Keiichi Okazaki
Overview
Explore the profile of Keiichi Okazaki including associated specialties, affiliations and a list of published articles.
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Articles
29
Citations
284
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Recent Articles
1.
Ezeah C, Shimazu J, Kawanabe T, Shimizu M, Kawashima S, Kaji M, et al.
Breed Sci
. 2024 May;
73(5):421-434.
PMID: 38737918
Fusarium wilt is a significant disease in radish, but the genetic mechanisms controlling yellows resistance (YR) are not well understood. This study aimed to identify YR-QTLs and to fine-map one...
2.
Akter A, Kakizaki T, Itabashi E, Kunita K, Shimizu M, Akter M, et al.
Mol Breed
. 2023 Jul;
43(8):58.
PMID: 37484542
Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-023-01405-0.
3.
Nuruzzaman M, Sato M, Okamoto S, Hoque M, Shea D, Fujimoto R, et al.
Physiol Plant
. 2022 Aug;
174(5):e13770.
PMID: 36018597
Tuberous stem of kohlrabi is an important agronomic trait, however, the molecular basis of tuberization is poorly understood. To elucidate the tuberization mechanism, we conducted a comparative transcriptomic analysis between...
4.
Moriyama T, Shea D, Yokoi N, Imakiire S, Saito T, Ohshima H, et al.
Front Plant Sci
. 2022 Jul;
13:914671.
PMID: 35845645
Pollen-free varieties are advantageous in promoting cut-flower production. In this study, we identified a candidate mutation which is responsible for pollen sterility in a strain of × , which was...
5.
Fukai E, Yoshikawa M, Shah N, Sandal N, Miyao A, Ono S, et al.
Plant J
. 2022 Jul;
111(5):1397-1410.
PMID: 35792830
Transposable elements (TEs) constitute a large proportion of genomes of multicellular eukaryotes, including flowering plants. TEs are normally maintained in a silenced state and their transpositions rarely occur. Hybridization between...
6.
Miyaji N, Akter M, Suzukamo C, Mehraj H, Shindo T, Itabashi T, et al.
Plants (Basel)
. 2021 Jun;
10(6).
PMID: 34072246
In vegetables of L., f. sp. () or f. sp. () cause Fusarium yellows. A resistance gene against () has been identified, and deletion of this gene results in susceptibility...
7.
Akter A, Itabashi E, Kakizaki T, Okazaki K, Dennis E, Fujimoto R
Front Plant Sci
. 2021 Feb;
11:619417.
PMID: 33633752
The genus includes oil crops, vegetables, condiments, fodder crops, and ornamental plants. species underwent a whole genome triplication event after speciation between ancestral species of and closely related genera including...
8.
Takada S, Akter A, Itabashi E, Nishida N, Shea D, Miyaji N, et al.
Sci Rep
. 2019 Sep;
9(1):13843.
PMID: 31554847
There is a wide variation of flowering time among lines of Brassica rapa L. Most B. rapa leafy (Chinese cabbage etc.) or root (turnip) vegetables require prolonged cold exposure for...
9.
Sato M, Shimizu M, Shea D, Hoque M, Kawanabe T, Miyaji N, et al.
Breed Sci
. 2019 Sep;
69(2):308-315.
PMID: 31481840
The fusarium yellows resistance (YR) gene was previously identified and the DNA markers were developed to assist the breeding of YR cultivars in . However, the further analysis revealed discrepancies...
10.
Shea D, Nishida N, Takada S, Itabashi E, Takahashi S, Akter A, et al.
Sci Rep
. 2019 Jun;
9(1):9302.
PMID: 31243302
Brassica rapa L. is an important agricultural crop that requires a period of prolonged cold for flowering. This process is known as vernalization. Studies have shown that long noncoding RNAs...