Global Analysis of Predicted G Protein-Coupled Receptor Genes in the Filamentous Fungus, Neurospora Crassa

Overview

Journal G3 (Bethesda)

Publisher Oxford University Press

Specialties Genetics
Molecular Biology

Date 2015 Oct 15

PMID 26464358

Citations 24

Authors

Ilva E Cabrera

Itallia V Pacentine

Andrew Lim

Nayeli Guerrero

Svetlana Krystofova

Liande Li

Alexander V Michkov

Jacqueline A Servin

Steven R Ahrendt

Alexander J Carrillo

Liza M Davidson

Andrew H Barsoum

Jackie Cao

Ronald Castillo

Wan-Ching Chen

Alex Dinkchian

Stephanie Kim

Sho M Kitada

Taffani H Lai

Ashley Mach

Cristin Malekyan

Toua R Moua

Carlos Rojas Torres

Alaina Yamamoto

Katherine A Borkovich

Affiliations

Soon will be listed here.

Abstract

G protein-coupled receptors (GPCRs) regulate facets of growth, development, and environmental sensing in eukaryotes, including filamentous fungi. The largest predicted GPCR class in these organisms is the Pth11-related, with members similar to a protein required for disease in the plant pathogen Magnaporthe oryzae. However, the Pth11-related class has not been functionally studied in any filamentous fungal species. Here, we analyze phenotypes in available mutants for 36 GPCR genes, including 20 Pth11-related, in the model filamentous fungus Neurospora crassa. We also investigate patterns of gene expression for all 43 predicted GPCR genes in available datasets. A total of 17 mutants (47%) possessed at least one growth or developmental phenotype. We identified 18 mutants (56%) with chemical sensitivity or nutritional phenotypes (11 uniquely), bringing the total number of mutants with at least one defect to 28 (78%), including 15 mutants (75%) in the Pth11-related class. Gene expression trends for GPCR genes correlated with the phenotypes observed for many mutants and also suggested overlapping functions for several groups of co-transcribed genes. Several members of the Pth11-related class have phenotypes and/or are differentially expressed on cellulose, suggesting a possible role for this gene family in plant cell wall sensing or utilization.

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