ゴールデンウィーク & 今週の輪読

明日からゴールデンウィークです．大学によっては授業回数を確保するために 10 連休にならないところも結構あるようですが，茨城大学は暦通りの 10 連休になります．

今週の輪読では下記の論文を取り上げました．

1475. Berens, M.L. et al. (2019). Balancing trade-offs between biotic and abiotic stress responses through leaf age-dependent variation in stress hormone cross-talk. Proc. Natl. Acad. Sci. USA 116: 2364–2373.

1476. Agostini, R.B. et al. (2019). Long-lasting primed state in maize plants: salicylic acid and steroid signaling pathways as key players in the early activation of immune responses in silks. Mol. Plant Microbe Interact. 32: 95–106.

1477. Engelberth, J. and Engelberth, M. (2019). The costs of green leaf volatile-induced defense priming: temporal diversity in growth responses to mechanical wounding and insect herbivory. Plants 8: 23.

今週の輪読

今週の輪読では下記の論文を取り上げました．

1471. Varsani, S. et al. (2019). 12-Oxo-phytodienoic acid acts as a regulator of maize defense against corn leaf aphid. Plant Physiol. 179: 1402–1415.

1472. Ma, W., Zhao, L., Zhao, W., and Xie, Y. (2019). (E)-2-Hexenal, as a potential natural antifungal compound, inhibits Aspergillus flavus spore germination by disrupting mitochondrial energy metabolism. J. Agric. Food Chem. 67: 1138–1145.

1473. Han, X. et al. (2019). A kiwellin disarms the metabolic activity of a secreted fungal virulence factor. Nature 565: 650–653.

1474. Seto, Y. et al. (2019). Strigolactone perception and deactivation by a hydrolase receptor DWARF14. Nat. Commun. 10: 191.

日本農芸化学会，卒業式，新年度，3/14 〜 4/11 の輪読

年度末および年度初めのドタバダでしばらく更新していませんでした．

3/24 に東京農業大学世田谷キャンパスで開催された日本農芸化学会 2019 年度大会において，修士課程の隠塚君が下記の発表を行いました．

1D5p10 ○隠塚修平，木村塁，香川明慶，西脇萌，戸嶋浩明，長谷川 守文（茨城大・農）
「イネのアミド型ファイトアレキシンの病原真菌による代謝」

隠塚君は昨年の農薬学会以来二回目の学会発表でした．会場からの質問にもまずまず落ち着いて答えられていたようです．

3/26 は茨城大学の卒業式でした．生物制御化学研究室からは修士課程学生 1 名修了，学部学生 4 名（うち 3 名が修士課程進学）が卒業しました．

新年度の生物制御化学研究室は修士課程学生 6 名（うち 1 名はインドネシア・ガジャマダ大学からのダブルディグリープログラム所属学生），学部学生 4 名の計 10 名の学生でスタートです．教員は戸嶋先生の学部長，長谷川の学科長の任期 2 年目になります．

3/14 〜 4/11 の輪読では下記の論文を取り上げました．

1460. Yang, C. et al. (2019). Binding of the Magnaporthe oryzae chitinase MoChia1 by a rice tetratricopeptide repeat protein allows free chitin to trigger immune responses. Plant Cell 31: 172–188.

1461. Augustijn, D., Tol, N.V., van der Zaal, B.J., de Groot, H.J.M., and Alia, A. (2019). High-resolution magic angle spinning NMR studies for metabolic characterization of Arabidopsis thaliana mutants with enhanced growth characteristics. PLOS ONE 13: e0209695.

1462. Cao, W.-L. et al. (2019). OsSYP121 accumulates at fungi penetration sites and mediates host resistance to rice blast. Plant Physiol. 179: 1330–1342.

1463. Irieda, H. et al. (2019). Conserved fungal effector suppresses PAMP-triggered immunity by targeting plant immune kinases. Proc. Natl. Acad. Sci. USA 116: 496–505.

1464. Mareya, R.C. et al. (2019). Untargeted metabolomics reveal defensome-related metabolic reprogramming in Sorghum bicolor against infection by Burkholderia andropogonis. Metabolites 9: 8.

1465. Fischer, W., Currais, A., Liang, Z., Pinto, A., and Maher, P. (2019). Old age-associated phenotypic screening for Alzheimer’s disease drug candidates identifies sterubin as a potent neuroprotective compound from Yerba santa. Redox Biol. 21: 101089.

1466. Ma, F., Yao, W., Wang, L., and Wang, Y. (2019). Dynamic translocation of stilbene synthase VpSTS29 from a Chinese wild Vitis species upon UV irradiation. Phytochemistry 159: 137–147.

1467. Wei, Y. et al. (2018). VvWRKY8 represses stilbene synthase genes through direct interaction with VvMYB14 to control resveratrol biosynthesis in grapevine. J. Exp. Bot. 70: 715–729.

1468. Ahmad, A., Xuan, T.D., Minh, T.N., Siddiqui, N.A., and Van Quan, N. (2019). Comparative extraction and simple isolation improvement techniques of active constituents’ momilactone A and B from rice husks of Oryza sativa by HPLC analysis and column chromatography. Saudi Pharm. J. 27: 17–24.

1469. Hou, Y. et al. (2019). A Phytophthora effector suppresses trans-kingdom RNAi to promote disease susceptibility. Cell Host Microbe 25: 153–165.e5.

1470. Li, Y. et al. (2019). Osa-miR398b boosts H2O2 production and rice blast disease-resistance via multiple superoxide dismutases. New Phytol. 222: 1507–1522.