代表性学术论文 1. Ning Q#, Jian Y#, Du Y, Li Y, Shen X, Jia H, Zhao R, Zhan J, Yang F, Jackson D*, Liu L*, Zhang Z*. An ethylene biosynthesis 1 enzyme controls quantitative variation in maize ear length and kernel yield. Nature Communications, 2021, accepted 2. Du Y#, Lunde C#, Li Y#, Jackson D, Hake S*, Zhang Z*. Gene duplication at the Fascicled ear1 locus controls the fate of inflorescence meristem cells in maize. PNAS, 2021, 118 (7) e2019218118. 3. Jia H, Li M, Li W, Liu L,Jian Y, Yang Z, Shen X,Ning Q,Du Y,Zhao R, Jackson D, Yang X, Zhang Z*. A serine/threonine protein kinase encoding gene KERNEL NUMBER PER ROW6 regulates maize grain yield. Nature Communications, 2020,11:988 4. Du Y, Liu L, Peng Y, Li M, Li Y, Liu D, Li X, Zhang Z*.UNBRANCHED3 expression and inflorescence development is mediated by UNBRANCHED2 and the distal enhancer, KRN4, in maize. PLoS Genet 2020,16(4): e1008764 5. Sun H,Zhai L, Teng F,Li Z, Zhang Z*. qRgls1.06, a major QTL conferring resistance to gray leaf spot disease in maize. The Crop Journal, 2021,9(2): 342-350 6. Han X, Qin Y, Yu F, Ren X, Zhang Z* and Qiu F*. A Megabase-Scale Deletion is Associated with Phenotypic Variation of Multiple Traits in Maize. Genetics,2019,211(1): 305-316 7. Sun W, Chen D, Xue Y, Zhai L, Zhang D, Cao Z, Liu L, Cheng C, Zhang Y*, Zhang Z*. Genome-wide identification of AGO18b bound miRNAs and phasiRNAs in maize by cRIP-seq. BMC Genomics, 2019,20:656 8. Shen X, Zhao R, Liu L, Zhu C, Li M, Du H, Zhang Z* Identification of a candidate gene underlying qKRN5b for kernel row number in Zea mays L. Theoretical and Applied Genetics, 2019,132(12), 3439-3448 9. Liu L, Huang J, He L, Liu N, Du Y, Hou R, Du H, Qiu F, Zhang Z*. Dissecting the genetic architecture of important traits that enhance wild germplasm resource usage in modern maize breeding. Mol Breed, 2019,39:157 10. Wang JG, Zhao TT, Wang WZ, Feng CL, Feng XY, Xiong GR, Shen LB, Zhang SZ*, Wang WQ*, Zhang Z*. Culm transcriptome sequencing of Badila (Saccharum officinarum L.) and analysis of major genes involved in sucrose accumulation. Plant Physiol & Biochem, 2019,144: 455-465 11. Zhang L, Liu JY, Gu H, Du Y, Zuo JF, Zhang Z, Zhang M, Li P, Dunwell JM, Cao Y, Zhang Z*, Zhang YM*. Bradyrhizobium diazoefficiens USDA 110-Glycine max interactome provides candidate proteins associated with symbiosis. Journal of Proteome Research, 2018,17,3061-3074 12. Sun W, Xiang X, Zhai L, Zhang D, Cao Z, Liu L, Zhang Z*. AGO18b negatively regulates determinacy of spikelet meristems on the tassel central spike in maize. J Integr Plant Biol. 2018,60(1):65-78 13. Jiao H, Sun W, Li M, Zhang Z*. Integrated analysis of protein abundance, transcript level, and tissue diversity to reveal developmental regulation of maize. Journal of Proteome Research, 2018,17:822-833 14. Li M, Zhong W, Yang F*, Zhang Z*. Genetic and Molecular Mechanisms of Quantitative Trait Loci Controlling Maize Inflorescence Architecture. Plant & Cell Physiology, 2018,59(3): 448–457 15. Zhang D#, Sun W#, Singh,R ,Zheng Y, Cao Z, Li M, Lunde C, Hake S*, Zhang Z*. GRF-interacting factor1 regulates shoot architecture and meristem determinacy in maize. Plant Cell 2018,30: 360–374 16. Du Y, Liu L, Li M, Fang S,Shen X, Chu J, Zhang Z*. UNBRANCHED3 regulates branching by modulating cytokinin biosynthesis and signaling in maize and rice. New Phytologist,2017, 214: 721–733 17. Cai M, Li S, Sun F, Sun Q, Zhao H, Ren X, Zhao Y, Tan BC, Zhang Z*, Qiu F*. Emp10 encodes a mitochondrial PPR protein that affects the cis-splicing of nad2 intron 1 and seed development in maize. Plant J, 2017,91(1):132-144 18. Ren X, Pan Z, Zhao H, Zhao J, Cai M, Li J, Zhang Z*, Qiu F*. EMPTY PERICARP11 serves as a factor for splicing of mitochondrial nad1 intron and is required to ensure proper seed development in maize. J Exp Bot, 2017,68(16):4571-4581 19. Du H, Shen X, Huang Y, Huang M, Zhang Z*.Overexpression of Vitreoscilla Hemoglobin increases waterlogging tolerance both in Arabidopsis and maize. BMC Plant Biology, 2016,16:35 20. Huang J, Gao Y, Jia H, Zhang Z*. Characterization of the teosinte transcriptome reveals adaptive sequence divergence during maize domestication. Molecular Ecology Resources,2016,16:1465–1477. 教材与著作 1. 《普通遗传学实验》,主编,2015,高等教育出版社 2. 《基础分子生物学》第一版,参编,2007,高等教育出版社 3. 《简明分子生物学教程》,参编,2008,中国农业出版社 |