Systems-level organization of yeast methylotrophic lifestyle

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Systems-level organization of yeast methylotrophic lifestyle. / Rußmayer, Hannes; Buchetics, Markus; Gruber, Clemens et al.
in: BMC biology, Jahrgang 13.2015, Nr. 1, 80, 23.09.2015.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Rußmayer, H, Buchetics, M, Gruber, C, Valli, M, Grillitsch, K, Modarres, G, Guerrasio, R, Klavins, K, Neubauer, S, Drexler, H, Steiger, MG, Troyer, C, Al Chalabi, A, Krebiehl, G, Sonntag, D, Zellnig, G, Daum, G, Graf, AB, Altmann, F, Koellensperger, G, Hann, S, Sauer, M, Mattanovich, D & Gasser, B 2015, 'Systems-level organization of yeast methylotrophic lifestyle', BMC biology, Jg. 13.2015, Nr. 1, 80. https://doi.org/10.1186/s12915-015-0186-5

APA

Rußmayer, H., Buchetics, M., Gruber, C., Valli, M., Grillitsch, K., Modarres, G., Guerrasio, R., Klavins, K., Neubauer, S., Drexler, H., Steiger, M. G., Troyer, C., Al Chalabi, A., Krebiehl, G., Sonntag, D., Zellnig, G., Daum, G., Graf, A. B., Altmann, F., ... Gasser, B. (2015). Systems-level organization of yeast methylotrophic lifestyle. BMC biology, 13.2015(1), Artikel 80. https://doi.org/10.1186/s12915-015-0186-5

Vancouver

Rußmayer H, Buchetics M, Gruber C, Valli M, Grillitsch K, Modarres G et al. Systems-level organization of yeast methylotrophic lifestyle. BMC biology. 2015 Sep 23;13.2015(1):80. doi: 10.1186/s12915-015-0186-5

Author

Rußmayer, Hannes ; Buchetics, Markus ; Gruber, Clemens et al. / Systems-level organization of yeast methylotrophic lifestyle. in: BMC biology. 2015 ; Jahrgang 13.2015, Nr. 1.

Bibtex - Download

@article{5e15b18b99a046d998f6dbf3a3113b68,
title = "Systems-level organization of yeast methylotrophic lifestyle",
abstract = "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.",
keywords = "Metabolome, Methanol, Peroxisome, Pichia pastoris, Proteome, Transcriptome, Xylulose-monophosphate cycle, Analytische Chemie",
author = "Hannes Ru{\ss}mayer and Markus Buchetics and Clemens Gruber and Minoska Valli and Karlheinz Grillitsch and Gerda Modarres and Raffaele Guerrasio and Kristaps Klavins and Stefan Neubauer and Hedda Drexler and Steiger, {Matthias G.} and Christina Troyer and {Al Chalabi}, Ali and Guido Krebiehl and Denise Sonntag and G{\"u}nther Zellnig and G{\"u}nther Daum and Graf, {Alexandra B.} and Friedrich Altmann and Gunda Koellensperger and Stephan Hann and Michael Sauer and Diethard Mattanovich and Brigitte Gasser",
note = "Publisher Copyright: {\textcopyright} 2015 Ru{\ss}mayer et al.",
year = "2015",
month = sep,
day = "23",
doi = "10.1186/s12915-015-0186-5",
language = "English",
volume = "13.2015",
journal = "BMC biology",
issn = "1741-7007",
publisher = "BioMed Central Ltd.",
number = "1",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Systems-level organization of yeast methylotrophic lifestyle

AU - Rußmayer, Hannes

AU - Buchetics, Markus

AU - Gruber, Clemens

AU - Valli, Minoska

AU - Grillitsch, Karlheinz

AU - Modarres, Gerda

AU - Guerrasio, Raffaele

AU - Klavins, Kristaps

AU - Neubauer, Stefan

AU - Drexler, Hedda

AU - Steiger, Matthias G.

AU - Troyer, Christina

AU - Al Chalabi, Ali

AU - Krebiehl, Guido

AU - Sonntag, Denise

AU - Zellnig, Günther

AU - Daum, Günther

AU - Graf, Alexandra B.

AU - Altmann, Friedrich

AU - Koellensperger, Gunda

AU - Hann, Stephan

AU - Sauer, Michael

AU - Mattanovich, Diethard

AU - Gasser, Brigitte

N1 - Publisher Copyright: © 2015 Rußmayer et al.

PY - 2015/9/23

Y1 - 2015/9/23

N2 - 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.

AB - 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.

KW - Metabolome

KW - Methanol

KW - Peroxisome

KW - Pichia pastoris

KW - Proteome

KW - Transcriptome

KW - Xylulose-monophosphate cycle

KW - Analytische Chemie

UR - http://www.scopus.com/inward/record.url?scp=84960429670&partnerID=8YFLogxK

U2 - 10.1186/s12915-015-0186-5

DO - 10.1186/s12915-015-0186-5

M3 - Article

C2 - 26400155

AN - SCOPUS:84960429670

VL - 13.2015

JO - BMC biology

JF - BMC biology

SN - 1741-7007

IS - 1

M1 - 80

ER -

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