|A high-density rice genetic linkage map with 2275 markers using a single F2 population|
Y Harushima, M Yano, A Shomura, M Sato, T Shimano, Y Kuboki, ...
Genetics 148 (1), 479, 1998
|Deletion in a gene associated with grain size increased yields during rice domestication|
A Shomura, T Izawa, K Ebana, T Ebitani, H Kanegae, S Konishi, M Yano
Nature genetics 40 (8), 1023, 2008
|The phototropin family of photoreceptors|
WR Briggs, CF Beck, AR Cashmore, JM Christie, J Hughes, JA Jarillo, ...
The Plant Cell 13 (5), 993-997, 2001
|Photochemical Properties of the Flavin Mononucleotide-Binding Domains of the Phototropins from Arabidopsis, Rice, andChlamydomonas reinhardtii|
M Kasahara, TE Swartz, MA Olney, A Onodera, N Mochizuki, H Fukuzawa, ...
Plant physiology 129 (2), 762-773, 2002
|Isolation and characterization of rice phytochrome A mutants|
M Takano, H Kanegae, T Shinomura, A Miyao, H Hirochika, M Furuya
The Plant Cell 13 (3), 521-534, 2001
|Species-Dependent Expression of the Hyoscyamine 6 [beta]-Hydroxylase Gene in the Pericycle|
T Kanegae, H Kajiya, Y Amano, T Hashimoto, Y Yamada
Plant Physiology 105 (2), 483-490, 1994
|High-throughput phenotyping of sorghum plant height using an unmanned aerial vehicle and its application to genomic prediction modeling|
K Watanabe, W Guo, K Arai, H Takanashi, H Kajiya-Kanegae, ...
Frontiers in plant science 8, 421, 2017
|Conservation of duplicated segments between rice chromosomes 11 and 12|
Y Nagamura, T Inoue, BA Antonio, T Shimano
Breeding Science 45, 373-373, 1995
|γ-Radiation induces leaf trichome formation in Arabidopsis|
T Nagata, S Todoriki, T Hayashi, Y Shibata, M Mori, H Kanegae, S Kikuchi
Plant physiology 120 (1), 113-120, 1999
|CyanoBase and RhizoBase: databases of manually curated annotations for cyanobacterial and rhizobial genomes|
T Fujisawa, S Okamoto, T Katayama, M Nakao, H Yoshimura, ...
Nucleic acids research 42 (D1), D666-D670, 2014
|Rice NPH1 Homologues, OsNPH1a and OsNPH1b, Are Differently Photoregulated|
H Kanegae, M Tahir, F Savazzini, K Yamamoto, M Yano, T Sasaki, ...
Plant and cell physiology 41 (4), 415-423, 2000
|Complete Genome Sequence of Bradyrhizobium sp. S23321: Insights into Symbiosis Evolution in Soil Oligotrophs.|
T Okubo, T Tsukui, H Maita, S Okamoto, K Oshima, T Fujisawa, A Saito, ...
Microbes and environments/JSME, 2012
|Genomics-assisted breeding in fruit trees|
H Iwata, MF Minamikawa, H Kajiya-Kanegae, M Ishimori, T Hayashi
Breeding Science 66 (1), 100-115, 2016
|Rice has two distinct classes of protein kinase genes related to SNF1 of Saccharomyces cerevisiae, which are differently regulated in early seed development|
M Takano, H Kajiya-Kanegae, H Funatsuki, S Kikuchi
Molecular and General Genetics MGG 260 (4), 388-394, 1998
|Plant Omics Data Center: an integrated web repository for interspecies gene expression networks with NLP-based curation|
H Ohyanagi, T Takano, S Terashima, M Kobayashi, M Kanno, K Morimoto, ...
Plant and Cell Physiology 56 (1), e9-e9, 2015
|Comparison off genetic distance and order off DNA markers in five populations of rice|
BA Antonio, T Inoue, H Kajiya, Y Nagamura, N Kurata, Y Minobe, M Yano, ...
Genome 39 (5), 946-956, 1996
|Genome-wide association study and genomic prediction in citrus: potential of genomics-assisted breeding for fruit quality traits|
MF Minamikawa, K Nonaka, E Kaminuma, H Kajiya-Kanegae, A Onogi, ...
Scientific reports 7 (1), 1-13, 2017
|Phytochrome C (PHYC) gene in rice: Isolation and characterization of a complete coding sequence|
Plant Physiol 118, 1535, 1998
|Expressions of rice sucrose non-fermenting-1 related protein kinase 1 genes are differently regulated during the caryopsis development|
H Kanegae, K Miyoshi, T Hirose, S Tsuchimoto, M Mori, Y Nagato, ...
Plant Physiology and Biochemistry 43 (7), 669-679, 2005
|A simulation-based breeding design that uses whole-genome prediction in tomato|
E Yamamoto, H Matsunaga, A Onogi, H Kajiya-Kanegae, M Minamikawa, ...
Scientific reports 6, 19454, 2016