Proteomics

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Differential polysaccharide utilization is the basis for a nanohaloarchaeon : haloarchaeon symbiosis


ABSTRACT: Nanohaloarchaeota, a clade of diminutive archaea, with small genomes and limited metabolic capabilities, are ubiquitous in hypersaline habitats, which they share with the extremely halophilic and phylogenetically distant euryarchaea. Some of these nanohaloarchaeota and euryarchaea appear to interact with each other. In this study, we investigate the genetic and physiological nature of their relationship. We isolated the nanohaloarchaeon Candidatus Nanohalobium constans LC1Nh and the haloarchaeon Halomicrobium sp. LC1Hm from a solar saltern, reproducibly co-cultivated these species, sequenced their genomes, and characterized their metabolic/trophic interactions. The nanohaloarchaeon is a magnesium-dependent aerotolerant heterotrophic anaerobe of the DPANN superphylum; it lacks respiratory complexes and its energy production relies on fermentative metabolism of sugar derivatives, obtained by depolymerizing alpha-glucans or by acquiring the chitin monomer N-acetylglucosamine from the chitinolytic haloarchaeal host. Halomicrobium is a member of the class Halobacteria and a chitinotrophic aerobe. The nanohaloarchaeon lacks key biosynthetic pathways and is likely to be provided with amino acids, lipids, nucleotides and cofactors via physical contact with its host Halomicrobium. In turn, the ability of Ca. Nanohalobium to hydrolyse alpha-glucans boosts the host’s growth in the absence of a chitin substrate. These findings suggest that at least some members of the nanohaloarchaea, previously considered ecologically unimportant given their limited metabolic potential, in fact may play significant roles in the microbial carbon turnover, food chains, and ecosystem function. The behaviour of Halomicrobium, which accommodates the colonization by Ca. Nanohalobium, can be interpreted as a bet-hedging strategy, maximizing its long-term fitness in a habitat where the availability of carbon substrates can vary both spatially and temporarily.

INSTRUMENT(S): TripleTOF 5600

ORGANISM(S): Environmental Samples <nanohaloarchaeota>

SUBMITTER: Sergio Ciordia  

LAB HEAD: Michail M. Yakimov

PROVIDER: PXD016346 | Pride | 2020-07-24

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
20190130_01_MFerrer_Filtro.mgf Mgf
20190130_01_MFerrer_Filtro.wiff.zip Wiff
20190130_03_MFerrer_Pellet-ENR.mgf Mgf
20190130_03_MFerrer_Pellet-ENR.wiff.zip Wiff
20190130_05_MFerrer_Pellet-LC1.mgf Mgf
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Publications


Nano-sized archaeota, with their small genomes and limited metabolic capabilities, are known to associate with other microbes, thereby compensating for their own auxotrophies. These diminutive and yet ubiquitous organisms thrive in hypersaline habitats that they share with haloarchaea. Here, we reveal the genetic and physiological nature of a nanohaloarchaeon-haloarchaeon association, with both microbes obtained from a solar saltern and reproducibly cultivated together in vitro. The nanohaloarch  ...[more]

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