Cold environments dominate Earth’s biosphere, hosting complex microbial communities with the ability to thrive at low temperatures. However, the underlying molecular mechanisms and the metabolic pathways involved in bacterial cold-adaptation mechanisms are still not fullyunderstood. Herein, we assessed the metabolic features of the Antarctic bacterium Pseudoalteromonas haloplanktis TAC125 (PhTAC125), a model organism for cold-adaptation, at both 4°C and 15°C, by integrating genomic and phenomic (high-throughput phenotyping) data and comparing obtained results to the taxonomically related Antarctic bacterium Pseudoalteromonas sp. TB41 (PspTB41). Although the genome size of PspTB41 is considerably larger than PhTAC125, the higher number of genes did not reflect any higher metabolic versatility at 4°C as compared to PhTAC125. Remarkably, the regulatory role of protein S-thiolation by glutathione and glutathionylspermidine appeared to be a new possible mechanism for cold adaptation in PhTAC125. More in general, this study represents an example of how ‘multi-omic’ information might potentially contribute in filling the gap between genotypic and phenotypic features related to cold-adaptation mechanisms in bacteria.

Ecology of cold environments: new insights of bacterial metabolic adaptation through an integrated genomic-phenomic approach / Mocali, S.; Chiellini, C.; Fabiani, ; A, .; Decuzzi, S; de Pascale, D.; Parrilli, E.; Tutino, M. L.; Perrin, E.; Bosi, E.; Fondi, M.; Lo Giudice, A.; Fani, R.. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - ELETTRONICO. - 7:(2017), pp. 839-851.

Ecology of cold environments: new insights of bacterial metabolic adaptation through an integrated genomic-phenomic approach

CHIELLINI, CAROLINA;PERRIN, ELENA;BOSI, EMANUELE;FONDI, MARCO;FANI, RENATO
2017

Abstract

Cold environments dominate Earth’s biosphere, hosting complex microbial communities with the ability to thrive at low temperatures. However, the underlying molecular mechanisms and the metabolic pathways involved in bacterial cold-adaptation mechanisms are still not fullyunderstood. Herein, we assessed the metabolic features of the Antarctic bacterium Pseudoalteromonas haloplanktis TAC125 (PhTAC125), a model organism for cold-adaptation, at both 4°C and 15°C, by integrating genomic and phenomic (high-throughput phenotyping) data and comparing obtained results to the taxonomically related Antarctic bacterium Pseudoalteromonas sp. TB41 (PspTB41). Although the genome size of PspTB41 is considerably larger than PhTAC125, the higher number of genes did not reflect any higher metabolic versatility at 4°C as compared to PhTAC125. Remarkably, the regulatory role of protein S-thiolation by glutathione and glutathionylspermidine appeared to be a new possible mechanism for cold adaptation in PhTAC125. More in general, this study represents an example of how ‘multi-omic’ information might potentially contribute in filling the gap between genotypic and phenotypic features related to cold-adaptation mechanisms in bacteria.
2017
7
839
851
Mocali, S.; Chiellini, C.; Fabiani, ; A, .; Decuzzi, S; de Pascale, D.; Parrilli, E.; Tutino, M. L.; Perrin, E.; Bosi, E.; Fondi, M.; Lo Giudice, A.; ...espandi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1076188
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