Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera

Zhihong Sun; Hugh M.B. Harris; Angela McCann; Chenyi Guo; Silvia Argimón; Wenyi Zhang; Xianwei Yang; Ian B. Jeffery; Jakki C. Cooney; Todd F. Kagawa; Wenjun Liu; Yuqin Song; Elisa Salvetti; Agnieszka Wrobel; Pia Rasinkangas; Julian Parkhill; Mary C. Rea; Orla O'Sullivan; Jarmo Ritari; François P. Douillard; R. Paul Ross; Ruifu Yang; Alexandra E. Briner; Giovanna E. Felis; Willem M. De Vos; Rodolphe Barrangou; Todd R. Klaenhammer; Page W. Caufield; Yujun Cui; Heping Zhang; Paul W. O'Toole

doi:10.1038/ncomms9322

Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera

Zhihong Sun
, Hugh M.B. Harris
, Angela McCann
, Chenyi Guo
, Silvia Argimón
, Wenyi Zhang
, Xianwei Yang
, Ian B. Jeffery
, Jakki C. Cooney
, Todd F. Kagawa
, Wenjun Liu
, Yuqin Song
, Elisa Salvetti
, Agnieszka Wrobel
, Pia Rasinkangas
, Julian Parkhill
, Mary C. Rea
, Orla O'Sullivan
, Jarmo Ritari
, François P. Douillard

R. Paul Ross, Ruifu Yang, Alexandra E. Briner, Giovanna E. Felis, Willem M. De Vos, Rodolphe Barrangou, Todd R. Klaenhammer, Page W. Caufield, Yujun Cui, Heping Zhang, Paul W. O'Toole

Department of Biological Sciences

Inner Mongolia Agricultural University
University College Cork
Academy of Military Medical Science China
New York University
University of Verona
University of Helsinki
Wellcome Trust Sanger Centre
Teagasc - Irish Agriculture and Food Development Authority
North Carolina State University
Wageningen University & Research

Research output: Contribution to journal › Article › peer-review

Abstract

Lactobacilli are a diverse group of species that occupy diverse nutrient-rich niches associated with humans, animals, plants and food. They are used widely in biotechnology and food preservation, and are being explored as therapeutics. Exploiting lactobacilli has been complicated by metabolic diversity, unclear species identity and uncertain relationships between them and other commercially important lactic acid bacteria. The capacity for biotransformations catalysed by lactobacilli is an untapped biotechnology resource. Here we report the genome sequences of 213 Lactobacillus strains and associated genera, and their encoded genetic catalogue for modifying carbohydrates and proteins. In addition, we describe broad and diverse presence of novel CRISPR-Cas immune systems in lactobacilli that may be exploited for genome editing. We rationalize the phylogenomic distribution of host interaction factors and bacteriocins that affect their natural and industrial environments, and mechanisms to withstand stress during technological processes. We present a robust phylogenomic framework of existing species and for classifying new species.

Original language	English
Article number	8322
Journal	Nature Communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms9322
Publication status	Published - 29 Sep 2015

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 12 Responsible Consumption and Production

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Sun, Z., Harris, H. M. B., McCann, A., Guo, C., Argimón, S., Zhang, W., Yang, X., Jeffery, I. B., Cooney, J. C., Kagawa, T. F., Liu, W., Song, Y., Salvetti, E., Wrobel, A., Rasinkangas, P., Parkhill, J., Rea, M. C., O'Sullivan, O., Ritari, J., ... O'Toole, P. W. (2015). Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera. Nature Communications, 6, Article 8322. https://doi.org/10.1038/ncomms9322

@article{846caec3567e457d93ffd62a91d8ec8c,

title = "Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera",

abstract = "Lactobacilli are a diverse group of species that occupy diverse nutrient-rich niches associated with humans, animals, plants and food. They are used widely in biotechnology and food preservation, and are being explored as therapeutics. Exploiting lactobacilli has been complicated by metabolic diversity, unclear species identity and uncertain relationships between them and other commercially important lactic acid bacteria. The capacity for biotransformations catalysed by lactobacilli is an untapped biotechnology resource. Here we report the genome sequences of 213 Lactobacillus strains and associated genera, and their encoded genetic catalogue for modifying carbohydrates and proteins. In addition, we describe broad and diverse presence of novel CRISPR-Cas immune systems in lactobacilli that may be exploited for genome editing. We rationalize the phylogenomic distribution of host interaction factors and bacteriocins that affect their natural and industrial environments, and mechanisms to withstand stress during technological processes. We present a robust phylogenomic framework of existing species and for classifying new species.",

author = "Zhihong Sun and Harris, \{Hugh M.B.\} and Angela McCann and Chenyi Guo and Silvia Argim{\'o}n and Wenyi Zhang and Xianwei Yang and Jeffery, \{Ian B.\} and Cooney, \{Jakki C.\} and Kagawa, \{Todd F.\} and Wenjun Liu and Yuqin Song and Elisa Salvetti and Agnieszka Wrobel and Pia Rasinkangas and Julian Parkhill and Rea, \{Mary C.\} and Orla O'Sullivan and Jarmo Ritari and Douillard, \{Fran{\c c}ois P.\} and \{Paul Ross\}, R. and Ruifu Yang and Briner, \{Alexandra E.\} and Felis, \{Giovanna E.\} and \{De Vos\}, \{Willem M.\} and Rodolphe Barrangou and Klaenhammer, \{Todd R.\} and Caufield, \{Page W.\} and Yujun Cui and Heping Zhang and O'Toole, \{Paul W.\}",

year = "2015",

month = sep,

day = "29",

doi = "10.1038/ncomms9322",

language = "English",

volume = "6",

journal = "Nature Communications",

issn = "2041-1723",

}

Sun, Z, Harris, HMB, McCann, A, Guo, C, Argimón, S, Zhang, W, Yang, X, Jeffery, IB, Cooney, JC , Kagawa, TF, Liu, W, Song, Y, Salvetti, E, Wrobel, A, Rasinkangas, P, Parkhill, J, Rea, MC, O'Sullivan, O, Ritari, J, Douillard, FP, Paul Ross, R, Yang, R, Briner, AE, Felis, GE, De Vos, WM, Barrangou, R, Klaenhammer, TR, Caufield, PW, Cui, Y, Zhang, H & O'Toole, PW 2015, 'Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera', Nature Communications, vol. 6, 8322. https://doi.org/10.1038/ncomms9322

TY - JOUR

T1 - Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera

AU - Sun, Zhihong

AU - Harris, Hugh M.B.

AU - McCann, Angela

AU - Guo, Chenyi

AU - Argimón, Silvia

AU - Zhang, Wenyi

AU - Yang, Xianwei

AU - Jeffery, Ian B.

AU - Cooney, Jakki C.

AU - Kagawa, Todd F.

AU - Liu, Wenjun

AU - Song, Yuqin

AU - Salvetti, Elisa

AU - Wrobel, Agnieszka

AU - Rasinkangas, Pia

AU - Parkhill, Julian

AU - Rea, Mary C.

AU - O'Sullivan, Orla

AU - Ritari, Jarmo

AU - Douillard, François P.

AU - Paul Ross, R.

AU - Yang, Ruifu

AU - Briner, Alexandra E.

AU - Felis, Giovanna E.

AU - De Vos, Willem M.

AU - Barrangou, Rodolphe

AU - Klaenhammer, Todd R.

AU - Caufield, Page W.

AU - Cui, Yujun

AU - Zhang, Heping

AU - O'Toole, Paul W.

PY - 2015/9/29

Y1 - 2015/9/29

N2 - Lactobacilli are a diverse group of species that occupy diverse nutrient-rich niches associated with humans, animals, plants and food. They are used widely in biotechnology and food preservation, and are being explored as therapeutics. Exploiting lactobacilli has been complicated by metabolic diversity, unclear species identity and uncertain relationships between them and other commercially important lactic acid bacteria. The capacity for biotransformations catalysed by lactobacilli is an untapped biotechnology resource. Here we report the genome sequences of 213 Lactobacillus strains and associated genera, and their encoded genetic catalogue for modifying carbohydrates and proteins. In addition, we describe broad and diverse presence of novel CRISPR-Cas immune systems in lactobacilli that may be exploited for genome editing. We rationalize the phylogenomic distribution of host interaction factors and bacteriocins that affect their natural and industrial environments, and mechanisms to withstand stress during technological processes. We present a robust phylogenomic framework of existing species and for classifying new species.

AB - Lactobacilli are a diverse group of species that occupy diverse nutrient-rich niches associated with humans, animals, plants and food. They are used widely in biotechnology and food preservation, and are being explored as therapeutics. Exploiting lactobacilli has been complicated by metabolic diversity, unclear species identity and uncertain relationships between them and other commercially important lactic acid bacteria. The capacity for biotransformations catalysed by lactobacilli is an untapped biotechnology resource. Here we report the genome sequences of 213 Lactobacillus strains and associated genera, and their encoded genetic catalogue for modifying carbohydrates and proteins. In addition, we describe broad and diverse presence of novel CRISPR-Cas immune systems in lactobacilli that may be exploited for genome editing. We rationalize the phylogenomic distribution of host interaction factors and bacteriocins that affect their natural and industrial environments, and mechanisms to withstand stress during technological processes. We present a robust phylogenomic framework of existing species and for classifying new species.

UR - https://www.scopus.com/pages/publications/84942895870

U2 - 10.1038/ncomms9322

DO - 10.1038/ncomms9322

M3 - Article

C2 - 26415554

AN - SCOPUS:84942895870

SN - 2041-1723

VL - 6

JO - Nature Communications

JF - Nature Communications

M1 - 8322

ER -

Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera

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