Your search keyword '"Sayaka Mino"' showing total 74 results

1. Time course transcriptomic profiling suggests Crp/Fnr transcriptional regulation of nosZ gene in a N2O-reducing thermophile

Author

Jiro Tsuchiya, Sayaka Mino, Fuki Fujiwara, Nao Okuma, Yasunori Ichihashi, Robert M. Morris, Brook L. Nunn, Emma Timmins-Schiffman, and Tomoo Sawabe

Subjects

Aquatic biology, Microbiology, Molecular microbiology, Omics, Transcriptomics, Science

Abstract

Summary: Nitrosophilus labii HRV44T is a thermophilic chemolithoautotroph possessing clade II type nitrous oxide (N2O) reductase (NosZ) that has an outstanding activity in reducing N2O to dinitrogen gas. Here, we attempt to understand molecular responses of HRV44T to N2O. Time course transcriptome and proteomic mass spectrometry analyses under anaerobic conditions revealed that most of transcripts and peptides related to denitrification were constitutively detected, even in the absence of any nitrogen oxides as electron acceptors. Gene expressions involved in electron transport to NosZ were upregulated within 3 h in response to N2O, rather than upregulation of nos genes. Two genes encoding Crp/Fnr transcriptional regulators observed upstream of nap and nor gene clusters had significant negative correlations with nosZ expression. Statistical path analysis further inferred a significant causal relationship between the gene expression of nosZ and that of one Crp/Fnr regulators. Our findings contribute to understanding the transcriptional regulation in clade II type N2O-reducers.

Published

2024

2. Unveiling the early life core microbiome of the sea cucumber Apostichopus japonicus and the unexpected abundance of the growth-promoting Sulfitobacter

Author

Juanwen Yu, Chunqi Jiang, Ryota Yamano, Shotaro Koike, Yuichi Sakai, Sayaka Mino, and Tomoo Sawabe

Subjects

Core microbiome, Apostichopus japonicus, Larval ontogenesis, Host-microbe interaction, Meta-pangenomics, Veterinary medicine, SF600-1100, Microbiology, QR1-502

Abstract

Abstract Background Microbiome in early life has long-term effects on the host’s immunological and physiological development and its disturbance is known to trigger various diseases in host Deuterostome animals. The sea cucumber Apostichopus japonicus is one of the most valuable marine Deuterostome invertebrates in Asia and a model animal in regeneration studies. To understand factors that impact on host development and holobiont maintenance, host-microbiome association has been actively studied in the last decade. However, we currently lack knowledge of early life core microbiome during its ontogenesis and how it benefits the host’s growth. Results We analyzed the microbial community in 28 sea cucumber samples from a laboratory breeding system, designed to replicate aquaculture environments, across six developmental stages (fertilized eggs to the juvenile stage) over a three years-period to examine the microbiomes’ dynamics and stability. Microbiome shifts occurred during sea cucumber larval ontogenesis in every case. Application of the most sophisticated core microbiome extraction methodology, a hybrid approach with abundance-occupancy core microbiome analyses (top 75% of total reads and > 70% occupation) and core index calculation, first revealed early life core microbiome consisted of Alteromonadaceae and Rhodobacteraceae, as well as a stage core microbiome consisting of pioneer core microbe Pseudoalteromonadaceae in A. japonicus, suggesting a stepwise establishment of microbiome related to ontogenesis and feeding behavior in A. japonicus. More interestingly, four ASVs affiliated to Alteromonadaceae and Rhodobacteraceae were extracted as early life core microbiome. One of the ASV (ASV0007) was affiliated to the Sulfitobactor strain BL28 (Rhodobacteraceae), isolated from blastula larvae in the 2019 raring batch. Unexpectedly, a bioassay revealed the BL28 strain retains a host growth-promoting ability. Further meta-pangenomics approach revealed the BL28 genome reads were abundant in the metagenomic sequence pool, in particular, in that of post-gut development in early life stages of A. japonicus. Conclusion Repeated rearing efforts of A. japonicus using laboratory aquaculture replicating aquaculture environments and hybrid core microbiome extraction approach first revealed particular ASVs affiliated to Alteromonadaceae and Rhodobacteraceae as the A. japonicus early life core microbiome. Further bioassay revealed the growth promoting ability to the host sea cucumber in one of the core microbes, the Sulfitobactor strain BL28 identified as ASV0007. Genome reads of the BL28 were abundant in post-gut development of A. japonicus, which makes us consider effective probiotic uses of those core microbiome for sea cucumber resource production and conservation. The study also emphasizes the importance of the core microbiome in influencing early life stages in marine invertebrates. Understanding these dynamics could offer pathways to improve growth, immunity, and disease resistance in marine invertebrates.

Published

2023

3. Inferring potential causative microbial factors of intestinal atrophic disease in the sea cucumber Apostichopus japonicus

Author

Juanwen Yu, Tomoo Sawabe, Ryota Yamano, Shotaro Koike, Yuichi Sakai, and Sayaka Mino

Subjects

Apostichopus japonicus, host-microbe interaction, larval development, disease susceptibility, metagenomics, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The overexploitation of the wild populations of Apostichopus japonicus has caused a significant decline in their numbers, prompting the establishment of a sea cucumber aquaculture industry that has become a major player in East Asia. Recent research has focused on identifying the various factors that may affect sea cucumber aquaculture, including water quality, diet, and the microbiome associated with their hosts. Notably, studies on host-associated microbiomes have emerged as a prominent area of research, particularly in the context of investigating the relationship of the microbiome with diseases that have caused significant economic losses. Intestinal atrophy of A. japonicus larvae has been reported at a number of sea cucumber farms in Japan, but there have been no factor screenings, and there is currently no efficient mitigation. In this study, we applied metagenomic analyses for the first time to an intestinal atrophic case of the sea cucumber A. japonicus larvae, which occurred in an aquaculture facility in Hokkaido, Japan, elucidating potential causative microbial factors and comparing the diseased microbiome against the healthy pan-microbiome. Through our metagenome comparisons, we have found significant increases in Oceanicoccus, Ruegeria, Nioella, Labrenzia, Tenacibaculum, and Muricauda in the diseased larvae. Among those, Tenacibaculum was estimated to potentially be the most pathogenic bacterium in the development of intestinal atrophic disease due to previous outbreaks of sea urchin diseases in the same facility. Our metagenomic approach demonstrates the further need of microbial screening of such causative agents and identification of the pathogenesis of such diseases, which could contribute to establishing more sustainable aquaculture in the sea cucumber industry.

Published

2023

4. Genome taxonomy of the genus Thalassotalea and proposal of Thalassotalea hakodatensis sp. nov. isolated from sea cucumber larvae.

Author

Ryota Yamano, Juanwen Yu, Alfabetian Harjuno Condro Haditomo, Chunqi Jiang, Sayaka Mino, Jesús L Romalde, Kyuhee Kang, Yuichi Sakai, and Tomoo Sawabe

Subjects

Medicine, Science

Abstract

The genus Thalassotalea is ubiquitous in marine environments, and up to 20 species have been described so far. A Gram-staining-negative, aerobic bacterium, designated strain PTE2T was isolated from laboratory-reared larvae of the Japanese sea cucumber Apostichopus japonicus. Phylogenetic analysis based on the 16S rRNA gene nucleotide sequences revealed that PTE2T was closely related to Thalassotalea sediminis N211T (= KCTC 42588T = MCCC 1H00116T) with 97.9% sequence similarity. ANI and in silico DDH values against Thalassotalea species were 68.5-77.0% and 19.7-24.6%, respectively, indicating the novelty of PTE2T. Based on genome-based taxonomic approaches, strain PTE2T (= JCM 34608T = KCTC 82592T) is proposed as a new species, Thalassotalea hakodatensis sp. nov.

Published

2023

5. Light response of Vibrio parahaemolyticus

Author

Yunato Kuroyanagi, Jiro Tsuchiya, Chunqi Jiang, Sayaka Mino, Hisae Kasai, Daisuke Motooka, Tetsuya Iida, Masataka Satomi, and Tomoo Sawabe

Subjects

blue light, vibrio parahaemolyticus, ROS, RNA-Seq, light response, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Light is one of the most critical stimuli in the majority of living organisms. In the last two decades, blue light (BL) has become a major subject of attention because of developments in light-emitting diodes (LED). The effects of BL on eukaryotic organisms and phototrophic prokaryotes have been well studied, but the knowledge of its effects on non-phototrophic prokaryotes remains unclear. Since BL can penetrate seawater, it is expected that most prokaryotes living in the ocean possess molecular mechanisms which protect against BL. The aim of this study is to assess the molecular mechanisms of Vibrio parahaemolyticus cells against BL as a marine bacterial model compared to other wavelength light exposures. Physiological and transcriptomic analyses of BL-exposed cells compared to other light treated cells revealed the highest ROS fold change, the highest number of differentially expressed genes (DEGs), and up-regulation in the gene responsible to not only compatible solute such as glycine betaine and ectoine but also iron-sulfur biosynthesis related to ROS formation. Furthermore, red light (RL) up-regulated the expression of cryptochrome DASH, a protein known to be excited by BL, and orange light (OL) decreased the expression of thermostable direct hemolysin (TDH), suggesting that OL attenuates the virulence of V. parahaemolyticus. In addition, the expression of VtrA (V. parahaemolyticus type III secretion system 2 (T3SS2) regulator A) but not VtrB (V. parahaemolyticus T3SS2 regulator B) increased under both light treatments, indicating that light exposure is unlikely to be involved in T3SS2-mediated pathogenicity. These results expand our knowledge on unique light responses in non-phototrophic marine prokaryotes.

Published

2022

6. Draft genome sequence data of Vibrio harveyi VH1 isolated from a diseased tiger grouper, Epinephelus fuscoguttatus, cultured in Malaysia

Author

Md. Ali Amatul-Samahah, Aslah Mohamad, Nurhidayu Al-saari, Mohd Zamri-Saad, Mohamad Noor Amal Azmai, Mohd Termizi Yusof, Md. Yasin Ina-Salwany, Mami Tanaka, Sayaka Mino, and Tomoo Sawabe

Subjects

Aquaculture, Vibriosis, Grouper, Genome, Vibrio sp., Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Vibriosis accounts for 66.7% of diseases reported in groupers' cultures and affects almost all stages of growth. The disease could lead up to mortality up to 50% mortality, and it was reported that high stocking density and poor fish handling were among the factors that contributed to the disease dissemination. V. harveyi has been reported to be among the causative agent and has caused acute mortality in cage groupers. In this study, we report the genome of V. harveyi VH1 isolated from a diseased tiger grouper Epinephelus fuscoguttatus, reared in a cage farm located in the coastal area of Langkawi.

Published

2022

7. Genomic Analyses of Halioticoli Clade Species in Vibrionaceae Reveal Genome Expansion With More Carbohydrate Metabolism Genes During Symbiotic to Planktonic Lifestyle Transition

Author

Chunqi Jiang, Sayaka Mino, and Tomoo Sawabe

Subjects

vibrionaceae, marine invertebrate, symbiosis, planktonic, halioticoli clade, complete genome, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Vibrionaceae is one of the most diverse bacterial families and is currently classified into over 50 clades, some members of which play an important role in the symbiotic relationships with humans and animals. Halioticoli clade, which currently consists of 10 species: 8 species associated with the gut of abalone (symbiotic), 1 species (V. breoganii) from bivalves, and 1 species (V. ishigakensis) from subtropical seawater (planktonic). To accelerate studies in the evolution, ecogenomics, and biotechnology of Halioticoli clade species, the genomic backbones and pangenome analyses based on complete genome sequences are needed. Genome sizes of Halioticoli clade species ranged from 3.5 Mb to 4.8 Mb, with V. ishigakensis the biggest. The evolutionary relationships using multilocus sequence analysis based on eight housekeeping genes and 125 single-copy core genes revealed a division of five sub-clades in this clade; 1) V. breoganii, V. comitans, V. inusitatus and V. superstes, 2) V. ezurae, V. neonatus, and V. halioticoli, 3) V. rarus, 4) V. gallicus, and 5) V. ishigakensis. The pan-genomic analysis combined with function and metabolism estimations showed that the planktonic group (sub-clade 5) contained the greatest number of specific genes, and more genes responsible for carbohydrate metabolisms, especially the genes encoding D-galactonate degradation. These results demonstrated that the genome expanded by acquiring more abilities for utilizing various carbohydrates during the evolution from symbiotic to a planktonic lifestyle. Moreover, according to Carbohydrate-Active enZYmes (CAZy) profiling, genes encoding alginate degrading enzymes (aly), classified into PL6, PL7, PL15, and PL17 were common in the ten genomes, but sub-clade 1 had the most. Meanwhile, sub-clade 1and 5 also possessed abundant genes related to macroalgae substrates degradation (GHs), which are also responsible for the genome expansion of sub-clade 1 and 5.

Published

2022

8. Characterization of Microbiomes Associated With the Early Life Stages of Sea Cucumber Apostichopus japonicus Selenka

Author

Juanwen Yu, Yuichi Sakai, Sayaka Mino, and Tomoo Sawabe

Subjects

pioneer microbiome, gut microbiome, holobiont, sea cucumber, Apostichopus japonicus, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

There is a lot of evidence indicating pioneer microbes in early life having various effects on later host biology. Because of the influential phylogenetic position of sea cucumber, which is a deep branching clade in Deuterostomia, the attention on the microbiome in sea cucumber has been increasing. Although microbes in sea cucumber have been reported in several studies, there is a lack of knowledge regarding the pioneer microbiota in the early life stages of sea cucumber. In this study, microbiota changes during the larval development of sea cucumber were assessed using a laboratory rearing system. Microbial community structure was likely to be related to the developmental stage and significant alterations were detected in the late auricularia stage. The relative abundances of Oceanospirillales, Alteromonadales, and Rhodobacterales significantly varied after gut formation. A total of 257 strains were isolated from larval developmental stages of sea cucumber and affiliated to 124 ASVs in the metagenomic analysis. This data demonstrates for the first-time dynamic changes of sea cucumber microbiota in the developmental stages in early life.

Published

2022

9. Taxonomic revision of the genus Amphritea supported by genomic and in silico chemotaxonomic analyses, and the proposal of Aliamphritea gen. nov.

Author

Ryota Yamano, Juanwen Yu, Chunqi Jiang, Alfabetian Harjuno Condro Haditomo, Sayaka Mino, Yuichi Sakai, and Tomoo Sawabe

Subjects

Medicine, Science

Abstract

A Gram-staining-negative, aerobic bacterium, designated strain PT3T was isolated from laboratory-reared larvae of the Japanese sea cucumber Apostichopus japonicus. Phylogenetic analysis based on the 16S rRNA gene nucleotide sequences revealed that PT3T was closely related to Amphritea ceti RA1T (= KCTC 42154T = NBRC 110551T) and Amphritea spongicola MEBiC05461T (= KCCM 42943T = JCM 16668T) both with 98.3% sequence similarity, however, average nucleotide identity (ANI) and in silico DNA-DNA hybridization (in silico DDH) values among these three strains were below 95% and 70%, respectively, confirming the novelty of PT3T. Furthermore, the average amino acid identity (AAI) values of PT3T against other Amphritea species were on the reported genus delineation boundary (64-67%). Multilocus sequence analysis using four protein-coding genes (recA, mreB, rpoA, and topA) further demonstrated that PT3T, Amphritea ceti and Amphritea spongicola formed a monophyletic clade clearly separate from other members of the genus Amphritea. Three strains (PT3T, A. ceti KCTC 42154T and A. spongicola JCM 16668T) also showed higher similarities in their core genomes compared to those of the other Amphritea spp. Based on the genome-based taxonomic approach, Aliamphritea gen. nov. was proposed together with the reclassification of the genus Amphritea and Aliamphritea ceti comb. nov. (type strain RA1T = KCTC 42154T = NBRC 110551T), Aliamphritea spongicola comb. nov. (type strain MEBiC05461T = KCCM 42943T = JCM 16668T), and Aliamphritea hakodatensis sp. nov. (type strain PT3T = JCM 34607T = KCTC 82591T) were suggested.

Published

2022

10. The Structure and Function of Gut Microbiomes of Two Species of Sea Urchins, Mesocentrotus nudus and Strongylocentrotus intermedius, in Japan

Author

Alfabetian Harjuno Condro Haditomo, Masanori Yonezawa, Juanwen Yu, Sayaka Mino, Yuichi Sakai, and Tomoo Sawabe

Subjects

sea urchin, gut, microbiome, Mesocentrotus nudus, Strongylocentrotus intermedius, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Sea urchin is an indicator of coastal environmental changes in the global warming era, and is also a model organism in developmental biology and evolution. Due to the depletion of wild resources, new aquaculture techniques for improving stocks have been well studied. The gut microbiome shapes various aspects of a host’s physiology. However, these microbiome structures and functions on sea urchins, particularly Mesocentrotus nudus and Strongylocentrotus intermedius which are important marine bioresources commonly found in Japan, have not been fully investigated yet. Using metagenomic approaches including meta16S and shotgun metagenome sequencings, the structures, functions, and dynamics of the gut microbiome of M. nudus and S. intermedius, related to both habitat environment and host growth, were studied. Firstly, a broad meta16S analysis revealed that at the family level, Psychromonadaceae and Flavobacteriaceae reads (38–71%) dominated in these sea urchins, which is a unique feature observed in species in Japan. Flavobacteriaceae reads were more abundant in individuals after rearing in an aquarium with circulating compared to one with running water. Campylobacteraceae and Vibrionaceae abundances increased in both kinds of laboratory-reared sea urchins in both types of experiments. 2-weeks feeding experiments of M. nudus and S. intermedius transplanted from the farm to laboratory revealed that these gut microbial structures were affected by diet rather than rearing environments and host species. Secondly, further meta16S analysis of microbial reads related to M. nudus growth revealed that at least four Amplicon Sequence Variant (ASV) affiliated to Saccharicrinis fermentans, which is known to be a nitrogen (N2) fixing bacterium, showed a significant positive correlation to the body weight and test diameter. Interestingly, gut microbiome comparisons using shotgun metagenome sequencing of individuals showing higher and lower growth rates revealed a significant abundance of “Nitrate and nitrite ammonification” genes in the higher-grown individuals under the circulating water rearing. These findings provide new insights on the structure-function relationship of sea urchin gut microbiomes beyond previously reported nitrogen fixation function in sea urchin in 1950s; we discovered a nitrate reduction function into ammonium for the growth promotion of sea urchin.

Published

2021

11. Biogeochemical Implications of N2O-Reducing Thermophilic Campylobacteria in Deep-Sea Vent Fields, and the Description of Nitratiruptor labii sp. nov.

Author

Muneyuki Fukushi, Sayaka Mino, Hirohisa Tanaka, Satoshi Nakagawa, Ken Takai, and Tomoo Sawabe

Subjects

Earth Sciences, Geology, Geomicrobiology, Microbiology, Biocatalysis, Science

Abstract

Summary: Nitrous oxide (N2O) is a potent greenhouse gas and has significantly increased in the atmosphere. Deep-sea hydrothermal fields are representative environments dominated by mesophilic to thermophilic members of the class Campylobacteria that possess clade II nosZ encoding nitrous oxide reductase. Here, we report a strain HRV44T representing the first thermophilic campylobacterium capable of growth by H2 oxidation coupled to N2O reduction. On the basis of physiological and genomic properties, it is proposed that strain HRV44T (=JCM 34002 = DSM 111345) represents a novel species of the genus Nitratiruptor, Nitratiruptor labii sp. nov. The comparison of the N2O consumption ability of strain HRV44T with those of additional Nitratiruptor and other campylobacterial strains revealed the highest level in strain HRV44T and suggests the N2O-respiring metabolism might be the common physiological trait for the genus Nitratiruptor. Our findings provide insights into contributions of thermophilic Campylobacteria to the N2O sink in deep-sea hydrothermal environments.

Published

2020

12. Nitrosophilus alvini gen. nov., sp. nov., a hydrogen-oxidizing chemolithoautotroph isolated from a deep-sea hydrothermal vent in the East Pacific Rise, inferred by a genome-based taxonomy of the phylum 'Campylobacterota'.

Author

Taiki Shiotani, Sayaka Mino, Wakana Sato, Sayo Nishikawa, Masanori Yonezawa, Stefan M Sievert, and Tomoo Sawabe

Subjects

Medicine, Science

Abstract

A novel bacterium, strain EPR55-1T, was isolated from a deep-sea hydrothermal vent on the East Pacific Rise. The cells were motile rods. Growth was observed at temperatures between 50 and 60°C (optimum, 60°C), at pH values between 5.4 and 8.6 (optimum, pH 6.6) and in the presence of 2.4-3.2% (w/v) NaCl (optimum, 2.4%). The isolate used molecular hydrogen as its sole electron donor, carbon dioxide as its sole carbon source, ammonium as its sole nitrogen source, and thiosulfate, sulfite (0.01 to 0.001%, w/v) or elemental sulfur as its sole sulfur source. Nitrate, nitrous oxide (33%, v/v), thiosulfate, molecular oxygen (0.1%, v/v) or elemental sulfur could serve as the sole electron acceptor to support growth. Phylogenetic analyses based on both 16S rRNA gene sequences and whole genome sequences indicated that strain EPR55-1T belonged to the family Nitratiruptoraceae of the class "Campylobacteria", but it had the distinct phylogenetic relationship with the genus Nitratiruptor. On the basis of the physiological and molecular characteristics of the isolate, the name Nitrosophilus alvini gen. nov. sp. nov. is proposed, with EPR55-1T as the type strain (= JCM 32893T = KCTC 15925T). In addition, it is shown that "Nitratiruptor labii" should be transferred to the genus Nitrtosophilus; the name Nitrosophilus labii comb. nov. (JCM 34002T = DSM 111345T) is proposed for this organism. Furthermore, 16S rRNA gene-based and genome-based analyses showed that Cetia pacifica is phylogenetically associated with Caminibacter species. We therefore propose the reclassification of Cetia pacifica as Caminibacter pacificus comb. nov. (DSM 27783T = JCM 19563T). Additionally, AAI thresholds for genus classification and the reclassification of subordinate taxa within "Campylobacteria" are also evaluated, based on the analyses using publicly available genomes of all the campylobacterial species.

Published

2020

13. Understanding the NaCl-dependent behavior of hydrogen production of a marine bacterium, Vibrio tritonius

Author

Nurhidayu Al-saari, Eri Amada, Yuta Matsumura, Mami Tanaka, Sayaka Mino, and Tomoo Sawabe

Subjects

Hydrogen, Vibrio, Energy, Seaweed, Marine, Medicine, Biology (General), QH301-705.5

Abstract

Biohydrogen is one of the most suitable clean energy sources for sustaining a fossil fuel independent society. The use of both land and ocean bioresources as feedstocks show great potential in maximizing biohydrogen production, but sodium ion is one of the main obstacles in efficient bacterial biohydrogen production. Vibrio tritonius strain AM2 can perform efficient hydrogen production with a molar yield of 1.7 mol H2/mol mannitol, which corresponds to 85% theoretical molar yield of H2 production, under saline conditions. With a view to maximizing the hydrogen production using marine biomass, it is important to accumulate knowledge on the effects of salts on the hydrogen production kinetics. Here, we show the kinetics in batch hydrogen production of V. tritonius strain AM2 to investigate the response to various NaCl concentrations. The modified Han–Levenspiel model reveals that salt inhibition in hydrogen production using V. tritonius starts precisely at the point where 10.2 g/L of NaCl is added, and is critically inhibited at 46 g/L. NaCl concentration greatly affects the substrate consumption which in turn affects both growth and hydrogen production. The NaCl-dependent behavior of fermentative hydrogen production of V. tritonius compared to that of Escherichia coli JCM 1649 reveals the marine-adapted fermentative hydrogen production system in V. tritonius. V. tritonius AM2 is capable of producing hydrogen from seaweed carbohydrate under a wide range of NaCl concentrations (5 to 46 g/L). The optimal salt concentration producing the highest levels of hydrogen, optimal substrate consumption and highest molar hydrogen yield is at 10 g/L NaCl (1.0% (w/v)).

Published

2019

14. Enrichment and Genomic Characterization of a N2O-Reducing Chemolithoautotroph From a Deep-Sea Hydrothermal Vent

Author

Sayaka Mino, Naoki Yoneyama, Satoshi Nakagawa, Ken Takai, and Tomoo Sawabe

Subjects

N2O-reducing bacterium, deep-sea hydrothermal field, Campylobacteria, Epsilonproteobacteria, nosZ, nitrous oxide, Biotechnology, TP248.13-248.65

Abstract

Nitrous oxide (N2O) is a greenhouse gas and also leads to stratospheric ozone depletion. In natural environments, only a single N2O sink process is the microbial reduction of N2O to N2, which is mediated by nitrous oxide reductase (NosZ) encoded by nosZ gene. The nosZ phylogeny has two distinct clades, clade I and formerly overlooked clade II. In deep-sea hydrothermal environments, several members of the class Campylobacteria are shown to harbor clade II nosZ gene and perform the complete denitrification of nitrate to N2; however, little is known about their ability to grow on exogenous N2O as the sole electron acceptor. Here, we obtained an enrichment culture from a deep-sea hydrothermal vent in the Southern Mariana Trough, which showed a respiratory N2O reduction with H2 as an electron donor. The single amplicon sequence variant (ASV) presenting 90% similarity to Hydrogenimonas species within the class Campylobacteria was predominant throughout the cultivation period. Metagenomic analyses using a combination of short-read and long-read sequence data succeeded in reconstructing a complete genome of the dominant ASV, which encoded clade II nosZ gene. This study represents the first cultivation analysis that shows the occurrence of N2O-respiring microorganisms in a deep-sea hydrothermal vent and provides the opportunity to assess their capability to reduce N2O emission from the environments.

Published

2018

15. Metagenomics of Coral Reefs Under Phase Shift and High Hydrodynamics

Author

Pedro Milet Meirelles, Ana Carolina Soares, Louisi Oliveira, Luciana Leomil, Luciana Reis Appolinario, Ronaldo Bastos Francini-Filho, Rodrigo Leão de Moura, Renato Tenan de Barros Almeida, Paulo S. Salomon, Gilberto Menezes Amado-Filho, Ricardo Kruger, Eduardo Siegle, Diogo A. Tschoeke, Isao Kudo, Sayaka Mino, Tomoo Sawabe, Cristiane C. Thompson, and Fabiano L. Thompson

Subjects

coral reefs, microbialization, local stressors, early warning signals, metagenomics, resistence, Microbiology, QR1-502

Abstract

Local and global stressors have affected coral reef ecosystems worldwide. Switches from coral to algal dominance states and microbialization are the major processes underlying the global decline of coral reefs. However, most of the knowledge concerning microbialization has not considered physical disturbances (e.g., typhoons, waves, and currents). Southern Japan reef systems have developed under extreme physical disturbances. Here, we present analyses of a three-year investigation on the coral reefs of Ishigaki Island that comprised benthic and fish surveys, water quality analyses, metagenomics and microbial abundance data. At the four studied sites, inorganic nutrient concentrations were high and exceeded eutrophication thresholds. The dissolved organic carbon (DOC) concentration (up to 233.3 μM) and microbial abundance (up to 2.5 × 105 cell/mL) values were relatively high. The highest vibrio counts coincided with the highest turf cover (∼55–85%) and the lowest coral cover (∼4.4–10.2%) and fish biomass (0.06 individuals/m2). Microbiome compositions were similar among all sites and were dominated by heterotrophs. Our data suggest that a synergic effect among several regional stressors are driving coral decline. In a high hydrodynamics reef environment, high algal/turf cover, stimulated by eutrophication and low fish abundance due to overfishing, promote microbialization. Together with crown-of-thorns starfish (COTS) outbreaks and possible of climate changes impacts, theses coral reefs are likely to collapse.

Published

2018

16. Availability of Nanopore sequences in the genome taxonomy for Vibrionaceae systematics: Rumoiensis clade species as a test case

Author

Mami Tanaka, Sayaka Mino, Yoshitoshi Ogura, Tetsuya Hayashi, and Tomoo Sawabe

Subjects

Vibrionaceae, Genome taxonomy, Nanopore, Medicine, Biology (General), QH301-705.5

Abstract

Whole genome sequence comparisons have become essential for establishing a robust scheme in bacterial taxonomy. To generalize this genome-based taxonomy, fast, reliable, and cost-effective genome sequencing methodologies are required. MinION, the palm-sized sequencer from Oxford Nanopore Technologies, enables rapid sequencing of bacterial genomes using minimal laboratory resources. Here we tested the ability of Nanopore sequences for the genome-based taxonomy of Vibrionaceae and compared Nanopore-only assemblies to complete genomes of five Rumoiensis clade species: Vibrio aphrogenes, V. algivorus, V. casei, V. litoralis, and V. rumoiensis. Comparison of overall genome relatedness indices (OGRI) and multilocus sequence analysis (MLSA) based on Nanopore-only assembly and Illumina or hybrid assemblies revealed that errors in Nanopore-only assembly do not influence average nucleotide identity (ANI), in silico DNA-DNA hybridization (DDH), G+C content, or MLSA tree topology in Vibrionaceae. Our results show that the genome sequences from Nanopore-based approach can be used for rapid species identification based on the OGRI and MLSA.

Published

2018

17. Correction: Vibrio aphrogenes sp. nov., in the Rumoiensis clade isolated from a seaweed.

Author

Mami Tanaka, Shoko Endo, Fumihito Kotake, Nurhidayu Al-Saari, A K M Rohul Amin, Gao Feng, Sayaka Mino, Hidetaka Doi, Yoshitoshi Ogura, Tetsuya Hayashi, Wataru Suda, Masahira Hattori, Isao Yumoto, Toko Sawabe, Tomoo Sawabe, and Toshiyoshi Araki

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0180053.].

Published

2017

18. Vibrio aphrogenes sp. nov., in the Rumoiensis clade isolated from a seaweed.

Author

Mami Tanaka, Shoko Endo, Fumihito Kotake, Nurhidayu Al-Saari, A K M Rohul Amin, Gao Feng, Sayaka Mino, Hidetaka Doi, Yoshitoshi Ogura, Tetsuya Hayashi, Wataru Suda, Masahira Hattori, Isao Yumoto, Toko Sawabe, Tomoo Sawabe, and Toshiyoshi Araki

Subjects

Medicine, Science

Abstract

A novel strain Vibrio aphrogenes sp. nov. strain CA-1004T isolated from the surface of seaweed collected on the coast of Mie Prefecture in 1994 [1] was characterized using polyphasic taxonomy including multilocus sequence analysis (MLSA) and a genome based comparison. Both phylogenetic analyses on the basis of 16S rRNA gene sequences and MLSA based on eight protein-coding genes (gapA, gyrB, ftsZ, mreB, pyrH, recA, rpoA, and topA) showed the strain could be placed in the Rumoiensis clade in the genus Vibrio. Sequence similarities of the 16S rRNA gene and the multilocus genes against the Rumoiensis clade members, V. rumoiensis, V. algivorus, V. casei, and V. litoralis, were low enough to propose V. aphrogenes sp. nov. strain CA-1004T as a separate species. The experimental DNA-DNA hybridization data also revealed that the strain CA-1004T was separate from four known Rumoiensis clade species. The G+C content of the V. aphrogenes strain was determined as 42.1% based on the genome sequence. Major traits of the strain were non-motile, halophilic, fermentative, alginolytic, and gas production. A total of 27 traits (motility, growth temperature range, amylase, alginase and lipase productions, and assimilation of 19 carbon compounds) distinguished the strain from the other species in the Rumoiensis clade. The name V. aphrogenes sp. nov. is proposed for this species in the Rumoiensis clade, with CA-1004T as the type strain (JCM 31643T = DSM 103759T).

Published

2017

19. The first temporal and spatial assessment of Vibrio diversity of the surrounding seawater of coral reefs in Ishigaki, Japan

Author

AKM Rohul Amin, Feng Gao, Nurhidayu Al-saari, Pedro Milet Meirelles, Yohei Yamazaki, Sayaka Mino, Fabiano Thompson, Toko Sawabe, and Tomoo Sawabe

Subjects

Seawater, Vibrios, coral reef, Environmental determinants, Diversity dynamics, Microbiology, QR1-502

Abstract

Coral reefs perform a major role in regulating marine biodiversity and serve as hotspot for highly dynamic and diverse microbiomes as holobionts. Corals around Ishigaki, however, are at risk due to tremendous stressors including elevation of seawater temperature, eutrophication and so on. However, no information is currently available on how Vibrio diversity fluctuates spatially and temporally due to environmental determinants in Ishigaki coral reef ecosystems. The aim of this study is to elucidate spatiotemporal Vibrio diversity dynamic at both community and population levels and to assess the environmental drivers correlated to Vibrio abundance and diversity. The Vibrio community identified based on pyrH gene phylogeny of 685 isolates from seawater directly connecting to Ishigaki coral holobionts consisted of 22 known and 12 potential novel Vibrionaceae species. The most prominent species were V. hyugaensis, V. owensii and V. harveyi followed by V. maritimus/V. variabillis, V. campbellii, V. coralliilyticus and P. rosenbergii. The Vibrio community fluctuations, assessed by PCoA with UniFrac distance and clustering with Euclidiean distance were varied less not only by year but also by site. Interestingly, significant positive correlation was observed between rising seawater temperature and the abundance of V. campbellii (r=0.62; P

Published

2016

20. Advanced Microbial Taxonomy Combined with Genome-Based-Approaches Reveals that Vibrio astriarenae sp. nov., an Agarolytic Marine Bacterium, Forms a New Clade in Vibrionaceae.

Author

Nurhidayu Al-Saari, Feng Gao, Amin A K M Rohul, Kazumichi Sato, Keisuke Sato, Sayaka Mino, Wataru Suda, Kenshiro Oshima, Masahira Hattori, Moriya Ohkuma, Pedro M Meirelles, Fabiano L Thompson, Cristiane Thompson, Gilberto M A Filho, Bruno Gomez-Gil, Toko Sawabe, and Tomoo Sawabe

Subjects

Medicine, Science

Abstract

Advances in genomic microbial taxonomy have opened the way to create a more universal and transparent concept of species but is still in a transitional stage towards becoming a defining robust criteria for describing new microbial species with minimum features obtained using both genome and classical polyphasic taxonomies. Here we performed advanced microbial taxonomies combined with both genome-based and classical approaches for new agarolytic vibrio isolates to describe not only a novel Vibrio species but also a member of a new Vibrio clade. Two novel vibrio strains (Vibrio astriarenae sp. nov. C7T and C20) showing agarolytic, halophilic and fermentative metabolic activity were isolated from a seawater sample collected in a coral reef in Okinawa. Intraspecific similarities of the isolates were identical in both sequences on the 16S rRNA and pyrH genes, but the closest relatives on the molecular phylogenetic trees on the basis of 16S rRNA and pyrH gene sequences were V. hangzhouensis JCM 15146T (97.8% similarity) and V. agarivorans CECT 5085T (97.3% similarity), respectively. Further multilocus sequence analysis (MLSA) on the basis of 8 protein coding genes (ftsZ, gapA, gyrB, mreB, pyrH, recA, rpoA, and topA) obtained by the genome sequences clearly showed the V. astriarenae strain C7T and C20 formed a distinct new clade protruded next to V. agarivorans CECT 5085T. The singleton V. agarivorans has never been included in previous MLSA of Vibrionaceae due to the lack of some gene sequences. Now the gene sequences are completed and analysis of 100 taxa in total provided a clear picture describing the association of V. agarivorans into pre-existing concatenated network tree and concluded its relationship to our vibrio strains. Experimental DNA-DNA hybridization (DDH) data showed that the strains C7T and C20 were conspecific but were separated from all of the other Vibrio species related on the basis of both 16S rRNA and pyrH gene phylogenies (e.g., V. agarivorans CECT 5085T, V. hangzhouensis JCM 15146T V. maritimus LMG 25439T, and V. variabilis LMG 25438T). In silico DDH data also supported the genomic relationship. The strains C7T also had less than 95% average amino acid identity (AAI) and average nucleotide identity (ANI) towards V. maritimus C210, V. variabilis C206, and V. mediterranei AK1T, V. brasiliensis LMG 20546T, V. orientalis ATCC 33934T, and V. sinaloensis DSM 21326. The name Vibrio astriarenae sp. nov. is proposed with C7 as the type strains. Both V. agarivorans CECT 5058T and V. astriarenae C7T are members of the newest clade of Vibrionaceae named Agarivorans.

Published

2015

21. The pan‐genome of Splendidus clade species in the family Vibrionaceae : Insights into evolution, adaptation, and pathogenicity

Author

Chunqi, Jiang, Hisae, Kasai, Sayaka, Mino, Jesús L, Romalde, and Tomoo, Sawabe

Subjects

Evolution, Molecular, Genome, Virulence, Virulence Factors, Vibrionaceae, Carbohydrates, Animals, Microbiology, Genome, Bacterial, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

The Splendidus clade is the largest clade in Vibrionaceae, and its members are often related to mortality of marine animals with huge economic losses. The molecular bases of their pathogenicity and virulence, however, remain largely unknown. In particular, the complete genome sequences of the Splendidus clade species are rarely registered, which is one of the obstacles to predict core and/or unique genes responsible for their adaptation and pathogenicity, and to perform a fine scale meta-transcriptome during bacterial infection to their hosts. In this study, we obtained the complete genomes of all type strains in the Splendidus clade and revealed that (1) different genome sizes (4.4-5.9 Mb) with V. lentus the biggest and most of them had several big plasmids, likely because of the different features on mobilome elements; (2) the Splendidus clade consists of 19 species except V. cortegadensis, and 3 sub-clades (SC) were defined with the 15 most closely related members as SC1; (3) different carbohydrate degradation preferences may be the result of environmental adaptation; and (4) a broad prediction of virulence factors (VFs) revealed core and species unique VF genes.

Published

2022

22. A First Marine Vibrio Biocatalyst to Produce Ethanol from Alginate, which is a Rich Polysaccharide in Brown Macroalgal Biomass

Author

Yutaro Inohara, Jiang Chunqi, Sayaka Mino, and Tomoo Swabe

Subjects

General Medicine, Applied Microbiology and Biotechnology, Microbiology

Published

2023

23. Nitrosophilus kaiyonis sp. nov., a hydrogen-, sulfur- and thiosulfate-oxidizing chemolithoautotroph within 'Campylobacteria' isolated from a deep-sea hydrothermal vent in the Mid-Okinawa Trough

Author

So Fukazawa, Sayaka Mino, Jiro Tsuchiya, Satoshi Nakagawa, Ken Takai, and Tomoo Sawabe

Subjects

Hydrothermal Vents, RNA, Ribosomal, 16S, Genetics, Thiosulfates, General Medicine, Molecular Biology, Biochemistry, Microbiology, Oxidation-Reduction, Phylogeny, Sulfur, Hydrogen

Abstract

A novel bacterium, strain MOT50

Published

2022

24. Comparative Physiology and Genomics of Hydrogen-Producing Vibrios

Author

Yuta Matsumura, Kazumich Sato, Chunqi Jiang, Sayaka Mino, and Tomoo Swabe

Subjects

Formates, Hydrogenase, Nickel, Escherichia coli Proteins, Escherichia coli, Membrane Transport Proteins, ATP-Binding Cassette Transporters, General Medicine, Genomics, Applied Microbiology and Biotechnology, Microbiology, Hydrogen, Vibrio

Abstract

The Hyf-type formate hydrogen lyase (FHL) complex was first proposed based on sequence comparisons in Escherichia coli in 1997 (Andrews et al. in Microbiology 143:3633-3647, 1997). The hydrogenase in the Hyf-type FHL was estimated to be a proton-translocating energy-conserving [NiFe]-hydrogenase. Although the structure of FHL is similar to that of complex I, silent gene expression in E. coli has caused delays in unveiling the genetic and biochemical features of the FHL. The entire set of genes required for Hyf-type FHL synthesis has also been found in the genome sequences of Vibrio tritonius in 2015 (Matsumura et al. in Int J Hydrog Energy 40:9137-9146, 2015), which produces more hydrogen (H

Published

2022

25. Thaumasiovibrio

Author

Tomoo Sawabe, A.K.M. Rohul Amin, and Sayaka Mino

Published

2021

26. An annual faecal 16S amplicon sequencing of individual sea cucumber ( Apostichopus japonicus ) demonstrates the feeding behaviours against eukaryotes in natural environments

Author

Yuichi Sakai, Tomoo Sawabe, Yohei Yamazaki, and Sayaka Mino

Subjects

Sea cucumber, Apostichopus japonicus, Amplicon sequencing, Zoology, Aquatic Science, Biology, biology.organism_classification

Published

2020

27. Genomic characterization of closely related species in the<scp>Rumoiensis</scp>clade infers ecogenomic signatures to non‐marine environments

Author

Man Cai, Bruno Gomez-Gil, Yu Guang Zhou, Toshiyoshi Araki, Daiki Kumakura, Tetsuya Hayashi, Isao Yumoto, Sayaka Mino, Yoshitoshi Ogura, Hidetaka Doi, Mami Tanaka, and Tomoo Sawabe

Subjects

DNA, Bacterial, 0303 health sciences, biology, 030306 microbiology, Niche, Genomics, biology.organism_classification, Microbiology, Genome, Vibrio, 03 medical and health sciences, Species Specificity, Vibrionaceae, Evolutionary biology, Vibrio casei, Insertion sequence, Clade, Gene, Genome, Bacterial, Phylogeny, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

Members of the family Vibrionaceae are generally found in marine and brackish environments, playing important roles in nutrient cycling. The Rumoiensis clade is an unconventional group in the genus Vibrio, currently comprising six species from different origins including two species isolated from non-marine environments. In this study, we performed comparative genome analysis of all six species in the clade using their complete genome sequences. We found that two non-marine species, Vibrio casei and Vibrio gangliei, lacked the genes responsible for algal polysaccharide degradation, while a number of glycoside hydrolase genes were enriched in these two species. Expansion of insertion sequences was observed in V. casei and Vibrio rumoiensis, which suggests ongoing genomic changes associated with niche adaptations. The genes responsible for the metabolism of glucosylglycerate, a compound known to play a role as compatible solutes under nitrogen limitation, were conserved across the clade. These characteristics, along with genes encoding species-specific functions, may reflect the habit expansion which has led to the current distribution of Rumoiensis clade species. Genome analysis of all species in a single clade give us valuable insights into the genomic background of the Rumoiensis clade species and emphasize the genomic diversity and versatility of Vibrionaceae.

Published

2020

28. Vibrio Clade 3.0: New Vibrionaceae Evolutionary Units Using Genome-Based Approach

Author

Chunqi Jiang, Mami Tanaka, Sayo Nishikawa, Sayaka Mino, Jesús L. Romalde, Fabiano L. Thompson, Bruno Gomez-Gil, and Tomoo Sawabe

Subjects

Base Sequence, Vibrionaceae, Sequence Analysis, DNA, General Medicine, Applied Microbiology and Biotechnology, Microbiology, Genome, Bacterial, Phylogeny, Vibrio

Abstract

Currently, over 190 species in family Vibrionaceae, including not-yet-cultured taxa, have been described and classified into over nine genera, in which the number of species has doubled compared to the previous vibrio evolutionary update (Vibrio Clade 2.0) (Sawabe et al. 2014). In this study, "Vibrio Clade 3.0," the second update of the molecular phylogenetic analysis was performed based on nucleotide sequences of eight housekeeping genes (8-HKGs) retrieved from genome sequences, including 22 newly determined genomes. A total of 51 distinct clades were observed, of which 21 clades are newly described. We further evaluated the delineation powers of the clade classification based on nucleotide sequences of 34 single-copy genes and 11 ribosomal protein genes (11-RPGs) retrieved from core-genome sequences; however, the delineation power of 8-HKGs is still high and that gene set can be reliably used for the classification and identification of Vibrionaceae. Furthermore, the 11-RPGs set proved to be useful in identifying uncultured species among metagenome-assembled genome (MAG) and/or single-cell genome-assembled genome (SAG) pools. This study expands the awareness of the diversity and evolutionary history of the family Vibrionaceae and accelerates the taxonomic applications in classifying as not-yet-cultured taxa among MAGs and SAGs.

Published

2021

29. Recent update on the prevalence ofVibriospecies among cultured grouper in Peninsular Malaysia

Author

Tomoo Sawabe, Mohammad Noor Azmai Amal, Sayaka Mino, Mohd Zamri-Saad, Nor Zulkiply Amalina, Nurhidayu Al-saari, Yasin Ina-Salwany, Mohd Termizi Yusof, Mami Tanaka, and Zulperi Dzarifah

Subjects

Vibrio species, Zoology, Grouper, Aquatic Science, Biology, biology.organism_classification, Vibrio

Published

2019

30. Genome sequence of Vibrio parahaemolyticus C5A causing acute hepatopancreatic necrosis disease in shrimp isolated from a Malaysian shrimp culture pond

Author

Md. Ali Amatul-Samahah, Sarmila Muthukrishnan, Nurhidayu Al-saari, Natrah Fatin Mohd Ikhsan, Mohd Zamri-Saad, Mohamad Noor Amal Azmai, Mohd Termizi Yusof, Ina-Salwany Md. Yasin, Mami Tanaka, Sayaka Mino, and Tomoo Sawabe

Subjects

Genetics

Published

2022

31. Vibriosis in Fish: A Review on Disease Development and Prevention

Author

Aslah Mohamad, M. Y. Ina-Salwany, Mohammad Noor Azmai Amal, Fathin-Amirah Mursidi, Sayaka Mino, Nurhidayu Al-saari, Hisae Kasai, Mohd Zamri-Saad, Aslizah Mohd-Aris, and Tomoo Sawabe

Subjects

040301 veterinary sciences, business.industry, Incidence, Biosecurity, Outbreak, 04 agricultural and veterinary sciences, Disease, Aquatic Science, Biology, Hatchery, Shrimp, 0403 veterinary science, Vaccination, Fish Diseases, Aquaculture, Vibrio Infections, Environmental health, 040102 fisheries, Animals, 0401 agriculture, forestry, and fisheries, business, Shellfish

Abstract

Current growth in aquaculture production is parallel with the increasing number of disease outbreaks, which negatively affect the production, profitability, and sustainability of the global aquaculture industry. Vibriosis is among the most common diseases leading to massive mortality of cultured shrimp, fish, and shellfish in Asia. High incidence of vibriosis can occur in hatchery and grow-out facilities, but juveniles are more susceptible to the disease. Various factors, particularly the source of fish, environmental factors (including water quality and farm management), and the virulence factors of Vibrio, influence the occurrence of the disease. Affected fish show weariness, with necrosis of skin and appendages, leading to body malformation, slow growth, internal organ liquefaction, blindness, muscle opacity, and mortality. A combination of control measures, particularly a disease-free source of fish, biosecurity of the farm, improved water quality, and other preventive measures (e.g., vaccination) might be able to control the infection. Although some control measures are expensive and less practical, vaccination is effective, relatively cheap, and easily implemented. In this review, the latest knowledge on the pathogenesis and control of vibriosis, including vaccination, is discussed.

Published

2018

32. Biogeochemical Implications of N2O-Reducing Thermophilic Campylobacteria in Deep-Sea Vent Fields, and the Description of Nitratiruptor labii sp. nov

Author

Ken Takai, Satoshi Nakagawa, Muneyuki Fukushi, Tomoo Sawabe, Hirohisa Tanaka, and Sayaka Mino

Subjects

0301 basic medicine, Biogeochemical cycle, Multidisciplinary, Geomicrobiology, Thermophile, Nitrous-oxide reductase, Geology, 02 engineering and technology, 021001 nanoscience & nanotechnology, equipment and supplies, Deep sea, Microbiology, Article, 03 medical and health sciences, 030104 developmental biology, Botany, Earth Sciences, Biocatalysis, lcsh:Q, 0210 nano-technology, lcsh:Science, Nitratiruptor, Mesophile

Abstract

Summary Nitrous oxide (N2O) is a potent greenhouse gas and has significantly increased in the atmosphere. Deep-sea hydrothermal fields are representative environments dominated by mesophilic to thermophilic members of the class Campylobacteria that possess clade II nosZ encoding nitrous oxide reductase. Here, we report a strain HRV44T representing the first thermophilic campylobacterium capable of growth by H2 oxidation coupled to N2O reduction. On the basis of physiological and genomic properties, it is proposed that strain HRV44T (=JCM 34002 = DSM 111345) represents a novel species of the genus Nitratiruptor, Nitratiruptor labii sp. nov. The comparison of the N2O consumption ability of strain HRV44T with those of additional Nitratiruptor and other campylobacterial strains revealed the highest level in strain HRV44T and suggests the N2O-respiring metabolism might be the common physiological trait for the genus Nitratiruptor. Our findings provide insights into contributions of thermophilic Campylobacteria to the N2O sink in deep-sea hydrothermal environments., Graphical Abstract, Highlights • A N2O-reducing thermophile strain HRV44 was isolated from the deep-sea hydrothermal vent • Strain HRV44T shows strong exogenous N2O reduction at pH 6.0 and 53°C • We propose the name Nitratiruptor labii sp. nov. for strain HRV44T • Members of the genus Nitratiruptor possibly contribute to the capacity of N2O mitigation, Earth Sciences; Geology; Geomicrobiology; Microbiology; Biocatalysis

Published

2020

33. Ecogenomics of the Marine Benthic Filamentous Cyanobacterium Adonisia

Author

Marcel C. Van Verk, Masashi Hosokawa, Fumito Maruyama, Paulo S. Salomon, Sayaka Mino, Cristiane C. Thompson, Bas E. Dutilh, Juline M. Walter, Paulo Iiboshi Hargreaves, Verônica Viana Vieira, Fabiano L. Thompson, Giovana O. Fistarol, Hideaki Miyashita, Felipe H. Coutinho, Mariana E. Campeão, Beatriz dos Anjos Fonseca Sampaio da Silva, Tomoo Sawabe, and Luciana Leomil

Subjects

0301 basic medicine, Coral reefs, 030106 microbiology, Photoacclimation strategies, Soil Science, Biology, Secondary metabolite, Cyanobacteria, Acclimatization, Genome, Microbial ecology, 03 medical and health sciences, Botany, Phycocyanin, Taverne, medicine, Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14], Reef, Genome size, Gene, Atlantic Ocean, Ecology, Evolution, Behavior and Systematics, Phylogeny, geography, geography.geographical_feature_category, Ecology, Secondary metabolites, Turf, 030104 developmental biology, Benthic zone, Abrolhos Bank, Brazil, Genome, Bacterial, medicine.drug

Abstract

Contains fulltext : 224856.pdf (Publisher’s version ) (Closed access) Turfs are among the major benthic components of reef systems worldwide. The nearly complete genome sequences, basic physiological characteristics, and phylogenomic reconstruction of two phycobiliprotein-rich filamentous cyanobacteria strains isolated from turf assemblages from the Abrolhos Bank (Brazil) are investigated. Both Adonisia turfae CCMR0081(T) (= CBAS 745(T)) and CCMR0082 contain approximately 8 Mbp in genome size and experiments identified that both strains exhibit chromatic acclimation. Whereas CCMR0081(T) exhibits chromatic acclimation type 3 (CA3) regulating both phycocyanin (PC) and phycoerythrin (PE), CCMR0082 strain exhibits chromatic acclimation type 2 (CA2), in correspondence with genes encoding specific photosensors and regulators for PC and PE. Furthermore, a high number and diversity of secondary metabolite synthesis gene clusters were identified in both genomes, and they were able to grow at high temperatures (28 °C, with scant growth at 30 °C). These characteristics provide insights into their widespread distribution in reef systems.

Published

2020

34. Tracking the dynamics of individual gut microbiome of sea cucumber

Author

Yuichi Sakai, Yohei Yamazaki, Juanwen Yu, Tomoo Sawabe, and Sayaka Mino

Subjects

Apostichopus japonicus, Zoology, Marine Biology, Microbiology, General Biochemistry, Genetics and Molecular Biology, Gut regeneration, 03 medical and health sciences, Sea cucumber, Gammaproteobacteria, Mariculture, Microbiome, Rhodobacteraceae, 030304 developmental biology, Gut microbiome, 0303 health sciences, Ecology, biology, 030306 microbiology, General Neuroscience, General Medicine, biology.organism_classification, Aquaculture, Fisheries and Fish Science, Evisceration (autotomy), General Agricultural and Biological Sciences, Bacteria

Abstract

Sea cucumbers possess the remarkable capacity to regenerate their body parts or organs. Regeneration of host organs and/or body parts involves reconstruction of the host associated microbiota, however, the dynamics and contribution of microbiota to the regeneration process are largely unknown due to a lack of experimental models. To track the dynamics of individual gut microbiomes during gut regeneration, both caged mariculture and laboratory isolator systems of sea cucumbers (Apostichopus japonicus) were developed and longitudinal meta16S analyses were performed. Under natural environmental conditions in the caged mariculture system, both bacterial and eukaryotic communities in sea cucumbers’ guts appeared to be reconstructed within 4 months after evisceration. Using the laboratory isolator, which can trace daily dynamics, we found that fecal microbiota collected before evisceration were clearly different from those collected after evisceration. We also identified eight key bacteria, belonging to Alteromonadaceae, Rhodobacteraceae, Oceanospirillaceae and family-unassigned Gammaproteobacteria, suggesting that these bacteria might interact with the host during the gut regeneration process. Six of the eight key bacteria were isolated for further bioassay using the isolator developed in this study to test whether these isolates affect gut regeneration.

Published

2020

35. Nitrosophilus alvini gen. nov., sp. nov., a hydrogen-oxidizing chemolithoautotroph isolated from a deep-sea hydrothermal vent in the East Pacific Rise, inferred by a genome-based taxonomy of the phylum 'Campylobacterota'

Author

Masanori Yonezawa, Stefan M. Sievert, Sayo Nishikawa, Sayaka Mino, Tomoo Sawabe, Wakana Sato, and Taiki Shiotani

Subjects

Pathology and Laboratory Medicine, Biochemistry, chemistry.chemical_compound, Helicobacter, RNA, Ribosomal, 16S, Medicine and Health Sciences, Phylogeny, Data Management, Thiosulfate, 0303 health sciences, Multidisciplinary, Phylogenetic tree, Phylogenetic Analysis, Genomics, Bacterial Pathogens, Phylogenetics, Nucleic acids, Chemistry, Ribosomal RNA, Medical Microbiology, Physical Sciences, Medicine, Pathogens, Oxidation-Reduction, Hydrothermal vent, Research Article, Chemical Elements, DNA, Bacterial, Computer and Information Sciences, Cell biology, food.ingredient, Cellular structures and organelles, Science, chemistry.chemical_element, Microbiology, 03 medical and health sciences, food, Hydrothermal Vents, Species Specificity, Terminology as Topic, Botany, Genetics, Evolutionary Systematics, Seawater, Non-coding RNA, Microbial Pathogens, 030304 developmental biology, Taxonomy, Evolutionary Biology, Pacific Ocean, Bacteria, 030306 microbiology, Organisms, Biology and Life Sciences, Campylobacter, 16S ribosomal RNA, Sulfur, Helicobacter Pylori, chemistry, Caminibacter, RNA, Epsilonproteobacteria, Ribosomes, Genome, Bacterial, Hydrogen

Abstract

A novel bacterium, strain EPR55-1T, was isolated from a deep-sea hydrothermal vent on the East Pacific Rise. The cells were motile rods. Growth was observed at temperatures between 50 and 60°C (optimum, 60°C), at pH values between 5.4 and 8.6 (optimum, pH 6.6) and in the presence of 2.4–3.2% (w/v) NaCl (optimum, 2.4%). The isolate used molecular hydrogen as its sole electron donor, carbon dioxide as its sole carbon source, ammonium as its sole nitrogen source, and thiosulfate, sulfite (0.01 to 0.001%, w/v) or elemental sulfur as its sole sulfur source. Nitrate, nitrous oxide (33%, v/v), thiosulfate, molecular oxygen (0.1%, v/v) or elemental sulfur could serve as the sole electron acceptor to support growth. Phylogenetic analyses based on both 16S rRNA gene sequences and whole genome sequences indicated that strain EPR55-1T belonged to the family Nitratiruptoraceae of the class “Campylobacteria”, but it had the distinct phylogenetic relationship with the genus Nitratiruptor. On the basis of the physiological and molecular characteristics of the isolate, the name Nitrosophilus alvini gen. nov. sp. nov. is proposed, with EPR55-1T as the type strain (= JCM 32893T = KCTC 15925T). In addition, it is shown that “Nitratiruptor labii” should be transferred to the genus Nitrtosophilus; the name Nitrosophilus labii comb. nov. (JCM 34002T = DSM 111345T) is proposed for this organism. Furthermore, 16S rRNA gene-based and genome-based analyses showed that Cetia pacifica is phylogenetically associated with Caminibacter species. We therefore propose the reclassification of Cetia pacifica as Caminibacter pacificus comb. nov. (DSM 27783T = JCM 19563T). Additionally, AAI thresholds for genus classification and the reclassification of subordinate taxa within “Campylobacteria” are also evaluated, based on the analyses using publicly available genomes of all the campylobacterial species.

Published

2020

36. Occurrence and Prevention of Injured Bacterial Cells in Fisheries

Author

Hisae Kasai, Yamazaki Koji, Yohei Yamazaki, Toko Sawabe, Masataka Satomi, Kantaro Takeuchi, Sayaka Mino, and Tomoo Sawabe

Subjects

%22">Fish , Microbial contamination, Biology, Food Science, Microbiology

Published

2018

37. Lebetimonas natsushimae sp. nov., a novel strictly anaerobic, moderately thermophilic chemoautotroph isolated from a deep-sea hydrothermal vent polychaete nest in the Mid-Okinawa Trough

Author

Ryousuke Nagata, Satoshi Nakagawa, Yoshihiro Takaki, Takuro Nunoura, Sayaka Mino, Shigeki Sawayama, Hisashi Muto, Ken Takai, and Akihiro Tame

Subjects

0301 basic medicine, Stereochemistry, 030106 microbiology, chemistry.chemical_element, Electron donor, Applied Microbiology and Biotechnology, Microbiology, Bacteria, Anaerobic, 03 medical and health sciences, chemistry.chemical_compound, Hydrothermal Vents, RNA, Ribosomal, 16S, Seawater, Ammonium, Phylogeny, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, Base Composition, Strain (chemistry), biology, Thermophile, Fatty Acids, Electron acceptor, biology.organism_classification, Sulfur, 030104 developmental biology, chemistry, Biochemistry, Epsilonproteobacteria, Water Microbiology, Genome, Bacterial, Bacteria, Hydrothermal vent

Abstract

A moderately thermophilic, strictly anaerobic, chemoautotrophic bacterium, designated strain HS1857 T , was isolated from a deep-sea hydrothermal vent at the Noho site in the Mid-Okinawa Trough. Strain HS1857 T grew between 35 and 63 °C (optimum 55 °C), in the presence of 10–55 g l −1 NaCl (optimum 25 g l −1 ), and pH 5.5–7.1 (optimum 6.4). Growth occurred with molecular hydrogen as the electron donor and elemental sulfur, nitrate, or selenate as the electron acceptors. Formate could serve as an alternative electron donor with nitrate as an electron acceptor. During growth with nitrate as the electron acceptor, strain HS1857 T produced ammonium and formed a biofilm. CO 2 was utilized as the sole carbon source. The G + C content of the genomic DNA was 33.2 mol%. Phylogenetic analysis of the 16S rRNA gene sequence indicated that strain HS1857 T is a member of the order Nautiliales , showing a sequence similarity of 95.0% with Lebetimonas acidiphila Pd55 T . The fatty acid composition was similar to that of L. acidiphila , which was dominated by C 18:0 (47.0%) and C 18:1 (23.7%). Based on the genomic, chemotaxonomic, phenotypic characteristics, the name Lebetimonas natsushimae sp. nov., is proposed. The type strain is HS1857 T (= NBRC 112478 T = DSM 104102 T ).

Published

2017

38. Understanding the NaCl-dependent behavior of hydrogen production of a marine bacterium, Vibrio tritonius

Author

Mami Tanaka, Tomoo Sawabe, Eri Amada, Yuta Matsumura, Nurhidayu Al-saari, and Sayaka Mino

Subjects

Hydrogen, Sodium, Biomass, chemistry.chemical_element, lcsh:Medicine, 02 engineering and technology, Microbiology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, medicine, Biohydrogen, 030304 developmental biology, Hydrogen production, Vibrio, 0303 health sciences, Energy, Marine, General Neuroscience, lcsh:R, Substrate (chemistry), General Medicine, 021001 nanoscience & nanotechnology, Seaweed, chemistry, Fermentative hydrogen production, Mannitol, 0210 nano-technology, General Agricultural and Biological Sciences, Biotechnology, Nuclear chemistry, medicine.drug

Abstract

Biohydrogen is one of the most suitable clean energy sources for sustaining a fossil fuel independent society. The use of both land and ocean bioresources as feedstocks show great potential in maximizing biohydrogen production, but sodium ion is one of the main obstacles in efficient bacterial biohydrogen production.Vibrio tritoniusstrain AM2 can perform efficient hydrogen production with a molar yield of 1.7 mol H2/mol mannitol, which corresponds to 85% theoretical molar yield of H2production, under saline conditions. With a view to maximizing the hydrogen production using marine biomass, it is important to accumulate knowledge on the effects of salts on the hydrogen production kinetics. Here, we show the kinetics in batch hydrogen production ofV. tritoniusstrain AM2 to investigate the response to various NaCl concentrations. The modified Han–Levenspiel model reveals that salt inhibition in hydrogen production usingV. tritoniusstarts precisely at the point where 10.2 g/L of NaCl is added, and is critically inhibited at 46 g/L. NaCl concentration greatly affects the substrate consumption which in turn affects both growth and hydrogen production. The NaCl-dependent behavior of fermentative hydrogen production ofV. tritoniuscompared to that ofEscherichia coliJCM 1649 reveals the marine-adapted fermentative hydrogen production system inV. tritonius.V. tritoniusAM2 is capable of producing hydrogen from seaweed carbohydrate under a wide range of NaCl concentrations (5 to 46 g/L). The optimal salt concentration producing the highest levels of hydrogen, optimal substrate consumption and highest molar hydrogen yield is at 10 g/L NaCl (1.0% (w/v)).

Published

2019

39. Repeated selective enrichment process of sediment microbiota occurred in sea cucumber guts

Author

Masahira Hattori, Sayaka Mino, Pedro Milet Meirelles, Yuichi Sakai, Wataru Suda, Fabiano L. Thompson, Yohei Yamazaki, and Tomoo Sawabe

Subjects

Geologic Sediments, Sea Cucumbers, Zoology, Gut flora, DNA, Ribosomal, 03 medical and health sciences, Sea cucumber, Feces, Abundance (ecology), RNA, Ribosomal, 16S, Animals, Cluster Analysis, Relative species abundance, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, digestive, oral, and skin physiology, Sediment, Sequence Analysis, DNA, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Gastrointestinal Microbiome, Gastrointestinal Tract, UniFrac, Microbial population biology

Abstract

Deposit-feeding sea cucumbers repeat ingestion of sediments and excretion of faeces daily and consequently increase bacterial abundance in sediments and promote organic matter mineralization. Such ecological roles are expected to be collaborative activities of sea cucumbers and the gut microbiota. Here, we performed a spatiotemporally broad 16S rRNA gene analysis using 109 samples from sea cucumber faeces and habitat sediments to explore potential contribution of their gut microbiota to the ecological roles. Most operational taxonomic units (OTUs) observed in the faecal samples were shared with the sediment samples, nevertheless faecal and sediment microbiota differed from each other in UniFrac analysis. Lower bacterial diversity and increased relative abundance of specific OTUs in the faecal microbiota strongly suggest selective enrichment of ingested sediment microbiota in their guts. Interestingly, representative faecal OTUs were more abundant in sea cucumber-populated sediments than in un-inhabited sediments, indicating bacteria selectively enriched in the guts were spread on ambient sediments via faeces. Moreover, the predicted microbial community metabolic potential showed a higher abundance of genes related to carbohydrate and xenobiotics metabolisms in faeces than in sediments. Our study suggests the repeated selective enrichment transforms ambient sediment microbial communities and maintains the host's ecological roles by promoting organic matter mineralization.

Published

2019

40. Hydrogenimonas urashimensis sp. nov., a hydrogen-oxidizing chemolithoautotroph isolated from a deep-sea hydrothermal vent in the Southern Mariana Trough

Author

Satoshi Nakagawa, Taiki Shiotani, Ken Takai, Tomoo Sawabe, and Sayaka Mino

Subjects

chemistry.chemical_element, Biology, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Hydrothermal Vents, RNA, Ribosomal, 16S, Ammonium Compounds, Thermophile, Ammonium, Hydrogenimonas, Campylobacteria, Phylogeny, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Thiosulfate, 0303 health sciences, Pacific Ocean, Epsilonproteobacteria, Strain (chemistry), 030306 microbiology, Carbon Dioxide, biology.organism_classification, Sulfur, chemistry, Deep-sea hydrothermal vent, Energy source, Hydrogen, Nuclear chemistry, Hydrothermal vent

Abstract

A novel thermophilic bacterium, strain SSM-sur55(T), was isolated from a chimney structure at the Urashima site on the Southern Mariana Trough in the Pacific Ocean. Growth was observed at temperatures between 25 and 60 degrees C (optimum, 55 degrees C; 180 min doubling time), at pH values between 5.3 and 7.2 (optimum, pH 5.9) and in the presence of between 1.6 and 5.6% (w/v) NaCl (optimum, 3.2%). The isolate used molecular hydrogen as its sole energy source, carbon dioxide as its sole carbon source, ammonium as its sole nitrogen source, and elemental sulfur as its sole sulfur source. Thiosulfate, molecular oxygen (0.1%, v/v) or elemental sulfur was utilized as its sole electron acceptor. Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain SSM-sur55(T) belonged to the genus Hydrogenimonas of the class "Campylobacteria", and its closest relative was Hydrogenimonas thermophila EP1-55-1%(T) (94.9%). On the basis of the phylogenetic, physiological and molecular characteristics, strain SSM-sur55(T) represents a novel species within the genus Hydrogenimonas, for which the name Hydrogenimonas urashimensis sp. nov. is proposed, with the type strain SSM-sur55(T) (JCM 19825 = KCTC 15926).

Published

2021

41. Vibrio ishigakensis sp. nov., in Halioticoli clade isolated from seawater in Okinawa coral reef area, Japan

Author

Moriya Ohkuma, Kazumichi Sato, Pedro M. Meirelles, Paulo Iiboshi Hargreaves, Nurhidayu Al-saari, A.K.M. Rohul Amin, Wataru Suda, Masahira Hattori, Tomoo Sawabe, Kenshiro Oshima, Feng Gao, Fabiano L. Thompson, Toko Sawabe, Sayaka Mino, Cristiane C. Thompson, and Bruno Gomez-Gil

Subjects

DNA, Bacterial, 0301 basic medicine, Alginates, Sequence analysis, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, Japan, Vibrionaceae, RNA, Ribosomal, 16S, Animals, Seawater, Clade, Phylogeny, Ecology, Evolution, Behavior and Systematics, Vibrio, Base Composition, Genes, Essential, Base Sequence, biology, Phylogenetic tree, Coral Reefs, Nucleic Acid Hybridization, Sequence Analysis, DNA, Anthozoa, biology.organism_classification, 16S ribosomal RNA, Halophile, 030104 developmental biology, Taxonomy (biology), Multilocus Sequence Typing

Abstract

Five novel strains showing non-motile, alginolytic, halophilic and fermentative features were isolated from seawater samples off Okinawa in coral reef areas. These strains were characterized by an advanced polyphasic taxonomy including genome based taxonomy using multilocus sequence analysis (MLSA) and in silico DNA-DNA similarity (in silico DDH). Phylogenetic analyses on the basis of 16S rRNA gene sequences revealed that the isolates could be assigned to the genus Vibrio, however they were not allocated into any distinct cluster with known Vibrionaceae species. MLSA based on eight protein-coding genes (gapA, gyrB, ftsZ, mreB, pyrH, recA, rpoA, and topA) showed the vibrios formed an outskirt branch of Halioticoli clade. The experimental DNA-DNA hybridization data revealed that the five strains were in the range of being defined as conspecific but separate from nine Halioticoli clade species. The G+C contents of the Vibrio ishigakensis strains were 47.3-49.1mol%. Both Amino Acid Identity and Average Nucleotide Identity of the strain C1(T) against Vibrio ezurae HDS1-1(T), Vibrio gallicus HT2-1(T), Vibrio halioticoli IAM 14596(T), Vibrio neonatus HDD3-1(T) and Vibrio superstes G3-29(T) showed less than 95% similarity. The genome-based taxonomic approach by means of in silico DDH values also supports the V. ishigakensis strains being distinct from the other known Halioticoli clade species. Sixteen traits (growth temperature range, DNase and lipase production, indole production, and assimilation of 10 carbon compounds) distinguished these strains from Halioticoli clade species. The names V. ishigakensis sp. nov. is proposed for the species of Halioticoli clade, with C1(T) as the type strain (JCM 19231(T)=LMG 28703(T)).

Published

2016

42. Metagenomics of Coral Reefs Under Phase Shift and High Hydrodynamics

Author

Ricardo Henrique Krüger, Isao Kudo, Tomoo Sawabe, Luciana Leomil, Louisi de Oliveira, Pedro M. Meirelles, Cristiane C. Thompson, Luciana Appolinario, Gilberto M. Amado-Filho, Ana Carolina Soares, Renato Tenan de Barros Almeida, Rodrigo L. Moura, Ronaldo B. Francini-Filho, Sayaka Mino, Diogo A. Tschoeke, Paulo S. Salomon, Fabiano L. Thompson, and Eduardo Siegle

Subjects

0106 biological sciences, 0301 basic medicine, Microbiology (medical), Coral, lcsh:QR1-502, 01 natural sciences, Microbiology, lcsh:Microbiology, 03 medical and health sciences, Dominance (ecology), early warning signals, Ecosystem, natural sciences, Reef, local stressors, Original Research, geography, metagenomics, geography.geographical_feature_category, Overfishing, Ecology, 010604 marine biology & hydrobiology, fungi, technology, industry, and agriculture, Coral reef, resistence, biochemical phenomena, metabolism, and nutrition, microbialization, 030104 developmental biology, Benthic zone, hydrodynamics, Environmental science, coral reefs, Eutrophication, geographic locations

Abstract

Local and global stressors have affected coral reef ecosystems worldwide. Switches from coral to algal dominance states and microbialization are the major processes underlying the global decline of coral reefs. However, most of the knowledge concerning microbialization has not considered physical disturbances (e.g., typhoons, waves, and currents). Southern Japan reef systems have developed under extreme physical disturbances. Here, we present analyses of a three-year investigation on the coral reefs of Ishigaki Island that comprised benthic and fish surveys, water quality analyses, metagenomics and microbial abundance data. At the four studied sites, inorganic nutrient concentrations were high and exceeded eutrophication thresholds. The dissolved organic carbon (DOC) concentration (up to 233.3 μM) and microbial abundance (up to 2.5 × 105 cell/mL) values were relatively high. The highest vibrio counts coincided with the highest turf cover (∼55-85%) and the lowest coral cover (∼4.4-10.2%) and fish biomass (0.06 individuals/m2). Microbiome compositions were similar among all sites and were dominated by heterotrophs. Our data suggest that a synergic effect among several regional stressors are driving coral decline. In a high hydrodynamics reef environment, high algal/turf cover, stimulated by eutrophication and low fish abundance due to overfishing, promote microbialization. Together with crown-of-thorns starfish (COTS) outbreaks and possible of climate changes impacts, theses coral reefs are likely to collapse.

Published

2018

43. Identification of a gene cluster responsible for hydrogen evolution in Vibrio tritonius strain AM2 with transcriptional analyses

Author

Yuta Matsumura, Sayaka Mino, Yoshitoshi Ogura, Fumito Maruyama, Ken Kurokawa, Tetsuya Hayashi, Satoshi Nakagawa, Toko Sawabe, Hidayu Al-saari, and Tomoo Sawabe

Subjects

Hydrogenase, biology, Renewable Energy, Sustainability and the Environment, Chemistry, Energy Engineering and Power Technology, Condensed Matter Physics, biology.organism_classification, Formate dehydrogenase, Lyase, medicine.disease_cause, Molecular biology, Vibrio, Fuel Technology, Biochemistry, Gene cluster, Gene expression, medicine, Gene, Escherichia coli

Abstract

Vibrio tritonius strain AM2 shows high-yield hydrogen production even under saline conditions (1.7 mol hydrogen/mol mannitol). However, the molecular mechanism of efficient hydrogen production has never been studied in the genus Vibrio. The aim of this study is to identify the genes responsible for hydrogen evolution in V. tritonius and the gene expression pattern. Complete genome analysis revealed an existence of a single 24-kb gene cluster containing 21 genes, which are essential for the formation of an energy-conserving formate hydrogen lyase (FHL) complex, to be more specific the vibrio FHL was structurally rather similar to the hyf (hydrogenase four) gene cluster found in Escherichia coli. Moreover, genes responsible to the formate dehydrogenase (FDH-H), fhlA-type transcriptional activator and hydrogenase maturation proteins (hyp) were also located downstream of the vibrio hyf gene cluster to form a “super-gene-set” of the FHL complex gene cluster. The vibrio gene for the large subunit of the FHL complex hyfG possessed typical motifs coordinating the [NiFe] center at the active site, which indicates the V. tritonius hydrogenase was able to be classified as a [NiFe]-hydrogenase. Furthermore, transcriptional analysis revealed that the expression level of the hyfG gene slightly increased upon pH decrease, which correlates to the pH-dependent hydrogen production of V. tritonius. Therefore, we can conclude that the FHL complex of V. tritonius is key enzyme in the hydrogen production under acidic conditions. Moreover hyfABCDEFGHIJ-hycI-hydN-fdhF and hyp genes could be co-transcribed respectively during the efficient hydrogen production state. Details of the gene cluster are discussed here.

Published

2015

44. Effects of Hemagglutination Activity in the Serum of a Deep-Sea Vent Endemic Crab, Shinkaia Crosnieri, on Non-Symbiotic and Symbiotic Bacteria

Author

Hideyuki Yamaguchi, Daisuke Fukushima, Makoto Sugimura, Ken Takai, So Fujiyoshi, Sayaka Mino, Satoshi Nakagawa, Shigeki Sawayama, Tomo-o Watsuji, Tomoo Sawabe, and Hiroaki Tateno

Subjects

chemistry.chemical_classification, Chemosynthesis, Hemagglutination, Microorganism, Soil Science, Plant Science, General Medicine, Biology, biology.organism_classification, Divalent, Microbiology, Symbiosis, chemistry, Ecology, Evolution, Behavior and Systematics, Bacteria, Symbiotic bacteria, Hydrothermal vent

Abstract

In deep-sea hydrothermal environments, most invertebrates associate with dense populations of symbiotic microorganisms in order to obtain nutrition. The molecular interactions between deep-sea animals and environmental microbes, including their symbionts, have not yet been elucidated in detail. Hemagglutinins/lectins, which are carbohydrate-binding proteins, have recently been reported to play important roles in a wide array of biological processes, including the recognition and control of non-self materials. We herein assessed hemagglutination activity in the serum of a deep-sea vent endemic crab, Shinkaia crosnieri, which harbors chemosynthetic epibionts on its plumose setae. Horse and rabbit erythrocytes were agglutinated using this serum (opt. pH 7.5 and opt. temperature 15°C). Agglutinating activity was inhibited by eight kinds of sugars and several divalent cations, did not require any divalent metal ions, and remained detectable even after heating the serum at 100°C for 30 min. By using fluorescently labeled serum, we demonstrated that deep-sea crab serum components bound to the epibionts even in the presence of sugars. This study represents the first immunological assessment of a deep-sea vent endemic crab and demonstrated the possibility of a non-lectin-mediated symbiont-host interaction.

Published

2015

45. Tracking the dynamics of individual gut microbiome of sea cucumber Apostichopus japonicus during gut regeneration.

Author

Yohei Yamazaki, Yuichi Sakai, Juanwen Yu, Sayaka Mino, and Tomoo Sawabe

Subjects

GUT microbiome, APOSTICHOPUS japonicus, SEA cucumbers, BACTERIAL communities, ORGANS (Anatomy), MARICULTURE, BIOLOGICAL assay

Abstract

Sea cucumbers possess the remarkable capacity to regenerate their body parts or organs. Regeneration of host organs and/or body parts involves reconstruction of the host associated microbiota, however, the dynamics and contribution of microbiota to the regeneration process are largely unknown due to a lack of experimental models. To track the dynamics of individual gut microbiomes during gut regeneration, both caged mariculture and laboratory isolator systems of sea cucumbers (Apostichopus japonicus) were developed and longitudinal meta16S analyses were performed. Under natural environmental conditions in the caged mariculture system, both bacterial and eukaryotic communities in sea cucumbers' guts appeared to be reconstructed within 4 months after evisceration. Using the laboratory isolator, which can trace daily dynamics, we found that fecal microbiota collected before evisceration were clearly different from those collected after evisceration. We also identified eight key bacteria, belonging to Alteromonadaceae, Rhodobacteraceae, Oceanospirillaceae and family-unassigned Gammaproteobacteria, suggesting that these bacteria might interact with the host during the gut regeneration process. Six of the eight key bacteria were isolated for further bioassay using the isolator developed in this study to test whether these isolates affect gut regeneration. [ABSTRACT FROM AUTHOR]

Published

2020

46. Corrigendum to 'Vibrio ishigakensis sp. nov., in Halioticoli clade isolated from seawater in Okinawa coral reef area, Japan' [Syst. Appl. Microbiol. 39 (5) (2016) 330-335]

Author

Pedro M. Meirelles, Kazumichi Sato, Kenshiro Oshima, Moriya Ohkuma, Paulo Iiboshi Hargreaves, Fabiano L. Thompson, Bruno Gomez-Gil, Feng Gao, Masahira Hattori, Nurhidayu Al-saari, A.K.M. Rohul Amin, Wataru Suda, Toko Sawabe, Sayaka Mino, Cristiane C. Thompson, and Tomoo Sawabe

Subjects

geography, geography.geographical_feature_category, Ecology, Seawater, Coral reef, Vibrio ishigakensis, Biology, Clade, Applied Microbiology and Biotechnology, Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2017

47. Corrigendum to 'Thaumasiovibrio occultus gen. nov. sp. nov. and Thaumasiovibrio subtropicus sp. nov. within the family Vibrionaceae, isolated from coral reef seawater off Ishigaki Island, Japan' [Syst. Appl. Microbiol. 40 (5) (2017) 290-296]

Author

A.K.M. Rohul Amin, Mami Tanaka, Gao Feng, Toko Sawabe, Fabiano L. Thompson, Sayaka Mino, Bruno Gomez-Gil, Nurhidayu Al-saari, Tomoo Sawabe, Pedro M. Meirelles, Yoshitoshi Ogura, and Tetsuya Hayashi

Subjects

geography, geography.geographical_feature_category, Ecology, Family vibrionaceae, Seawater, Coral reef, Biology, Applied Microbiology and Biotechnology, Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2017

48. Endemicity of the cosmopolitan mesophilic chemolithoautotroph Sulfurimonas at deep-sea hydrothermal vents

Author

Tomohiro Toki, Junichi Miyazaki, Tomoo Sawabe, Hiromi Watanabe, Hiroko Makita, Stefan M. Sievert, Anne Godfroy, Ken Takai, Hiroyuki Imachi, Shigeaki Kojima, Satoshi Nakagawa, Ko-ichi Nakamura, Shingo Kato, Sayaka Mino, Martin F. Polz, Takuro Nunoura, Tomo-o Watsuji, and Fumio Inagaki

Subjects

0301 basic medicine, Epsilonproteobacteria, biology, Ecology, Biogeography, Allopatric speciation, Genetic Variation, biology.organism_classification, Microbiology, 03 medical and health sciences, 030104 developmental biology, Hydrothermal Vents, Microbial ecology, Sulfurimonas, RNA, Ribosomal, 16S, Genetic variation, Biological dispersal, Animals, Original Article, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Ecosystem, Phylogeny, Hydrothermal vent

Abstract

Rich animal and microbial communities have been found at deep-sea hydrothermal vents. Although the biogeography of vent macrofauna is well understood, the corresponding knowledge about vent microbial biogeography is lacking. Here, we apply the multilocus sequence analysis (MLSA) to assess the genetic variation of 109 Sulfurimonas strains with greater than or equal to98% 16S rRNA gene sequence similarity, which were isolated from four different geographical regions (Okinawa Trough (OT), Mariana Volcanic Arc and Trough (MVAT), Central Indian Ridge (CIR) and Mid-Atlantic Ridge (MAR)). Sequence typing based on 11 protein-coding genes revealed high genetic variation, including some allele types that are widespread within regions, resulting in 102 nucleotide sequence types (STs). This genetic variation was predominantly due to mutation rather than recombination. Phylogenetic analysis of the 11 concatenated genes showed a clear geographical isolation corresponding to the hydrothermal regions they originated from, suggesting limited dispersal. Genetic differentiation among Sulfurimonas populations was primarily influenced by geographical distance rather than gas composition of vent fluid or habitat, although in situ environmental conditions of each microhabitat could not be examined. Nevertheless, Sulfurimonas may possess a higher dispersal capability compared with deep-sea hydrothermal vent thermophiles. This is the first report on MLSA of deep-sea hydrothermal vent Epsilonproteobacteria, which is indicative of allopatric speciation.

Published

2017

49. Vibriosis in cultured marine fishes: a review

Author

Sayaka Mino, Mohd Zamri Saad, Ina Salwany Yasin, Nurliyana Mohamad, Nurhidayu Al-saari, Nurrul Shaqinah Nasruddin, Tomoo Sawabe, and Mohammad Noor Azmai Amal

Subjects

0303 health sciences, Bacterial disease, business.industry, Zoology, Prevention aspects, 04 agricultural and veterinary sciences, Disease, Limiting, Aquatic Science, Biology, biology.organism_classification, Vibrio, 03 medical and health sciences, Aquaculture, 040102 fisheries, Asian country, 0401 agriculture, forestry, and fisheries, business, 030304 developmental biology

Abstract

For more than a century, vibriosis affects various species of economically important cultured marine fishes around the globe. The knowledge of this bacterial disease on many species of cultured fish is still lacking, but progressing. This review focuses on updated fundamental knowledge related to vibriosis including the history, taxonomy, and various epidemiological aspects such as socio-economy, clinical signs, pathological changes, diagnosis, pathogenesis, transmission, risk factors and control measures of vibriosis. This review revealed a rising prevalence of vibriosis in aquaculture, concomitant with the rapid development of this industry worldwide. Yet, information on Vibrio infection in cultured fish, particularly on the Vibrio of non-medical importance, the influence of their virulence toxins to host cells, effects of global warming and the socio-economic impacts are still scarce, and need more profound studies. Moreover, comprehensive epidemiological information on vibriosis are quite limited in many Asian countries with tropical climate, limiting the progression in control and prevention aspects of the disease.

Published

2019

50. Allying with armored snails: the complete genome of gammaproteobacterial endosymbiont

Author

Hiromi Watanabe, Satoshi Nakagawa, Tamaki Watanabe, Tomoo Sawabe, Shin-Ichiro Nishimura, Sayaka Mino, Tomo-o Watsuji, Hiroko Makita, Yoshihiro Takaki, Ken Takai, Shun-ichi Murakami, Suguru Nemoto, So Fujiyoshi, Takahiro Maeda, Yohey Suzuki, and Shigeru Shimamura

Subjects

Genome evolution, Pseudogene, Molecular Sequence Data, Snails, Population, Biology, Microbiology, Genome, Hydrothermal Vents, Symbiosis, Phylogenetics, Animals, education, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genetics, Whole genome sequencing, Carbon Isotopes, education.field_of_study, fungi, Genetic Variation, biochemical phenomena, metabolism, and nutrition, Flagella, DNA Transposable Elements, bacteria, Original Article, Oxidation-Reduction, Gammaproteobacteria, Genome, Bacterial

Abstract

Deep-sea vents harbor dense populations of various animals that have their specific symbiotic bacteria. Scaly-foot gastropods, which are snails with mineralized scales covering the sides of its foot, have a gammaproteobacterial endosymbiont in their enlarged esophageal glands and diverse epibionts on the surface of their scales. In this study, we report the complete genome sequencing of gammaproteobacterial endosymbiont. The endosymbiont genome displays features consistent with ongoing genome reduction such as large proportions of pseudogenes and insertion elements. The genome encodes functions commonly found in deep-sea vent chemoautotrophs such as sulfur oxidation and carbon fixation. Stable carbon isotope ((13)C)-labeling experiments confirmed the endosymbiont chemoautotrophy. The genome also includes an intact hydrogenase gene cluster that potentially has been horizontally transferred from phylogenetically distant bacteria. Notable findings include the presence and transcription of genes for flagellar assembly, through which proteins are potentially exported from bacterium to the host. Symbionts of snail individuals exhibited extreme genetic homogeneity, showing only two synonymous changes in 19 different genes (13 810 positions in total) determined for 32 individual gastropods collected from a single colony at one time. The extremely low genetic individuality in endosymbionts probably reflects that the stringent symbiont selection by host prevents the random genetic drift in the small population of horizontally transmitted symbiont. This study is the first complete genome analysis of gastropod endosymbiont and offers an opportunity to study genome evolution in a recently evolved endosymbiont.

Published

2013