|WUSCHEL-related homeobox family genes in rice control lateral root primordium size|
T Kawai, K Shibata, R Akahoshi, S Nishiuchi, H Takahashi, M Nakazono, ...
Proceedings of the National Academy of Sciences 119 (1), e2101846119, 2022
|WEG1, which encodes a cell wall hydroxyproline‐rich glycoprotein, is essential for parental root elongation controlling lateral root formation in rice|
N Lucob‐Agustin, T Kawai, M Takahashi‐Nosaka, M Kano‐Nakata, ...
Physiologia Plantarum 169 (2), 214-227, 2020
|Compensatory growth of lateral roots responding to excision of seminal root tip in rice|
T Kawai, M Nosaka-Takahashi, A Yamauchi, Y Inukai
Plant Root 11, 48-57, 2017
|Morpho-physiological and molecular mechanisms of phenotypic root plasticity for rice adaptation to water stress conditions|
N Lucob-Agustin, T Kawai, M Kano-Nakata, RR Suralta, JM Niones, ...
Breeding Science 71 (1), 20-29, 2021
|Auxin distribution in lateral root primordium development affects the size and lateral root diameter of rice|
T Kawai, R Akahoshi, IJ Shelley, T Kojima, M Sato, H Tsuji, Y Inukai
Frontiers in Plant Science 13, 832, 2022
|Rice genotypes express compensatory root growth with altered root distributions in response to root cutting|
T Kawai, Y Chen, H Takahashi, Y Inukai, KHM Siddique
Frontiers in Plant Science 13, 830577, 2022
|A lignin-derived material improves plant nutrient bioavailability and growth through its metal chelating capacity|
Q Liu, T Kawai, Y Inukai, D Aoki, Z Feng, Y Xiao, K Fukushima, X Lin, ...
Nature Communications 14 (1), 4866, 2023
|Developmental and genetic analysis of compensatory growth of lateral roots in rice|
School of Agriculture and Environment, The University of Western Australia, 2022