Choline: its role in the growth of filamentous fungi and the regulation of mycelial morphology

Choline: its role in the growth of filamentous fungi and the regulation of mycelial morphology

Choline is an essential metabolite for the growth of filamentous fungi. It occurs most notably as a component of the major membrane phospholipid, phosphatidyl choline (lecithin), and fulfills a major role in sulphate metabolism in the form of choline-o-sulphate in many species. Choline is usually sy...

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Bibliographic Details
Published in:FEMS microbiology reviews Vol. 10; no. 3-4; pp. 287 - 300
Main Authors: Markham, P, Robson, G D, Bainbridge, B W, Trinci, A P
Format: Journal Article
Language:English
Published: England 01-04-1993
Subjects:
Cell Membrane - physiology
Choline - pharmacology
Choline - physiology
Fungi - cytology
Fungi - drug effects
Fungi - growth & development
Sulfates - metabolism
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Summary:Choline is an essential metabolite for the growth of filamentous fungi. It occurs most notably as a component of the major membrane phospholipid, phosphatidyl choline (lecithin), and fulfills a major role in sulphate metabolism in the form of choline-o-sulphate in many species. Choline is usually synthesised endogenously, but exogenous choline can also be taken up, either to compensate for metabolic deficiencies in choline-requiring mutants such as those of Aspergillus nidulans and Neurospora crassa, or as a normal function by species such as Fusarium graminearum which do not require added choline for growth. F. graminearum has a highly specific constitutive uptake system for this purpose. Recent studies have begun to indicate that choline also plays an important role in hyphal and mycelial morphology. Over a wide range of concentrations, choline influences mycelial morphology, apparently by controlling branch initiation. At high concentrations of added choline, branching is inhibited but specific growth rate is unaffected, leading to the production of rapidly extending, sparsely branched mycelia. Reduction of choline concentration allows a progressive increase in branching. Additionally, in choline-requiring mutants which have a very reduced content of choline, multiple tip-formation and apical branching occurs. Just prior to cessation of growth in choline-starved cultures of A. nidulans choline-requiring mutants, hyphal morphology changes due to a brief phase of unpolarised growth to produce spherical swellings called balloons, at or near hyphal apices. The precise mechanism by which choline affects fungal morphology is not yet known, although in A. nidulans it appears to be at least partially due to the influence of membrane composition on the synthesis of the hyphal wall polymer chitin. Several hypotheses for the possible mode of action of choline in affecting fungal morphology are discussed here.
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ISSN:0168-6445
DOI:10.1111/j.1574-6968.1993.tb05872.x