研究室セミナー & 今週の輪読
今週の研究室セミナーでは生物制御化学研究室修士 2 年の学生が下記の論文を紹介しました.
Abeysinghe, G. et al. (2020). Fungal mycelia and bacterial thiamine establish a mutualistic growth mechanism. Life Sci. Alliance 3: e202000878.
今週の輪読では下記の論文を取り上げました.
1923. Thitz, P. et al. (2021). Genetic modification of the flavonoid pathway alters growth and reveals flexible responses to enhanced UVB – Role of foliar condensed tannins. Plant-Environ. Interact. 2: 1–15.
1924. Liu, T., Shi, J., Li, M., Ye, X., and Qi, H. (2021). Trehalose triggers hydrogen peroxide and nitric oxide to participate in melon seedlings oxidative stress tolerance under cold stress. Environ. Exp. Bot. 184: 104379.
1925. Liu, M. et al. (2021). Auxilin-like protein MoSwa2 promotes effector secretion and virulence as a clathrin uncoating factor in the rice blast fungus Magnaporthe oryzae. New Phytol. 230: 720–736.
1926. Dulchavsky, M., Clark, C.T., Bardwell, J.C.A., and Stull, F. (2021). A cytochrome c is the natural electron acceptor for nicotine oxidoreductase. Nat. Chem. Biol. 17: 344–350.
1927. Li, J. et al. (2021). Controlled hydroxylations of diterpenoids allow for plant chemical defense without autotoxicity. Science 371: 255–260.
Abeysinghe, G. et al. (2020). Fungal mycelia and bacterial thiamine establish a mutualistic growth mechanism. Life Sci. Alliance 3: e202000878.
今週の輪読では下記の論文を取り上げました.
1923. Thitz, P. et al. (2021). Genetic modification of the flavonoid pathway alters growth and reveals flexible responses to enhanced UVB – Role of foliar condensed tannins. Plant-Environ. Interact. 2: 1–15.
1924. Liu, T., Shi, J., Li, M., Ye, X., and Qi, H. (2021). Trehalose triggers hydrogen peroxide and nitric oxide to participate in melon seedlings oxidative stress tolerance under cold stress. Environ. Exp. Bot. 184: 104379.
1925. Liu, M. et al. (2021). Auxilin-like protein MoSwa2 promotes effector secretion and virulence as a clathrin uncoating factor in the rice blast fungus Magnaporthe oryzae. New Phytol. 230: 720–736.
1926. Dulchavsky, M., Clark, C.T., Bardwell, J.C.A., and Stull, F. (2021). A cytochrome c is the natural electron acceptor for nicotine oxidoreductase. Nat. Chem. Biol. 17: 344–350.
1927. Li, J. et al. (2021). Controlled hydroxylations of diterpenoids allow for plant chemical defense without autotoxicity. Science 371: 255–260.