Kiwamu Minamisawa
Overview
Explore the profile of Kiwamu Minamisawa including associated specialties, affiliations and a list of published articles.
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131
Citations
2496
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Recent Articles
1.
Hara S, Kakizaki K, Bamba M, Itakura M, Sugawara M, Suzuki A, et al.
Microbes Environ
. 2024 Sep;
39(3).
PMID: 39261062
Although microbial inoculation may be effective for sustainable crop production, detrimental aspects have been argued because of the potential of inoculated microorganisms to behave as invaders and negatively affect the...
2.
Win K, Tanaka F, Minamisawa K, Imaizumi-Anraku H
Microorganisms
. 2024 Jul;
12(7).
PMID: 39065246
Co-inoculation of soybeans with and plant growth-promoting bacteria has displayed promise for enhancing plant growth, but concrete evidence of its impact on soybean yields is limited. Therefore, this study assessed...
3.
Wasai-Hara S, Itakura M, Fernandes Siqueira A, Takemoto D, Sugawara M, Mitsui H, et al.
Sci Rep
. 2023 Nov;
13(1):18862.
PMID: 37914789
NO is an important greenhouse gas influencing global warming, and agricultural land is the predominant (anthropogenic) source of NO emissions. Here, we report the high NO-reducing activity of Bradyrhizobium ottawaense,...
4.
Win K, Wasai-Hara S, Tanaka F, Oo A, Minamisawa K, Shimoda Y, et al.
Sci Rep
. 2023 Oct;
13(1):17050.
PMID: 37816850
We investigated the potential dual application of two Bradyrhizobium strains (B. diazoefficiens USDA110 and B. ottawaense SG09) and plant growth-promoting bacteria, PGPB (Pseudomonas spp.: OFT2 and OFT5), to improve nodulation...
5.
Ikeda S, Okazaki K, Takahashi H, Tsurumaru H, Minamisawa K
Microbes Environ
. 2023 Feb;
38(1).
PMID: 36754423
To investigate functional plant growth-promoting rhizobacteria in sugar beet, seasonal shifts in bacterial community structures in the lateral roots of sugar beet were examined using amplicon sequencing ana-lyses of the...
6.
Minamisawa K
Biosci Biotechnol Biochem
. 2022 Nov;
87(1):7-12.
PMID: 36354103
Chemical nitrogen fixation by the Haber-Bosch method permitted industrial-scale fertilizer production that supported global population growth, but simultaneously released reactive nitrogen into the environment. This minireview highlights the potential for...
7.
Bromfield E, Cloutier S, Wasai-Hara S, Minamisawa K
Int J Syst Evol Microbiol
. 2022 Oct;
72(10).
PMID: 36260659
No abstract available.
8.
Hara S, Wada N, Hsiao S, Zhang M, Bao Z, Iizuka Y, et al.
mBio
. 2022 May;
13(3):e0125522.
PMID: 35608299
Methane-oxidizing bacteria (methanotrophs) play an ecological role in methane and nitrogen fluxes because they are capable of nitrogen fixation and methane oxidation, as indicated by genomic and cultivation-dependent studies. However,...
9.
Arashida H, Odake H, Sugawara M, Noda R, Kakizaki K, Ohkubo S, et al.
ISME J
. 2021 Jul;
16(1):112-121.
PMID: 34272493
Symbiosis between organisms influences their evolution via adaptive changes in genome architectures. Immunity of soybean carrying the Rj2 allele is triggered by NopP (type III secretion system [T3SS]-dependent effector), encoded...
10.
Okazaki K, Tsurumaru H, Hashimoto M, Takahashi H, Okubo T, Ohwada T, et al.
Microbes Environ
. 2021 Apr;
36(2).
PMID: 33907063
Clone libraries of bacterial 16S rRNA genes (a total of 1,980 clones) were constructed from the leaf blades, petioles, taproots, and lateral roots of sugar beet (Beta vulgaris L.) grown...