Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube"
Hahn J, Koch D, Niehaus K, Ortseifen V (2022)
Journal of Proteomics 257: 104513.
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Abstract / Bemerkung
Xanthomonas is a phytopathogenic bacterium and of industrial interest due to its capability to produce xanthan, used as a thickener and emulsifier in the food and non-food industry. Until now, proteome analyses of Xcc lacking a detailed view on the proteins involved in xanthan biosynthesis. The proteins involved in the biosynthesis of this polysaccharide are located near, in or at the cell membrane. This study aims to establish a robust and rapid protocol for a comprehensive proteome analysis of Xcc strains, without the need to isolate different cell fractions. Therefore, a method for the analysis of the whole cell proteome was compared to the isolation of specific fractions regarding the total number of identified proteins, the overlap, and the differences between the approaches. The whole cell proteome analysis with extended peptide separation methods resulted in more than 3254 identified proteins covering 73.1% of the whole proteome. The protocol was used to study xanthan production in a label-free quantification approach. Expression profiles of 8 Gum proteins were compared between the stationary and logarithmic growth phase. Differential expression levels within the operon structure indicate a complex regulatory mechanism for xanthan biosynthesis. Data are available via ProteomeXchange with identifier PXD027261. SIGNIFICANCE: Bacteria are metabolite factories with a wide variety of natural products. Thus, proteome analyses play a crucial role to understand the biological processes within a cell behind the biosynthesis of those metabolites. Proteins involved in the biosynthesis of secreted products are often organised on, in or around the membrane allowing metabolite channelling. Experiments targeting those biosynthesis pathways on protein level often require the analysis of multiple cell fractions like cytosolic, inner, and outer membrane. This is time consuming and demands different protocols. The protocol presented here is a rapid and robust solution to study biosynthetic pathways of biological or biotechnological interest in a single approach on protein level, where gene products are partitioned across multiple cell fractions. The use of a single method also simplifies the comparison of different experiments, for example, production vs. nonproduction conditions. Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.
Erscheinungsjahr
2022
Zeitschriftentitel
Journal of Proteomics
Band
257
Art.-Nr.
104513
eISSN
1876-7737
Page URI
https://pub.uni-bielefeld.de/record/2961451
Zitieren
Hahn J, Koch D, Niehaus K, Ortseifen V. Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube". Journal of Proteomics . 2022;257: 104513.
Hahn, J., Koch, D., Niehaus, K., & Ortseifen, V. (2022). Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube". Journal of Proteomics , 257, 104513. https://doi.org/10.1016/j.jprot.2022.104513
Hahn, Julia, Koch, Daniel, Niehaus, Karsten, and Ortseifen, Vera. 2022. “Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube"”. Journal of Proteomics 257: 104513.
Hahn, J., Koch, D., Niehaus, K., and Ortseifen, V. (2022). Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube". Journal of Proteomics 257:104513.
Hahn, J., et al., 2022. Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube". Journal of Proteomics , 257: 104513.
J. Hahn, et al., “Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube"”, Journal of Proteomics , vol. 257, 2022, : 104513.
Hahn, J., Koch, D., Niehaus, K., Ortseifen, V.: Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube". Journal of Proteomics . 257, : 104513 (2022).
Hahn, Julia, Koch, Daniel, Niehaus, Karsten, and Ortseifen, Vera. “Analysis of Gum proteins involved in xanthan biosynthesis throughout multiple cell fractions in a "single-tube"”. Journal of Proteomics 257 (2022): 104513.
Daten bereitgestellt von European Bioinformatics Institute (EBI)
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Daten bereitgestellt von Europe PubMed Central.
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