出版文章
瀏覽 2022 出版文章
(a) Journal
With SKL affiliation | Professor | Author, title, journal name, year of publication and page number | IF | Rank in Category | |
---|---|---|---|---|---|
171 | Yes | ZHANG Jianhua | Lin, X.Y., Zhang, N.N., Yao, B.H., Zhang, X., Liu, W.Y., Zhang, W.Q., Zhang, J.H., Wei, G.H. and Chen, J.* (2022). Interactions between hydrogen sulphide and rhizobia modulate the physiological and metabolism process during water deficiency-induced oxidative defense in soybean. Plant Cell Environ 45(11): 3249-3274.DOI: 10.1111/pce.14431. | 7.947 | 13/239 Plant Sciences |
172 | No | ZHANG Jianhua | Liu, B., Zhang, J. and Ye, N. (2023). Noninvasive micro-test technology: monitoring ion and molecular flow in plants. Trends Plant Sci 28(1): 123-124.DOI: 10.1016/j.tplants.2022.10.008. | 22.012 | 2/239 Plant Sciences |
173 | Yes | ZHANG Jianhua | Liu, Y., Tian, Y., Wang, L.X., Fan, T., Zhang, J.H., Chen, M.X.* and Liu, Y.G.* (2022). Phylogeny and conservation of plant U2A/U2A', a core splicing component in U2 spliceosomal complex. Planta 255(1).DOI: ARTN 25 10.1007/s00425-021-03752-8. | 4.54 | 44/239 Plant Sciences |
174 | Yes | ZHANG Jianhua | Peng, Y.Q., Chen, Y.K., Yuan, Y.M., Liu, B.H., Yu, P., Song, S.H., Yi, Y.K., Teng, Z.N., Yi, Z.X., Zhang, J.H., Meng, S.*, Ye, N.H.* and Duan, M.J.* (2022). Post-anthesis saline-alkali stress inhibits grain filling by promoting ethylene production and signal transduction. Food and Energy Security 11(3).DOI: ARTN e384 10.1002/fes3.384. | 4.667 | 43/144 Food Science & Technology |
175 | Yes | ZHANG Jianhua | Shi, W., Zhang, X., Yang, J., Impa, S.M., Wang, D., Lai, Y., Yang, Z., Xu, H., Wu, J., Zhang, J.* and Krishna Jagadish, S.V.* (2022). Irrigating with cooler water does not reverse high temperature impact on grain yield and quality in hybrid rice. The Crop Journal.DOI: https://doi.org/10.1016/j.cj.2022.09.006. | 4.647 | 14/90 40/239 Agronomy Plant Sciences |
176 | Yes | ZHANG Jianhua | Song, T., Bin Rahman, A.N.M.R., Das, D., Ye, N.H., Yang, F., Chen, M.X.*, Zhang, J.H.* and Zhu, F.Y. (2022). Transcriptome changes in seeds during coleorhiza hair formation in rice. Crop Journal 10(3): 692-703.DOI: 10.1016/j.cj.2021.09.009. | 4.647 | 14/90 40/239 Agronomy Plant Sciences |
177 | Yes | ZHANG Jianhua | Teng, Z.N., Chen, Y.K., Yuan, Y.Q., Peng, Y.Q., Yi, Y.K., Yu, H.H., Yi, Z.X., Yang, J.C., Peng, Y., Duan, M.J.*, Zhang, J.H.* and Ye, N.H.* (2022). Identification of microRNAs regulating grain filling of rice inferior spikelets in response to moderate soil drying post-anthesis. Crop Journal 10(4): 962-971.DOI: 10.1016/j.cj.2021.11.004. | 4.647 | 14/90 40/239 Agronomy Plant Sciences |
178 | Yes | ZHANG Jianhua | Teng, Z.N., Yu, H.H., Wang, G.Q., Meng, S., Liu, B.H., Yi, Y.K., Chen, Y.K., Zheng, Q., Liu, L., Yang, J.C., Duan, M.J.*, Zhang, J.H.* and Ye, N.H.* (2022). Synergistic interaction between ABA and IAA due to moderate soil drying promotes grain filling of inferior spikelets in rice. Plant Journal 109(6): 1457-1472.DOI: 10.1111/tpj.15642. | 7.091 | 17/239 Plant Sciences |
179 | No | ZHANG Jianhua | Teng, Z.N., Zheng, Q., Liu, B.H., Meng, S., Zhang, J.H*. and Ye, N.H.* (2022). Moderate Soil Drying-Induced Alternative Splicing Provides a Potential Novel Approach for the Regulation of Grain Filling in Rice Inferior Spikelets. International Journal of Molecular Sciences 23(14).DOI: ARTN 7770 10.3390/ijms23147770. | 6.208 | 69/297 50/179 Biochemistry & Molecular Biology Chemistry, Multidisciplinary |
180 | Yes | ZHANG Jianhua | Wang, G.Q., Li, X.Z., Shen, W., Li, M.W., Huang, M.K., Zhang, J.H.* and Li, H.X.* (2022). The chromatin accessibility landscape of pistils and anthers in rice. Plant Physiology 190(4): 2797-2811.DOI: ARTN kiac448 10.1093/plphys/kiac448. | 8.005 | 12/239 Plant Sciences |
(b) Book Chapters / Books
With SKL affiliation | Professor | Book Chapter / Book | |
---|---|---|---|
1 | Yes | LAM Hon-Ming | Chen, Y.*, Wang, Z., Ye, H., Liu, S., Nguyen, H.T., Lam, H.-M. and Siddique, K.H.M. (2022). Chapter Three - Root physiology and morphology of soybean in relation to stress tolerance. Advances in Botanical Research. Lam, H.-M. and Li, M.-W., Academic Press. 102: 77-103. (Book chapter) |
2 | Yes | LAM Hon-Ming | Ku, Y.-S.*, Ng, M.-S., Cheng, S.-S., Luk, C.-Y., Ludidi, N., Chung, G., Chen, S.-P.T. and Lam, H.-M.*(2022). Chapter Ten - Soybean secondary metabolites and flavors: The art of compromise among climate, natural enemies, and human culture. Advances in Botanical Research. Lam, H.-M. and Li, M.-W., Academic Press. 102: 295-347. (Book chapter) |
3 | Yes | LAM Hon-Ming | Lam, H.-M.* and Li, M.-W.* (2022). "Soybean Physiology and Genetics" in Advances in Botanical Research volume 102. Academic Press. (Book) |
4 | Yes | LAM Hon-Ming | Li, M.-W., Jiang, B., Han, T., Zhang, G. and Lam, H.-M.* (2022). Genomic research on soybean and its impact on molecular breeding. Advances in Botanical Research, 102, pp.1-42. Academic Press. (Book chapter) |
5 | Yes | LAM Hon-Ming | Liu, A., Cheng, S.-S., Yung, W.-S., Li, M.-W. and Lam, H.-M.* (2022). Genetic regulations of the oil and protein contents in soybean seeds and strategies for improvement. Advances in Botanical Research, 102, pp.259-293. Academic Press. (Book chapter) |
6 | Yes | LAM Hon-Ming HUI Ho Lam, Jerome |
Fan, K., Yip, H.Y., Taddi, S., Huang, Y.Y., Wong, F.L., Hui, J.H.L.* and Lam, H.-M.* (2022). Chapter Eight - Pursuing greener farming by clarifying legume-insect pest interactions and developing marker-assisted molecular breeding. Advances in Botanical Research. Lam, H.-M. and Li, M.-W., Academic Press. 102: 211-258. (Book chapter) |
7 | Yes | LUO Haiwei | Feng, X., Zhang, H., Tang, J. and Luo, H.* (2022). Assessing a Role of Genetic Drift for Deep-Time Evolutionary Events. Methods in Molecular Biology 2569: 343-359. New York, NY., Humana Press. (Book chapter) |
8 | Yes | LUO Haiwei | Luo, H.* (2022). Editor, Methods in Molecular Biology, Vol. 2569, Environmental Microbial Evolution: Methods and Protocols. New York, NY., Humana Press. (Book) |
9 | Yes | LUO Haiwei | Wang, S. and Luo, H.* (2022). Estimating the Divergence Times of Alphaproteobacteria Based on Mitochondrial Endosymbiosis and Eukaryotic Fossils. Methods in Molecular Biology 2569: 95-116. New York, NY., Humana Press. (Book chapter) |
10 | Yes | LUO Haiwei | Zhang, H., Wang, S. and Luo, H.* (2022). A Computational Protocol for Dating the Evolution of Cyanobacteria. Methods in Molecular Biology 2569: 23-40. New York, NY., Humana Press. (Book chapter) |
11 | Yes | ZHANG Jianhua | Chen, M.-X., Lu, C.-C., Zhang, J. and Liu, Y.-G.* (2022). In Situ Observation of Abscisic Acid Abscisic acid (ABA) Distribution in Major Crop Species by Immunofluorescence Labeling. Abscisic Acid: Methods and Protocols. Methods in Molecular Biology 2462. pp.155-162. Yoshida, T. New York, NY, Springer US. (Book chapter) |