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References

  • Alberti-Segui C, Morales AJ, Xing H, Kessler MM, Willins DA, Weinstock KG, Cottarel G, Fechtel K & Rogers B (2004) Identification of potential cell-surface proteins in Candida albicans and investigation of the role of a putative cell-surface glycosidase in adhesion and virulence. Yeast 21: 285302.
  • Alloush HM, Lopez-Ribot JL, Masten BJ & Chaffin WL (1997) 3-phosphoglycerate kinase: a glycolytic enzyme protein present in the cell wall of Candida albicans. Microbiology 143: 321330.
  • Angiolella L, Micocci MM, D'Alessio S, Girolamo A, Maras B & Cassone A (2002) Identification of major glucan-associated cell wall proteins of Candida albicans and their role in fluconazole resistance. Antimicrob Agents Chemother 46: 16881694.
  • Boone C, Sdicu A, Laroche M & Bussey H (1991) Isolation from Candida albicans of a functional homolog of the Saccharomyces cerevisiae KRE1 gene, which is involved in cell wall β-glucan synthesis. J Bacteriol 173: 68596864.
  • Breuel KF, Kougias P, Rice PJ, Wei D, De Ponti K, Wang J, Laffanm JJ, Li C, Kalbfleisch J & Williams DL (2004) Anterior pituitary cells express pattern recognition receptors for fungal glucans: implications for neuroendocrine immune involvement in response to fungal infections. Neuroimmunomodulation 11: 19.
  • Brown AJP, Gaillardin C, Ernst J, Dominguez A, Pérez-Martín J, Klis K, Sentandreu R, Hube H, Haenel F & D'Enfert C (2003) Ec Galar Fungail Consortium Final Report. European Union, Brussels.
  • Calderone RA (1993) Recognition between Candida albicans and host cells. Trends Microbiol 1: 5558.
  • Campbell JA, Davies GJ, Bulone V & Henrissat B (1997) A classification of nucleotide-diphospho-sugar glycosyltransferases based on amino acid sequence similarities. Biochem J 326: 929939.
  • Cao YY, Cao YB, Xu Z, Ying K, Li Y, Xie Y, Zhu ZY, Chen WS & Jiang YY (2005) cDNA microarray analysis of differential gene expression in Candida albicans biofilm exposed to farnesol. Antimicrob Agents Chemother 49: 584589.
  • Casanova M, Gil ML, Cardeñoso L, Martinez JP & Sentandreu R (1989) Identification of a wall-specific antigen synthesized during germ tube formation by Candida albicans. Infect Immun 57: 262271.
  • Casanova M, Martinez JP & Chaffin WL (1990) Fab fragments from a monoclonal antibody against a germ tube mannoprotein block the yeast-to mycelium transition in Candida albicans. Infect Immun 58: 38103812.
  • Castillo L, Martinez AI, Garcerá A, Elorza MV, Valentin E & Sentandreu R (2003) Functional analysis of cysteine residues and the repetitive sequences of Sc Pir4: the first repetitive sequence is needed to binding the cell wall β-1,3-glucan. Yeast 20: 973983.
  • Cervera AM, Gozalbo D, McCreath KJ, Gow NA, Martinez JP & Casanova M (1998) Molecular cloning and characterization of a Candida albicans gene coding for cytochrome c haem lyase and a cell wall-related protein. Mol Microbiol 30: 6781.
  • Chaffin WL, Lopez-Ribot JL, Casanova M, Gozalbo D & Martinez JP (1998) Cell wall and secreted proteins of Candida albicans: identification, function, and expression. Microbiol Mol Biol Rev 62: 130180.
  • De Groot PW, Hellingwerf KJ & Klis FM (2003) Genome-wide identification of fungal GPI proteins. Yeast 20: 781796.
  • De Groot PWJ, De Boer AD, Cunningham J, Dekker HL, De Jong L, Hellingwerf KJ, De Koster C & Klis FM (2004) Proteomic analysis of Candida albicans cell walls reveals covalently bound carbohydrate-active enzymes and adhesins. Eukaryot Cell 3: 955965.
  • De Groot PW, Ram AF & Klis FM (2005) Features and functions of covalently linked proteins in fungal cell walls. Fungal Genet Biol 42: 657675.
  • Denning DW (2002) Echinocandins: a new class of antifungal. J Antimicrob Chemother 49: 889891.
  • De Nobel H & Lipke PN (1994) Is there a role for GPIs in cell wall assembly in yeast? Trends Cell Biol 4: 4245.
  • Eisenhaber B, Schneider G, Wildpaner M & Eisenhaber F (2004) A sensitive predictor for potential GPI lipid modification sites in fungal protein sequences and its application to genome-wide studies for Aspergillus niger, Candida albicans, Neurospora crassa, Saccharomyces cerevisiae and Schizosaccharomyces pombe. J Mol Biol 337: 243253.
  • Elorza V, Mormeneo S, Garcia de la Cruz F, Gimeno C & Sentandreu R (1989) Evidence for the formation of covalent bonds between macromolecules in the domain of the wall of Candida albicans mycelial cells. Biochem Biophys Res Commun 162: 11181125.
  • Eroles P, Sentandreu M, Elorza MV & Sentandreu R (1997) The highly immunogenic enolase and Hsp70 are adventitious Candida albicans cell wall proteins. Microbiology 143: 313320.
  • Fonzi WA (1999) PHR1 and PHR2 of Candida albicans encode putative glycosidases required for proper cross-linking of β-1,3- and β-1,6-glucans. J Bacteriol 181: 70707079.
  • Fradin C, De Groot P, MacCallum D, Schaller M, Klis F, Odds FC & Hube B (2005) Granulocytes govern the transcriptional response, morphology and proliferation of Candida albicans in human blood. Mol Microbiol 56: 397415.
  • Frieman MB & Cormack BP (2003) The ω-site sequence of glycosylphosphatidylinositol-anchored proteins in Saccharomyces cerevisiae can determine distribution between the membrane and the cell wall. Mol Microbiol 50: 883896.
  • Gantner BN, Simmons RM & Underhill DM (2005) Dectin-1 mediates macrophage recognition of Candida albicans yeast but not filaments. EMBO J 24: 12771286.
  • Garcerá A, Martinez AI, Castillo L, Elorza MV, Sentandreu R & Valentín E (2003) Identification and study of a Candida albicans protein homologous to Saccharomyces cerevisiae Ssr1p, an internal cell-wall protein. Microbiology 149: 22432250.
  • Gentzsch M & Tanner W (1996) The PMT gene family: protein O-glycosylation in Saccharomyces cerevisiae is vital. EMBO J 15: 57525759.
  • Goldman RC, Sullivan PA, Zakula D & Capobianco JO (1995) Kinetics of β-13 glucan interaction at the donor and acceptor sites of the fungal glucosyltransferase encoded by the BGL2 gene. Eur J Biochem 227: 372378.
  • Gow NAR, Robbins PW, Lester JW, Brown AJ, Fonzi WA, Chapman T & Kinsman OS (1994) A hyphal-specific chitin synthase gene (CHS2) is not essential for growth, dimorphism, or virulence of Candida albicans. Proc Natl Acad Sci USA 91: 62166220.
  • Grimme SJ, Colussi PA, Taron CH & Orlean P (2004) Deficiencies in the essential Smp3 mannosyltransferase block glycosylphosphatidylinositol assembly and lead to defects in growth and cell wall biogenesis in Candida albicans. Microbiology 150: 31153128.
  • Herrero AB, Magnelli P, Mansour MK, Levitz SM, Bussey H & Abeijon C (2004) KRE5 gene null mutant strains of Candida albicans are avirulent and have altered cell wall composition and hypha formation properties. Eukaryot Cell 3: 14231432.
  • Hobson RP, Munro CA, Bates S, MacCallum DM, Cutler JE, Heinsbroek SE, Brown GD, Odds FC & Gow NA (2004) Loss of cell wall mannosylphosphate in Candida albicans does not influence macrophage recognition. J Biol Chem 279: 3962839635.
  • Horisberger M & Clerc MF (1988) Ultrastructural localization of anionic sites on the surface of yeast, hyphal and germ-tube forming cells of Candida albicans. Eur J Cell Biol 46: 444452.
  • Ishibashi K, Yoshida M, Nakabayashi I, Shinohara H, Miura NN, Adachi Y & Ohno N (2005) Role of anti-β-glucan antibody in host defense against fungi. FEMS Immunol Med Microbiol 44: 99109.
  • Jigami Y & Odani T (1999) Mannosylphosphate transfer to yeast mannan. Biochim Biophys Acta 1426: 335345.
  • Jordan JA (1994) PCR identification of four medically important Candida species by using a single primer pair. J Clin Microbiol 32: 29622967.
  • Jouault T, Ibata-Ombetta S, Takeuchi O, Trinel PA, Sacchetti P, Lefebvre P, Akira S & Poulain D (2003) Candida albicans phospholipomannan is sensed through toll-like receptors. J Infect Dis 188: 165172.
  • Kandasamy R, Vediyappan G & Chaffin WL (2000) Evidence for the presence of pir-like proteins in Candida albicans. FEMS Microbiol Lett 186: 239243.
  • Kapteyn JC, Hoyer LL, Hecht JE, Muller WH, Andel A, Verkleij AJ, Makarow M, Van Den Ende H & Klis FM (2000) The cell wall architecture of Candida albicans wild-type cells and cell wall-defective mutants. Mol Microbiol 35: 601611.
  • Kelly MT, MacCallum DM, Clancy SD, Odds FC, Brown AJ & Butler G (2004) The Candida albicans CaACE2 gene affects morphogenesis, adherence and virulence. Mol Microbiol 53: 969983.
  • Kreger DR & Kopecká M (1975) On the nature and formation of the fibrillar nets produced by protoplasts of Saccharomyces cerevisiae in liquid media: an electronmicroscopic, X-ray diffraction and chemical study. J Gen Microbiol 92: 207220.
  • Kruppa M, Goins T, Cutler JE, Lowman D, Williams D, Chauhan N, Menon V, Singh P, Li D & Calderone R (2003) The role of the Candida albicans histidine kinase (CHK1) gene in th−e regulation of cell wall mannan and glucan biosynthesis. FEMS Yeast Res 3: 289299.
  • Kruppa M, Jabra-Rizk MA, Meiller TF & Calderone R (2004) The histidine kinases of Candida albicans: regulation of cell wall mannan biosynthesis. FEMS Yeast Res 4: 409416.
  • Lagorce A, Hauser NC, Labourdette D, Rodriguez C, Martin-Yken H, Arroyo J, Hoheisel JD & François J (2003) Genome-wide analysis of the response to cell wall mutations in the yeast Saccharomyces cerevisiae. J Biol Chem 278: 2034520357.
  • Lipke PN & Ovalle R (1998) Cell wall architecture in yeast: new structure and new challenges. J Bacteriol 180: 37353740.
  • Marcilla A, Elorza MV, Mormeneo S, Rico H & Sentandreu R (1991) Candida albicans mycelial wall structure: supramolecular complexes released by zymolyase, chitinase and β-mercaptoethanol. Arch Microbiol 155: 312319.
  • Martinez AI, Castillo L, Garcerá A, Elorza MV, Valentin E & Sentandreu R (2004) Role of Pir1 in the construction of the Candida albicans cell wall. Microbiology 150: 31513161.
  • Martinez-Lopez R, Monteoliva L, Diez-Orejas R, Nombela C & Gil C (2004) The GPI-anchored protein CaEcm33p is required for cell wall integrity, morphogenesis and virulence in Candida albicans. Microbiology 150: 33413354.
  • Matthews R, Wells C & Burnie JP (1988) Characterisation and cellular localisation of the immunodominant 47-Kda antigen of Candida albicans. J Med Microbiol 27: 227232.
  • Moukadiri I & Zueco J (2001) Evidence for the attachment of Hsp150/Pir2 to the cell wall of Saccharomyces cerevisiae through disulfide bridges. FEMS Yeast Res 1: 241245.
  • Mio T, Yabe T, Sudoh M, Satoh Y, Nakajima T, Arisawa M & Yamada-Okabe H (1996) Role of three chitin synthase genes in the growth of Candida albicans. J Bacteriol 178: 24162419.
  • Mio T, Adachi-Shimizu M, Tachibana Y, Tabuchi H, Inoue SB, Yabe T, Yamada-Okabe T, Arisawa M, Watanabe T & Yamada-Okabe H (1997a) Cloning of the Candida albicans homolog of Saccharomyces cerevisiaeGSC1/FKS1 and its involvement in β-1,3-glucan synthesis. J Bacteriol 179: 40964105.
  • Mio T, Yamada-Okabe T, Yabe T, Nakajima T, Arisawa M & Yamada-Okabe H (1997b) Isolation of the Candida albicans homologs of Saccharomyces cerevisiaeKRE6 and SKN1: expression and physiological function. J Bacteriol 179: 23632372.
  • Mille C, Janbon G, Delplace F, Ibata-Ombetta S, Gaillardin C, Strecker G, Jouault T, Trinel PA & Poulain D (2004) Inactivation of camit1 inhibits Candida albicans phospholipomannan β-mannosylation, reduces virulence, and alters cell wall protein β-mannosylation. J Biol Chem 279: 4795247960.
  • Mouyna I, Fontaine T, Vai M, Monod M, Fonzi WA, Diaquin M, Popolo L, Hartland RP & Latge JP (2000) Glycosylphosphatidylinositol-anchored glucanosyltransferases play an active role in the biosynthesis of the fungal cell wall. J Biol Chem 275: 1488214889.
  • Muhlschlegel F & Fonzi WA (1997) PHR2 of Candida albicans encodes a functional homolog of the ph-regulated gene PHR1 with an inverted pattern of pH-dependent expression. Mol Cell Biol 17: 59605967.
  • Munro CA, et al. (2005) Mnt1p and Mnt2p of Candida albicans are partially redundant α-1,2-mannosyltransferases that participate in O-linked mannosylation and are required for adhesion and virulence. J Biol Chem 280: 10511060.
  • Nakagawa Y, Ohno N & Murai T (2003) Suppression by Candida albicansβ-glucan of cytokine release from activated human monocytes and from T cells in the presence of monocytes. J Infect Dis 187: 710713.
  • Navarro-Garcia F, Monge AR, Rico H, Pla J, Sentandreu R & Nombela C (1998) A role for the MAP kinase gene MKC1 in cell wall construction and morphological transitions in Candida albicans. Microbiology 144: 411424.
  • Nuoffer C, Horvath A & Riezman H (1993) Analysis of the sequence requirements for glycosylphosphatidylinositol anchoring of Saccharomyces cerevisiae Gas1 protein. J Biol Chem 268: 1055810563.
  • Orlean P (1997) Biogenesis of yeast wall and surface components. The molecular and cellular biology of the yeast Saccharomyces cerevisiae Vol. 3 (PringleJR, BroachJR & JonesEW, eds), pp. 229362. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY.
  • Pedreño Y, Maicas S, Arguelles JC, Sentandreu R & Valentin E (2004) The ATC1 gene encodes a cell wall-linked acid trehalase required for growth on trehalose in Candida albicans. J Biol Chem 279: 4085240860.
  • Pitarch A, Sanchez M, Nombela C & Gil C (2002) Sequential fractionation and two-dimensional gel analysis unravels the complexity of the dimorphic fungus Candida albicans cell wall proteome. Mol Cell Proteomics 1: 967982.
  • Poulain D, Tronchin G, Dubremetz JF & Biguet J (1978) Ultrastructure of the cell wall of Candida albicans blastospores: study of its constitutive layers by the use of a cytochemical technique revealing polysaccharides. Ann Microbiol 129: 141145.
  • Poulain D & Jouault T (2004) Candida albicans cell wall glycans, host receptors and responses: elements for a decisive crosstalk. Curr Opin Microbiol 7: 342349.
  • Qadota H, Python CP, Inoue SB, Arisawa M, Anraku Y, Zheng Y, Watanabe T, Levin DE & Ohya Y (1996) Identification of yeast Rho1p GTPase as a regulatory subunit of β 1,3-glucan synthase. Science 272: 279281.
  • Ruiz-Herrera J & Ruiz-Medrano R (2004) Chitin biosynthesis in fungi. Handbook of Fungal Biotechnology. 2nd Ed (AroraPK, ed.), pp. 315330. Marcel Dekker, New York, NY.
  • Ruiz-Herrera J & San-Blas G (2003) Chitin synthesis as a target for antifungal drugs. Curr Drug Targets-Infect Disord 3: 7791.
  • Ruiz-Herrera J, Elorza MV, Alvarez PE & Sentandreu R (2004) Synthesis of the fungal cell wall. Pathogenic Fungi: Structural Biology and Taxonomy (San-BlasG & CalderoneR, eds), pp. 4199. Caister Academic Press, Wymondham, UK.
  • Sarthy AV, McGonigal T, Coen M, Frost DJ, Meulbroek JA & Goldman RC (1997) Phenotype in Candida albicans of a disruption of the BGL2 gene encoding a 1,3-β-glucosyltransferase. Microbiology 143: 367376.
  • Schimoler-O'Rourke R, Renault S, Mo W & Selitrennikoff CP (2003) Neurospora crassa FKS protein binds to the (1,3-) β-glucan synthase substrate, UDP-glucose. Curr Microbiol 46: 408412.
  • Schorr M, Then A, Tahirovic S, Hug N & Mayinger P (2001) The phosphoinositide phosphatase Sac1p controls trafficking of the yeast Chs3p chitin synthase. Curr Biol 11: 14211426.
  • Sentandreu R, Elorza MV, Valentín E & Ruiz-Herrera J (2004) The structure and composition of the fungal cell wall. Pathogenic Fungi: Structural Biology and Taxonomy (San-BlasG & CalderoneR, eds), pp. 339. Caister Academic Press, Wymondham, UK.
  • Shahinian S & Bussey H (2000) β-1,6-Glucan synthesis in Saccharomyces cerevisiae. Mol Microbiol 35: 477489.
  • Sheppard DC, Yeaman MR, Welch WH, Phan QT, Fu Y, Ibrahim AS, Filler SG, Zhang M, Waring AJ & Edwards JE Jr. (2004) Functional and structural diversity in the Als protein family of Candida albicans. J Biol Chem 279: 3048030489.
  • Sipos G, Puoti A & Conzelmann A (1995) Biosynthesis of the side chain of yeast glycosylphosphatidylinositol anchors is operated by novel mannosyltransferases located in the endoplasmic reticulum and the Golgi apparatus. J Biol Chem 270: 1970919715.
  • Smith SE, Csank C, Reyes G, Ghannoum MA & Berlin V (2002) Candida albicans RHO1 is required for cell viability in vitro and in vivo. FEMS Yeast Res 2: 103111.
  • Spreghini E, Davis DA, Subaran R, Kim M & Mitchell AP (2003) Roles of Candida albicans Dfg5p and Dcw1p cell surface proteins in growth and hypha formation. Eukaryot Cell 2: 746755.
  • Sundstrom P (2002) Adhesion in Candida spp. Cell Microbiol 4: 461469.
  • Sundstrom PM, Tam MR, Nichols EJ & Kenny GE (1988) Antigenic differences in the surface mannoproteins of Candida albicans as revealed by monoclonal antibodies. Infect Immun 56: 601620.
  • Surarit R, Gopal PK & Shepherd MG (1988) Evidence for a glycosidic linkage between chitin and glucan in the cell wall of Candida albicans. J Gen Microbiol 134: 17231730.
  • Toh-e A, Yasunaga S, Nisogi H, Tanaka K, Oguchi T & Matsui Y (1993) Three yeast genes, PIR1, PIR2 and PIR3, containing internal tandem repeats, are related to each other, and PIR1 and PIR2 are required for tolerance to heat shock. Yeast 9: 481494.
  • Tokunaga M, Niimi M, Kusamichi M & Koike H (1990) Initial attachment of Candida albicans cells to buccal epithelial cells. Demonstration of ultrastructure with the rapid-freezing technique. Mycopathologia 111: 6168.
  • Udenfriend S & Kodukula K (1995) How glycosylphosphatidylinositol-anchored membrane proteins are made. Annu Rev Biochem 64: 563591.
  • Weig M, Jansch L, Gross U, De Koster CG, Klis FM & De Groot PW (2004) Systematic identification in silico of covalently bound cell wall proteins and analysis of protein-polysaccharide linkages of the human pathogen Candida glabrata. Microbiology 150: 31293144.