工作经历：

2024-07至今，湖南农业大学，农学院，校聘教授

2022-07至2024-07，湖南农业大学，农学院，博士后

学习经历：

2017-09至2022-06，浙江大学，农业与生物技术学院，作物学，博士

2013-09至2017-06，贵州大学，农学院，农学，学士

1. 国家自然科学基金青年项目（C类）：miR164d-HvNAC92模块调控大麦耐盐性的分子机理研究，32501854，2026.01-2028.12，主持

2. 长沙市杰出青年科技人才培养计划，kq2601014，2026.01-2028.12，主持

3. 岳麓山实验室联合引进人才项目，2024RC2031，2025.01-2026.12，主持

4. 湖南省自然科学基金青年项目：miR164d-NAC模块调控水稻耐盐性的分子机理研究，2024JJ6243，2024.01-2026.12，主持

5. 湖南省教育厅优秀青年项目：水稻根系盐胁迫响应miRNAs的鉴定及其耐盐性调控机制研究，24B0205，2024.01-2026.12，主持

6. 中国博士后科学基金第72批面上资助，2022M721112，2022.11-2024.7，主持

1. Kuang LH, Zhou HX, Zhang TT, Gao F, Yan T, Chen ZH, Shen QF, Zhang GP, Li L, Wu DZ*. MicroRNA164d suppresses the HvNAC92-HvHKT1;5 module to enhance salinity tolerance in barley. PNAS, 2025, 122:e2514555122. (中科院1区TOP，IF 10.6，第一作者)

2. Kuang LH#, Shen QF#, Chen LY#, Ye LZ#, Yan T, Chen ZH, Waugh R, Li Q, Huang L, Cai SG, Fu LB, Xing PW, Wang K, Shao JR, Wu FB, Jiang LX, Wu DZ*, Zhang GP*. The genome and gene editing system of sea barleygrass provide a novel platform for cereal domestication and stress tolerance studies. Plant Communications, 2022, 3:100333. (封面文章，中科院1区TOP，IF 11.8，共同第一作者)

3. Kuang LH, Chen J, Ding J, Yan T, Gao F, Li L, Han ZG*, Wu DZ*. Identification of heavy metal transport-related genes and microRNAs in response to cadmium toxicity and micronutrient deficiency in barley roots. Journal of Hazardous Materials, 2025, 496:139388. (中科院1区TOP，IF 12.4，第一作者)

4. Kuang LH, Yan T, Gao F, Tang WB*, Wu DZ*. Multi-omics analysis reveals differential molecular responses to cadmium toxicity in rice root tip and mature zone. Journal of Hazardous Materials, 2024, 462:132758. (中科院1区TOP，IF 12.4，第一作者)

5. Huang L#, Kuang LH#, Wu LY, Shen QF, Han Y, Jiang LX, Wu DZ*, Zhang GP. The HKT transporter HvHKT1;5 negatively regulates salt tolerance. Plant Physiology, 2020, 182:584-596. (中科院1区TOP，IF 7.7，共同第一作者)

6. Zhou HX, Zhang BY, Li L, Wu DZ, Kuang LH*. Integrative Astral-DIA proteomics and transcriptomics reveal candidate salt-tolerance genes in the halophyte Hordeum marinum. Journal of Proteomics, 2026, 327:105630. (JCR Q2，IF 3.0，唯一通讯作者)

7. Wu LY, Chen J, Yan Tao, Fu BX, Wu DZ, Kuang LH*. Multi-omics analysis unveils early molecular responses to aluminum toxicity in barley root tip. Plant Physiology and Biochemistry, 2024, 217:109209. (JCR Q1，IF 6.4，唯一通讯作者)

8. Chen J, Cao H, Chen DY, Kuang LH*, Wu DZ. Transcriptome-wide analysis of m6A methylation reveals genetic responses to cadmium stress at germination stage in rice. Environmental and Experimental Botany, 2023, 205:105130. (JCR Q1，IF 5.4，唯一通讯作者)

9. Chen DY; Fu LB; Su TT; Xiong JY; Chen YK; Shen QF*; Kuang LH*; Wu DZ. N6-methyladenosine methylation analysis reveals transcriptome-wide expression response to salt stress in rice roots. Environmental and Experimental Botany, 2022, 201:104945. (JCR Q1，IF 5.4，最后通讯作者)

10. Kuang LH#, Shen QF#, Wu LY, Yu JH, Fu LB, Wu DZ, and Zhang GP. Identification of microRNAs responding to salt stress in barley by high-throughput sequencing and degradome analysis. Environmental and Experimental Botany, 2019, 160:59-70. (JCR Q1，IF 5.4，共同第一作者)

1. Liuhui Kuang, Qi Li, Dezhi Wu, Guoping Zhang. Agrobacterium-mediated genetic transformation method for sea barleygrass, US, 2025-01-21, US012203079B2

2. 邝刘辉，吴德志. 盐生植物海大麦HmSTG1基因在提高植物耐盐性中的应用，中国，2025-11-04，ZL202411529769.2

3. 邝刘辉，李琪，吴德志，张国平. 一种农杆菌介导的海大麦遗传转化方法，中国，2024-08-06，ZL202111243915.1

4. 陈健，吴德志，邝刘辉. 水稻OsCLE48基因在提高植物耐盐碱性上的应用，中国，2025-05-09，ZL202411535565.X