Your search keyword '"Moriya Ohkuma"' showing total 21 results

1. Iron corrosion concomitant with nitrate reduction by Iodidimonas nitroreducens sp. nov. isolated from iodide-rich brine associated with natural gas.

Author

Takao Iino, Kenshiro Oshima, Masahira Hattori, Moriya Ohkuma, and Seigo Amachi

Subjects

DENITRIFICATION, IRON corrosion, NUCLEIC acid hybridization, DENITRIFYING bacteria, NITRATE reductase, NITRITES, NATURAL gas

Abstract

Microbially influenced corrosion (MIC) may contribute significantly to corrosion-related failures in injection wells and iron pipes of iodine production facilities. In this study, the iron (Fe0) corroding activity of strain Q-1 isolated from iodide-rich brine in Japan and two Iodidimonas strains phylogenetically related to strain Q-1 were investigated under various culture conditions. Under aerobic conditions, the Fe0 foil in the culture of strain Q-1 was oxidized in the presence of nitrate and yeast extract, while those of two Iodidimonas strains were not. The amount of oxidized iron in this culture was six times higher than in the aseptic control. Oxidation of Fe0 in aerobic cultures of nitrate-reducing bacterium Q-1 was dependent on the formation of nitrite from nitrate. This Fe0 corrosion by nitratereducing bacterium Q-1 started after initial nitrite accumulation by day 4. Nitrate reduction in strain Q-1 is a unique feature that distinguishes it from two known species of Iodidimonas. Nitrite accumulation was supported by the encoding of genes for nitrate reductase and the missing of genes for nitrite reduction to ammonia or nitrogen gas in its genome sequence. Phylogenetic position of strain Q-1 based on the 16S rRNA gene sequence was with less than 96.1% sequence similarity to two known Iodidimonas species, and digital DNA-DNA hybridization (dDDH) values of 17.2-19.3%, and average nucleotide identity (ANI) values of 73.4-73.7% distinguished strain Q-1 from two known species. In addition of nitrate reduction, the ability to hydrolyze aesculin and gelatin hydrolysis and cellular fatty acid profiles also distinguished strain Q-1 from two known species. Consequently, a new species, named Iodidimonas nitroreducens sp. nov., is proposed for the nitrate-reducing bacterium strain Q-1T. [ABSTRACT FROM AUTHOR]

Published

2023

2. Genomic analysis and physicochemical screening of ikarugamycin, fumaquinone, and a new compound, pudicin from Streptomyces sp. 3MP-14.

Author

Klykleung, Nattaporn, Hirotaka Matsuo, Masato Iwatsuki, Yōko Takahashi, Satoshi Ōmura, Masahiro Yuki, Takuji Kudo, Moriya Ohkuma, Luechapudiporn, Rataya, Tanasupawat, Somboon, and Takuji Nakashima

Subjects

GENOMICS, ELECTROSPRAY ionization mass spectrometry, STREPTOMYCES, NUCLEIC acid hybridization, SENSITIVE plant, PLANT metabolites

Abstract

An endophytic actinomycete, strain 3MP-14 isolated from the root of Mimosa pudica belonged to the genus Streptomyces and was closely related to Streptomyces mimosae JCM 33328T (100%) based on 16S rRNA gene sequences. The strain had genome sizes of 7.2 Mb with genomic G+C contents of 73.4 mol%. The average nucleotide identity (ANI) and digital DNA-DNA hybridization (dDDH) of strain 3MP-14 were 100% when compared with S. mimosae JCM 33328T. Based on the polyphasic approach, dDDH, and ANI, strain 3MP-14 was identified as Streptomyces mimosae. Twenty-four putative secondary metabolite biosynthetic gene clusters (BGCs) were identified from the draft genome analysis of strain 3MP-14. In the course of chemical investigation for the products of the strain, a physicochemical (PC) screening was conducted, and a new compound, designated as pudicin, and two known antimicrobials, ikarugamycin and fumaquinone, were identified. The structure elucidation of pudicin revealed a unique structurally new compound with N-acetylcysteine moiety using one-dimensional and two-dimensional nuclear magnetic resonance (1D and 2D NMR spectroscopy) and Electrospray Ionization Mass Spectrometry (ESI-MS). Pudicin showed slight antioxidative activity based on 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging method with the IC50 value of 394.89 ± 3.88 µg/ml. [ABSTRACT FROM AUTHOR]

Published

2023

3. Insights into ecological roles of uncultivated bacteria in Katase hot spring sediment from long-read metagenomics.

Author

Shingo Kato, Sachiko Masuda, Arisa Shibata, Ken Shirasu, and Moriya Ohkuma

Subjects

HOT springs, CARBON cycle, METAGENOMICS, THERMOPHILIC bacteria, ARCHAEBACTERIA, BACTERIA, DARK matter

Abstract

Diverse yet-uncultivated bacteria and archaea, i.e., microbial dark matter, are present in terrestrial hot spring environments. Numerous metagenomeassembled genomes (MAGs) of these uncultivated prokaryotes by short-read metagenomics have been reported so far, suggesting their metabolic potential. However, more reliable MAGs, i.e., circularized complete MAGs (cMAGs), have been rarely reported from hot spring environments. Here, we report 61 highquality (HQ)-MAGs, including 14 cMAGs, of diverse uncultivated bacteria and archaea retrieved from hot spring sediment (52°C, pH 7.2) by highly accurate long-read sequencing using PacBio Sequel II. The HQ MAGs were affiliated with one archaeal and 13 bacterial phyla. Notably, nine of the 14 cMAGs were the first reported cMAGs for the family- to class-level clades that these cMAGs belonged to. The genome information suggests that the bacteria represented by MAGs play a significant role in the biogeochemical cycling of carbon, nitrogen, iron, and sulfur at this site. In particular, the genome analysis of six HQ MAGs including two cMAGs of Armatimonadota, of which members are frequently abundant in hot spring environments, predicts that they are aerobic, moderate thermophilic chemoorganoheterotrophs, and potentially oxidize and/or reduce iron. This prediction is consistent with the environmental conditions where they were detected. Our results expand the knowledge regarding the ecological potential of uncultivated bacteria in moderately-high-temperature environments. [ABSTRACT FROM AUTHOR]

Published

2022

4. Characterization, genome annotation, and antibacterial properties of Actinopolyspora saharensis BKK2.

Author

Sirilak Namwong, Suchanat Pandey, Masahiro Yuki, Takuji Kudo, Moriya Ohkuma, and Somboon Tanasupawat

Subjects

NUCLEIC acid hybridization, ESCHERICHIA coli, MYCOLIC acids, GENOMES, BIOACTIVE compounds, GENE clusters

Abstract

Strain BKK2 was highly similar to Actinopolyspora saharensis (A. saharensis) DSM 45459T based on phenotypic characteristics, chemotaxonomic properties, and genotypic features. It had NaCl ranges of 10-30% (w/v), light-yellow diffusion pigment, Type IV cell wall, Type A whole-cell sugar pattern, Type PIII phospholipid pattern, and no mycolic acid. Moreover, the genotypic features of the strain BKK2 were 98.56% average nucleotide identity-Blast (ANIb), 99.03% average nucleotide identity-MUMmer (ANIm), and 90.90% digital DNA-DNA hybridization (dDDH). It was, therefore, identified as A. saharensis. Gene clusters of biosynthetic pathways of this strain are predicted to synthesize desferrioxamine E by complete biosynthesis genes (IucA/IucC and DesABC). A. saharensis BKK2 displayed antibacterial activity against E. coli ATCC 25922 and S. aureus ATCC 25923 at 1.5-2.0 folds weaker than the reference drugs. The results suggested that A. saharensis BKK2 produced at least one bioactive compound likely to be therapeutically useful in the future. [ABSTRACT FROM AUTHOR]

Published

2022

5. Insight into the symbiotic lifestyle of DPANN archaea revealed by cultivation and genome analyses.

Author

Sakai, Hiroyuki D., Nur, Naswandi, Shingo Kato, Masahiro Yuki, Michiru Shimizu, Takashi Itoh, Moriya Ohkuma, Antonius Suwanto, and Norio Kurosawa

Subjects

HORIZONTAL gene transfer, ARCHAEBACTERIA, WHOLE genome sequencing, GENOMICS, GENOMES

Abstract

Decades of culture-independent analyses have resulted in proposals of many tentative archaeal phyla with no cultivable representative. Members of DPANN (an acronym of the names of the first included phyla Diapherotrites, Parvarchaeota, Aenigmarchaeota, Nanohaloarchaeota, and Nanoarchaeota), an archaeal superphylum composed of at least 10 of these tentative phyla, are generally considered obligate symbionts dependent on other microorganisms. While many draft/complete genome sequences of DPANN archaea are available and their biological functions have been considerably predicted, only a few examples of their successful laboratory cultivation have been reported, limiting our knowledge of their symbiotic lifestyles. Here, we investigated physiology, morphology, and host specificity of an archaeon of the phylum "Candidatus Micrarchaeota" (ARM-1) belonging to the DPANN superphylum by cultivation. We constructed a stable coculture system composed of ARM-1 and its original host Metallosphaera sp. AS-7 belonging to the order Sulfolobales. Further host-switching experiments confirmed that ARM-1 grew on five different archaeal species from three genera--Metallosphaera, Acidianus, and Saccharolobus--originating from geologically distinct hot, acidic environments. The results suggested the existence of DPANN archaea that can grow by relying on a range of hosts. Genomic analyses showed inferred metabolic capabilities, common/unique genetic contents of ARM-1 among cultivated micrarchaeal representatives, and the possibility of horizontal gene transfer between ARM-1 and members of the order Sulfolobales. Our report sheds light on the symbiotic lifestyles of DPANN archaea and will contribute to the elucidation of their biological/ecological functions. [ABSTRACT FROM AUTHOR]

Published

2022

6. gcType: a high-quality type strain genome database for microbial phylogenetic and functional research.

Author

Shi, Wenyu, Sun, Qinglan, Fan, Guomei, Hideaki, Sugawara, Moriya, Ohkuma, Itoh, Takashi, Zhou, Yuguang, Cai, Man, Kim, Song-Gun, Lee, Jung-Sook, Sedlacek, Ivo, Arahal, David R, Lucena, Teresa, Kawasaki, Hiroko, Evtushenko, Lyudmila, Weir, Bevan S, Alexander, Sarah, Dénes, Dlauchy, Tanasupawat, Somboon, and Eurwilaichitr, Lily

Published

2021

7. Revision of Xylonaceae (Xylonales, Xylonomycetes) to include Sarea and Tromera.

Author

Akira Hashimoto, Hiroshi Masumoto, Rikiya Endoh, Yousuke Degawa, and Moriya Ohkuma

Subjects

SPECIES distribution, SEQUENCE analysis, DNA sequencing

Abstract

The resinicolous fungi Sarea difformis and S. resinae (Sareomycetes) were taxonomically revised on the basis of morphological observations and phylogenetic analyses of the nucleotide sequences of the nSSU-LSU-rpb1-rpb2-mtSSU genes. The results of phylogenetic analyses show that S. difformis and S. resinae are grouped with members of Xylonomycetes. According to the results of phylogenetic analyses and their sexual and asexual morphs resemblance, Sareomycetes is synonymized with Xylonomycetes. Although Tromera has been considered a synonym of Sarea based on the superficial resemblance of the sexual morph, we show that they are distinct genera and Tromera should be resurrected to accommodate T. resinae (= S. resinae). Xylonomycetes was morphologically re-circumscribed to comprise a single family (Xylonaceae) with four genera (Sarea, Trinosporium, Tromera, and Xylona) sharing an endophytic or plant saprobic stage in their lifecycle, ascostroma-type ascomata with paraphysoid, Lecanora-type bitunicate asci, and pycnidial asexual morphs. Phylogenetic analyses based on ITS sequences and environmental DNA (eDNA) implied a worldwide distribution of the species. Although Symbiotaphrinales has been treated as a member of Xylonomycetes in previous studies, it was shown to be phylogenetically, morphologically, and ecologically distinct. We, therefore, treated Symbiotaphrinales as Pezizomycotina incertae sedis. [ABSTRACT FROM AUTHOR]

Published

2021

8. Parallel and Gradual Genome Erosion in the Blattabacterium Endosymbionts of Mastotermes darwiniensis and Cryptocercus Wood Roaches.

Author

Yukihiro Kinjo, Bourguignon, Thomas, Tong, Kwei Jun, Hirokazu Kuwahara, Sang Jin Lim, Kwang Bae Yoon, Shuji Shigenobu, Yung Chul Park, Nalepa, Christine A., Yuichi Hongoh, Moriya Ohkuma, Lo, Nathan, and Gaku Tokuda

Subjects

GENOMES, BLATTA, CRYPTOCERCUS, SYMBIOSIS, COCKROACHES, AMINO acids, COFACTORS (Biochemistry)

Abstract

Almost all examined cockroaches harbor an obligate intracellular endosymbiont, Blattabacterium cuenoti. On the basis of genome content, Blattabacteriumhas been inferred to recycle nitrogenwastes and provide amino acids and cofactors for its hosts. Most Blattabacterium strains sequenced to date harbor a genome of ~630 kbp, with the exception of the termite Mastotermes darwiniensis (~590 kbp) and Cryptocercus punctulatus (~614 kbp), a representative of the sister group of termites. Such genome reductionmay have led to the ultimate loss of Blattabacteriumin all termites other thanMastotermes. In this study, we sequenced 11 newBlattabacteriumgenomes fromthree species of Cryptocercus in order to shed light on the genomic evolution of Blattabacterium in termites and Cryptocercus. All genomes of Cryptocercus-derived Blattabacterium genomes were reduced (~614 kbp), except for that associated with Cryptocercus kyebangensis, which comprised 637 kbp. Phylogenetic analysis of these genomes and their content indicates that Blattabacterium experienced parallel genome reduction in Mastotermes and Cryptocercus, possibly due to similar selective forces. We found evidence of ongoing genome reduction in Blattabacterium from three lineages of the C. punctulatus species complex, which independently lost one cysteine biosynthetic gene. We also sequenced the genome of the Blattabacterium associated with Salganea taiwanensis, a subsocial xylophagous cockroach that does not vertically transmit gut symbionts via proctodeal trophallaxis. This genome was 632 kbp, typical of that of nonsubsocial cockroaches. Overall, our results show that genome reduction occurred on multiple occasions in Blattabacterium, and is still ongoing, possibly because of new associations with gut symbionts in some lineages. [ABSTRACT FROM AUTHOR]

Published

2018

9. Mycobacterial biomaterials and resources for researchers.

Author

Hazbón, Manzour Hernando, Rigouts, Leen, Schito, Marco, Ezewudo, Matthew, Takuji Kudo, Takashi Itoh, Moriya Ohkuma, Kiss, Katalin, Linhuan Wu, Juncai Ma, Moriyuki Hamada, Strong, Michael, Salfinger, Max, Daley, Charles L., Nick, Jerry A., Jung-Sook Lee, Rastogi, Nalin, Couvin, David, Hurtado-Ortiz, Raquel, and Bizet, Chantal

Subjects

MYCOBACTERIA, BIOMATERIALS, BACTERIAL cultures, BIOINFORMATICS, BACTERIA

Abstract

There are many resources available to mycobacterial researchers, including culture collections around the world that distribute biomaterials to the general scientific community, genomic and clinical databases, and powerful bioinformatics tools. However, many of these resources may be unknown to the research community. This review article aims to summarize and publicize many of these resources, thus strengthening the quality and reproducibility of mycobacterial research by providing the scientific community access to authenticated and quality-controlled biomaterials and a wealth of information, analytical tools and research opportunities. [ABSTRACT FROM AUTHOR]

Published

2018

10. Screening and evolution of a novel protist xylose isomerase from the termite Reticulitermes speratus for efficient xylose fermentation in Saccharomyces cerevisiae.

Author

Satoshi Katahira, Nobuhiko Muramoto, Shigeharu Moriya, Risa Nagura, Nobuki Tada, Noriko Yasutani, Moriya Ohkuma, Toru Onishi, and Kenro Tokuhiro

Subjects

XYLOSE, LIGNOCELLULOSE, ETHANOL as fuel, RETICULITERMES, MUTAGENESIS

Abstract

Background: The yeast Saccharomyces cerevisiae, a promising host for lignocellulosic bioethanol production, is unable to metabolize xylose. In attempts to confer xylose utilization ability in S. cerevisiae, a number of xylose isomerase (XI) genes have been expressed heterologously in this yeast. Although several of these XI encoding genes were functionally expressed in S. cerevisiae, the need still exists for a S. cerevisiae strain with improved xylose utilization ability for use in the commercial production of bioethanol. Although currently much effort has been devoted to achieve the objective, one of the solutions is to search for a new XI gene that would confer superior xylose utilization in S. cerevisiae. Here, we searched for novel XI genes from the protists residing in the hindgut of the termite Reticulitermes speratus. Results: Eight novel XI genes were obtained from a cDNA library, prepared from the protists of the R. speratus hindgut, by PCR amplification using degenerated primers based on highly conserved regions of amino acid sequences of different XIs. Phylogenetic analysis classified these cloned XIs into two groups, one showed relatively high similarities to Bacteroidetes and the other was comparatively similar to Firmicutes. The growth rate and the xylose consumption rate of the S. cerevisiae strain expressing the novel XI, which exhibited highest XI activity among the eight XIs, were superior to those exhibited by the strain expressing the XI gene from Piromyces sp. E2. Substitution of the asparagine residue at position 337 of the novel XI with a cysteine further improved the xylose utilization ability of the yeast strain. Interestingly, introducing point mutations in the corresponding asparagine residues in XIs originated from other organisms, such as Piromyces sp. E2 or Clostridium phytofermentans, similarly improved xylose utilization in S. cerevisiae. Conclusions: A novel XI gene conferring superior xylose utilization in S. cerevisiae was successfully isolated from the protists in the termite hindgut. Isolation of this XI gene and identification of the point mutation described in this study might contribute to improving the productivity of industrial bioethanol. [ABSTRACT FROM AUTHOR]

Published

2017

11. Interaction of Bacterial Membrane Vesicles with Specific Species and Their Potential for Delivery to Target Cells.

Author

Yosuke Tashiro, Yusuke Hasegawa, Masaki Shintani, Kotaro Takaki, Moriya Ohkuma, Kazuhide Kimbara, and Hiroyuki Futamata

Subjects

BACTERIAL cell walls, PLASMID genetics, HYDRODYNAMICS

Abstract

Membrane vesicles (MVs) are secreted from a wide range of microbial species and transfer their content to other cells. Although MVs play critical roles in bacterial communication, whether MVs selectively interact with bacterial cells in microbial communities is unclear. In this study, we investigated the specificity of the MV-cell interactions and evaluated the potential of MVs to target bacterial cells for delivery. MV association with bacterial cells was examined using a fluorescent membrane dye to label MVs. MVs derived from the enterobacterium Buttiauxella agrestis specifically interacted with cells of the parent strain but interacted less specifically with those of other genera tested in this study. Electron microscopic analyses showed that MVs were not only attached on B. agrestis cells but also fused to them. The interaction energy, which was characterized by hydrodynamic diameter and zeta potential based on the Derjaguin-Landau-Verwey-Overbeek (DLVO) theory, was significant low between MVs and cells in B. agrestis, compared to those between B. agrestis MVs and cells of other genera. Similar specific interaction was also occurred between B. agrestis MVs and cells of six other species belonging to Buttiauxella spp. B. agrestis harboring plasmid pBBR1MCS-1 secreted plasmid-containing MVs (p-MVs), and plasmid DNA in p-MVs was transferred to the same species. Moreover, antibiotic-associated MVs enabled effective killing of target species; the survival rate of B. agrestis was lower than those of Escherichia coli and Pseudomonas aeruginosa in the presence of gentamicinassociated MVs derived from B. agrestis. Altogether, we provide the evidence that MVs selectively interact with target bacterial cells and offer a new avenue for controlling specific bacterial species using bacterial MVs in microbial communities. [ABSTRACT FROM AUTHOR]

Published

2017

12. Comparison of Intracellular "Ca. Endomicrobium Trichonymphae" Genomovars Illuminates the Requirement and Decay of Defense Systems against Foreign DNA.

Author

Kazuki Izawa, Hirokazu Kuwahara, Kumiko Kihara, Masahiro Yuki, Nathan Lo, Takehiko Itoh, Moriya Ohkuma, and Yuichi Hongoh

Subjects

TRICHONYMPHA, BACTERIAL genetics, BACTERIAL genomes, PSEUDOGENES, TERMITES

Abstract

"Candidatus Endomicrobium trichonymphae" (Bacteria; Elusimicrobia) is an obligate intracellular symbiont of the cellulolytic protist genus Trichonympha in the termite gut. A previous genome analysis of "Ca. Endomicrobium trichonymphae" phylotype Rs-D17 (genomovar Ri2008), obtained from a Trichonympha agilis cell in the gut of the termite Reticulitermes speratus, revealed that its genome is small (1.1 Mb) and contains many pseudogenes; it is in the course of reductive genome evolution. Here we report the complete genome sequence of another Rs-D17 genomovar, Ti2015, obtained from a different T. agilis cell present in an R. speratus gut. These two genomovars share most intact protein-coding genes and pseudogenes, showing 98.6% chromosome sequence similarity. However, characteristic differences were found in their defense systems, which comprised restriction-modification and CRISPR/Cas systems. The repertoire of intact restriction-modification systems differed between the genomovars, and two of the three CRISPR/Cas loci in genomovar Ri2008 are pseudogenized or missing in genomovar Ti2015. These results suggest relaxed selection pressure for maintaining these defense systems. Nevertheless, the remaining CRISPR/Cas system in each genomovar appears to be active; none of the "spacer" sequences (112 in Ri2008 and 128 in Ti2015) were shared whereas the "repeat" sequences were identical. Furthermore, we obtained draft genomes of three additional endosymbiotic Endomicrobium phylotypes from different host protist species, and discovered multiple, intact CRISPR/Cas systems in each genome. Collectively, unlike bacteriome endosymbionts in insects, the Endomicrobium endosymbionts of termite-gut protists appear to require defense against foreign DNA, although the required level of defense has likely been reduced during their intracellular lives. [ABSTRACT FROM AUTHOR]

Published

2016

13. Comparative Genomic Insights into Ecophysiology of Neutrophilic, Microaerophilic Iron Oxidizing Bacteria.

Author

Shingo Kato, Moriya Ohkuma, Powell, Deborah H., Krepski, Sean T., Kenshiro Oshima, Masahira Hattori, Shapiro, Nicole, Woyke, Tanja, Chan, Clara S., Hemp, James, and Barco, Roman

Subjects

IRON oxidation, BIOMINERALIZATION, BACTERIA

Abstract

Neutrophilic microaerophilic iron-oxidizing bacteria (FeOB) are thought to play a significant role in cycling of carbon, iron and associated elements in both freshwater and marine iron-rich environments. However, the roles of the neutrophilic microaerophilic FeOB are still poorly understood due largely to the difficulty of cultivation and lack of functional gene markers. Here, we analyze the genomes of two freshwater neutrophilic microaerophilic stalk-forming FeOB, Ferriphaselus amnicola OYT1 and Ferriphaselus strain R-1. Phylogenetic analyses confirm that these are distinct species within Betaproteobacteria; we describe strain R-1 and propose the name F. globulitus. We compare the genomes to those of two freshwater Betaproteobacterial and three marine Zetaproteobacterial FeOB isolates in order to look for mechanisms common to all FeOB, or just stalk-forming FeOB. The OYT1 and R-1 genomes both contain homologs to cyc2, which encodes a protein that has been shown to oxidize Fe in the acidophilic FeOB, Acidithiobacillus ferrooxidans. This c-type cytochrome common to all seven microaerophilic FeOB isolates, strengthening the case for its common utility in the Fe oxidation pathway. In contrast, the OYT1 and R-1 genomes lack mto genes found in other freshwater FeOB. OYT1 and R-1 both have genes that suggest they can oxidize sulfur species. Both have the genes necessary to fix carbon by the Calvin-Benson- Basshom pathway, while only OYT1 has the genes necessary to fix nitrogen. The stalk-forming FeOB share xag genes that may help form the polysaccharide structure of stalks. Both OYT1 and R-1 make a novel biomineralization structure, short rod-shaped Fe oxyhydroxides much smaller than their stalks; these oxides are constantly shed, and may be a vector for C, P, and metal transport to downstream environments. Our results show that while different FeOB are adapted to particular niches, freshwater and marine FeOB likely share common mechanisms for Fe oxidation electron transport and biomineralization pathways. [ABSTRACT FROM AUTHOR]

Published

2015

14. Acetogenesis from H2 plus CO2 and nitrogen fixation b an endosymbiotic spirochete of a termite-gut cellulolytic protist.

Author

Moriya Ohkuma, Satoko Noda, Satoshi Hattori, Toshiya Iida, Masahiro Yuki, Starns, David, Jun-ichi Inoue, Darby, Alistair C., and Yuichi Hongoh

Subjects

ENDOSYMBIOSIS, SPIROCHETES, GENOMICS, EUKARYOTIC cells, NUCLEOTIDE sequence

Abstract

Symbiotic associations of cellulolytic eukaryotic protists and diverse bacteria are common in the gut microbial communities of termites. Besides cellulose degradation by the gut protists, reductive acetogenesis from H2 plus CO2 and nitrogen fixation by gut bacteria play crucial roles in the host termites' nutrition by contributing to the energy demand of termites and supplying nitrogen poor in their diet, respectively. Fractionation of these activities and the identification of key genes from the gut community of the wood-feeding termite Hodotermopsis sjoestedti revealed that substantial activities in the gut--nearly 60% of reductive acetogenesis and almost exclusively for nitrogen fixation--were uniquely attributed to the endosymbiotic bacteria of the cellulolytic protist in the genus Eucomonympha. The rod-shaped endosymbionts were surprisingly identified as a spirochete species in the genus Treponema, which usually exhibits a characteristic spiral morphology. The endosymbionts likely use H2 produced by the protist for these dual functions. Although H2 is known to inhibit nitrogen fixation in some bacteria, it seemed to rather stimulate this important mutualistic process. In addition, the single-cell genome analyses revealed the endosymbiont's potentials of the utilization of sugars for its energy requirement, and of the biosynthesis of valuable nutrients such as amino acids from the fixed nitrogen. These metabolic interactions are suitable for the dual functions of the endosymbiont and reconcile its substantial contributions in the gut. [ABSTRACT FROM AUTHOR]

Published

2015

15. Fermentation Characteristics and Microbial Diversity of Tropical Grass-legumes Silages.

Author

Ridwan, Roni, Rusmana, Iman, Widyastuti, Yantyati, Wiryawan, Komang G., Prasetya, Bambang, Mitsuo Sakamoto, and Moriya Ohkuma

Subjects

MICROBIAL diversity, SILAGE fermentation, SAVANNAS, LEGUMES, MICROBIOLOGY, CALLIANDRA calothyrsus, RUMINANTS, PROTEIN analysis

Abstract

Calliandra calothyrsus preserved in silage is an alternative method for improving the crude protein content of feeds for sustainable ruminant production. The aim of this research was to evaluate the quality of silage which contained different levels of C. calothyrsus by examining the fermentation characteristics and microbial diversity. Silage was made in a completely randomized design consisting of five treatments with three replications i.e.: R0, Pennisetum purpureum 100%; R1, P. purpureum 75%+C. calothyrsus 25%;, R2, P. purpureum 50%+C. calothyrsus 50%; R3, P. purpureum 25%+C. calothyrsus 75%; and R4, C. calothyrsus 100%. All silages were prepared using plastic jar silos (600 g) and incubated at room temperature for 30 days. Silages were analyzed for fermentation characteristics and microbial diversity. Increased levels of C. calothyrsus in silage had a significant effect (p<0.01) on the fermentation characteristics. The microbial diversity index decreased and activity was inhibited with increasing levels of C. calothyrsus. The microbial community indicated that there was a population of Lactobacillus plantarum, L. casei, L. brevis, Lactococcus lactis, Chryseobacterium sp., and uncultured bacteria. The result confirmed that silage with a combination of grass and C. calothyrsus had good fermentation characteristics and microbial communities were dominated by L. plantarum. [ABSTRACT FROM AUTHOR]

Published

2015

16. HEAVY METAL-TOLERANT AND PSYCHROTOLERANT BACTERIUM Acinetobacter pakistanensis SP. NOV. ISOLATED FROM A TEXTILE DYEING WASTEWATER TREATMENT POND.

Author

Abbas, Saira, Ahmed, Iftikhar, Takuji Kudo, Toshiya Iida, Ali, Ghulam Muhammad, Toru Fujiwara, and Moriya Ohkuma

Subjects

HEAVY metals, ACINETOBACTER, TEXTILE dyeing, WASTEWATER treatment, GRAM-negative bacteria, RIBOSOMAL RNA, AGAR

Abstract

A Gram-stain negative, cocci to short rod, non-motile, strictly aerobic, heavy metal-tolerant and psychrotolerant bacterium, designated NCCP-644T, was isolated from a textile dyeing wastewater treatment pond. The optimum (and ranges of) temperature and pH for growth of strain NCCP-644T was 20-25○C (3-37○C) and 7–8 (6-10), respectively. The strain can tolerate 0-3% NaCl (w/v) and heavy metals (Cr 2700 ppm, As 3000 ppm, Pb 2100 ppm and Cu 2700 ppm) in tryptic soya agar medium. The sequences of the 16S rRNA gene and three housekeeping genes, gyrB, rpoB and atpD, of strain NCCP- 644T showed the highest similarity (98.3, 91.9, 95.3 and 96.6 %, respectively) with the strain "Acinetobacter kyonggiensis" KSL5401-037T. Phylogenetic analyses from the sequence of the16S rRNA, gyrB and rpoB genes also revealed the affiliation of NCCP-644T with members of the genus Acinetobacter. The chemotaxonomic data [major quinones as Q-9; major cellular fatty acids as summed feature 3 (iso-C15 :0 2OH/C16 :1ω7c) followed by C18:1 ω9c, C16:0, and C12:0 3-OH; major polar lipids as diphosphatidyl glycerol, phosphatidyl serine, phosphatidyl monomethyl ethanol, phosphatidyl inositol, phosphatidyl ethanolamine, phosphatidyl glycerol and one unknown phospholipid] also support the affiliation of strain NCCP-644T with the genus Acinetobacter. The level of DNA–DNA relatedness between strain NCCP-644T and the closely related type strains of the genus Acinetobacter was < 54.7 %. Based on the phylogenetic analyses, DNA–DNA hybridisation and biochemical characteristics, strain NCCP-644T differed from the validly named Acinetobacter species and thus, it represents a new species. The name, Acinetobacter pakistanensis sp. nov.is proposed for the type strain NCCP-644T (= LMG 28467T = KCTC 42081T = JCM 18977T). [ABSTRACT FROM AUTHOR]

Published

2014

17. Cryptococcus terricola is a promising oleaginous yeast for biodiesel production from starch through consolidated bioprocessing.

Author

Ayumi Tanimura, Masako Takashima, Takashi Sugita, Rikiya Endoh, Minako Kikukawa, Shino Yamaguchi, Eiji Sakuradani, Jun Ogawa, Moriya Ohkuma, and Jun Shima

Subjects

CRYPTOCOCCUS, YEAST, STARCH, BIODIESEL fuels, BIOMASS energy

Abstract

Starch is considered a potential feedstock for biofuel production, particularly in light of the large-scale landfilling of food waste and other starchy materials worldwide. Lipid accumulation by oleaginous yeast is a promising method for biodiesel production from starch. However, most oleaginous yeasts are grown on monosaccharides or oligosaccharides because they cannot directly utilize starch. We therefore investigated the starch-assimilation ability of 1,200 yeasts. We found that Cryptococcus terricola could be used for fuel production through consolidated bioprocessing. C. terricola JCM 24523 exhibited the highest lipid content of 61.96% on medium with 5% starch at 10 days. Fatty acid methyl ester analysis showed that this strain produced high proportions of C16:0 and C18 fatty acids when grown on starch, which are ideal for use in biodiesel. Considering the yield and cost, lipids derived from starch using C. terricola would be a promising alternative source for biodiesel production. [ABSTRACT FROM AUTHOR]

Published

2014

18. Global catalogue of microorganisms (gcm): a comprehensive database and information retrieval, analysis, and visualization system for microbial resources.

Author

Linhuan Wu, Qinglan Sun, Hideaki Sugawara, Song Yang, Yuguang Zhou, McCluskey, Kevin, Vasilenko, Alexander, Ken-Ichiro Ken-Ichiro Suzuki, Moriya Ohkuma, Yeonhee Lee, Robert, Vincent, Supawadee Ingsriswang, Guissart, François, Philippe, Desmeth, and Juncai Ma

Subjects

MICROBIOLOGY, MICROORGANISMS, CATALOGS, DATABASES, INFORMATION retrieval

Abstract

Background Throughout the long history of industrial and academic research, many microbes have been isolated, characterized and preserved (whenever possible) in culture collections. With the steady accumulation in observational data of biodiversity as well as microbial sequencing data, bio-resource centers have to function as data and information repositories to serve academia, industry, and regulators on behalf of and for the general public. Hence, the World Data Centre for Microorganisms (WDCM) started to take its responsibility for constructing an effective information environment that would promote and sustain microbial research data activities, and bridge the gaps currently present within and outside the microbiology communities. Description Strain catalogue information was collected from collections by online submission. We developed tools for automatic extraction of strain numbers and species names from various sources, including Genbank, Pubmed, and SwissProt. These new tools connect strain catalogue information with the corresponding nucleotide and protein sequences, as well as to genome sequence and references citing a particular strain. All information has been processed and compiled in order to create a comprehensive database of microbial resources, and was named Global Catalogue of Microorganisms (GCM). The current version of GCM contains information of over 273,933 strains, which includes 43,436bacterial, fungal and archaea species from 52 collections in 25 countries and regions. A number of online analysis and statistical tools have been integrated, together with advanced search functions, which should greatly facilitate the exploration of the content of GCM. Conclusion A comprehensive dynamic database of microbial resources has been created, which unveils the resources preserved in culture collections especially for those whose informatics infrastructures are still under development, which should foster cumulative research, facilitating the activities of microbiologists world-wide, who work in both public and industrial research centres. This database is available from http://gcm.wfcc.info. [ABSTRACT FROM AUTHOR]

Published

2013

19. Screening of Optimal Cellulases from Symbiotic Protists of Termites through Expression in the Secretory Pathway of Saccharomyces cerevisiae.

Author

Nemuri Todaka, Risa Nakamura, Sigeharu Moriya, Moriya Ohkuma, Toshiaki Kudo, Haruo Takahashi, and Nobuhiro Ishida

Subjects

CELLULASE, SACCHAROMYCES cerevisiae, TERMITES, POLYMERASE chain reaction, YEAST

Abstract

The article presents a study which examines the optimal cellulases screening from termites' symbiotic protists using the secretory pathway expression of Saccharomyces cerevisiae. The study used polymerase chain reaction (PCR) to isolate the genes of cellulase from the termites' protest. Moreover, recombinant yeast strain which expresses beta (β)-glucosidases (BGL) screening system has been established for the convenient selection of functional cellulase genes.

Published

2011

20. Inheritance and diversification of symbiotic trichonymphid flagellates from a common ancestor of termites and the cockroach Cryptocercus.

Author

Moriya Ohkuma, Satoko Noda, Yuichi Hongoh, Christine A. Nalepa, and Tetsushi Inoue

Subjects

TERMITES, CRYPTOCERCUS, BIODIVERSITY, ANIMAL social behavior, TRICHONYMPHIDAE, MOLECULAR phylogeny

Abstract

Cryptocercus cockroaches and lower termites harbour obligate, diverse and unique symbiotic cellulolytic flagellates in their hindgut that are considered critical in the development of social behaviour in their hosts. However, there has been controversy concerning the origin of these symbiotic flagellates. Here, molecular sequences encoding small subunit rRNA and glyceraldehyde-3-phosphate dehydrogenase were identified in the symbiotic flagellates of the order Trichonymphida (phylum Parabasalia) in the gut of Cryptocercus punctulatus and compared phylogenetically to the corresponding species in termites. In each of the monophyletic lineages that represent family-level groups in Trichonymphida, the symbionts of Cryptocercus were robustly sister to those of termites. Together with the recent evidence for the sister-group relationship of the host insects, this first comprehensive study comparing symbiont molecular phylogeny strongly suggests that a set of symbiotic flagellates representative of extant diversity was already established in an ancestor common to Cryptocercus and termites, was vertically transmitted to their offspring, and subsequently became diversified to distinct levels, depending on both the host and the symbiont lineages. [ABSTRACT FROM AUTHOR]

Published

2009

21. The global catalogue of microorganisms 10K type strain sequencing project: closing the genomic gaps for the validly published prokaryotic and fungi species.

Author

Wu, Linhuan, McCluskey, Kevin, Desmeth, Philippe, Liu, Shuangjiang, Hideaki, Sugawara, Yin, Ye, Moriya, Ohkuma, Itoh, Takashi, Kim, Cha Young, and Lee, Jung-Sook

Subjects

NUCLEOTIDE sequencing, MICROBIAL genetics

Abstract

Genomic information is essential for taxonomic, phylogenetic, and functional studies to comprehensively decipher the characteristics of microorganisms, to explore microbiomes through metagenomics, and to answer fundamental questions of nature and human life. However, large gaps remain in the available genomic sequencing information published for bacterial and archaeal species, and the gaps are even larger for fungal type strains. The Global Catalogue of Microorganisms (GCM) leads an internationally coordinated effort to sequence type strains and close gaps in the genomic maps of microorganisms. Hence, the GCM aims to promote research by deep-mining genomic data. [ABSTRACT FROM AUTHOR]

Published

2018