Your search keyword '"Yamashita, Hiroto"' showing total 3 results

1. Deciphering transcriptomic signatures explaining the phenotypic plasticity of nonheading lettuce genotypes under artificial light conditions.

Author

Yamashita, Hiroto, Wada, Kaede C., Inagaki, Noritoshi, Fujimoto, Zui, Yonemaru, Jun‐ichi, and Itoh, Hironori

Subjects

*PHENOTYPIC plasticity, *GENOTYPES, *AGRICULTURE, *TRANSCRIPTOMES, *FLAVONOIDS, *LETTUCE, *BOTANICAL chemistry

Abstract

Elucidating the mechanisms and pathways involved in genotype–environment (G×E) interactions and phenotypic plasticity is critical for improving plant growth. Controlled environment agricultural systems allow growers to modulate the environment for particular genotypes. In this study, we evaluated the effects of interactions among 14 genotypes and four artificial light environments on leaf lettuce phenotypes and dissected the underlying molecular mechanism via transcriptome‐based modeling. Variations in morphological traits and phytochemical concentrations in response to artificial light treatments revealed significant G×E interactions. The appropriate genotype and artificial light combinations for maximizing phenotypic expression were determined on the basis of a joint regression analysis and the additive main effect and multiplicative interaction model for these G×E interactions. Transcriptome‐based regression modeling explained approximately 50%–90% of the G×E variations. Further analyzes indicated Red Lettuce Leaves 4 (RLL4) regulates UV‐B and blue light signaling through the effects of the HY5–MBW pathway on flavonoid biosynthesis and contributes to natural variations in the light‐responsive plasticity of lettuce traits. Our study represents an important step toward elucidating the phenotypic variations due to G×E interactions in nonheading lettuce under artificial light conditions. Summary Statement: The statistics of genotype‐environment (G×E) interactions identified the ideal lettuce genotype and artificial light combinations for each phenotype. Transcriptome‐based modeling explained the G×E variations, especially the relationship between Red Lettuce Leaves 4 allele and the regulation of flavonoid pathway. [ABSTRACT FROM AUTHOR]

Published

2023

2. Analyses of single nucleotide polymorphisms identified by ddRAD-seq reveal genetic structure of tea germplasm and Japanese landraces for tea breeding.

Author

Yamashita, Hiroto, Katai, Hideyuki, Kawaguchi, Lina, Nagano, Atsushi J., Nakamura, Yoriyuki, Morita, Akio, and Ikka, Takashi

Subjects

*SINGLE nucleotide polymorphisms, *WHEAT breeding, *GENETIC markers in plants, *GENETIC polymorphisms in plants

Abstract

To obtain genetic information about the germplasm of tea (Camellia sinensis L.) in Japan, 167 accessions including 138 var. sinensis (96 Japanese var. sinensis and 42 exotic var. sinensis) and 29 Assam hybrids were analyzed using single nucleotide polymorphisms (SNPs) markers identified by double-digest restriction-site-associated DNA sequencing (ddRAD-seq) analysis. Approximately 10,000 SNPs were identified by ddRAD-seq and were mapped across the whole genome. The 167 tea accessions were classified into three genetic subgroups: (1) Japanese var. sinensis; (2) Japanese and exotic var. sinensis; (3) Assam hybrids and exotic var. sinensis. Leaf morphology varied widely within each genetic subgroups. The 96 Japanese var. sinensis were classified into four genetic subgroups as follows; two subgroups of Shizuoka (the largest tea production region) landraces, Uji (most ancient tea production region) landraces, and the pedigree of ‘Yabukita’, the leading green tea cultivar in Japan. These results indicated that the SNP markers obtained from ddRAD-seq are a useful tool to investigate the geographical background and breeding history of Japanese tea. This genetic information revealed the ancestral admixture situation of the ‘Yabukita’ pedigree, and showed that the genome structure of ‘Yabukita’ is clearly different from those of other Japanese accessions. [ABSTRACT FROM AUTHOR]

Published

2019

3. Quantitative validation of nicotine production in tea (Camellia sinensis L.).

Author

Ikka, Takashi, Yamashita, Hiroto, Kurita, Ikuya, Tanaka, Yasuno, Taniguchi, Fumiya, Ogino, Akiko, Takeda, Kazuya, Horie, Nobuhiro, Hojo, Hiroshi, Nanjo, Fumio, and Morita, Akio

Subjects

*NICOTINE, *TEA, *ENZYMATIC analysis, *HYDROPONICS, *FLAVONOIDS, PHYSIOLOGICAL effect

Abstract

Endogenous nicotine was confirmed to be present in tea plants (Camellia sinensis L.) by liquid chromatography-tandem mass spectrometry of tea samples from tea-producing regions in six Asian countries. All samples contained nicotine (0.011–0.694 μg g−1 dry weight). Nicotine contents remained constant during manufacturing of green, oolong and black teas, implying that nicotine is stable against heating, drying, enzymatic oxidation and mechanical damage during processing. Flower buds and seeds of cultivar Yabukita also contained nicotine (0.030–0.041 μg g−1 dry weight). A comparison of two cultivars revealed that higher nicotine contents were found in the black tea cultivar Benifuki. All plant parts of hydroponic Yabukita contained nicotine (0.003–0.013 μg g−1 dry weight). Tea cells cultured in B5 medium as well as roots and stems of tea seedlings contained nicotine levels similar to those of new leaves from field-grown plants. Although the levels of endogenous nicotine in tea plants are extremely low and sample contamination cannot be discounted, these levels exceed the maximum acceptable limit in Japan (0.01 μg g−1 dry weight). [ABSTRACT FROM AUTHOR]

Published

2018