研究者業績

大川 克哉

オオカワ カツヤ  (Katsuya Ohkawa)

基本情報

所属
千葉大学 大学院園芸学研究院食と緑の健康創成学講座 講師
学位
博士(農学)(千葉大学)
修士(農学)(千葉大学)

J-GLOBAL ID
200901020541258158
researchmap会員ID
1000284786

論文

 71
  • Takanori Saito, Satoru Kondo, Katsuya Ohkawa, Hitoshi Ohara
    The Horticulture Journal 2025年  
  • Satoru Kondo, Koyo Kunugi, Takanori Saito, Katsuya Ohkawa, Jun Takeuchi, Yasushi Todoroki, Netnapis Khewkhom, Varit Srilaong, Wasana Phlaetita, Sutthiwal Setha
    Scientia Horticulturae 338 113623-113623 2024年12月  
  • H. Tomiyama, Y. Pan, P. Opio, S. Wang, T. Saito, K. Ohkawa, H. Ohara, S. Kondo
    Acta Horticulturae (1404) 1015-1022 2024年9月  
  • Satoru Kondo, Miho Ishioka, Chihiro Hoshi, Hiroyuki Tomiyama, Yukino Masuda, Souma Murata, Takanori Saito, Katsuya Ohkawa, Hitoshi Ohara, Naoto Iwasaki, Sutthiwal Setha, Wei Heng, Jun Takeuchi, Yasushi Todoroki
    Plant Growth Regulation 2024年8月22日  
    Abstract The effects of blue-light irradiation on abscisic acid (ABA) signaling, sugar metabolism and translocation, and photoreceptors and gene expressions were investigated to clarify the mechanism by which blue-LED irradiation increases sugar concentrations in grape berries (Vitis labruscana L.). Blue light-emitting diode (LED) irradiation increased the portion of 13C-photosynthates in the grapevine clusters that were fed 13CO2; compared to the portion in the cluster in the untreated control. Fructose and glucose concentrations and the expressions of VvSWEET10, VvSUC11, and VvSUS4 in blue LED-irradiated berries were increased. The blue LED-irradiated berries’ sucrose concentrations were significantly lower than the untreated control at 14 days after treatment. We speculated that the blue LED-treated berries’ decreased sucrose was associated with the increased Sugars Will Eventually be Exported Transporter (VvSWEET10), sucrose transporter (VvSUC11), and sucrose synthase (VvSUS4) expressions and promoted the translocation of 13C-photosynthates from the leaves that were fed 13CO2. Blue-LED irradiation increased the expressions of SNF1-related protein kinases (VvSnRK2.6) and ABA responding element binding transcription factor (VvABF1), while decreasing the expression of protein phosphateses 2C9 (VvPP2C9) genes, which are related to ABA signaling. Blue-LED irradiation increased the expressions of cryptochrome (VvCRYa) and phototropin (VvPHOT2), which are photoreceptor genes. The application of the pyrabactin resistance-like (PYL)-PP2C ABA receptor interaction antagonist AS6 did not affect endogenous ABA concentrations in the grape berries, but it decreased sucrose concentrations at harvest. The application of ABA did not affect sucrose, glucose, or fructose concentrations or the expressions of VvSnRK2.6 and VvPP2C9. The application of nordihydroguaiaretic acid (NDGA, an inhibitor of 9-cis-epoxycarotenoid dioxygenase activity in ABA biosynthesis) did not affect sugar concentrations at harvest. These results suggest that upregulation of photoreceptor gene expressions and ABA signaling are associated with sugar concentrations in grape berries.
  • Takanori Saito, Shanshan Wang, Katsuya Ohkawa, Hitoshi Ohara, Satoru Kondo
    Tree Physiology 44(7) 2024年6月21日  
    Abstract Epigenetic changes serve as a cellular memory for cumulative cold recognition in both herbaceous and tree species, including bud dormancy. However, most studies have discussed predicted chromatin structure with respect to histone marks. In the present study, we investigated the structural dynamics of bona fide chromatin to determine how plants recognize prolonged chilling during the initial stage of bud dormancy. The vegetative axillary buds of the ‘Fuji’ apple, which shows typical low temperature-dependent, but not photoperiod, dormancy induction, were used for the chromatin structure and transcriptional change analyses. The results were integrated using a deep-learning model and interpreted using statistical models, including Bayesian estimation. Although our model was constructed using a small dataset of two time points, chromatin remodelling due to random changes was excluded. The involvement of most nucleosome structural changes in transcriptional changes and the pivotal contribution of cold-driven circadian rhythm-dependent pathways regulated by the mobility of cis-regulatory elements were predicted. These findings may help to develop potential genetic targets for breeding species with less bud dormancy to overcome the effects of short winters during global warming. Our artificial intelligence concept can improve epigenetic analysis using a small dataset, especially in non-model plants with immature genome databases.

MISC

 78

共同研究・競争的資金等の研究課題

 6