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1.
Proc Natl Acad Sci U S A ; 111(18): 6732-7, 2014 May 06.
Artigo em Inglês | MEDLINE | ID: mdl-24706784

RESUMO

Light-activated, ion-pumping rhodopsins are broadly distributed among many different bacteria and archaea inhabiting the photic zone of aquatic environments. Bacterial proton- or sodium-translocating rhodopsins can convert light energy into a chemiosmotic force that can be converted into cellular biochemical energy, and thus represent a widespread alternative form of photoheterotrophy. Here we report that the genome of the marine flavobacterium Nonlabens marinus S1-08(T) encodes three different types of rhodopsins: Nonlabens marinus rhodopsin 1 (NM-R1), Nonlabens marinus rhodopsin 2 (NM-R2), and Nonlabens marinus rhodopsin 3 (NM-R3). Our functional analysis demonstrated that NM-R1 and NM-R2 are light-driven outward-translocating H(+) and Na(+) pumps, respectively. Functional analyses further revealed that the light-activated NM-R3 rhodopsin pumps Cl(-) ions into the cell, representing the first chloride-pumping rhodopsin uncovered in a marine bacterium. Phylogenetic analysis revealed that NM-R3 belongs to a distinct phylogenetic lineage quite distant from archaeal inward Cl(-)-pumping rhodopsins like halorhodopsin, suggesting that different types of chloride-pumping rhodopsins have evolved independently within marine bacterial lineages. Taken together, our data suggest that similar to haloarchaea, a considerable variety of rhodopsin types with different ion specificities have evolved in marine bacteria, with individual marine strains containing as many as three functionally different rhodopsins.


Assuntos
Cloretos/metabolismo , Flavobacteriaceae/metabolismo , Bombas de Íon/classificação , Rodopsina/metabolismo , Evolução Molecular , Flavobacteriaceae/genética , Flavobacteriaceae/efeitos da radiação , Genoma Bacteriano , Bombas de Íon/genética , Bombas de Íon/efeitos da radiação , Luz , Dados de Sequência Molecular , Filogenia , Rodopsina/genética
2.
Microbes Environ ; 33(1): 89-97, 2018 Mar 29.
Artigo em Inglês | MEDLINE | ID: mdl-29553064

RESUMO

Light-driven ion-pumping rhodopsins are widely distributed among bacteria, archaea, and eukaryotes in the euphotic zone of the aquatic environment. H+-pumping rhodopsin (proteorhodopsin: PR), Na+-pumping rhodopsin (NaR), and Cl--pumping rhodopsin (ClR) have been found in marine bacteria, which suggests that these genes evolved independently in the ocean. Putative microbial rhodopsin genes were identified in the genome sequences of marine Cytophagia. In the present study, one of these genes was heterologously expressed in Escherichia coli cells and the rhodopsin protein named Rubricoccus marinus halorhodopsin (RmHR) was identified as a light-driven inward Cl- pump. Spectroscopic assays showed that the estimated dissociation constant (Kd,int.) of this rhodopsin was similar to that of haloarchaeal halorhodopsin (HR), while the Cl--transporting photoreaction mechanism of this rhodopsin was similar to that of HR, but different to that of the already-known marine bacterial ClR. This amino acid sequence similarity also suggested that this rhodopsin is similar to haloarchaeal HR and cyanobacterial HRs (e.g., SyHR and MrHR). Additionally, a phylogenetic analysis revealed that retinal biosynthesis pathway genes (blh and crtY) belong to a phylogenetic lineage of haloarchaea, indicating that these marine Cytophagia acquired rhodopsin-related genes from haloarchaea by lateral gene transfer. Based on these results, we concluded that inward Cl--pumping rhodopsin is present in genera of the class Cytophagia and may have the same evolutionary origins as haloarchaeal HR.


Assuntos
Cloretos/metabolismo , Cianobactérias/genética , Halorrodopsinas/genética , Bombas de Íon/genética , Água do Mar/microbiologia , Archaea , Cianobactérias/classificação , Cianobactérias/metabolismo , Escherichia coli/genética , Evolução Molecular , Transferência Genética Horizontal , Genoma Bacteriano , Halorrodopsinas/metabolismo , Bombas de Íon/metabolismo , Luz , Filogenia , Rodopsina/genética
3.
ISME J ; 12(5): 1329-1343, 2018 05.
Artigo em Inglês | MEDLINE | ID: mdl-29410487

RESUMO

Proteorhodopsin (PR) is a light-driven proton pump that is found in diverse bacteria and archaea species, and is widespread in marine microbial ecosystems. To date, many studies have suggested the advantage of PR for microorganisms in sunlit environments. The ecophysiological significance of PR is still not fully understood however, including the drivers of PR gene gain, retention, and loss in different marine microbial species. To explore this question we sequenced 21 marine Flavobacteriia genomes of polyphyletic origin, which encompassed both PR-possessing as well as PR-lacking strains. Here, we show that the possession or alternatively the lack of PR genes reflects one of two fundamental adaptive strategies in marine bacteria. Specifically, while PR-possessing bacteria utilize light energy ("solar-panel strategy"), PR-lacking bacteria exclusively possess UV-screening pigment synthesis genes to avoid UV damage and would adapt to microaerobic environment ("parasol strategy"), which also helps explain why PR-possessing bacteria have smaller genomes than those of PR-lacking bacteria. Collectively, our results highlight the different strategies of dealing with light, DNA repair, and oxygen availability that relate to the presence or absence of PR phototrophy.


Assuntos
Flavobacteriaceae/genética , Rodopsinas Microbianas/genética , Genoma Bacteriano , Processos Fototróficos , Água do Mar/microbiologia , Luz Solar
4.
Genome Announc ; 5(44)2017 Nov 02.
Artigo em Inglês | MEDLINE | ID: mdl-29097479

RESUMO

Pseudomonas aeruginosa is one of the most common model bacterial species, and genomes of hundreds of strains of this species have been sequenced to date. However, currently there is only one available genome of an oceanic isolate. Here, we report two complete and six draft genome sequences of P. aeruginosa isolates from the open ocean.

5.
Genome Announc ; 5(38)2017 Sep 21.
Artigo em Inglês | MEDLINE | ID: mdl-28935744

RESUMO

Here, we report the draft genome sequence of Rubricoccus marinus SG-29T, a bacterium isolated from the western North Pacific Ocean. R. marinus SG-29T possesses two different types of rhodopsin genes and belongs to the family Rhodothermaceae, with which halophilic, thermophilic, and marine bacteria are associated.

6.
Genome Announc ; 2(3)2014 May 29.
Artigo em Inglês | MEDLINE | ID: mdl-24874677

RESUMO

Winogradskyella sp. strain PG-2 is a marine flavobacterium isolated from surface seawater. This organism contains proteorhodopsin, which can convert light energy into available forms of biochemical energy. Here, we present its complete genome sequence and annotation, which provide further insights into the life strategy of proteorhodopsin-mediated phototrophy in the ocean.

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