发布人:     发布日期: 2022-08-09    浏览次数:

       陈孙禄，副教授，硕士研究生导师，日本北海道大学博士，仲英种业人才基金获得者。先后在北海道大学农学研究院、中国科学院分子植物科学卓越创新中心/植物生理生态研究所从事博士后研究，现隶属于作物遗传与种质创新国家重点实验室、江苏省种业科学工程研究中心。主要从事作物复杂农艺性状（如种子灌浆）和分子性状的遗传调控、分子机理与适应性进化的研究，主持国家自然科学基金等项目5项，在PLOS Pathogens、Molecular Plant Pathology、Nature Plants等学术期刊上发表论文19篇，其中第一作者或通讯作者（含共同）论文9篇。

电子邮箱：sunlu AT njau.edu.cn

ResearchGate：www.researchgate.net/profile/Sunlu_Chen

已发表论文 (^#共同第一作者, *通讯作者)：

      20. Saito N, Chen S, Kitajima K, Zhou Z, Koide Y, Encabo JR, Diaz MGQ, Choi IR, Koyanagi KO*, Kishima Y*. Phylogenetic analysis of endogenous viral elements in the rice genome reveals local chromosomal evolution in Oryza AA-genome species. Frontiers in Plant Science, revised.

      19. Liu X^#, Matsumoto H^#, Lv T, Zhan C, Fang H, Pan Q, Xu H, Fan X, Chu T, Chen S, Qiao K, Ma Y, Sun L, Wang Q, Wang M^#*. Phyllosphere microbiome induces host metabolic defence against rice false-smut disease. Nature Microbiology, 2023, 8:1419-1433 (Cover Story)

      18. Zhan C, Zhu P, Chen Y, Chen X, Liu K, Chen S, Hu J, He Y, Xie T, Luo S, Yang Z, Chen S, Tang H, Zhang H*, Cheng J*. Identification of a key locus, qNL3.1, associated with seed germination under salt stress via a genome-wide association study in rice. Theoretical and Applied Genetics, 2023, 136:58

      17. Liu X, Jiang H, Yang J, Han J, Jin M, Zhang H, Chen L, Chen S*, Teng S*. Comprehensive QTL analyses of nitrogen use efficiency in indica rice. Frontiers in Plant Science, 2022, 13:992225

      16. He Y, Chen S, Liu K, Chen Y, Cheng Y, Zeng P, Zhu P, Xie T, Chen S, Zhang H*, Cheng J*. OsHIPL1, a hedgehog-interacting protein-like 1 protein, increases seed vigor in rice. Plant Biotechnology Journal, 2022, 20(7):1346-1362

15. Yang B, Chen M, Zhan C, Liu K, Cheng Y, Xie T, Zhu P, He Y, Zeng P, Tang H, Tsugama D, Chen S, Zhang H*, Cheng J*. Identification of OsPK5 involved in rice glycolytic metabolism and GA/ABA balance for improving seed germination via GWAS. Journal of Experimental Botany, 2022, 73(11):3446-3461

14. Matsumoto H, Qian Y, Fan X, Chen S, Nie Y, Qiao K, Xiang D, Zhang X, Li M, Guo B, Shen P, Wang Q, Yu L,Cernava T*, Wang M*. Reprogramming of phytopathogen transcriptome by a non-bactericidal pesticide residue alleviates its virulence in rice. Fundamental Research, 2022, 2(2):198-207 (Cover Story)

13.  Matsumoto H, Fan X, Wang Y, Kusstatscher P, Duan J, Wu S, Chen S, Qiao K, Wang Y, Ma B, Zhu G, Hashidoko Y, Berg G, Cernava T*, Wang M*. Bacterial seed endophyte shapes disease resistance in rice. Nature Plants, 2021, 7:60-72 (Cover Story)

12.  Chen S^#, Zhan C^#, Jiang H, Li L, Zhang H*. Advances in the molecular mechanism and genetic regulation of grain-filling rate in rice. Chinese Bulletin of Botany, 2021, DOI: 10.11983/CBB20157 (In Chinese)

11.  Yu B^#, Wang Y^#, Zhou H, Li P, Liu C, Chen S, Peng Y, Zhang Y*, Teng S*. Genome‐wide binding analysis reveals that ANAC060 directly represses sugar‐induced ABI5 transcription in Arabidopsis. The Plant Journal, 2020, 103:965-979

10.  Liu X^#, Chen S^#, Chen M, Zheng G, Peng Y, Shi X, Qin P, Xu X, Teng S*. Association study reveals genetic loci responsible for arsenic, cadmium and lead accumulation in rice grain in contaminated farmlands. Frontiers in Plant Science, 2019, 10:61

9.  Saito N, Encabo JR, Chen S, Jonson G, Kishima Y, Choi IR*. Innate vulnerability of Oryza glaberrima to rice tungro bacilliform virus. Japan Agricultural Research Quarterly, 2019, 53:1–6

8.  Chen S*, Saito N, Encabo JR, Yamada K, Choi IR, Kishima Y. Ancient endogenous pararetroviruses in Oryza genomes provide insights into the heterogeneity of viral gene macroevolution. Genome Biology and Evolution, 2018, 10:2686–2696

7.  Shi X^#, Chen S^#, Peng Y, Wang Y, Chen J, Hu Z, Wang B, Li A, Chao D, Li Y*, Teng S*. TSC1 enables plastid development under dark conditions, contributing to rice adaptation to transplantation shock. Journal of Integrative Plant Biology, 2018, 60:112–129 (Highlighted Paper)

6.  Chen S, Zheng H, Kishima Y*. Genomic fossils reveal adaptation of non-autonomous pararetroviruses driven by concerted evolution of noncoding regulatory sequences. PLOS Pathogens, 2017, 13:e1006413 (Highlighted Paper)

5.  Chen S*, Kishima Y. Endogenous pararetroviruses: fossil records in plant genomes that unravel the viral community, evolution and interplay with hosts. Molecular Plant Pathology, 2016, 17:1317-1320

4.  Chen S, Liu R, Koyanagi KO, Kishima Y*. Rice genomes recorded ancient pararetrovirus activities: virus genealogy and multiple origins of endogenization during rice speciation. Virology, 2014, 471:141-152

3.  Liu R, Koyanagi KO, Chen S, Kishima Y*. Evolutionary force of AT-rich repeats to trap genomic and episomal DNAs into the rice genome: lessons from endogenous pararetrovirus. The Plant Journal, 2012, 72:817-828

2.  Ma J, Chen S, Zhang J, Dong Y, Teng S*. Identification and genetic mapping of a lesion mimic mutant in rice. Rice Science, 2012, 19:1–7

1.  Chen S^#, Wang J^#, Pan Y, Ma J, Zhang J, Zhang H, Teng S*. Genetic analysis of seed germinability under submergence in rice. Chinese Bulletin of Botany, 2012, 47:28–35 (In Chinese)