Rchr
J-GLOBAL ID:200901062502640112
Update date: Feb. 01, 2024
Mano Yoshiro
マノ ヨシロウ | Mano Yoshiro
Affiliation and department:
Research field (1):
Plant genetics and breeding
Research keywords (8):
DNA marker
, wheat
, QTL
, barley
, salt tolerance
, teosinte
, maize
, 耐湿性
Research theme for competitive and other funds (4):
- 2021 - 2025 Elucidation of the mechanism of waterlogging tolerance in genus Zea and its application to molecular breeding
- 2020 - 2023 根の通気組織がトウモロコシの環境ストレス耐性向上に及ぼす効果の検証とその機構解明
- 2018 - 2021 Elucidation of the mechanism of radial oxygen loss barrier formation and verification of its contribution to the improvement of waterlogging tolerance of maize
- 2015 - 2018 Understanding mechanism of formation of radial oxygen loss barrier in maize and teosinte
Papers (48):
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Jiayang Ning, Takaki Yamauchi, Hirokazu Takahashi, Fumie Omori, Yoshiro Mano, Mikio Nakazono. Asymmetric auxin distribution establishes a contrasting pattern of aerenchyma formation in the nodal roots of Zea nicaraguensis during gravistimulation. Frontiers in Plant Science. 2023. 14. 1133009
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Yoshiro Mano, Mikio Nakazono. Genetic regulation of root traits for soil flooding tolerance in genus Zea. Breeding Science. 2021. 71. 1. 30-39
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Ole Pedersen, Yohei Nakayama, Hiroki Yasue, Yusuke Kurokawa, Hirokazu Takahashi, Anja Heidi Floytrup, Fumie Omori, Yoshiro Mano, Timothy David Colmer, Mikio Nakazono. Lateral roots, in addition to adventitious roots, form a barrier to radial oxygen loss in Zea nicaraguensis and a chromosome segment introgression line in maize. The New phytologist. 2020
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Fangping Gong, Hirokazu Takahashi, Fumie Omori, Wei Wang, Yoshiro Mano, Mikio Nakazono. QTLs for constitutive aerenchyma from Zea nicaraguensis improve tolerance of maize to root-zone oxygen deficiency. Journal of experimental botany. 2019. 70. 21. 6475-6487
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Kohtaro Watanabe, Hirokazu Takahashi, Saori Sato, Shunsaku Nishiuchi, Fumie Omori, Al Imran Malik, Timothy David Colmer, Yoshiro Mano, Mikio Nakazono. A major locus involved in the formation of the radial oxygen loss barrier in adventitious roots of teosinte Zea nicaraguensis is located on the short-arm of chromosome 3. Plant, cell & environment. 2017. 40. 2. 304-316
more...
MISC (16):
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間野吉郎. トウモロコシの近縁種テオシントにおける耐湿性に関わる根の形質の遺伝解析. 畜産技術. 2019. 767
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間野吉郎. イネ科作物のストレス耐性の遺伝解析と耐湿性に関わる根系形質の改良. 根の研究. 2018. 27. 4
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間野吉郎, 玉置宏之, 三ツ橋昇平, 佐藤尚, 黄川田智洋, 高橋亘. 気候変動に対応した循環型食料生産等の確立のためのプロジェクト-気候変動に適応したイネ科作物品種・系統の開発-第4編 気候変動に適応した麦類・飼料作物品種の開発 第2章 飼料作物の品種開発 3 多雨によって生じる湿害に耐性を示す通気組織形成能を導入したトウモロコシ系統の開発. 農林水産省農林水産技術会議事務局研究成果. 2016. 554. 159-165
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間野吉郎, 佐藤尚, 玉置宏之, 黄川田智洋, 三ツ橋昇平, 高橋亘. トウモロコシの耐湿性育種に利用可能な湛水・還元耐性に関与する遺伝子座. 農研機構畜産草地研究所成果情報(Web). 2015. 2015
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玉置宏之, 佐藤尚, 間野吉郎, 伊東栄作, 黄川田智洋, 高橋亘, 三ツ橋昇平. 近縁野生種由来の耐湿性遺伝子を持つトウモロコシ新親自殖系統「Na110」. 農研機構畜産草地研究所成果情報(Web). 2015. 2015
more...
Patents (3):
Lectures and oral presentations (56):
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Fine mapping of the QTL controlling constitutive aerenchyma formation in Zea nicaraguensis
(育種学研究 2021)
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Effect of auxin distribution on aerenchyma and lateral root formations in Zea nicaraguensis roots
(育種学研究 2021)
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Searching of important genes involved in a radial O<sub>2</sub> loss barrier formation in Zea nicaraguensis by RNA-Seq analysis
(育種学研究 2021)
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QTL mapping of flooding tolerance at the seedling stage in barley
(育種学研究 2020)
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Effect of radial oxygen loss barrier in Zea nicaraguensis to drought stress
(育種学研究 2020)
more...
Education (3):
- - 1996 Okayama University The Graduate School of Natural Science and Technology
- - 1993 Okayama University
- - 1988 Tokyo University of Agriculture and Technology Faculty of Agriculture
Professional career (1):
Work history (2):
- 2021/04 - 現在 畜産研究部門 畜産飼料作研究領域 飼料作物育種グループ長
- 2016/04 - 2021/03 Oita Prefectural Agriculture, Forestry and Fisheries Research Center Livestock Research Division
Association Membership(s) (3):
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