Lysogeny in the Lactic Acid Bacterium Oenococcus oeni Is Responsible for Modified Colony Morphology on Red Grape Juice Agar

ABSTRACT Oenococcus oeni is the lactic acid bacterium (LAB) that most commonly drives malolactic fermentation in wine. Although oenococcal prophages are highly prevalent, their implications on bacterial fitness have remained unexplored and more research is required in this field. An important step toward achieving this goal is the ability to produce isogenic pairs of strains that differ only by the lysogenic presence of a given prophage, allowing further comparisons of different phenotypic traits. A novel protocol for the rapid isolation of lysogens is presented. Bacteria were first picked from the center of turbid plaques produced by temperate oenophages on a sensitive nonlysogenic host. When streaked onto an agar medium containing red grape juice (RGJ), cells segregated into white and red colonies. PCR amplifications with phage-specific primers demonstrated that only lysogens underwent white-red morphotypic switching. The method proved successful for various oenophages irrespective of their genomic content and attachment site used for site-specific recombination in the bacterial chromosome. The color switch was also observed when a sensitive nonlysogenic strain was infected with an exogenously provided lytic phage, suggesting that intracolonial lysis triggers the change. Last, lysogens also produced red colonies on white grape juice agar supplemented with polyphenolic compounds. We posit that spontaneous prophage excision produces cell lysis events in lysogenic colonies growing on RGJ agar, which, in turn, foster interactions between lysed materials and polyphenolic compounds to yield colonies easily distinguishable by their red color. Furthermore, the technique was used successfully with other species of LAB. IMPORTANCE The presence of white and red colonies on red grape juice (RGJ) agar during enumeration of Oenococcus oeni in wine samples is frequently observed by stakeholders in the wine industry. Our study brings an explanation for this intriguing phenomenon and establishes a link between the white-red color switch and the lysogenic state of O. oeni. It also provides a simple and inexpensive method to distinguish between lysogenic and nonlysogenic derivatives in O. oeni with a minimum of expended time and effort. Noteworthy, the protocol could be adapted to two other species of LAB, namely, Leuconostoc citreum and Lactobacillus plantarum. It could be an effective tool to provide genetic, ecological, and functional insights into lysogeny and aid in improving biotechnological processes involving members of the lactic acid bacterium (LAB) family.

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Analysis of Transcriptomic Response to SO 2 by Oenococcus oeni Growing in Continuous Culture

Microbiology Spectrum ◽

10.1128/spectrum.01154-21 ◽

2021 ◽

Author(s):

Cristobal A. Onetto ◽

Peter J. Costello ◽

Radka Kolouchova ◽

Charlotte Jordans ◽

Jane McCarthy ◽

...

Keyword(s):

Lactic Acid ◽

Lactic Acid Bacterium ◽

High Sensitivity ◽

Malolactic Fermentation ◽

Oenococcus Oeni ◽

Low Ph ◽

Transcriptomic Response ◽

Content Type ◽

Bacterium Species ◽

High Ethanol

Malolactic fermentation is an indispensable step in the elaboration of most wines and is generally performed by Oenococcus oeni , a Gram-positive heterofermentative lactic acid bacterium species. While O. oeni is tolerant to many of the wine stresses, including low pH and high ethanol concentrations, it has high sensitivity to SO 2 , an antiseptic and antioxidant compound regularly used in winemaking.

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The Antisense RNA Approach: a New Application forIn VivoInvestigation of the Stress Response of Oenococcus oeni, a Wine-Associated Lactic Acid Bacterium

Applied and Environmental Microbiology ◽

10.1128/aem.02495-15 ◽

2015 ◽

Vol 82 (1) ◽

pp. 18-26 ◽

Cited By ~ 11

Author(s):

Maud Darsonval ◽

Tarek Msadek ◽

Hervé Alexandre ◽

Cosette Grandvalet

Keyword(s):

Gene Expression ◽

Lactic Acid ◽

Stress Response ◽

Lactic Acid Bacterium ◽

Antisense Rna ◽

Expression Vector ◽

Stress Proteins ◽

Oenococcus Oeni ◽

Content Type

ABSTRACTOenococcus oeniis a wine-associated lactic acid bacterium mostly responsible for malolactic fermentation in wine. In wine,O. oenigrows in an environment hostile to bacterial growth (low pH, low temperature, and ethanol) that induces stress response mechanisms. To survive,O. oeniis known to set up transitional stress response mechanisms through the synthesis of heat stress proteins (HSPs) encoded by thehspgenes, notably a unique small HSP named Lo18. Despite the availability of the genome sequence, characterization ofO. oenigenes is limited, and little is known about thein vivorole of Lo18. Due to the lack of genetic tools forO. oeni, an efficient expression vector inO. oeniis still lacking, and deletion or inactivation of thehsp18gene is not presently practicable. As an alternative approach, with the goal of understanding the biological function of theO. oenihsp18genein vivo, we have developed an expression vector to produce antisense RNA targeting ofhsp18mRNA. Recombinant strains were exposed to multiple stresses inducinghsp18gene expression: heat shock and acid shock. We showed that antisense attenuation ofhsp18affectsO. oenisurvival under stress conditions. These results confirm the involvement of Lo18 in heat and acid tolerance ofO. oeni. Results of anisotropy experiments also confirm a membrane-protective role for Lo18, as previous observations had already suggested. This study describes a new, efficient tool to demonstrate the use of antisense technology for modulating gene expression inO. oeni.

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Distribution and Functions of Phosphotransferase System Genes in the Genome of the Lactic Acid Bacterium Oenococcus oeni

Applied and Environmental Microbiology ◽

10.1128/aem.00380-13 ◽

2013 ◽

Vol 79 (11) ◽

pp. 3371-3379 ◽

Cited By ~ 13

Author(s):

Zohra Jamal ◽

Cécile Miot-Sertier ◽

François Thibau ◽

Lucie Dutilh ◽

Aline Lonvaud-Funel ◽

...

Keyword(s):

Lactic Acid ◽

Lactic Acid Bacterium ◽

Oenococcus Oeni ◽

Phosphotransferase System ◽

Content Type ◽

Low Concentrations ◽

Perfect Adaptation ◽

Form Part ◽

Genes Encoding ◽

Enzyme I

ABSTRACTOenococcus oeni, the lactic acid bacterium primarily responsible for malolactic fermentation in wine, is able to grow on a large variety of carbohydrates, but the pathways by which substrates are transported and phosphorylated in this species have been poorly studied. We show that the genes encoding the general phosphotransferase proteins, enzyme I (EI) and histidine protein (HPr), as well as 21 permease genes (3 isolated ones and 18 clustered into 6 distinct loci), are highly conserved among the strains studied and may form part of theO. oenicore genome. Additional permease genes differentiate the strains and may have been acquired or lost by horizontal gene transfer events. The coreptsgenes are expressed, and permease gene expression is modulated by the nature of the bacterial growth substrate. DecryptifiedO. oenicells are able to phosphorylate glucose, cellobiose, trehalose, and mannose at the expense of phosphoenolpyruvate. These substrates are present at low concentrations in wine at the end of alcoholic fermentation. The phosphotransferase system (PTS) may contribute to the perfect adaptation ofO. oenito its singular ecological niche.

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Comparison of Flow Injection-MS/MS and LC-MS/MS for the Determination of Ochratoxin A

Toxins ◽

10.3390/toxins13080547 ◽

2021 ◽

Vol 13 (8) ◽

pp. 547

Author(s):

Kai Zhang

Keyword(s):

Ochratoxin A ◽

Flow Injection ◽

Internal Standard ◽

Grape Juice ◽

Tandem Mass ◽

Triple Quadrupole ◽

On Line ◽

Red Grape Juice ◽

Red Grape

Two methods for measuring ochratoxin A in corn, oat, and grape juice were developed and compared. Flow injection (FI) and on-line liquid chromatography (LC) performances were evaluated separately, with both methods using a triple quadrupole tandem mass spectrometer (MS/MS) for quantitation. Samples were fortified with 13C uniformly labeled ochratoxin A as the internal standard (13C-IS) and prepared by dilution and filtration, followed by FI- and LC-MS/MS analysis. For the LC-MS/MS method, which had a 10 min run time/sample, recoveries of ochratoxin A fortified at 1, 5, 20, and 100 ppb in corn, oat, red grape juice, and white grape juice ranged from 100% to 117% with RSDs < 9%. The analysis time of the FI-MS/MS method was <60 s/sample, however, the method could not detect ochratoxin A at the lowest fortification concentration, 1 ppb, in all tested matrix sources. At 5, 20, and 100 ppb, recoveries by FI-MS/MS ranged from 79 to 117% with RSDs < 15%. The FI-MS/MS method also had ~5× higher solvent and matrix-dependent instrument detection limits (0.12–0.35 ppb) compared to the LC-MS/MS method (0.02–0.06 ppb). In the analysis of incurred corn and oat samples, both methods generated comparable results within ±20% of reference values, however, the FI-MS/MS method failed to determine ochratoxin A in two incurred wheat flour samples due to co-eluted interferences due to the lack of chromatographic separation.

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Red Grape Juice Inhibits Iron Availability: Application of an in Vitro Digestion/Caco-2 Cell Model

Journal of Agricultural and Food Chemistry ◽

10.1021/jf025832q ◽

2002 ◽

Vol 50 (23) ◽

pp. 6935-6938 ◽

Cited By ~ 34

Author(s):

Francesca Boato ◽

Gary M. Wortley ◽

Rui Hai Liu ◽

Raymond P. Glahn

Keyword(s):

Cell Model ◽

Grape Juice ◽

In Vitro Digestion ◽

Iron Availability ◽

Red Grape Juice ◽

Red Grape

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Effects of red grape juice polyphenols in NADPH oxidase subunit expression in human neutrophils and mononuclear blood cells

British Journal Of Nutrition ◽

10.1017/s0007114509382148 ◽

2009 ◽

Vol 102 (8) ◽

pp. 1125-1135 ◽

Cited By ~ 30

Author(s):

Alberto Dávalos ◽

Gema de la Peña ◽

Carolina C. Sánchez-Martín ◽

M. Teresa Guerra ◽

Begoña Bartolomé ◽

...

Keyword(s):

Nadph Oxidase ◽

Red Wine ◽

Grape Juice ◽

Cell Types ◽

Human Neutrophils ◽

Superoxide Anion Production ◽

Oxidase Subunit ◽

Subunit Expression ◽

Red Grape Juice ◽

Red Grape

The NADPH oxidase enzyme system is the main source of superoxide anions in phagocytic and vascular cells. NADPH oxidase-dependent superoxide generation has been found to be abnormally enhanced in several chronic diseases. Evidence is accumulating that polyphenols may have the potential to improve cardiovascular health, although the mechanism is not fully established. Consumption of concentrated red grape juice, rich in polyphenols, has been recently shown to reduce NADPH oxidase activity in circulating neutrophils from human subjects. In the present work we studied whether red grape juice polyphenols affected NADPH oxidase subunit expression at the transcription level. For this, we used human neutrophils and mononuclear cells from peripheral blood, HL-60-derived neutrophils and the endothelial cell line EA.hy926.Superoxide production was measured with 2′7′-dichlorofluorescein diacetate or lucigenin, mRNA expression by real-time RT-PCR and protein expression by Western blot. Each experiment was performed at least three times. In all cell types tested, red grape juice, dealcoholised red wine and pure polyphenols decreased superoxide anion production. Red grape juice and dealcoholised red wine selectively reduced p47phox, p22phox and gp91phox expression at both mRNA and protein levels, without affecting the expression of p67phox. Pure polyphenols, particularly quercetin, also reduced NADPH oxidase subunit expression, especially p47phox, in all cell types tested. The present results showing that red grape juice polyphenols reduce superoxide anion production provide an alternative mechanism by which consumption of grape derivatives may account for a reduction of oxidative stress associated with cardiovascular and/or inflammatory diseases related to NADPH oxidase superoxide overproduction.

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Draft Genome Sequence of Enterococcus faecalis DD14, a Bacteriocinogenic Lactic Acid Bacterium with Anti-Clostridium Activity

Genome Announcements ◽

10.1128/genomea.00695-17 ◽

2017 ◽

Vol 5 (30) ◽

Cited By ~ 2

Author(s):

Yanath Belguesmia ◽

Valérie Leclère ◽

Matthieu Duban ◽

Eric Auclair ◽

Djamel Drider

Keyword(s):

Lactic Acid ◽

Lactic Acid Bacterium ◽

Enterococcus Faecalis ◽

Genome Sequence ◽

Draft Genome ◽

Draft Genome Sequence ◽

Coding Sequences ◽

Content Type ◽

Gram Positive Bacteria ◽

Healthy Newborn

ABSTRACT We report the draft genome sequence of Enterococcus faecalis DD14, a strain isolated from meconium of a healthy newborn at Roubaix Hospital (France). The strain displayed antagonism against a set of Gram-positive bacteria through concomitant production of lactic acid and bacteriocin. The genome has a size of 2,893,365 bp and a 37.3% G+C ratio and is predicted to contain at least 2,755 coding sequences and 62 RNAs.

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