Nicole Nolting scite author profile

SummaryThe MADS box protein MCM1 controls diverse developmental processes and is essential for fruiting body formation in the homothallic ascomycete Sordaria macrospora. MADS box proteins derive their regulatory specificity from a wide range of different protein interactions. We have recently shown that the S. macrospora MCM1 is able to interact with the alpha-domain mating-type protein SMTA-1. To further evaluate the functional roles of MCM1, we used the yeast two-hybrid approach to identify MCM1-interacting proteins. From this screen, we isolated a protein with a putative N-terminal homeodomain and C-terminal C 2/H2-Zn 2+ finger domains. The protein is a member of the highly conserved fungal STE12 transcription factor family of proteins and was therefore termed STE12. Furthermore, we demonstrate by means of two-hybrid and far western analysis that in addition to MCM1, the S. macrospora STE12 protein is able to interact with the mating-type protein SMTA-1. Unlike the situation in the closely related heterothallic ascomycete Neurospora crassa, deletion (D) of the ste12 gene in S. macrospora neither affects vegetative growth nor fruiting body formation. However, ascus and ascospore development are highly impaired by the Dste12 mutation. Our data provide another example of the functional divergence within the fungal STE12 transcription factor family.

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A MADS Box Protein Interacts with a Mating-Type Protein and Is Required for Fruiting Body Development in the Homothallic Ascomycete Sordaria macrospora

Nolting

Pöggeler

2006

Eukaryot Cell

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MADS box transcription factors control diverse developmental processes in plants, metazoans, and fungi.To analyze the involvement of MADS box proteins in fruiting body development of filamentous ascomycetes, we isolated the mcm1 gene from the homothallic ascomycete Sordaria macrospora, which encodes a putative homologue of the Saccharomyces cerevisiae MADS box protein Mcm1p. Deletion of the S. macrospora mcm1 gene resulted in reduced biomass, increased hyphal branching, and reduced hyphal compartment length during vegetative growth. Furthermore, the S. macrospora ⌬mcm1 strain was unable to produce fruiting bodies or ascospores during sexual development. A yeast two-hybrid analysis in conjugation with in vitro analyses demonstrated that the S. macrospora MCM1 protein can interact with the putative transcription factor SMTA-1, encoded by the S. macrospora mating-type locus. These results suggest that the S. macrospora MCM1 protein is involved in the transcriptional regulation of mating-type-specific genes as well as in fruiting body development.

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Protein splicing of PRP8 mini-inteins from species of the genus Penicillium

Elleuche

Nolting

Pöggeler

2006

Appl Microbiol Biotechnol

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Inteins are protein-intervening sequences found inside the coding region of different host proteins and are translated in-frame with them. They can self-excise through protein splicing, which ligates the host protein flanks with a peptide bond. In this study, four different species of the genus Penicillium were investigated for the presence of inteins inside the conserved splicing-factor protein PRP8. We identified 157 to 162 amino acid in-frame insertions in the PRP8 protein of Penicillium chrysogenum, Penicillium expansum, and Penicillium vulpinum (formerly Penicillium claviforme). The Penicillium PRP8 inteins are mini-inteins without a conserved endonuclease domain. We demonstrated that the PRP8 mini-inteins of P. chrysogenum, P. expansum, and P. vulpinum undergo autocatalytic protein splicing when heterologously expressed in E. coli, in a model host protein, and in a divided GFP model system. They are, thus, among the smallest known nuclear-encoded, active splicing protein elements. The GFP assay should be valuable as a screening system for protein splicing inhibitors as potential antimycotic agents and as tools for studying the mechanism of protein splicing of fungal mini-inteins.

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SmATG7 is required for viability in the homothallic ascomycete Sordaria macrospora

Nolting

Bernhards

Pöggeler

2009

Fungal Genetics and Biology

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Nicole Nolting

Sordaria macrospora, a Model System for Fungal Development

A STE12 homologue of the homothallic ascomycete Sordaria macrospora interacts with the MADS box protein MCM1 and is required for ascosporogenesis

A MADS Box Protein Interacts with a Mating-Type Protein and Is Required for Fruiting Body Development in the Homothallic Ascomycete Sordaria macrospora

Protein splicing of PRP8 mini-inteins from species of the genus Penicillium

SmATG7 is required for viability in the homothallic ascomycete Sordaria macrospora

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