Proteomics

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Sucrose-induced proteomic response and carbohydrate utilization of Lactobacillus sakei TMW 1.411 during dextran formation


ABSTRACT: Lactobacillus (L.) sakei belongs to the dominating lactic acid bacteria in indigenous meat fermentations, while diverse strains of this species have also been isolated from plant fermentations. We could recently show, that L. sakei TMW 1.411 produces a high molecular weight dextran from sucrose, indicating its potential use as a dextran forming starter culture. However, the general physiological response of L. sakei to sucrose as carbohydrate source has not been investigated yet, especially upon simultaneous dextran formation. To address this lack of knowledge, we sequenced the genome of L. sakei TMW 1.411 and performed a label-free, quantitative proteomics approach to investigate the sucrose-induced changes in the proteomic profile of this strain in comparison to its proteomic response to glucose. In total, 21 proteins were found to be differentially expressed at the applied significance criteria (FDR ≤ 0.01). Among these, 14 were associated with the carbohydrate metabolism including several enzymes, which enable sucrose and fructose uptake as well as their subsequent intracellular metabolization, respectively. The plasmid-encoded, extracellular dextransucrase of L. sakei TMW 1.411 was expressed at high levels irrespective of the present carbohydrate and was predominantly responsible for sucrose consumption in growth experiments using sucrose as sole carbohydrate source, while the released fructose from the dextransucrase reaction was more preferably taken up and intracellularly metabolized than sucrose. Genomic comparisons revealed, that operons coding for uptake and intracellular metabolism of sucrose and fructose are chromosomally conserved among L. sakei, while plasmid-located dextransucrase genes are present only in few strains. In accordance with these findings, all 59 different L. sakei strains of our strain collection were able to grow on sucrose as sole carbohydrate source, while eight of them exhibited a mucous phenotype on agar plates indicating dextran formation from sucrose. Our study therefore highlights the intrinsic adaption of L. sakei to plant environments, where sucrose is abundant, and provides fundamental knowledge regarding the use of L. sakei as starter culture for sucrose-based food fermentation processes with in-situ dextran formation.

INSTRUMENT(S): Q Exactive HF

ORGANISM(S): Lactobacillus Sakei

TISSUE(S): Cell Line Cell

SUBMITTER: Christina Ludwig  

LAB HEAD: Christina Ludwig

PROVIDER: PXD011417 | Pride | 2018-10-31

REPOSITORIES: Pride

Dataset's files

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Action DRS
BBM_079_P064_01_FRH_12_R1.raw Raw
BBM_079_P064_01_FRH_13_R1.raw Raw
BBM_079_P064_01_FRH_15_R1.raw Raw
BBM_079_P064_01_FRH_20_R1.raw Raw
BBM_079_P064_01_FRH_4_R1.raw Raw
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Publications

Sucrose-Induced Proteomic Response and Carbohydrate Utilization of <i>Lactobacillus sakei</i> TMW 1.411 During Dextran Formation.

Prechtl Roman M RM   Janßen Dorothee D   Behr Jürgen J   Ludwig Christina C   Küster Bernhard B   Vogel Rudi F RF   Jakob Frank F  

Frontiers in microbiology 20181123


<i>Lactobacillus (L.) sakei</i> belongs to the dominating lactic acid bacteria in indigenous meat fermentations, while diverse strains of this species have also been isolated from plant fermentations. We could recently show, that <i>L. sakei</i> TMW 1.411 produces a high molecular weight dextran from sucrose, indicating its potential use as a dextran forming starter culture. However, the general physiological response of <i>L. sakei</i> to sucrose as carbohydrate source has not been investigated  ...[more]

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