Shin-Ichi Arimura
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Explore the profile of Shin-Ichi Arimura including associated specialties, affiliations and a list of published articles.
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67
Citations
1232
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Recent Articles
1.
Hosoda A, Nakazato I, Okuno M, Itoh T, Takanashi H, Tsutsumi N, et al.
Plant Biotechnol (Tokyo)
. 2025 Mar;
41(4):357-365.
PMID: 40083573
Recently a cytidine deaminase-based method for highly efficient C-to-T targeted base editing was developed and has been used with CRISPR-mediated systems. It is a powerful method for genome engineering, although...
2.
Zhong Y, Okuno M, Tsutsumi N, Arimura S
Plant Physiol
. 2025 Feb;
197(3).
PMID: 39973305
Methylation of cytosines in plant mitochondrial DNA (mtDNA) has been a controversial issue. Results supporting mtDNA methylation may have been subject to contamination due to the presence of nuclear sequences...
3.
Nakazato I, Arimura S
Curr Protoc
. 2025 Jan;
5(1):e70075.
PMID: 39757974
Arabidopsis thaliana, particularly the ecotype Columbia-0 (Col-0), has been extensively employed in the study of genetics of the nuclear genome. However, the difficulty of modifying the plastid genome of Col-0,...
4.
Ishizuna F, Yo U, Yoshimura N, Shirai A, Aono T, Tsutsumi N, et al.
Am J Bot
. 2024 Nov;
111(11):e16433.
PMID: 39498694
Premise: Nelumbo nucifera is one of several plant species with flowers that typically open in the early morning and close by noon. This movement normally repeats for 3 days, with...
5.
Nakazato I, Yamori W, Matsumura H, Qu Y, Okuno M, Tsutsumi N, et al.
Plant Biotechnol J
. 2024 Oct;
23(1):204-215.
PMID: 39427289
The chloroplast genome has considerable potential to enhance crop productivity, but it remains underutilized in breeding because it is difficult to modify. This study elucidates the potential of recently developed...
6.
Nakazato I, Arimura S
Plant J
. 2024 Sep;
120(3):872-880.
PMID: 39276374
Chloroplasts are organelles that are derived from a photosynthetic bacterium and have their own genome. Genome editing is a recently developing technology that allows for specific modifications of target sequences....
7.
Toriyama K, Iwai Y, Takeda S, Takatsuka A, Igarashi K, Furuta T, et al.
Plant J
. 2024 Sep;
120(3):941-949.
PMID: 39250703
Cytoplasmic male sterility (CMS) is an agronomically significant trait that causes dysfunction in pollen and anther development. It is often observed during successive backcrossing between distantly related species. Here, we...
8.
Dehaene N, Boussardon C, Andrey P, Charif D, Brandt D, Gilouppe Taillefer C, et al.
J Exp Bot
. 2024 May;
75(16):4851-4872.
PMID: 38733289
Cytoplasmic male sterility (CMS) is of major agronomical relevance in hybrid breeding. In gametophytic CMS, abortion of pollen is determined by the grain genotype, while in sporophytic CMS, it is...
9.
Arimura S, Finkemeier I, Kuhn K, Takenaka M
Plant Cell Physiol
. 2024 Apr;
65(4):473-476.
PMID: 38590035
No abstract available.
10.
Zhou J, Nie L, Zhang S, Mao H, Arimura S, Jin S, et al.
Plant Biotechnol J
. 2024 Feb;
22(7):1960-1962.
PMID: 38409937
No abstract available.