三浦 謙治(ミウラ ケンジ)
- 論文
- The SUMO E3 ligase, AtSIZ1, regulates flowering by controlling a salicylic acid-mediated floral promotion pathway and through affects on FLC chromatin structure.
Jin; J.B.; Jin; Y.H.; Lee; J.; Miura; K.; Yoo; C.Y.; Kim; W.-Y.; Hyun...
Plant J./53/p.530-540, 2008-02 - Expression analysis of genes associated with the induction of the carbon-concentrating mechanism in Chlamydomonas reinhardtii.
Yamano; T.; Miura; K.; ; Fukuzawa; H.; +三浦 謙治
Plant Physiol./147/p.340-354, 2008-05 - The phosphate transporter PHT4;6 is a determinant of salt tolerance that is localized to the golgi apparatus of Arabidopsis.
Cubero; B.; Nakagawa; Y.; Jiang; X.; Miura; K.; Li; F.; Raghothama; ...
Mol. Plant/2/p.535-552, 2009-06 - SUMO E3 ligase HIGH PLOIDY 2 regulates endocycle onsets and meristem maintenance in Arabidopsis.
Ishida; T.; Fujiwara; S.; Miura; K.; Stacey; N.; Yoshimura; M.; Sch...
Plant Cell/21/p.2284-2297, 2009-07 - MMS21/HPY2 and SIZ1, Two Arabidopsis SUMO E3 Ligases, Have Distinct Functions in Development
Ishida Takashi; Yoshimura Mika; Miura Kenji; Sugimoto Keiko
PLOS ONE/7(10), 2012-10 - Accumulation of antioxidants and antioxidant activity in tomato, Solanum lycopersicum, are enhanced by the transcription factor SlICE1
Miura Kenji; Shiba Hayato; Ohta Masaru; Kang Seung Won; Sato ...
PLANT BIOTECHNOLOGY/29(3)/pp.261-269, 2012-06 - SlICE1 encoding a MYC-type transcription factor controls cold tolerance in tomato, Solanum lycopersicum
Miura Kenji; Shiba Hayato; Ohta Masaru; Kang Seung Won; S...
PLANT BIOTECHNOLOGY/29(3)/pp.253-260, 2012-01 - Increased tolerance to salt stress in the phosphate-accumulating Arabidopsis mutants siz1 and pho2
Miura Kenji; Sato Aiko; Ohta Masaru; Furukawa Jun
PLANTA/234(6)/pp.1191-1199, 2011-12 - ICE1 Ser403 is necessary for protein stabilization and regulation of cold signaling and tolerance
Miura Kenji; Ohta Masaru; Nakazawa Machiko; Ono Michiyuk...
PLANT JOURNAL/67(2)/pp.269-279, 2011-07 - The Arabidopsis GTL1 Transcription Factor Regulates Water Use Efficiency and Drought Tolerance by Modulating Stomatal Density via Transrepression of SDD1
Yoo Chan Yul; Pence Heather E.; Jin Jing Bo; Miura Kenji...
PLANT CELL/22(12)/pp.4128-4141, 2010-12 - SIZ1 Regulation of Phosphate Starvation-Induced Root Architecture Remodeling Involves the Control of Auxin Accumulation
Miura Kenji; Lee Jiyoung; Gong Qingqiu; Ma Shisong; Jin ...
PLANT PHYSIOLOGY/155(2)/pp.1000-1012, 2011-02 - 重金属ストレスによって誘導されるArabidopside関連化合物の機能(口頭発表)
中城 治之; 山田 小須弥; 長谷川 宏司; 後藤 伸治; 三浦 謙治; 繁森 英幸
植物化学調節学会研究発表記録集/0(45)/pp.107-107, 2010-10 - Sumoylation of ABI5 by the Arabidopsis SUMO E3 ligase SIZ1 negatively regulates abscisic acid signaling
Miura Kenji; Lee Jiyoung; Jin Jing Bo; Yoo Chan Yul; Miur...
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA/106(13)/pp.5418-5423, 2009-03 - SUMO E3 Ligase HIGH PLOIDY2 Regulates Endocycle Onset and Meristem Maintenance in Arabidopsis
Ishida Takashi; Fujiwara Sumire; Miura Kenji; Stacey Nic...
PLANT CELL/21(8)/pp.2284-2297, 2009-08 - SIZ1 Controls Cell Growth and Plant Development in Arabidopsis Through Salicylic Acid
Miura Kenji; Lee Jiyoung; Miura Tomoko; Hasegawa Paul M.
PLANT AND CELL PHYSIOLOGY/51(1)/pp.103-113, 2010-01 - Sumoylation and other ubiquitin-like post-translational modifications in plants
Miura Kenji; Hasegawa Paul M.
TRENDS IN CELL BIOLOGY/20(4)/pp.223-232, 2010-04 - SIZ1, a small ubiquitin-related modifier ligase, controls cold signaling through regulation of salicylic acid accumulation
Miura Kenji; Ohta Masaru
JOURNAL OF PLANT PHYSIOLOGY/167(7)/pp.555-560, 2010-01 - Comparative transcriptional profiling-based identification of raphanusanin-inducible genes
Moehninsi; Miura Kenji; Nakajyo Haruyuki; Yamada Kosumi; H...
BMC PLANT BIOLOGY/10/pp.111-127, 2010-06 - Establishment of publicly available cDNA material and information resource of Chlamydomonas reinhardtii (Chlorophyta) to facilitate gene function analysis
Asamizu E; Nakamura Y; Miura K; Fukuzawa H; Fujiwara S; H...
PHYCOLOGIA/43(6)/pp.722-726, 2004-11
- The SUMO E3 ligase, AtSIZ1, regulates flowering by controlling a salicylic acid-mediated floral promotion pathway and through affects on FLC chromatin structure.