Fungal Proteins (pharmacology) < Fungal Proteins (physiology) < Fungal Proteins (toxicity)

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List of bibliographic references indexed by Fungal Proteins (physiology)

Number of relevant bibliographic references: 20.

Ident.	Authors (with country if any)	Title
001378 (2010)	Wei Liu [République populaire de Chine] ; Jingwen Zhao ; Xichuan Li ; Yunxiang Li ; Linghuo Jiang	The protein kinase CaSch9p is required for the cell growth, filamentation and virulence in the human fungal pathogen Candida albicans.
001487 (2009)	Heber Gamboa Meléndez [France] ; Geneviève Billon-Grand ; Michel Fèvre ; Géraldine Mey	Role of the Botrytis cinerea FKBP12 ortholog in pathogenic development and in sulfur regulation.
001636 (2008)	Wei-Li Liao [États-Unis] ; Ana M. Ram N ; William A. Fonzi	GLN3 encodes a global regulator of nitrogen metabolism and virulence of C. albicans.
001866 (2004)	R. Weisman [Israël]	The fission yeast TOR proteins and the rapamycin response: an unexpected tale.
001945 (2003)	John C. Panepinto [États-Unis] ; Brian G. Oliver ; Jarrod R. Fortwendel ; Darcey L H. Smith ; David S. Askew ; Judith C. Rhodes	Deletion of the Aspergillus fumigatus gene encoding the Ras-related protein RhbA reduces virulence in a model of Invasive pulmonary aspergillosis.
001979 (2002)	Jennifer J. Tate [États-Unis] ; Kathleen H. Cox ; Rajendra Rai ; Terrance G. Cooper	Mks1p is required for negative regulation of retrograde gene expression in Saccharomyces cerevisiae but does not affect nitrogen catabolite repression-sensitive gene expression.
001986 (2002)	José L. Crespo [Suisse] ; Michael N. Hall	Elucidating TOR signaling and rapamycin action: lessons from Saccharomyces cerevisiae.
001995 (2001)	R. Weisman [Israël] ; M. Choder	The fission yeast TOR homolog, tor1+, is required for the response to starvation and other stresses via a conserved serine.
001999 (2001)	L. Valenzuela [Mexique] ; C. Aranda ; A. González	TOR modulates GCN4-dependent expression of genes turned on by nitrogen limitation.
001A13 (2001)	M. Kawai [Japon] ; A. Nakashima ; M. Ueno ; T. Ushimaru ; K. Aiba ; H. Doi ; M. Uritani	Fission yeast tor1 functions in response to various stresses including nitrogen starvation, high osmolarity, and high temperature.
001A24 (2001)	G P Van Heusden [Pays-Bas] ; H Y Steensma	14-3-3 Proteins are essential for regulation of RTG3-dependent transcription in Saccharomyces cerevisiae.
001A30 (2000)	J H Choi [États-Unis] ; N R Adames ; T F Chan ; C. Zeng ; J A Cooper ; X F Zheng	TOR signaling regulates microtubule structure and function.
001A34 (2000)	S. Oldham [Suisse] ; J. Montagne ; T. Radimerski ; G. Thomas ; E. Hafen	Genetic and biochemical characterization of dTOR, the Drosophila homolog of the target of rapamycin.
001A66 (1998)	P G Bertram [États-Unis] ; C. Zeng ; J. Thorson ; A S Shaw ; X F Zheng	The 14-3-3 proteins positively regulate rapamycin-sensitive signaling.
001A73 (1998)	R T Abraham [États-Unis]	Mammalian target of rapamycin: immunosuppressive drugs uncover a novel pathway of cytokine receptor signaling.
001A78 (1997)	X F Zheng [États-Unis] ; S L Schreiber	Target of rapamycin proteins and their kinase activities are required for meiosis.
001A80 (1997)	R. Weisman [Israël] ; M. Choder ; Y. Koltin	Rapamycin specifically interferes with the developmental response of fission yeast to starvation.
001A95 (1996)	N C Barbet [Suisse] ; U. Schneider ; S B Helliwell ; I. Stansfield ; M F Tuite ; M N Hall	TOR controls translation initiation and early G1 progression in yeast.
001A98 (1996)	C M Alarcon [États-Unis] ; M E Cardenas ; J. Heitman	Mammalian RAFT1 kinase domain provides rapamycin-sensitive TOR function in yeast.
001B16 (1995)	G J Wiederrecht [États-Unis] ; C J Sabers ; G J Brunn ; M M Martin ; F J Dumont ; R T Abraham	Mechanism of action of rapamycin: new insights into the regulation of G1-phase progression in eukaryotic cells.

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