A mobile genetic element profoundly increases heat resistance of bacterial spores

Berendsen, Erwin M.; Boekhorst, Jos; Kuipers, Oscar P.; Wells-Bennik, M.H.J.

doi:10.1038/ismej.2016.59

Cited by 84 publications

(116 citation statements)

References 49 publications

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“…Recently, variation in spore germination and spore heat resistance has been partly attributed to interstrain differences in the absence or presence (and copy number) of the heptacistronic spoVA 2mob operon that is usually carried on the Tn1546-like transposon element (which lost the ability of transposition) (27,28). Tn1546 additionally carries four other operons that alone do not have apparent effects on spore heat resistance or germination (27,28).…”

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confidence: 99%

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Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA ^2mob Operon in Foodborne Strains of Bacillus subtilis

Krawczyk

Jong

Omony

et al. 2017

Appl Environ Microbiol

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Spore heat resistance, germination, and outgrowth are problematic bacterial properties compromising food safety and quality. Large interstrain variation in these properties makes prediction and control of spore behavior challenging. Highlevel heat resistance and slow germination of spores of some natural Bacillus subtilis isolates, encountered in foods, have been attributed to the occurrence of the spoVA 2mob operon carried on the Tn1546 transposon. In this study, we further investigate the correlation between the presence of this operon in high-level-heat-resistant spores and their germination efficiencies before and after exposure to various sublethal heat treatments (heat activation, or HA), which are known to significantly improve spore responses to nutrient germinants. We show that high-level-heat-resistant spores harboring spoVA 2mob required higher HA temperatures for efficient germination than spores lacking spoVA 2mob . The optimal spore HA requirements additionally depended on the nutrients used to trigger germination, L-alanine (L-Ala), or a mixture of L-asparagine, D-glucose, D-fructose, and K ϩ (AGFK). The distinct HA requirements of these two spore germination pathways are likely related to differences in properties of specific germinant receptors. Moreover, spores that germinated inefficiently in AGFK contained specific changes in sequences of the GerB and GerK germinant receptors, which are involved in this germination response. In contrast, no relation was found between transcription levels of main germination genes and spore germination phenotypes. The findings presented in this study have great implications for practices in the food industry, where heat treatments are commonly used to inactivate pathogenic and spoilage microbes, including bacterial spore formers.IMPORTANCE This study describes a strong variation in spore germination capacities and requirements for a heat activation treatment, i.e., an exposure to sublethal heat that increases spore responsiveness to nutrient germination triggers, among 17 strains of B. subtilis, including 9 isolates from spoiled food products. Spores of industrial foodborne isolates exhibited, on average, less efficient and slower germination responses and required more severe heat activation than spores from other sources. High heat activation requirements and inefficient, slow germination correlated with elevated resistance of spores to heat and with specific genetic features, indicating a common genetic basis of these three phenotypic traits. Clearly, interstrain variation and numerous factors that shape spore germination behavior challenge standardization of methods to recover highly heat-resistant spores from the environment and have an impact on the efficacy of preservation techniques used by the food industry to control spores.

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“…Additionally, B. subtilis 168 contains two GR operons, yndDEF and yfkQRTS, that seem to be inactive and poorly transcribed (25). Moreover, certain foodborne B. subtilis strains comprise the incomplete and likely nonfunctional gerX germination operon that encodes putative GR subunits A and C but lacks a gene for the B subunit (27,28).…”

mentioning

confidence: 99%

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA ^2mob Operon in Foodborne Strains of Bacillus subtilis

Krawczyk

Jong

Omony

et al. 2017

Appl Environ Microbiol

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“…The functions of genes carried on this transposon (SpoVAC, SpoVAD, SpoVAEb and four other unknown genes) are not completely known but the presence of the transposon results in about 50 % higher dipicolinic acid (DPA) content (Berendsen et al 2016). B. cereus strains belonging to various phylogenetic groups displayed lower variability in their heat resistance, having D 95°C values between 2 and 30 min, excluding psychrotolerant strains with low heat resistance (Luu-Thi et al 2014).…”

Section: Heat Resistance Of Biofilm Sporesmentioning

confidence: 99%

“…Intrinsic factors encoded by genotypic differences can have a large impact on spore heat resistance, such as a recently discovered mobile genetic element (Tn1546-like), causing 130 fold higher D 120°C values for B. subtilis strains (Berendsen et al 2015, Berendsen et al 2016. The functions of genes carried on this transposon (SpoVAC, SpoVAD, SpoVAEb and four other unknown genes) are not completely known but the presence of the transposon results in about 50 % higher dipicolinic acid (DPA) content (Berendsen et al 2016).…”

Section: Heat Resistance Of Biofilm Sporesmentioning

confidence: 99%

“…It can be used to correlate phenotypes with gene presence/absence data, and to predict possible gene functions, as demonstrated for L. plantarum and Lactococcus lactis strains in relation to phenotypes such as sugar utilisation, metal resistance and arginine metabolism (Bayjanov et al 2012, Bayjanov et al 2013. This approach was shown preciously successful in identification of a mobile genetic element responsible for high heat resistance of B. subtilis spores (Berendsen et al 2016). We applied gene-trait matching to predict genes involved in biofilm formation of B. cereus.…”

Section: Transcriptional Regulators and Biofilm Formation: Sigma 54mentioning

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Bacillus cereus growth and biofilm formation: the impact of substratum, iron sources, and transcriptional regulator Sigma 54

Hayrapetyan¹

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Bioinformatics Algorithms and Software for Predicting Microbiomes

Pawar

Tan

Lahiri

2021

Microbiome in Human Health and Disease

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A mobile genetic element profoundly increases heat resistance of bacterial spores

Cited by 84 publications

References 49 publications

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA ^2mob Operon in Foodborne Strains of Bacillus subtilis

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA ^2mob Operon in Foodborne Strains of Bacillus subtilis

Bacillus cereus growth and biofilm formation: the impact of substratum, iron sources, and transcriptional regulator Sigma 54

Bioinformatics Algorithms and Software for Predicting Microbiomes

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A mobile genetic element profoundly increases heat resistance of bacterial spores

Cited by 84 publications

References 49 publications

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA 2mob Operon in Foodborne Strains of Bacillus subtilis

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA 2mob Operon in Foodborne Strains of Bacillus subtilis

Bacillus cereus growth and biofilm formation: the impact of substratum, iron sources, and transcriptional regulator Sigma 54

Bioinformatics Algorithms and Software for Predicting Microbiomes

Contact Info

Product

Resources

About

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA ^2mob Operon in Foodborne Strains of Bacillus subtilis

Spore Heat Activation Requirements and Germination Responses Correlate with Sequences of Germinant Receptors and with the Presence of a Specific spoVA ^2mob Operon in Foodborne Strains of Bacillus subtilis