许一丰，博士，教授，博士生导师。入选过国家级青年人才项目，农业农村部促进海峡两岸农业交流先进青年典型，重庆市高层次人才，重庆市海外联谊会常务理事，重庆市林科院等单位聘任专家。担任过教育部人才项目和多省市科技项目评审委员。主持或参与多项科研项目。研究工作围绕植物功能基因研究、分子育种、优异种质创制、逆境胁迫应答机制等方面。以辣椒和经济林木为材料，通过分子遗传筛选等策略，发掘与响应胁迫等有关调控因子，并结合现代化基因工程技术，进行优异种质创制。目前已在《Cell》、《Genes & Development》、《Molecular Plant》、《J Integr Plant Biol》、《Plant J》、《Plant Physiol Biochem》等国际重要学术刊物上发表多篇SCI论文，并担任多个国际学术期刊审稿人。获多项国家发明专利授权。指导研究生和本科生获国家级、市级、校级等项目支持。指导学生参加中国国际互联网+创新创业大赛获重庆市赛金奖、国赛银奖。承担本科生《遗传学》、《人类遗传与优生》和研究生《高级植物生理学》等课程。

个人简介：

1998.09-2002.07台湾中山医学大学营养学学士

2002.09-2004.07台湾中山医学大学医学分子毒理学研究所硕士

2004.09-2010.03台湾中兴大学生物科技学研究所博士

2010.03-2013.07台湾中兴大学生物科技学研究所博士后

2013.08-2015.08中科院上海植物逆境生物学研究中心青年研究组长

2015.09-至今  重庆西南大学生命科学学院教授、博士生导师

主要研究方向：

1.辣椒功能基因研究和优异种质创制：

以辣椒为材料，通过分子遗传筛选等策略，发掘与增产、抗病、响应胁迫等有关调控因子，并通过对其功能的研究来阐明这些调控因子在植物生长或发育过程中所发挥的作用。同时，结合现代化基因工程技术，进行优异辣椒种质创制。

2.拟南芥胁迫应答机制研究及彩叶树的育种与创制：

以模式植物拟南芥为材料，着重于糖代谢、激素信号转导和逆境应答等方面开展研究工作。以彩叶观赏树种，如枫香、鸡爪槭、黄栌等为材料，在叶色调控方面，探索关键基因和转录调控等育种关键问题。采用分子育种技术，进行选育及创制新品种彩叶树。

论文发表：#同等贡献（#equal contribution）；*通讯作者（corresponding author）

1. Zheng M*, Song Y, Wang L, Yang D, Yan J, Sun Y, Hsu Y-F* (2023) CaRH57, a RNA helicase, contributes pepper tolerance to heat stress. Plant Physiol Biochem, 205:108202. (IF: 6.5)

2. Wang Q, Lei S, Yan J, Song Y, Qian J, Zheng M*, Hsu Y-F* (2023) UBC6, a ubiquitin-conjugating enzyme, participates in secondary cell wall thickening in the inflorescence stem of Arabidopsis. Plant Physiol Biochem, 205:108152. (IF: 6.5)

3. Yan J^#, Song Y^#, Li M, Hu T, Hsu Y-F*, Zheng M* (2023) IRR1 contributes to de novo root regeneration from Arabidopsis thaliana leaf explants. Physiol Plant, 175(5):e14047. (IF: 6.4)

4. Wang L, Qian J, Li M, Zheng H, Yang X, Zheng M*, Hsu Y-F* (2023) Arabidopsis PDE1 confers phosphate-deficiency tolerance in primary root growth. Plant Cell Rep, 43(1):8. (IF: 6.2)

5. Zheng M*, Wang Q, Lei S, Yang D, Liu Y, Feng D, Huang X, Yang K, Qian J, Hsu Y-F* (2022) PtoMPO1, a negative mediator, functions in poplar drought tolerance. Plant Physiol Biochem, 190: 156-163. (IF: 6.5)

6. Qian J*, Zheng M, Wang L, Song Y, Yan J, Hsu Y-F* (2022) Arabidopsis mitochondrial single-stranded DNA-binding proteins SSB1 and SSB2 are essential regulators of mtDNA replication and homologous recombination. J Integr Plant Biol, doi: 10.1111/jipb.13338. (IF: 11.4)

7. Wang Q, Lei S, Qian J, Zheng M*, Hsu Y-F* (2022) Overexpression of Tomato SIZ2 in Arabidopsis Improves Plant Salinity Tolerance. J Plant Growth Regul, oi.org/10.1007/s00344-022-10667-5. (IF: 4.8)

8. Lei S, Wang Q, Chen Y, Song Y, Zheng M*, Hsu Y-F* (2022) Capsicum SIZ1 contributes to ABA-induced SUMOylation in pepper. Plant Science, 314:111099. (IF: 5.2)

9. Qian J, Li M, Zheng M, Hsu Y-F* (2021) Arabidopsis SSB1, a Mitochondrial Single-Stranded DNA-Binding Protein, is Involved in ABA Response And Mitochondrial RNA Splicing. Plant Cell Physiol, 62(8):1321-1334. (IF: 4.9)

10. Hsu Y-F^#, Yan J^#, Song Y, Zheng M* (2021) Sarracenia purpurea glycerol-3-phosphate acyltransferase 5 confers plant tolerance to high humidity in Arabidopsis thaliana. Physiol Plant, 173: 1221-1229. (IF: 6.4)

11. Zheng M, Peng T, Yang T, Yan J, Yang K, Meng D, Hsu Y-F* (2021) Arabidopsis MHP1, a homologue of yeast Mpo1, is involved in ABA signaling, Plant Science, 304:110732. (IF: 5.2)

12. Qian J, Sun T, Yan J, Hsu Y-F*, Zheng M*（2020）Arabidopsis glucose-sensitive mutant 3 affects ABA biosynthesis and sensitivity during early seedling development. Plant Physiol Biochem, 156: 20-29. (IF: 6.5)

13. Zheng M^#, Zhu C^#, Yang T, Qian J, Hsu Y-F*（2020）GSM2, a transaldolase, contributes to reactive oxygen species homeostasis in Arabidopsis. Plant Mol Biol, 104 (1-2): 39-53. (IF: 5.1)

14. Kong X^#, Hong Y^#, Hsu Y-F, Huang H, Liu X, Song Z, Zhu JK*（2020）SIZ1-Mediated SUMOylation of ROS1 Enhances Its Stability and Positively Regulates Active DNA Demethylation in Arabidopsis. Mol Plant, 11:S1674-2052 (20) 30305-1. (IF: 27.5)

15. Zheng M^#, Yang T^#, Peng T, Zhu C, Fu Y, Hsu Y-F*（2019）Arabidopsis GSM1 is involved in ABI4-regulated ABA signaling under high-glucose condition in early seedling growth. Plant Science, 287: 110183. (IF: 5.2)

16. Hsiao Y-C^#, Hsu Y-F^#, Chen Y-C, Chang Y-L, Wang C-S* (2016) A WD40 protein, AtGHS40, negatively modulates abscisic acid degrading and signaling genes during seedling growth under high glucose conditions. J Plant Res,129：1127-1140. (IF: 2.8)

17. Hsu Y-F*, Hsiao Y-C, Wang C-S, Zhan X, Zhang H, Wang C-S* (2014) AtRRP6L1, a Homolog of Conserved Yeast Exosomal Rrp6p, Plays an Important Role in Transcriptional Gene Silencing in Arabidopsis. Mol Plant, 7: 1490-1493. (IF: 27.5)

18. Hsu Y-F^#, Chen Y-C^#, Hsiao Y-C, Wang B-J, Lin S-Y, Cheng W-H, Jauh G-Y, Harada JJ, Wang C-S* (2014) AtRH57, a DEAD-box RNA helicase, is involved in feedback inhibition of glucose-mediated abscisic acid accumulation during seedling development and additively affects pre-ribosomal RNA processing with high glucose. Plant J, 77:119-135. (IF: 7.2)

19. Wang B-J, Hsu Y-F, Chen Y-C, Wang C-S* (2014) Characterization of a lily anther-specific gene encoding cytoskeleton binding glycoproteins and overexpression of the gene causes severe inhibition of pollen tube growth. Planta, 240:525-537. (IF: 4.3)

20. Hsu Y-F, Yu S-C, Yang C-Y, Wang C-S* (2011) Lily ASR protein-conferred cold and freezing resistance in Arabidopsis. Plant Physiol Biochem, 49: 937-945. (IF: 6.5)

21. He XJ^#, Hsu Y-F^#, Zhu S, Liu HL, Pontes O, Zhu J, Cui X, Wang C-S, Zhu JK* (2009) A conserved transcriptional regulator is required for RNA-directed DNA methylation and plant development. Genes Dev, 23: 2717-2722. (IF: 10.5)

22. He XJ^#, Hsu Y-F^#, Zhu S, Wierzbicki AT, Pontes O, Pikaard CS, Liu HL, Wang C-S, Jin H, Zhu JK* (2009) An effector of RNA-directed DNA methylation in Arabidopsis is an ARGONAUTE 4- and RNA-binding protein. Cell, 137: 498-508. (IF: 64.5)

23. He XJ^#, Hsu Y-F^#, Pontes O, Zhu J, Lu J, Bressan RA, Pikaard C, Wang C-S, Zhu JK* (2009) NRPD4, a protein related to the RPB4 subunit of RNA polymerase II, is a component of RNA polymerase IV and V and is required for RNA-directed DNA methylation. Genes Dev, 23: 318-330. (IF: 10.5)

24. Tzeng J-D, Hsu S-W, Chung M-C, Yeh F-L, Yang C-Y, Liu M-C, Hsu Y-F, Wang C-S* (2009) Expression and regulation of two novel anther-specific genes in Lilium longiflorum. J Plant Physiol, 166: 417-427. (IF: 4.3)

25. Hsu Y-F^#, Tzeng J-D^#, Liu M-C, Yei F-L, Chung M-C, Wang C-S* (2008) Identification of anther-specific/predominant genes regulated by gibberellin during development of lily anthers. J Plant Physiol, 165: 553-563. (IF: 4.3)

26. Hsu Y-F, Wang C-S*, Raja R (2007) Gene expression pattern at desiccation in the anther of Lilium longiflorum. Planta, 226:311-322. (IF: 4.3)

欢迎有志于从事植物分子育种或逆境胁迫应答研究的学生及科研人员加入研究团队。（常年招聘博士后和青年教师）

联系方式：

地址：重庆市北碚区天生路1号西南大学生命科学学院 邮编400715

E-mail：yifenghsu06@swu.edu.cn ; yifenghsu@163.com