Shota Teramoto
Shota Teramoto
Institute of Crop Science, National Agriculture and Food Research Organization
Verified email at
Cited by
Cited by
High-throughput three-dimensional visualization of root system architecture of rice using X-ray computed tomography
S Teramoto, S Takayasu, Y Kitomi, Y Arai-Sanoh, T Tanabata, Y Uga
Plant Methods 16, 1-14, 2020
A deep learning-based phenotypic analysis of rice root distribution from field images
S Teramoto, Y Uga
Plant phenomics, 2020
De novo Genome Assembly of the indica Rice Variety IR64 Using Linked-Read Sequencing and Nanopore Sequencing
T Tanaka, R Nishijima, S Teramoto, Y Kitomi, T Hayashi, Y Uga, ...
G3: Genes, Genomes, Genetics 10 (5), 1495-1501, 2020
Towards a deeper integrated multi-omics approach in the root system to develop climate-resilient rice
K Yoshino, Y Numajiri, S Teramoto, N Kawachi, T Tanabata, T Tanaka, ...
Molecular Breeding 39, 1-19, 2019
Loss-of-function of a ubiquitin-related modifier promotes the mobilization of the active MITE mPing
T Tsukiyama, S Teramoto, K Yasuda, A Horibata, N Mori, Y Okumoto, ...
Molecular plant 6 (3), 790-801, 2013
Early Embryogenesis-Specific Expression of the Rice Transposon Ping Enhances Amplification of the MITE mPing
S Teramoto, T Tsukiyama, Y Okumoto, T Tanisaka
PLoS genetics 10 (6), e1004396, 2014
Backhoe-assisted monolith method for plant root phenotyping under upland conditions
S Teramoto, Y Kitomi, R Nishijima, S Takayasu, N Maruyama, Y Uga
Breeding Science 69 (3), 508-513, 2019
iPOTs: Internet of Things]based pot system controlling optional treatment of soil water condition for plant phenotyping under drought stress
Y Numajiri, K Yoshino, S Teramoto, A Hayashi, R Nishijima, T Tanaka, ...
The Plant Journal 107 (5), 1569-1580, 2021
The transcriptomic landscapes of rice cultivars with diverse root system architectures grown in upland field conditions
T Kawakatsu, S Teramoto, S Takayasu, N Maruyama, R Nishijima, ...
The Plant Journal 106 (4), 1177-1190, 2021
RSAtrace3D: robust vectorization software for measuring monocot root system architecture
S Teramoto, T Tanabata, Y Uga
BMC Plant Biology 21, 1-11, 2021
Growth and Nitrate Reductase Activity Are Impaired in Rice Osnlp4 Mutants Supplied with Nitrate
M Wang, T Hasegawa, M Beier, M Hayashi, Y Ohmori, K Yano, ...
Plant and Cell Physiology 62 (7), 1156-1167, 2021
Improving the efficiency of plant root system phenotyping through digitization and automation
S Teramoto, Y Uga
Breeding Science 72 (1), 48-55, 2022
Identification of a unique allele in the quantitative trait locus for crown root number in japonica rice from Japan using genome-wide association studies
S Teramoto, M Yamasaki, Y Uga
Breeding Science 72 (3), 222-231, 2022
OsNLP4 is required for nitrate assimilation gene expressions and nitrate-dependent growth in rice
M Wang, T Hasegawa, M Hayashi, Y Ohmori, K Yano, S Teramoto, ...
bioRxiv, 2020.03. 16.993733, 2020
Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto, TL Shimada, H Eun, C Muto, ...
Frontiers in Plant Science 14, 1119625, 2023
Rice immediately adapts the dynamics of photosynthates translocation to roots in response to changes in soil water environment
Y Miyoshi, F Soma, YG Yin, N Suzui, Y Noda, K Enomoto, Y Nagao, ...
Frontiers in Plant Science 13, 1024144, 2023
Plant root PET: visualization of photosynthate translocation to roots in rice plant
Y Miyoshi, Y Nagao, M Yamaguchi, N Suzui, YG Yin, N Kawachi, ...
Journal of Instrumentation 16 (12), C12018, 2021
Four-dimensional measurement of root system development using time-series three-dimensional volumetric data analysis by backward prediction
S Teramoto, Y Uga
Plant Methods 18 (1), 133, 2022
The transcriptomic landscapes of diverse rice cultivars grown under mild drought conditions
T Kawakatsu, S Teramoto, S Takayasu, N Maruyama, R Nishijima, ...
bioRxiv, 2020.12. 11.421685, 2020
ͺ‚ΜŒ€‹† 33 (1), 7-14, 2024
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Articles 1–20