGGCTT GTCGCCCATC TCCTTCGACC AGCGGGATCG TGGCCACAAC
ACAGGCTACA AGTTGAGTCC TGAATCCAGT GCTGTAATAT CTTCGCCACC GCAGCCGACC
CACATGTCGC TCCCTAGACG GAGCGATACC TTCCCACCTT CCTTAGAAAG CGACGAATTA
GACCATGCCG GCCCATCGCA CGCTACGTCG AGACCCATAC CGCCACCACC AAACCCAAGG
AGACATCGGT CTGGGATTTT AATGTCGCGT GTAAGAGCAG CGAGTGGATC ATCAATCAAG
ATGAAATCCG CAGTATCGGG AAGCAAGAGC CACGGTGATC TTATGTCAGT GGTCGAAAGG
ATTGACGATG ATCTTGTTGA GGATGACGAA ATGGAAGAGT TGGACGAGGA AGCTGATTTT
GATAAGGATG AATCACTCCG GAGAAGACGG TTACGCGGAA GGAGCAATGA TGGATGGAAG
AGGATAGTTA GCGAAGGCGG CCGACACGAA AGCACAGATG AAGGTGGTGA GGCATCTTTC
TGGGACAATT CCGCACGATA CTATCATCAC CTGCATTCAC ACCCGTCCTC CCGCACTGGC
TCCATCACTG CATCCCCTGA ACCTTCCCCC GTTGCCTCAC ACTCAGCTTC CCCGATTATC
GTTCCACGCA GCTTGTCTTT GCCACAACAC GGCATTGGTC CCCCATTGCA AGGAACTTCG
AAATCTCTAT CTCCAAACCA GCAATTTTTA CAATCACGTC TACCTCCCAC ATTTCCTAAT
TGCCCCAATG GGACGGTTCA AGAAACCAAT TTCCAAGAAC ACTTTTGTCC AGCAGCTATG
GTATTCACTC CCACGACACA AGAGTGGAAG GACTTTCAAG CCATGCCCGA ATGGAAAACA
TTGCATGAGT CGAAAGAAGA AACAAGTTTT AGTGGCGGCA GTAGCGAAGA TGCAGCCCAG
AACCAACATA GTCGGCACGC AAGTCTCGAG AGCGATTCTG ACAAGTTCCT TTCGGCGCGA
CCTGCTCTTC GCTCAACGAT CTCAGCAGAG TATCTGGGCC CCGAAGACTA TCATACTCCT
GATCCCGGTT CTCCATCTGG CAAGAGTGGT GAAATTGATG ATTCTGCCAA ACCATCATTT
AAACCCAACA TCATCTCAGC AAGCCCCATC ATTTATCCCA CAGACAGAAT GGCGAGCTCG
GTGGTACCAT TCGATTTTTC GTCTACAGCT GAAGAGTCGC AACTTCCTGA CGGTCGTATA
ATGAGCCATG GTGCTCTTGG GCTGGAAAAC ACAGCGCCAA CTTTGAGCAG TAATGATCAT
GTCGTACGCA ACTCTGACCA TCCTCCCCCG CCTGTCAGAT GGAACAGTAT TGGCAATCGT
GACTCATTGC GTGCAGTACA TGGACCCGAA GCTCCGACCT TACCGCGTAC TAAAACGAAA
CGTGAACTGG AAAGGGAGAA GCTATTAAAA ATGGTGGACG AAGAATTGGA GGCAGAAAAT
CAACTATCGA AGAACGACGG TTGGGGCGGC GGCGTGCAAC AGATTGGAAA TGGGTTAGGG
TTGGACCACG TGAAGAGTAA CAGTACAGGT AATATACAAT CTGTGAAGCT TGTTGAGGAA
GAGAAAGGAC CAATACCAGA TGTGAGGATT GATCCTGATG CACTGGAGAG ACCGAGTTCG
GCCGATCCTT TGGAGAACAG TAAGCTTGGA ATGCAGCCAC CTAATCCGTT TGACAGCGGA
TTCGGCCAAG CTCAAAGCAA GCTCAACCAA AAGGCTTCTC TTTCCCCCAC TCATCCGTTC
AAGCCCTCGC CGCTCAATGC GGAGCCTATA GTGGCTGAGG ATGCCCATTC TATTCCTTCA
ACGACTTCTG TTACTCCTCA CGATACGACT CCTACAGGTG AAATTCCTCC ACCGATTTTT
CCCGAACCGC CGGCAACGTC TCTTGACAGT ATTCGGGACT ATGCTCGGGG TCTAGCGCCG
CCTGGCTCAC CTAGAACTGG AGACGCAGTA CCGCCCAAGT CACCACGTTC TACCCGTAAA
AGGGATACCA ATCGTGTCAG TCTCGTTGCC GGTAGGGTGG TTCAACCCTT TACTCTTCCG
GCATCGACCT CTCTTCCGGC ATCCTCTAAG CCACCCGAAA GTCCTTCACT TCAGGCATTT
TCCCCTTTTC GTTCACCCGC CCTATCCCGC CCCTCCAGCG CCACGTTACA GCATCATTCA
TTCTCAAGGC TTGATTCTAC TCTCAGCATC GCACCCAGCA CAGGTGTGCC GAGCGAATGC
GGAACCCCTA CAGAGGAGAA GGCCGGAGGA ATGGGAGGAC GTGGGATTGA TGATTATGTT
ATTTTGAAAG AGGCTGGTAA AGGAGCTTAC GGGCTGGTCA TGAGGGCGAA ATTGAAGGGG
CCAAAGGGAG AGCCAGTGGG GGATGAAGTC ATCATTAAAT ACATTATCAA AGCAAGAATC
TTGGCAGATT GTTGGAAAAA ACACAAGGTG CTTGGTCCGA TCCCCGTCGA GATCCACGTC
ATGGATCAGC TTCGCCACCT TCTGTACACT CCACCGAAGC AGATGAATCC ATGGGATCCT
GCTCGTTCTC GGTCTGGAGC TACTAAGCCA GACGGAGCAT CTAGATCCGA CAATGAAGTT
GTCTCAACGC TAGAGACGCC GGGTTCGCCA GGGTCTGGTT CAGAAAATGG CAGACTGTAC
ACTTCAACTC AAAAGCATAT TGCCGAAGAG ATTAAGTCTT CGCCACAGAG GGGTCACCCC
AACATCTGCA AGTTGGTTGA TTTCTTTGAG GATAAAGAAT TTTACTACCT GGTCATGCCC
TGCTTTGGCA ATGGGATGGA CTTGTTTGAC CGTGTGGAGT CACAGCCCTC CGGCCTCGAG
TCCTTCGAGG TCCGTTCGCT TATAGGCCAG CTTAGTGACG CCGTTCAGTT CTTGCACGCC
AATGGCATTG TCCATCGCGA TATCAAGGAT GAGAATGTCG TTCTCGACGG GTCTGGACAT
TGTCAGCTCA TAGATTTTGG TTCTGCCGCA CATTGGAGAC CAGGCAAAAA ATGGGATACC
TTTTCTGGAA CTTTGCACTA CGCTTCGCCA GAGATTTTGC GGGGCGAGAT GTACGGAGGG
AAGGAGCAAG ATATCTGGGC GTTGGGCGTG GTCACTTATG TCCTTCTGGT TGGCGAGACG
CCTTTCTCTG AGCTACCCGA TGAGGTGCTC CACGGTCTTG CGCCCGATAG CAAAGCCTAT
GCTGCGCTGA TGGATAGGTG CGGAGCAGGG CACGAAGAAG AGGGCGAGGA AAGTGATGGC
GGAGGGAAGT TGCGTGATGC TGCAGATTTT GTGATGCGAT GCATGGAGCC GGAAGTGGGA
GACAGACCTA GCGCAGAGGT GCTCTTAGAG CATAGATACC TCAGGGGGAG AGATGGGTGG
GTGGGTAAAA AGGGGTGGAT CAAAGTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_775713.1 CDS 1..3510 Translation 
Target ORF information:
RefSeq Version XM_770620.1 Organism Cryptococcus neoformans var. neoformans B-3501A Definition Cryptococcus neoformans var. neoformans B-3501A hypothetical protein (CNBD4420) partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_770620.1
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
3481ATGGTGGTCA CGGTCATTGC TCCTCACGAT TTACATCGAA ACAGTCCATC CAACGCTGCT
GACGCTTTGA GCTCTGGCTT GTCGCCCATC TCCTTCGACC AGCGGGATCG TGGCCACAAC
ACAGGCTACA AGTTGAGTCC TGAATCCAGT GCTGTAATAT CTTCGCCACC GCAGCCGACC
CACATGTCGC TCCCTAGACG GAGCGATACC TTCCCACCTT CCTTAGAAAG CGACGAATTA
GACCATGCCG GCCCATCGCA CGCTACGTCG AGACCCATAC CGCCACCACC AAACCCAAGG
AGACATCGGT CTGGGATTTT AATGTCGCGT GTAAGAGCAG CGAGTGGATC ATCAATCAAG
ATGAAATCCG CAGTATCGGG AAGCAAGAGC CACGGTGATC TTATGTCAGT GGTCGAAAGG
ATTGACGATG ATCTTGTTGA GGATGACGAA ATGGAAGAGT TGGACGAGGA AGCTGATTTT
GATAAGGATG AATCACTCCG GAGAAGACGG TTACGCGGAA GGAGCAATGA TGGATGGAAG
AGGATAGTTA GCGAAGGCGG CCGACACGAA AGCACAGATG AAGGTGGTGA GGCATCTTTC
TGGGACAATT CCGCACGATA CTATCATCAC CTGCATTCAC ACCCGTCCTC CCGCACTGGC
TCCATCACTG CATCCCCTGA ACCTTCCCCC GTTGCCTCAC ACTCAGCTTC CCCGATTATC
GTTCCACGCA GCTTGTCTTT GCCACAACAC GGCATTGGTC CCCCATTGCA AGGAACTTCG
AAATCTCTAT CTCCAAACCA GCAATTTTTA CAATCACGTC TACCTCCCAC ATTTCCTAAT
TGCCCCAATG GGACGGTTCA AGAAACCAAT TTCCAAGAAC ACTTTTGTCC AGCAGCTATG
GTATTCACTC CCACGACACA AGAGTGGAAG GACTTTCAAG CCATGCCCGA ATGGAAAACA
TTGCATGAGT CGAAAGAAGA AACAAGTTTT AGTGGCGGCA GTAGCGAAGA TGCAGCCCAG
AACCAACATA GTCGGCACGC AAGTCTCGAG AGCGATTCTG ACAAGTTCCT TTCGGCGCGA
CCTGCTCTTC GCTCAACGAT CTCAGCAGAG TATCTGGGCC CCGAAGACTA TCATACTCCT
GATCCCGGTT CTCCATCTGG CAAGAGTGGT GAAATTGATG ATTCTGCCAA ACCATCATTT
AAACCCAACA TCATCTCAGC AAGCCCCATC ATTTATCCCA CAGACAGAAT GGCGAGCTCG
GTGGTACCAT TCGATTTTTC GTCTACAGCT GAAGAGTCGC AACTTCCTGA CGGTCGTATA
ATGAGCCATG GTGCTCTTGG GCTGGAAAAC ACAGCGCCAA CTTTGAGCAG TAATGATCAT
GTCGTACGCA ACTCTGACCA TCCTCCCCCG CCTGTCAGAT GGAACAGTAT TGGCAATCGT
GACTCATTGC GTGCAGTACA TGGACCCGAA GCTCCGACCT TACCGCGTAC TAAAACGAAA
CGTGAACTGG AAAGGGAGAA GCTATTAAAA ATGGTGGACG AAGAATTGGA GGCAGAAAAT
CAACTATCGA AGAACGACGG TTGGGGCGGC GGCGTGCAAC AGATTGGAAA TGGGTTAGGG
TTGGACCACG TGAAGAGTAA CAGTACAGGT AATATACAAT CTGTGAAGCT TGTTGAGGAA
GAGAAAGGAC CAATACCAGA TGTGAGGATT GATCCTGATG CACTGGAGAG ACCGAGTTCG
GCCGATCCTT TGGAGAACAG TAAGCTTGGA ATGCAGCCAC CTAATCCGTT TGACAGCGGA
TTCGGCCAAG CTCAAAGCAA GCTCAACCAA AAGGCTTCTC TTTCCCCCAC TCATCCGTTC
AAGCCCTCGC CGCTCAATGC GGAGCCTATA GTGGCTGAGG ATGCCCATTC TATTCCTTCA
ACGACTTCTG TTACTCCTCA CGATACGACT CCTACAGGTG AAATTCCTCC ACCGATTTTT
CCCGAACCGC CGGCAACGTC TCTTGACAGT ATTCGGGACT ATGCTCGGGG TCTAGCGCCG
CCTGGCTCAC CTAGAACTGG AGACGCAGTA CCGCCCAAGT CACCACGTTC TACCCGTAAA
AGGGATACCA ATCGTGTCAG TCTCGTTGCC GGTAGGGTGG TTCAACCCTT TACTCTTCCG
GCATCGACCT CTCTTCCGGC ATCCTCTAAG CCACCCGAAA GTCCTTCACT TCAGGCATTT
TCCCCTTTTC GTTCACCCGC CCTATCCCGC CCCTCCAGCG CCACGTTACA GCATCATTCA
TTCTCAAGGC TTGATTCTAC TCTCAGCATC GCACCCAGCA CAGGTGTGCC GAGCGAATGC
GGAACCCCTA CAGAGGAGAA GGCCGGAGGA ATGGGAGGAC GTGGGATTGA TGATTATGTT
ATTTTGAAAG AGGCTGGTAA AGGAGCTTAC GGGCTGGTCA TGAGGGCGAA ATTGAAGGGG
CCAAAGGGAG AGCCAGTGGG GGATGAAGTC ATCATTAAAT ACATTATCAA AGCAAGAATC
TTGGCAGATT GTTGGAAAAA ACACAAGGTG CTTGGTCCGA TCCCCGTCGA GATCCACGTC
ATGGATCAGC TTCGCCACCT TCTGTACACT CCACCGAAGC AGATGAATCC ATGGGATCCT
GCTCGTTCTC GGTCTGGAGC TACTAAGCCA GACGGAGCAT CTAGATCCGA CAATGAAGTT
GTCTCAACGC TAGAGACGCC GGGTTCGCCA GGGTCTGGTT CAGAAAATGG CAGACTGTAC
ACTTCAACTC AAAAGCATAT TGCCGAAGAG ATTAAGTCTT CGCCACAGAG GGGTCACCCC
AACATCTGCA AGTTGGTTGA TTTCTTTGAG GATAAAGAAT TTTACTACCT GGTCATGCCC
TGCTTTGGCA ATGGGATGGA CTTGTTTGAC CGTGTGGAGT CACAGCCCTC CGGCCTCGAG
TCCTTCGAGG TCCGTTCGCT TATAGGCCAG CTTAGTGACG CCGTTCAGTT CTTGCACGCC
AATGGCATTG TCCATCGCGA TATCAAGGAT GAGAATGTCG TTCTCGACGG GTCTGGACAT
TGTCAGCTCA TAGATTTTGG TTCTGCCGCA CATTGGAGAC CAGGCAAAAA ATGGGATACC
TTTTCTGGAA CTTTGCACTA CGCTTCGCCA GAGATTTTGC GGGGCGAGAT GTACGGAGGG
AAGGAGCAAG ATATCTGGGC GTTGGGCGTG GTCACTTATG TCCTTCTGGT TGGCGAGACG
CCTTTCTCTG AGCTACCCGA TGAGGTGCTC CACGGTCTTG CGCCCGATAG CAAAGCCTAT
GCTGCGCTGA TGGATAGGTG CGGAGCAGGG CACGAAGAAG AGGGCGAGGA AAGTGATGGC
GGAGGGAAGT TGCGTGATGC TGCAGATTTT GTGATGCGAT GCATGGAGCC GGAAGTGGGA
GACAGACCTA GCGCAGAGGT GCTCTTAGAG CATAGATACC TCAGGGGGAG AGATGGGTGG
GTGGGTAAAA AGGGGTGGAT CAAAGTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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