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Biotechnol Adv


Title:Sensing and transduction of nutritional and chemical signals in filamentous fungi: Impact on cell development and secondary metabolites biosynthesis
Author(s):Martin JF; van den Berg MA; Ver Loren van Themaat E; Liras P;
Address:"Department of Molecular Biology, University of Leon, Leon, Spain. Electronic address: jf.martin@unileon.es. DSM Biotechnology Center, Alexander Fleminglaan 1, 2613 AX Delft, The Netherlands. Department of Molecular Biology, University of Leon, Leon, Spain"
Journal Title:Biotechnol Adv
Year:2019
Volume:20190426
Issue:6
Page Number:107392 -
DOI: 10.1016/j.biotechadv.2019.04.014
ISSN/ISBN:1873-1899 (Electronic) 0734-9750 (Linking)
Abstract:"Filamentous fungi respond to hundreds of nutritional, chemical and environmental signals that affect expression of primary metabolism and biosynthesis of secondary metabolites. These signals are sensed at the membrane level by G protein coupled receptors (GPCRs). GPCRs contain usually seven transmembrane domains, an external amino terminal fragment that interacts with the ligand, and an internal carboxy terminal end interacting with the intracellular G protein. There is a great variety of GPCRs in filamentous fungi involved in sensing of sugars, amino acids, cellulose, cell-wall components, sex pheromones, oxylipins, calcium ions and other ligands. Mechanisms of signal transduction at the membrane level by GPCRs are discussed, including the internalization and compartmentalisation of these sensor proteins. We have identified and analysed the GPCRs in the genome of Penicillium chrysogenum and compared them with GPCRs of several other filamentous fungi. We have found 66 GPCRs classified into 14 classes, depending on the ligand recognized by these proteins, including most previously proposed classes of GPCRs. We have found 66 putative GPCRs, representatives of twelve of the fourteen previously proposed classes of GPCRs, depending on the ligand recognized by these proteins. A staggering fortytwo putative members of the new GPCR class XIV, the so-called Pth11 sensors of cellulosic material as reported for Neurospora crassa and some other fungi, were identified. Several GPCRs sensing sex pheromones, known in yeast and in several fungi, were also identified in P.?ª+chrysogenum, confirming the recent unravelling of the hidden sexual capacity of this species. Other sensing mechanisms do not involve GPCRs, including the two-component systems (HKRR), the HOG signalling system and the PalH mediated pH transduction sensor. GPCR sensor proteins transmit their signals by interacting with intracellular heterotrimeric G proteins, that are well known in several fungi, including P.?ª+chrysogenum. These G proteins are inactive in the GDP containing heterotrimeric state, and become active by nucleotide exchange, allowing the separation of the heterotrimeric protein in active Galpha and Gbetagamma dimer subunits. The conversion of GTP in GDP is mediated by the endogenous GTPase activity of the G proteins. Downstream of the ligand interaction, the activated Galpha protein and also the Gbeta/Ggamma dimer, transduce the signals through at least three different cascades: adenylate cyclase/cAMP, MAPK kinase, and phospholipase C mediated pathways"
Keywords:"Fungi Receptors, G-Protein-Coupled *Secondary Metabolism Signal Transduction Amino acid sensors Ascomycetes Cell wall components sensing Downstream cascade Filamentous fungi Functional analysis G protein coupled receptors (GPCRs) G proteins activation GPC;"
Notes:"MedlineMartin, J F van den Berg, M A Ver Loren van Themaat, E Liras, P eng Review England 2019/04/30 Biotechnol Adv. 2019 Nov 1; 37(6):107392. doi: 10.1016/j.biotechadv.2019.04.014. Epub 2019 Apr 26"

 
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