Author: Kobayashi, Nobuya
- Development and evaluation of pyramiding lines carrying early or late heading QTLs in the indica rice cultivar ‘IR64’
- Identifying key traits in high-yielding rice cultivars for adaptability to both temperate and tropical environments
- SPIKE, a quantitative-trait locus, increases rice grain yield under low-yield conditions
- Physiological and morphological characterization of a high-yielding rice introgression line, YTH183, with genetic background of Indica Group cultivar, IR 64
- Development of introgression lines of an Indica-type rice variety, IR64, for unique agronomic traits and detection of the responsible chromosomal regions
- Characterization of introgression lines for yield-related traits with indica-type rice variety IR64 genetic background
Author: Fujita, Daisuke
- Development and evaluation of pyramiding lines carrying early or late heading QTLs in the indica rice cultivar ‘IR64’
- SPIKE, a quantitative-trait locus, increases rice grain yield under low-yield conditions
- Physiological and morphological characterization of a high-yielding rice introgression line, YTH183, with genetic background of Indica Group cultivar, IR 64
- Development of introgression lines of an Indica-type rice variety, IR64, for unique agronomic traits and detection of the responsible chromosomal regions
- Characterization of introgression lines for yield-related traits with indica-type rice variety IR64 genetic background
Similar Items: Development and evaluation of pyramiding lines carrying early or late heading QTLs in the indica rice cultivar ‘IR64’
- Characterization of QTLs for grain weight from New Plant Type rice cultivars through the development of near-isogenic lines with an IR 64 background
- Identifying key traits in high-yielding rice cultivars for adaptability to both temperate and tropical environments
- SPIKE, a quantitative-trait locus, increases rice grain yield under low-yield conditions
- Near-isogenic lines for resistance to blast disease, in the genetic background of the Indica Group rice (Oryza sativa L.) cultivar IR64
- Genetic mechanism of heat stress tolerance at anthesis among three different rice varieties with different fertilities under heat stress
- Characterization of near-isogenic lines carrying QTL for high spikelet number with the genetic background of an indica rice variety IR64 (Oryza sativa L.).
Similar Items: Genetic mechanism of heat stress tolerance at anthesis among three different rice varieties with different fertilities under heat stress
- Genetic analysis of heat tolerance at anthesis in rice
- Genome-wide transcriptome analysis during anthesis reveals new insights in the molecular basis of heat stress responses in tolerant and sensitive rice varieties
- Heat stress during gametogenesis irreversibly damages female reproductive organ in rice
- Pepper heat stress tolerance mechanisms induced by grafting are rootstock‐dependent
- Identifying key traits in high-yielding rice cultivars for adaptability to both temperate and tropical environments
- Popular rice (Oryza sativa L.) cultivars show contrasting responses to heat stress at gametogenesis and anthesis