Krisztina Kolláth-Leiß scite author profile

The bud emergence (BEM)46 proteins are evolutionarily conserved members of the alpha/beta-hydrolase super family, but their exact role remains unknown. To better understand the cellular role of BEM46 and its homologs, we used the model organism Neurospora crassa in conjunction with bem46 RNAi, over-expression vectors, and repeat induced point mutation analyzes. We clearly demonstrated that BEM46 is required for cell type-specific hyphal growth, which indicates a role for BEM46 in maintaining polarity. Vegetative hyphae, perithecia, and ascospores developed normally, but hyphae germinating from ascospores exhibited a loss-of-polarity phenotype. We also found that the BEM46 protein is targeted to the perinuclear endoplasmic reticulum (ER) and also localizes at or close to the plasma membrane. Our findings show that BEM46 can be used as a new ER marker for filamentous fungi, the first for N. crassa. Our data suggest that BEM46 plays a role in a signal transduction pathway involved in determining or maintaining cell type-specific polarity. This implies a higher degree of fungal hyphae differentiation than previously expected. This work also has implications for higher eukaryotic cells with polarized growth, such as pollen tubes or neuronal cells.

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BEM46 Shows Eisosomal Localization and Association with Tryptophan-Derived Auxin Pathway in Neurospora crassa

Kolláth-Leiß

Bönniger

Sardar

et al. 2014

Eukaryot Cell

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BEM46 proteins are evolutionarily conserved, but their functions remain elusive. We reported previously that the BEM46 protein in Neurospora crassa is targeted to the endoplasmic reticulum (ER) and is essential for ascospore germination. In the present study, we established a bem46 knockout strain of N. crassa. This ⌬bem46 mutant exhibited a level of ascospore germination lower than that of the wild type but much higher than those of the previously characterized bem46-overexpressing and RNA interference (RNAi) lines. Reinvestigation of the RNAi transformants revealed two types of alternatively spliced bem46 mRNA; expression of either type led to a loss of ascospore germination. Our results indicated that the phenotype was not due to bem46 mRNA downregulation or loss but was caused by the alternatively spliced mRNAs and the peptides they encoded. Using the N. crassa ortholog of the eisosomal protein PILA from Aspergillus nidulans, we further demonstrated the colocalization of BEM46 with eisosomes. Employing the yeast two-hybrid system, we identified a single interaction partner: anthranilate synthase component II (encoded by trp-1). This interaction was confirmed in vivo by a split-YFP (yellow fluorescent protein) approach. The ⌬trp-1 mutant showed reduced ascospore germination and increased indole production, and we used bioinformatic tools to identify a putative auxin biosynthetic pathway. The genes involved exhibited various levels of transcriptional regulation in the different bem46 transformant and mutant strains. We also investigated the indole production of the strains in different developmental stages. Our findings suggested that the regulation of indole biosynthesis genes was influenced by bem46 overexpression. Furthermore, we uncovered evidence of colocalization of BEM46 with the neutral amino acid transporter MTR.

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Characterization of bud emergence 46 (BEM46) protein: Sequence, structural, phylogenetic and subcellular localization analyses

Kumar

Kolláth-Leiß

Kempken

2013

Biochemical and Biophysical Research Communications

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The Fungal MCC/Eisosome Complex: An Unfolding Story

Kolláth-Leiß

Kempken

2018

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Complementation of an Eisosomal Yeast pil1 Mutant and Characteristics of Eisosomal Distribution in Hyphae of Neurospora crassa Germinating from Two Different Spore Types

Kolláth-Leiß

Qin

Winter

et al. 2023

JoF

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Eisosomes are plasma-membrane-associated protein complexes of fungi and algae involved in various cellular processes. The eisosome composition of the budding yeast is well described, but there is a limited number of studies only about eisosomes in filamentous fungi. In our study, we examined the Neurospora crassa LSP-1 protein (NcLSP1). By complementing a Saccharomyces cerevisiae Δpil1 mutant strain with nclsp1, we show the functional homology of the NcLSP1 to yeast PIL1 rather than to yeast LSP1 and hereby confirm that the NcLSP1 is an eisosomal core protein and suitable eisosomal marker. The subsequent cloning and expression of the nclsp1::trfp reporter gene construct in N. crassa allowed for a systematical investigation of the characteristics of eisosome formation and distribution in different developmental stages. In N. crassa, the hyphae germinating from sexual and asexual spores are morphologically identical and have been historically recognized as the same type of cells. Here, we demonstrate the structural differences on the cellular level between the hyphae germinating from sexual and asexual spores.

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