Systems-level organization of yeast methylotrophic lifestyle View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2015-12

AUTHORS

Hannes Rußmayer, Markus Buchetics, Clemens Gruber, Minoska Valli, Karlheinz Grillitsch, Gerda Modarres, Raffaele Guerrasio, Kristaps Klavins, Stefan Neubauer, Hedda Drexler, Matthias Steiger, Christina Troyer, Ali Al Chalabi, Guido Krebiehl, Denise Sonntag, Günther Zellnig, Günther Daum, Alexandra B. Graf, Friedrich Altmann, Gunda Koellensperger, Stephan Hann, Michael Sauer, Diethard Mattanovich, Brigitte Gasser

ABSTRACT

BACKGROUND: Some yeasts have evolved a methylotrophic lifestyle enabling them to utilize the single carbon compound methanol as a carbon and energy source. Among them, Pichia pastoris (syn. Komagataella sp.) is frequently used for the production of heterologous proteins and also serves as a model organism for organelle research. Our current knowledge of methylotrophic lifestyle mainly derives from sophisticated biochemical studies which identified many key methanol utilization enzymes such as alcohol oxidase and dihydroxyacetone synthase and their localization to the peroxisomes. C1 assimilation is supposed to involve the pentose phosphate pathway, but details of these reactions are not known to date. RESULTS: In this work we analyzed the regulation patterns of 5,354 genes, 575 proteins, 141 metabolites, and fluxes through 39 reactions of P. pastoris comparing growth on glucose and on a methanol/glycerol mixed medium, respectively. Contrary to previous assumptions, we found that the entire methanol assimilation pathway is localized to peroxisomes rather than employing part of the cytosolic pentose phosphate pathway for xylulose-5-phosphate regeneration. For this purpose, P. pastoris (and presumably also other methylotrophic yeasts) have evolved a duplicated methanol inducible enzyme set targeted to peroxisomes. This compartmentalized cyclic C1 assimilation process termed xylose-monophosphate cycle resembles the principle of the Calvin cycle and uses sedoheptulose-1,7-bisphosphate as intermediate. The strong induction of alcohol oxidase, dihydroxyacetone synthase, formaldehyde and formate dehydrogenase, and catalase leads to high demand of their cofactors riboflavin, thiamine, nicotinamide, and heme, respectively, which is reflected in strong up-regulation of the respective synthesis pathways on methanol. Methanol-grown cells have a higher protein but lower free amino acid content, which can be attributed to the high drain towards methanol metabolic enzymes and their cofactors. In context with up-regulation of many amino acid biosynthesis genes or proteins, this visualizes an increased flux towards amino acid and protein synthesis which is reflected also in increased levels of transcripts and/or proteins related to ribosome biogenesis and translation. CONCLUSIONS: Taken together, our work illustrates how concerted interpretation of multiple levels of systems biology data can contribute to elucidation of yet unknown cellular pathways and revolutionize our understanding of cellular biology. More... »

PAGES

80

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  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1186/s12915-015-0186-5

    DOI

    http://dx.doi.org/10.1186/s12915-015-0186-5

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1006576887

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/26400155


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