Contrôle de l'action physiologique des oestrogènes : expression du récepteur des oestrogènes alpha et régulation de son activité

Rocha, Walter

January 2005

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Récepteur des oestrogènes

Inhibiteurs des HDAC

Striatin

Activation non génomique des MAPK

Functional analysis of STRIPAK complex components in the filamentous ascomycete Sordaria macrospora

Reschka, Eva, Johanna

18 October 2017

No description available.

570

Sordaria macrospora

striatin

fruiting body development

cell fusion

SCI1

Biologie (PPN619462639)

Assessing the Roles of Striatin Orthologs in Fungal Morphogenesis, Sexual Development and Pathogenicity

Wang, Chih-Li

2011 August 1900

Striatin family proteins contain a caveolin binding domain, a coiled-coil motif, a calmodulin binding domain, and a WD-repeat domain. Homologs of striatin protein have been However, our knowledge of the function and the molecular mechanism of fungal striatin homologs is limited. Based on the conserved sequences of functional domains, I hypothesized that the fungal striatin orthologs also act as scaffolding proteins that are functionally conserved among fungal species and involved in multiple types of development in the diverse kingdom Mycota. I used reverse genetic strategies to study the function of the Aspergillus nidulans striatin ortholog (strA) and the Colletotrichum graminicola striatin ortholog (str1). In assays of sexual development, the strA deletion strain (ΔstrA) produces fewer ascospores with smaller cleistothecia, while the str1 deletion strain (Δstr1) is defective in perithecia development. The ΔstrA phenotypes indicate that StrA is associated with ascosporogenesis in cleistothecia. Both ΔstrA and Δstr1 are reduced in radial growth and in conidia production. The Δstr1 strain is also altered in its spiral growth pattern and morphology of conidia and hyphopodia, but it produces appressoria similar to wild type. The pairing of nitrate non-utilizing mutants demonstrates that Str1 is required for hyphal fusion. In pathogenicity, Δstr1 is less virulent in maize anthracnose leaf blight and stalk rot. The phenotypes of Δstr1 are complemented by the Fusarium verticillioides striatin ortholog (fsr1), indicating that Fsr1 and Str1 are functionally conserved. Over-expression of StrA reveals its positive role in conidiation and the sexual production. StrA::eGFP localizes mainly to the endoplasmic reticulum. After comparing the results from these two species and other studied fungal species, I suggest that fungal striatins are involved in five types of development including hyphal growth, hyphal fusion, conidiation, sexual development, and virulence, and propose a model of fungal striatin protein interactions to account for these diverse phenotypes.

Fungal striatin

Aspergillus nidulans

StrA

Colletotrichum graminicola

Str1

Sexual development

Virulence

Hyphal fusion

Conidiation

Hyphal growth

Lifeact

Actin

Untersuchung der Fruchtkörperentwicklung bei dem Hyphenpilz Sordaria macrospora / Analysis of fruiting-body development of the filamentous fungus Sordaria macrospora

Bernhards, Yasmine

28 October 2010

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

Filamentöse Ascomyceten

Sordaria macrospora

Fruchtkörperentwicklung

Hyphenfusion

Striatin

Phocein/Mob3

Signaltransduktion

filamentous ascomycetes

Sordaria macrospora

fruiting-body development

hyphal fusion

striatin

phocein/Mob3

signal transduction

42.13 Molekularbiologie

42.15 Zellbiologie

42.30 Mikrobiologie