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研究团队 行政支撑

侯宏伟

特聘正教授

邮箱:houhongwei@suat-sz.edu.cn

职称 特聘正教授 邮箱 houhongwei@suat-sz.edu.cn
个人简介

2004年从北京大学生命科学学院获得博士学位,先后在多伦多大学、加拿大农业部研究中心、中国科学院水生生物研究所从事植物生理生态学研究及应用,聚焦模式植物和水生植物的特色科学问题,开展了原创性工作:通过对模式植物拟南芥和百脉根的研究,解析了叶形和固氮根瘤的形态建成机制;建立了浮萍种质资源库和遗传操作方法,解析了浮萍等水生植物的生长特征、营养模式、光合固碳机制及其与产量的关系,为浮萍等水生植物的资源化利用奠定了基础。

先后主持国家重点研发计划、国家自然科学基金和中国科学院级项目等10多项,在“Plant Cell”、“Plant Physiology”、“New Phytologist”、“Plant Journal”、“Current Biology”、“PNAS NEXUS”等期刊发表高水平论文90余篇。

代表性文章

1.YangJJ;IshizawaH;Hou H*.Re-attachingimportance toduckweed:meritingdesignation asmodelorganisms.J Exp Bot,2025.

2.LiGJ;Hou H*.Standing on theshoulder ofgiants:developmentalregulators (DRs)arepastgifts forfutureplantengineering.Plant Cell Environ.2025

3. Li GJ;Wei N*Hou H*. Uncovering the secrets of how plants adapt to water stress.Plant Cell Environ.2025

4. Li GJ; Zhao XY; Yang JJ; Hu SQ; Ponnu J; Kimura S; Hwang I; Torii KU; Hou HW*. Water wisteria genome reveals environmental adaptation and heterophylly regulation in amphibious plants. Plant Cell Environ,2024

5. Sun ZL; Zhao XY; Li GJ; Yang JJ; Chen Y; Xia ML; Hwang I; Hou HW*, Metabolic flexibility during a trophic transition reveals the phenotypic plasticity of greater duckweed (Spirodela polyrhiza 7498), New Phytol.2023

6. Ikematsu S;Umase T; Shiozaki M; Nakayama S; Noguchi F; Sakamoto T; Hou HW; Gohari G; Kimura S; Torii KU. Rewiring of hormones and light response pathways underlies the inhibition of stomatal development in an amphibious plant Rorippa aquatica underwater. Curr Biol. 2023

7. Li GJ; Yang, JJ; Chen YM; Zhao, XY; Chen Y; Kimura S; Hu SQ; Hou HW*, SHOOT MERISTEMLESS participates in the heterophylly of Hygrophila difformis (Acanthaceae). Plant Physiol, 2022

8. Sun ZL; Guo WJ; Zhao XY; Chen Y; Yang JJ; Xu SQ; Hou HW*, Sulfur limitation boosts more starch accumulation than nitrogen or phosphorus limitation in duckweed (Spirodela polyrhiza). Ind Crop Prod, 2022

9. Yang JJ; Li GJ; Xia ML; Chen YM; Chen Y; Kumar S; Sun ZL; Li XZ; Zhao XY*; Hou HW*,  Combined effects of temperature and nutrients on the toxicity of cadmium in duckweed (Lemna aequinoctialis). J Hazard Mater, 2022

10. Zhao XY; Li GJ; Sun ZL; Chen Y; Guo WJ; Li YX; Chen YM; Yang JJ*; Hou HW*, Identification, structure analysis, and transcript profiling of phosphate transporters under Pi deficiency in duckweeds. Int J Biol Macromol. 2021

11. Zhao XY; Yang JJ; Li GJ; Sun ZL; Hu SQ; Chen Y; Guo WJ; Hou HW*, Genome-wide identification and comparative analysis of the WRKY gene family in aquatic plants and their response to abiotic stresses in giant duckweed (Spirodela polyrhiza). Genomics. 2021

12. Sun ZL;  Guo WJ;  Yang JJ;  Zhao XY; Chen Y; Yao LG; Hou HW*. Enhanced biomass production and pollutant removal by duckweed in mixotrophic conditions. Bioresour Technol. 2020

13. Mariyamma NP; Hou HW; Carland FM; Nelson T; Schultz EA*, Localization of Arabidopsis FORKED1 to a RABA positive compartment suggests a role in secretion. J Exp Bot, 2017

14. Mariyamma N; Clarke K; Yu H; Hou HW; Wilton E; Dyk J; Schultz E*, Members of the Arabidopsis FORKED1-LIKE gene family act to localize PIN1 in developing veins.J Exp Bot, 2018

15. Held M#; Hou HW#; Miri M#; Huynh C; Ross L; Hossain S; Sato S; Tabata S; Perry J; Wang T; Szczyglowski K*, Lotus japonicus cytokinin receptors work partially redundantly to mediate nodule formation. Plant Cell, 2014

16. Yoon H#; Hossain M#; Held M; Hou HW; Kehl M; Tromas A; Sato S; Tabata T; Andersen S; Stougaard J; Ross L; Szczyglowski K*, Lotus japonicusSUNERGOS1 encodes apredicted subunit A of a DNA topoisomerase VI and is required for nodule differentiationand accommodation of rhizobial infection. Plant J, 2014

17. Garrett J#; Meents M; Blackshaw M; Blackshaw L; Hou HW; Styranko D; Kohalmi S; Schultz E*, A novel, semi-dominant allele ofMONOPTEROSprovides insight into leaf initiation and vein pattern formation. Planta,2012

18. Hou HW; Erickson J; Meservy J; Schultz E*, FORKED1 encodes a PH domain proteinthat is required for PIN1 canalization in developing leaf veins. Plant J,2010

19. Hou HW; Zhou Y; He X; Mwange K; Li W; Cui K*, The ABP1 expression regulated by IAA and ABA is associated with the cambial activity periodicity in Eucommia ulmoides. J Exp Bot,2006

研究领域

聚焦浮萍等植物的生物制造、光合固碳和垂直农业,利用分子、发育和多组学等工具,解析光合作用、代谢、发育调控相关通路,发掘调控浮萍快速生长与高效蛋白积累的关键遗传资源,开发浮萍生物制造底盘,用于高价值生物制品的生产,创制兼具高产与高蛋白复合性状的种质。

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