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Biofilm and cell wall regulator 1

 BCR1_CANAL              Reviewed;         740 AA.
Q59U10; A0A1D8PT78; Q59U34;
28-NOV-2012, integrated into UniProtKB/Swiss-Prot.
15-MAR-2017, sequence version 2.
10-OCT-2018, entry version 94.
RecName: Full=Biofilm and cell wall regulator 1;
Name=BCR1; Synonyms=USV1; OrderedLocusNames=CAALFM_CR06440CA;
ORFNames=CaO19.723, CaO19.8342;
Candida albicans (strain SC5314 / ATCC MYA-2876) (Yeast).
Eukaryota; Fungi; Dikarya; Ascomycota; Saccharomycotina;
Saccharomycetes; Saccharomycetales; Debaryomycetaceae;
Candida/Lodderomyces clade; Candida.
NCBI_TaxID=237561;
[1]
NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
STRAIN=SC5314 / ATCC MYA-2876;
PubMed=15123810; DOI=10.1073/pnas.0401648101;
Jones T., Federspiel N.A., Chibana H., Dungan J., Kalman S.,
Magee B.B., Newport G., Thorstenson Y.R., Agabian N., Magee P.T.,
Davis R.W., Scherer S.;
"The diploid genome sequence of Candida albicans.";
Proc. Natl. Acad. Sci. U.S.A. 101:7329-7334(2004).
[2]
GENOME REANNOTATION.
STRAIN=SC5314 / ATCC MYA-2876;
PubMed=17419877; DOI=10.1186/gb-2007-8-4-r52;
van het Hoog M., Rast T.J., Martchenko M., Grindle S., Dignard D.,
Hogues H., Cuomo C., Berriman M., Scherer S., Magee B.B., Whiteway M.,
Chibana H., Nantel A., Magee P.T.;
"Assembly of the Candida albicans genome into sixteen supercontigs
aligned on the eight chromosomes.";
Genome Biol. 8:RESEARCH52.1-RESEARCH52.12(2007).
[3]
NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA], AND GENOME
REANNOTATION.
STRAIN=SC5314 / ATCC MYA-2876;
PubMed=24025428; DOI=10.1186/gb-2013-14-9-r97;
Muzzey D., Schwartz K., Weissman J.S., Sherlock G.;
"Assembly of a phased diploid Candida albicans genome facilitates
allele-specific measurements and provides a simple model for repeat
and indel structure.";
Genome Biol. 14:RESEARCH97.1-RESEARCH97.14(2013).
[4]
FUNCTION, AND INDUCTION.
PubMed=15964282; DOI=10.1016/j.cub.2005.05.047;
Nobile C.J., Mitchell A.P.;
"Regulation of cell-surface genes and biofilm formation by the C.
albicans transcription factor Bcr1p.";
Curr. Biol. 15:1150-1155(2005).
[5]
FUNCTION, AND INDUCTION.
PubMed=15814840; DOI=10.1091/mbc.E05-01-0073;
Kadosh D., Johnson A.D.;
"Induction of the Candida albicans filamentous growth program by
relief of transcriptional repression: a genome-wide analysis.";
Mol. Biol. Cell 16:2903-2912(2005).
[6]
FUNCTION.
PubMed=17030992; DOI=10.1128/EC.00194-06;
Nobile C.J., Nett J.E., Andes D.R., Mitchell A.P.;
"Function of Candida albicans adhesin Hwp1 in biofilm formation.";
Eukaryot. Cell 5:1604-1610(2006).
[7]
FUNCTION.
PubMed=16839200; DOI=10.1371/journal.ppat.0020063;
Nobile C.J., Andes D.R., Nett J.E., Smith F.J., Yue F., Phan Q.T.,
Edwards J.E., Filler S.G., Mitchell A.P.;
"Critical role of Bcr1-dependent adhesins in C. albicans biofilm
formation in vitro and in vivo.";
PLoS Pathog. 2:E63-E63(2006).
[8]
FUNCTION.
PubMed=17277173; DOI=10.1128/EC.00340-06;
Argimon S., Wishart J.A., Leng R., Macaskill S., Mavor A.,
Alexandris T., Nicholls S., Knight A.W., Enjalbert B., Walmsley R.,
Odds F.C., Gow N.A., Brown A.J.;
"Developmental regulation of an adhesin gene during cellular
morphogenesis in the fungal pathogen Candida albicans.";
Eukaryot. Cell 6:682-692(2007).
[9]
INDUCTION.
PubMed=18653474; DOI=10.1091/mbc.E07-09-0946;
Ramsdale M., Selway L., Stead D., Walker J., Yin Z., Nicholls S.M.,
Crowe J., Sheils E.M., Brown A.J.;
"MNL1 regulates weak acid-induced stress responses of the fungal
pathogen Candida albicans.";
Mol. Biol. Cell 19:4393-4403(2008).
[10]
FUNCTION.
PubMed=19197361; DOI=10.1371/journal.ppat.1000294;
Bastidas R.J., Heitman J., Cardenas M.E.;
"The protein kinase Tor1 regulates adhesin gene expression in Candida
albicans.";
PLoS Pathog. 5:E1000294-E1000294(2009).
[11]
DISRUPTION PHENOTYPE.
PubMed=20605982; DOI=10.1128/IAI.00480-10;
Nett J.E., Marchillo K., Spiegel C.A., Andes D.R.;
"Development and validation of an in vivo Candida albicans biofilm
denture model.";
Infect. Immun. 78:3650-3659(2010).
[12]
FUNCTION.
PubMed=20415594; DOI=10.1086/652407;
Luo G., Ibrahim A.S., Spellberg B., Nobile C.J., Mitchell A.P., Fu Y.;
"Candida albicans Hyr1p confers resistance to neutrophil killing and
is a potential vaccine target.";
J. Infect. Dis. 201:1718-1728(2010).
[13]
FUNCTION.
PubMed=20223293; DOI=10.1016/j.micinf.2010.03.001;
Fuchs B.B., Eby J., Nobile C.J., El Khoury J.B., Mitchell A.P.,
Mylonakis E.;
"Role of filamentation in Galleria mellonella killing by Candida
albicans.";
Microbes Infect. 12:488-496(2010).
[14]
FUNCTION.
PubMed=19959578; DOI=10.1099/mic.0.033530-0;
Ricicova M., Kucharikova S., Tournu H., Hendrix J., Bujdakova H.,
Van Eldere J., Lagrou K., Van Dijck P.;
"Candida albicans biofilm formation in a new in vivo rat model.";
Microbiology 156:909-919(2010).
[15]
FUNCTION, AND DISRUPTION PHENOTYPE.
PubMed=20705667; DOI=10.1099/mic.0.039354-0;
Harriott M.M., Lilly E.A., Rodriguez T.E., Fidel P.L. Jr.,
Noverr M.C.;
"Candida albicans forms biofilms on the vaginal mucosa.";
Microbiology 156:3635-3644(2010).
[16]
FUNCTION.
PubMed=21829325; DOI=10.1371/journal.pbio.1001117;
Yi S., Sahni N., Daniels K.J., Lu K.L., Srikantha T., Huang G.,
Garnaas A.M., Soll D.R.;
"Alternative mating type configurations (a/alpha versus a/a or
alpha/alpha) of Candida albicans result in alternative biofilms
regulated by different pathways.";
PLoS Biol. 9:E1001117-E1001117(2011).
[17]
FUNCTION.
PubMed=21283544; DOI=10.1371/journal.pone.0016218;
Dwivedi P., Thompson A., Xie Z., Kashleva H., Ganguly S.,
Mitchell A.P., Dongari-Bagtzoglou A.;
"Role of Bcr1-activated genes Hwp1 and Hyr1 in Candida albicans oral
mucosal biofilms and neutrophil evasion.";
PLoS ONE 6:E16218-E16218(2011).
[18]
FUNCTION.
PubMed=21407800; DOI=10.1371/journal.pone.0017046;
Wachtler B., Wilson D., Haedicke K., Dalle F., Hube B.;
"From attachment to damage: defined genes of Candida albicans mediate
adhesion, invasion and damage during interaction with oral epithelial
cells.";
PLoS ONE 6:E17046-E17046(2011).
[19]
FUNCTION.
PubMed=22145027; DOI=10.1371/journal.pone.0028151;
Ding C., Vidanes G.M., Maguire S.L., Guida A., Synnott J.M.,
Andes D.R., Butler G.;
"Conserved and divergent roles of Bcr1 and CFEM proteins in Candida
parapsilosis and Candida albicans.";
PLoS ONE 6:E28151-E28151(2011).
[20]
FUNCTION.
PubMed=22544909; DOI=10.1128/EC.00103-12;
Fanning S., Xu W., Solis N., Woolford C.A., Filler S.G.,
Mitchell A.P.;
"Divergent targets of Candida albicans biofilm regulator Bcr1 in vitro
and in vivo.";
Eukaryot. Cell 11:896-904(2012).
[21]
FUNCTION.
PubMed=22265407; DOI=10.1016/j.cell.2011.10.048;
Nobile C.J., Fox E.P., Nett J.E., Sorrells T.R., Mitrovich Q.M.,
Hernday A.D., Tuch B.B., Andes D.R., Johnson A.D.;
"A recently evolved transcriptional network controls biofilm
development in Candida albicans.";
Cell 148:126-138(2012).
[22]
FUNCTION.
PubMed=22882910; DOI=10.1111/j.1365-2958.2012.08193.x;
Fanning S., Xu W., Beaurepaire C., Suhan J.P., Nantel A.,
Mitchell A.P.;
"Functional control of the Candida albicans cell wall by catalytic
protein kinase A subunit Tpk1.";
Mol. Microbiol. 86:284-302(2012).
[23]
FUNCTION.
PubMed=22359502; DOI=10.1371/journal.ppat.1002525;
Finkel J.S., Xu W., Huang D., Hill E.M., Desai J.V., Woolford C.A.,
Nett J.E., Taff H., Norice C.T., Andes D.R., Lanni F., Mitchell A.P.;
"Portrait of Candida albicans adherence regulators.";
PLoS Pathog. 8:E1002525-E1002525(2012).
[24]
FUNCTION, INTERACTION WITH CBK1, PHOSPHORYLATION AT THR-191 AND
SER-556, AND MUTAGENESIS OF THR-191 AND SER-556.
PubMed=22589718; DOI=10.1371/journal.ppat.1002683;
Gutierrez-Escribano P., Zeidler U., Suarez M.B., Bachellier-Bassi S.,
Clemente-Blanco A., Bonhomme J., Vazquez de Aldana C.R., d'Enfert C.,
Correa-Bordes J.;
"The NDR/LATS kinase Cbk1 controls the activity of the transcriptional
regulator Bcr1 during biofilm formation in Candida albicans.";
PLoS Pathog. 8:E1002683-E1002683(2012).
-!- FUNCTION: Transcription factor which acts as a master regulator of
biofilm formation. Biofilms play an important role in pathogenesis
and produce many infections such as oropharyngeal candidiasis or
vulvovaginal candidiasis. Controls the expression of genes that
govern cell-surface properties such as ALS1, ALS3, HWP1 AND HYR1.
Down-stream component of the hyphal regulatory network that
couples expression of cell-surface genes to hyphal
differentiation. {ECO:0000269|PubMed:15814840,
ECO:0000269|PubMed:15964282, ECO:0000269|PubMed:16839200,
ECO:0000269|PubMed:17030992, ECO:0000269|PubMed:17277173,
ECO:0000269|PubMed:19197361, ECO:0000269|PubMed:19959578,
ECO:0000269|PubMed:20223293, ECO:0000269|PubMed:20415594,
ECO:0000269|PubMed:20705667, ECO:0000269|PubMed:21283544,
ECO:0000269|PubMed:21407800, ECO:0000269|PubMed:21829325,
ECO:0000269|PubMed:22145027, ECO:0000269|PubMed:22265407,
ECO:0000269|PubMed:22359502, ECO:0000269|PubMed:22544909,
ECO:0000269|PubMed:22589718, ECO:0000269|PubMed:22882910}.
-!- SUBUNIT: Interacts with CBK1. {ECO:0000269|PubMed:22589718}.
-!- SUBCELLULAR LOCATION: Nucleus {ECO:0000250}.
-!- INDUCTION: Expression is under the positive control of the hyphal
regulator TEC1 and repressed by TUP1. Also induced by acetic acid-
stress in a MNL1-dependent manner. {ECO:0000269|PubMed:15814840,
ECO:0000269|PubMed:15964282, ECO:0000269|PubMed:18653474}.
-!- PTM: Phosphorylated at Thr-191 and Ser-556 by CBK1.
Phosphorylation by CBK1 is required for ALS1 and ALS3 expression,
adherence, and biofilm formation. {ECO:0000269|PubMed:22589718}.
-!- DISRUPTION PHENOTYPE: Produces poor biofilms and decreases
infection on rat denture models. {ECO:0000269|PubMed:20605982,
ECO:0000269|PubMed:20705667}.
-!- MISCELLANEOUS: Implanted medical devices, such as venous
catheters, are a serious risk factor for C.albicans infection
since they are substrates for the formation of biofilms, which in
turn serve as reservoirs of cells to continually seed an
infection.
-----------------------------------------------------------------------
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Distributed under the Creative Commons Attribution (CC BY 4.0) License
-----------------------------------------------------------------------
EMBL; CP017630; AOW31343.1; -; Genomic_DNA.
RefSeq; XP_713082.2; XM_707989.2.
ProteinModelPortal; Q59U10; -.
SMR; Q59U10; -.
BioGrid; 1228337; 1.
ELM; Q59U10; -.
iPTMnet; Q59U10; -.
PRIDE; Q59U10; -.
EnsemblFungi; AOW31343; AOW31343; CAALFM_CR06440CA.
GeneID; 3645280; -.
KEGG; cal:CAALFM_CR06440CA; -.
CGD; CAL0000177853; BCR1.
InParanoid; Q59U10; -.
KO; K21544; -.
OrthoDB; EOG092C5WX9; -.
PRO; PR:Q59U10; -.
Proteomes; UP000000559; Chromosome R.
GO; GO:0000790; C:nuclear chromatin; IDA:CGD.
GO; GO:0003700; F:DNA-binding transcription factor activity; IMP:CGD.
GO; GO:0046872; F:metal ion binding; IEA:UniProtKB-KW.
GO; GO:0043565; F:sequence-specific DNA binding; IDA:CGD.
GO; GO:0036164; P:cell-abiotic substrate adhesion; IMP:CGD.
GO; GO:0030447; P:filamentous growth; IMP:CGD.
GO; GO:0044117; P:growth of symbiont in host; IMP:CGD.
GO; GO:1900189; P:positive regulation of cell adhesion involved in single-species biofilm formation; IMP:CGD.
GO; GO:0010811; P:positive regulation of cell-substrate adhesion; IMP:CGD.
GO; GO:0044128; P:positive regulation of growth of symbiont in host; IMP:CGD.
GO; GO:0045944; P:positive regulation of transcription by RNA polymerase II; IMP:CGD.
GO; GO:1900228; P:regulation of single-species biofilm formation in or on host organism; IMP:CGD.
GO; GO:1900231; P:regulation of single-species biofilm formation on inanimate substrate; IMP:CGD.
GO; GO:0006357; P:regulation of transcription by RNA polymerase II; IMP:CGD.
GO; GO:0006355; P:regulation of transcription, DNA-templated; IMP:CGD.
GO; GO:0044407; P:single-species biofilm formation in or on host organism; IMP:CGD.
GO; GO:0044011; P:single-species biofilm formation on inanimate substrate; IMP:CGD.
InterPro; IPR036236; Znf_C2H2_sf.
InterPro; IPR013087; Znf_C2H2_type.
Pfam; PF00096; zf-C2H2; 2.
SMART; SM00355; ZnF_C2H2; 2.
SUPFAM; SSF57667; SSF57667; 1.
PROSITE; PS00028; ZINC_FINGER_C2H2_1; 1.
PROSITE; PS50157; ZINC_FINGER_C2H2_2; 2.
1: Evidence at protein level;
Complete proteome; Metal-binding; Nucleus; Phosphoprotein;
Reference proteome; Repeat; Zinc; Zinc-finger.
CHAIN 1 740 Biofilm and cell wall regulator 1.
/FTId=PRO_0000420232.
ZN_FING 165 190 C2H2-type 1. {ECO:0000255|PROSITE-
ProRule:PRU00042}.
ZN_FING 196 219 C2H2-type 2. {ECO:0000255|PROSITE-
ProRule:PRU00042}.
COMPBIAS 27 108 Pro-rich. {ECO:0000255|PROSITE-
ProRule:PRU00015}.
COMPBIAS 61 75 Asn-rich. {ECO:0000255|PROSITE-
ProRule:PRU00003}.
COMPBIAS 132 160 Ser-rich. {ECO:0000255|PROSITE-
ProRule:PRU00016}.
COMPBIAS 302 366 Pro-rich. {ECO:0000255|PROSITE-
ProRule:PRU00015}.
COMPBIAS 566 677 Asn-rich. {ECO:0000255|PROSITE-
ProRule:PRU00003}.
COMPBIAS 684 725 Thr-rich. {ECO:0000255|PROSITE-
ProRule:PRU00017}.
MOD_RES 191 191 Phosphothreonine.
{ECO:0000269|PubMed:22589718}.
MOD_RES 556 556 Phosphoserine.
{ECO:0000269|PubMed:22589718}.
MUTAGEN 191 191 T->A: Impairs BCR1 function during
biofilm formation and virulence in a
mouse model of disseminated candidiasis.
{ECO:0000269|PubMed:22589718}.
MUTAGEN 556 556 S->A: Impairs BCR1 function during
biofilm formation and virulence in a
mouse model of disseminated candidiasis.
{ECO:0000269|PubMed:22589718}.
SEQUENCE 740 AA; 80967 MW; 5680E0352D9011C0 CRC64;
MSGTSQVLQN DSHQSQHASM AYNQRQPMMY PPPPQQQPLH SQNSLPPLPP IPAPSLPPIS
NNISNGNTNE LNNNNQQQQQ HGQPPLPPPP INANQQYYAV PPLRAPPPLN TLSSVVNSLP
TLTPTLTNAT HSTMSSNSSA ESSASSSSNS ITKPKSKRSS KGRVFQCTGY PGCNMSFTRS
EHLARHKRKH TGERPFTCPY CSKNFSRLDN LRQHKQTVHA YETYLTKDNR DSKLLIERSK
SKKKLKQQEK KAQQQAQLQA QAQAQAQAQV HMQQHQQNGY NFQPPYPQFH NQYYANNQYQ
GPQPPPPPAP QQQVPGQQQP QPQQGMPAGY LDPYRQYPPN TTFDPMALPP PPKINAHPQK
PLPPLPHQMG GGQEQPSDNV SQQGLKIPDH AFTPKRRPEP LALQHSTHSN ENISNEGNIN
ANTNTNMNTV TSSITSDAVY PPPPRSATSA ASLTPNLASP LSPLFHQSFS QTTLKSTPDP
RGSTITNSSI SIKSPMSQHF SILSGNSNYS NNTTNSLPSV SNLPHPNWGS TNGTTGSNGT
SGGSYQQNSF HQRQSSVVSD FSIFSNSDNR KDIKSNWLKG VLNDDNNNNN NNNNEQQQQQ
LQDPKLASPA PTLPPVSSIT GGGTSNGNDS MMVDNMENKN DVSQSNVIID SNNNNGDKMV
NKLNFQSIEL HDNNNNNTPS IKSTHSTETI QTTMVVVNKS DPPPLSTPTT NTNTNTNSTA
TTNATGYVSK KPTINNLISQ


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