Search: for Help
About
Introduction
Statistics
Your PHIDIAS
Register or Login
Philert
Submission
Curated Data
Victors
BBP (Brucella)
Phinfo
Phinet
HazARD
Data Analysis
Phigen
Pacodom
BLAST
Help & Documents
Documents
FAQs
Links
Acknowledgements
Disclaimer
Contact Us
UMMS Logo

SCP1

Victor ID 5360
Gene Name SCP1
Sequence Strain (Species/Organism) Cryptococcus neoformans var. grubii H99
NCBI Gene ID 23885279
NCBI Protein GI 799342834
Locus Tag CNAG_01580
Genbank Accession CP003830
Protein Accession XP_012052616
Taxonomy ID 235443
Chromosome No 11
Gene Starting Position 349199
Gene Ending Position 353973
Gene Strand (Orientation) +
Protein pI 7.32
Protein Weight 145992.39
Protein Length 1449
Protein Note The sterol-sensing domain of Scp1 is important for regulating Sre1 proteolysis. The conserved mutations Y247C, L264F, and D392N in Scp1 that render Scap insensitive to sterols cause constitutive Sre1 activation.
DNA Sequence 
>gi|799350881:349199-353973 Cryptococcus neoformans var. grubii H99 chromosome 11, complete sequence
CGGGAGGAATATCGTGCGAGAAGCCAAGAAGCAAGTAGGAAGGAAGGACGAAGAGAAGGAAAGCACAATA
ATCCGTCCTCAACTGTTAGGCAACACAGTCAACGATGGCTTACCTTTGAAAACATATTCCATCAGTCTAC
GTCAACTTATTCTCCACTTGAGCAATGTCGTTCGTATCTTCGGAAACGCCAAACGCAATCGCGTCTTCAT
CAACCGCCCATATTGGCTCTGCCAATCCGAGAGCAAGACACAGACTGGACAATGGGTTACAATATCATTC
CAACCCTTTACCTAGTGATTGCCGACCGTTGCTAAGATCTGCGCCGCGGAAACGAAGGGTCGCCAGCAAG
TCGAAAAAGCTCAGATGGAGGAAAGGGTTGGTTACGGAGGCTTTCCGCAAGTTTGGCGAGCATTGTGCGA
GAAATCAAGTGGGTGAACAGAAGGATATATGTGCGATGCCATGCTGACTTGTATAAGATACGAACACTTC
TCATTGACTGTCTTGTCATGACTAATTTGTTTTACCCTTCCCTGGCGCTCTATCTCCCGAAAAGATTTCC
TCCACCGAGCCCACATGCCGCTCAGAACACTCACTGGCCACCTTTGGACAATGATGCCGCATCGTCATAT
CGTACAAATACAGATCATCCGCTATCTTTCTCTACTTTAGGATGTCTTTTCCCCTCACCTCCGCCTTTAC
TACCCCGTTTGACGTGGGCTGGTTGGTGGGGCAGCGGTACTCGGGGACGGGAAGATGAGGGATGGACGGC
AACAAGGGCCATACCTGGCGCAACAGAAATAGGGGAAGGGCAAAATGATGAGGTTTGGGTTATGCGGATT
GGATGGGCAGACGTTGAGGACGTCCTCGATCGACAAATTGAGGATGGCGAGCGGAAGTGGGAAGAGAGAG
ATCATCATCTCTTGGAACTGGTACAAAATGTGGCCGAAAATTGGGAAAGACAAGTTCCTTCTAGCAGCCA
GAGATGTGTCCGTCAGCTCAGATCATCGATTTCTGCCAGAGAGGACGGTGTTGACTCAGAGCCCCCGCCC
TGCTATGTCCTGACGCCTTCTCCAGACGCTTTAGAGTCTGCGATACCAATATCAATGTCCGGTCTCGCTC
ATTTCGACCATGGAGTGTCGGTCTCGCCGGATGGCCTACCTTTAGGACGGTCCCCCCACGCAGGCAACAT
CTATCACACTTTTGCAGCGTTGTTCCATGTGCCACAAAATTCGACTTCCGCATTTGAACAACGGTGGCAG
AGCGCCATGTTGGATGTTGCGAAAGAAGTAGAAGGAGAAGTATTTGTGGAGGCTAAAGGACCGAGAGTCG
GTGACCAAATTGGCGAGTGGTTTGTCTCTGTAAAGCACTTCTCCTCTCGAACTGTTATAGCCAAGCTAAT
TTTCGACATAGTACGCTTCATCCCCTCTTTCTCATCAAACAAACTTAACTGGTGCGATTTCATCTGACCG
TTCTAAAATCTTTTCGTCATCGCCTCCCCCGATAATTATCGTTCTTTACATTATACTTTTCACCACTCTT
ATCGTTCAACTCTCCAATGCTTCCAAAGCCCATTCCCGATTTGGTCTTGCTTTTACTGGAGTCGTGCAGC
TGTGCTGTTCATCAGTTATGTCTTTCAGTGTCTTGGCCCTTCTAGGTTGGAATGGGTGGGGTGTACCTCA
TGCCGAAAGTAGTTTGCCGACATACGTCTTACCCTTCGTCATCGTTGTAGTCGGTGCGGAGAACATGTCG
ACCCTCGTGAGTGCTTGTTCCCTGCATCAATGCATCAAAAGATTCCATTGACACAACTTAGACGCAGGCC
ATATTCTCAATACCCTTCACTCATTCTGTTCCCGTAAGAATAGGGCTTGGTCTGAGCAAAGTTGGAACTA
CCATTGCACTCACTTCCTTAACGGATCTTGGTATCCTGAGTGTTGTCTGGCTCTGTGTCAACCTTCAGCC
TGTTAGAGAGTTTTGCCTATTTGCGGCCGTTGTAATCGTGACCGATTGGTTCATGCTTCACACATTCTTC
TTGACTGTAAGTCAAGATAAGTCATAAACATAAGGATGATGCTAAATATCGGGTCATAGGTCTTGTCCAT
CGATGCTCAAAGACTCGAGCTAGCCGATGTTTTGGCGTCTAACAAGGTCGGCATGGTTTCTCCGGTGGAA
TCTAAGGGAGAAAAGGACGCTCAGAATGAAAATCAAGGATTCCTATGGCGAAATATGCTGAGGGCTAGGA
CAACTAAAAGTGGAAGTTTGTTACTAGTAAGCTTCTCCGTTTATGCAATAAACATGGCTGATTGAGACAT
TTGATATAGCTCCTTTTTACTGTAGGGCTTCTATACTGGTTAACTGAACGGCATCGTTTACCCCTCAACA
CCACTGCGAGTCTTTACGGATACACACCTACTGCGCGATCTACTTCTGTCAGTGTCCCCACTCCAACGGC
GTCTCCCTTTATTAGTACTCCTGAAGCAATTTCCGTGTTGTCATCTGCGGAAAAGCTTTGGCGTGCCCTC
AACCCAGAAGGATGGCCGTTCGCACATGTCATAGTCCCGCCCGCTTCGATACTTGTACTTCCCAAAGTCG
GGCATTCTATGCGACCAGGGGACATTCGCAAACTCTCACTTCCAGCTAGCCGCCTTCTTATCCCTCGGCT
GAAAGCTCTTCTCTACATCTTCAAGGTGTTGGTTCTTCCACAGGCAATTACAGCTGGCGCCTTGTATGCG
CTTTTGTTGTACTTGCTCAAAGATTCTGATCTCCTTGACGCTCAACGGAACCGACTAGGGAGGACGGGCG
ACGCGCATGACGATGAGTCTGACTTCCGAGGGTCGGCAAAGAATGCTAGCGGTTTGTCCAATTGTCTCCG
AGCCCGAATGTTACCGTGCAGCCATGAAGCCGATGTGGATCTCATCGCATCGAGCTCTGACGGACGCATT
GCTATATCAGTGGCCATTGATAACTCCGTATGTCTATGGAGGTTTTCAGATACCCCTGGAAGCGGAACTC
GCGAGCCTCTGCCAACGGTTGGACTAGATCGCGGAGACGCTATTGTTGCAGCCGCTGTGAGCGAGGATGG
TCAGCATGTTGCCGTGTGTACCAACATGGCGGTGTTACAGATATGGGAAGTGCCCAGAGAGGGTGCGATT
GTGCCTCTGCAAGTTCGGAGGGCTGAGCAAACTTTCACCGCGAAGATTTTGGGGATAACATTCGATGAAA
TTGCCCCTAGTGTCGATGACCCTTTTACGGCTAATGAGCCGACGGTGGATGAAGCGCGCAAGGCAACTTC
TGTCATGGTCGGATATGGAGACGGTACCGTTGTGGCTATAAGCGAGGTGGGCGCCAAGGTGATCATTCCT
GCACAGGATAAGGGCGCCTATTCCTCTTGTCGAGTCCTCTTTATGAGAAATATTGGCGGTTCCTTAAGCA
TCTTAATCGCTAGACAACACGACATTGACATTTGGCGAAAATCTACTTTCGGATGGGAATCGTCCTCTCT
TATTGCTGATCTCCCCGGCGAAGACCGTATTACTGCCGTTTCACCCCTCAACGCCGAGTTGCCTGGCGTC
TTTGCTGTTGGCCATCGCTCTGGTAATATCACGATCTATGATGAATCTCACGGCCAGCTGGAATTGATGC
CGCAAGGTTCGTCTGTAGAAGGTGTGCGCAAGCTCCAACTTGTAAGGCCTTCAAGCATGAAGTGTTTAGG
GTGTGGCCTTCAGTCTGCGGAGGGTTACGCAGTCGTCTCGTCAACTTCGTCCCAAGTGTCCATTGATCGT
ATCGCGCCTCGTACTTCGATCCCCACGTTCTGTCGTTGTACACGACGGGTGTCGTCTGCCGATGATGTTC
CTGCTCTCATGCATCGCTCGGACTTGCCACAGCGTAGTAAGCCCAATACTCTTATTGTCCCTCCTGTTAC
GTTTCGTCAACGCCCTACACCTGGATCATCCCCTCATAAGTCGACCTCCCTACTTTCTCCTGTCTCGAAT
GGAGAATTTCCACTGTCCTCTCACGGCTCTGCTCGCCGATCGAGTAACTTTCATAGAGAAGATGATTCTC
TCAAAATAATATCCTCTCCACACGATCGCTCTGCCTTGTCTAACATAGGCGGAGGTAGCGGCCTGGTTTC
ACCAAGTGGTGATATGGAAGTAACCTCTCTAGGGGGCATCAGTGCTCAAGGCGCGAGCGATGGCGGTTGG
GCGATACTCGATGGAGACGTGCTAGCAGGTGTTAGAAGAGGACGGGAAGGCATTGACGATGCGCAATGGC
AGGTTTGGAGCGTAGACATGACCGCACCATGGGACACAGCCGGCTTGGTCGTGGATAGCATTGACTTGTC
AGAGCTTCAACAGCGAACATTCGAGGTTGATTGTGTTATCCGAGGGCAGGCATCTGGAGGCGGAAGCACC
AATGGAATTGTGTCGATGCGTGATAGAAGAACTGAAAGGCTTTTGAGTATGGATGGGCGAGCGAGCTTTC
CAGAGCGGGTCGGTTCATTCGCTGTGCCCACATATGAGTCGCTAGGCTATGTTGAAGTCGTGGGGGTGGA
TACCCTGGGTGCGAAAGGGATGATAGGTGGTTTTGGTAATAGATTGGGAACGATTAGTCTTGAGAGATGT
GATGAAAAGAAAGTTATAGGGAGGAGTAGCATGGACGGTGTAGTGCTACCGGTCGTTCGGTACAGGAGTT
GGGTATTACGTAAGGAAAAGGAGGAGCGAAGAGAGAGAGAGCGAGAGAGAGAGAGACAACGAGGAAGGAG
CGGAGCATATAGCTA
Protein Sequence 
>gi|799342834|ref|XP_012052616.1| hypothetical protein CNAG_01580 [Cryptococcus neoformans var. grubii H99]
MSFVSSETPNAIASSSTAHIGSANPRARHRLDNGLQYHSNPLPSDCRPLLRSAPRKRRVASKSKKLRWRK
GLVTEAFRKFGEHCARNQIRTLLIDCLVMTNLFYPSLALYLPKRFPPPSPHAAQNTHWPPLDNDAASSYR
TNTDHPLSFSTLGCLFPSPPPLLPRLTWAGWWGSGTRGREDEGWTATRAIPGATEIGEGQNDEVWVMRIG
WADVEDVLDRQIEDGERKWEERDHHLLELVQNVAENWERQVPSSSQRCVRQLRSSISAREDGVDSEPPPC
YVLTPSPDALESAIPISMSGLAHFDHGVSVSPDGLPLGRSPHAGNIYHTFAALFHVPQNSTSAFEQRWQS
AMLDVAKEVEGEVFVEAKGPRVGDQIGEWFVSYASSPLSHQTNLTGAISSDRSKIFSSSPPPIIIVLYII
LFTTLIVQLSNASKAHSRFGLAFTGVVQLCCSSVMSFSVLALLGWNGWGVPHAESSLPTYVLPFVIVVVG
AENMSTLTQAIFSIPFTHSVPVRIGLGLSKVGTTIALTSLTDLGILSVVWLCVNLQPVREFCLFAAVVIV
TDWFMLHTFFLTVLSIDAQRLELADVLASNKVGMVSPVESKGEKDAQNENQGFLWRNMLRARTTKSGSLL
LLLFTVGLLYWLTERHRLPLNTTASLYGYTPTARSTSVSVPTPTASPFISTPEAISVLSSAEKLWRALNP
EGWPFAHVIVPPASILVLPKVGHSMRPGDIRKLSLPASRLLIPRLKALLYIFKVLVLPQAITAGALYALL
LYLLKDSDLLDAQRNRLGRTGDAHDDESDFRGSAKNASGLSNCLRARMLPCSHEADVDLIASSSDGRIAI
SVAIDNSVCLWRFSDTPGSGTREPLPTVGLDRGDAIVAAAVSEDGQHVAVCTNMAVLQIWEVPREGAIVP
LQVRRAEQTFTAKILGITFDEIAPSVDDPFTANEPTVDEARKATSVMVGYGDGTVVAISEVGAKVIIPAQ
DKGAYSSCRVLFMRNIGGSLSILIARQHDIDIWRKSTFGWESSSLIADLPGEDRITAVSPLNAELPGVFA
VGHRSGNITIYDESHGQLELMPQGSSVEGVRKLQLVRPSSMKCLGCGLQSAEGYAVVSSTSSQVSIDRIA
PRTSIPTFCRCTRRVSSADDVPALMHRSDLPQRSKPNTLIVPPVTFRQRPTPGSSPHKSTSLLSPVSNGE
FPLSSHGSARRSSNFHREDDSLKIISSPHDRSALSNIGGGSGLVSPSGDMEVTSLGGISAQGASDGGWAI
LDGDVLAGVRRGREGIDDAQWQVWSVDMTAPWDTAGLVVDSIDLSELQQRTFEVDCVIRGQASGGGSTNG
IVSMRDRRTERLLSMDGRASFPERVGSFAVPTYESLGYVEVVGVDTLGAKGMIGGFGNRLGTISLERCDE
KKVIGRSSMDGVVLPVVRYRSWVLRKEKEERRERERERERQRGRSGAYS
Molecule Role Virulence factor
Molecule Role Annotation MUTATION: Orthologs of mammalian SREBP and Scap,, monitor oxygen-dependent sterol synthesis as a measure of cellular oxygen supply. Yeast Scp1 responds to 4-methyl sterols and thus shares properties with mammalian HMG-CoA reductase, a sterol-sensing domain protein whose degradation is regulated by the 4-methyl sterol lanosterol (Hughes et al., 2007).
References
Hughes et al., 2007: Hughes AL, Lee CY, Bien CM, Espenshade PJ. 4-Methyl sterols regulate fission yeast SREBP-Scap under low oxygen and cell stress. The Journal of biological chemistry. 2007; 282(33); 24388-24396. [PubMed: 17595166 ].