孔德鑫:教授,博/硕士研究生导师 
所属单位:植物学系
Email:kdx@scau.edu.cn
个人简介
孔德鑫,乐竞体育-中国一站式服务官网教授。主要从事玉米耐密、抗倒伏关键调控基因挖掘、功能解析及育种改良应用研究。近年来,利用群体遗传学结合生物信息和分子生物学等技术挖掘并克隆了一批调控玉米耐密株型建成(包括:叶夹角、株高、茎秆机械强度及开花期)的关键基因并正开展育种应用。近5年,主持国家自然科学基金、国家重点研究计划项目子任务,科技创新2030农业生物育种重大项目子课题(任务)、广东省重点研发计划和自然科学基金等多项课题。主要参与国家自然基金重点项目(第二参与人)、广东省自然基金面上项目多项。第一作者或通讯作者在Plant Cell、J Integral Plant Biol、Plant Physiol、New Phytol等期刊上发表SCI论文多篇,获得北京市自然科学奖二等奖1项,获得授权专利20多项。
主要研究领域
1.玉米耐密理想株型关键调控基因的克隆和作用机制解析;
2.玉米茎秆抗倒伏关键基因挖掘与遗传改良研究;
3.玉米穗型与育性的关键调控基因克隆与分子调控网络解析;
4.植物次生代谢调控机制
发表的主要研究论文
1.Yang J, Xu G, Zhang M Xue W, Wu J, Li Y, Song G, Wang B, Liu Y, Chen X, Kong D*, Wang H. Dual role of Glossy15 in regulating flowering by modulating gibberellins and floral organ gene expression in maize. New Phytologist. 2025, 248: 2143–2159.
2.Kong D#, Jing Y#, Duan Y#, He M, Ding H, Li H, Zhong Z, Zheng Z, Fan X, Pan X, Li Y, Bai M, Li X, Luo M, Xue W, Zhang X, Xu X, Yuan Y, Zou T, Chen L, Ding W, Zhao Y, Wang B, Wu H, Liu Q*, Wang H*, ZmSPL10, ZmSPL14 and ZmSPL26 act together to promote stigmatic papilla formation in maize through regulating auxin signaling and ZmWOX3A expression. New Phytologist. 2024, 243: 1870-1886.
3.Kong D#, Li C#, Xue W#, Wei H#, Ding H, Hu G, Zhang X, Zhang G, Zou T, Xian Y, Wang B, Zhao Y, Liu Y, Xie Y, Xu M, Wu H, Liu Q, Wang H. UB2/UB3/TSH4-anchored transcriptional networks regulate early maize inflorescence development in response to simulated shade. The Plant Cell. 2023, 35: 717-737.
4.Yang J, Wei H, Hou M, Chen L, Zou T, Ding H, Jing Y, Zhang X, Zhao Y, Liu Q, Heng Y, Wu H, Wang B, Kong D*, Wang H*. ZmSPL13 and ZmSPL29 act together to promote vegetative and reproductive transition in maize. New Phytologist. 2023, 239: 1505-1520.
5.Xie Y, Zhao Y, Chen L, Wang Y, Xue W, Kong D, Li C, Zhou L, Li H, Zhao Y, Wang B, Xu M, Zhao B, Bilska-Kos A, Wang H. ZmELF3.1 integrates the RA2-TSH4 module to repress maize tassel branching. New Phytologist. 2023, 241(1):490-503.
6.Kong D#, Pan X#, Jing Y#, Zhao Y, Duan Y, Yang J, Wang B, Liu Y, Shen R, Cao Y, Wu H, Wei H, Wang H. ZmSPL10/14/26 are required for epidermal hair cell fate specification on maize leaf. New Phytologist. 2021, 230:1533-1549.
7.Li Y, Tan B, Cen Z, Fu Y, Zhu X, He H, Kong D*, Wu H*. The variation in essential oils composition, phenolic acids and flavonoids is correlated with changes in antioxidant activity during Cinnamomum loureirii bark growth. Arabian Journal of Chemistry. 2021, 14:103249.
8.Kong D#, Wang B#, Wang H*. UPA2 and ZmRAVL1: Promising targets of genetic improvement of maize plant architecture. Journal Integrative Plant Biology. 2020, 62(4):394-397.
9.Li Y#, Kong D#, Bai M, He H, Wang H, Wu H. Correlation of the temporal and spatial expression patterns of HQT with the biosynthesis and accumulation of chlorogenic acid in Lonicera japonica flowers. Horticulture Research. 2019 (6):73.
10.Li Y#, Kong D#, Fu Y, Sussman M R, Wu H. The effect of developmental and environmental factors on secondary metabolites in medicinal plants. Plant Physiology and Biochemistry. 2020, 148: 80-89.
11.Kong D#, Li Y#, Bai M, He H, Liang G, Wu H. Correlation between the dynamic accumulation of the main effective components and their associated regulatory enzyme activities at different growth stages in Lonicera japonica Thunb. Industrial Crops and Products. 2017, 96: 16-22.
12.Kong D#, Li Y, Bai M, Deng Y, Liang G, Wu H. A comparative study of the dynamic accumulation of polyphenol components and the changes in their antioxidant activities in diploid and tetraploid Lonicera japonica. Plant Physiology and Biochemistry. 2017, 112: 87-96.
13.Li Y, Kong D#, Wu H. Comparison of the alkaloid content and essential oil composition of Mahonia species as measured by HPLC and GC-MS methods. Brazilian Journal of Botany. 2018, 41: 765-774.
14.Li Y, Kong D#, Liang H, Wu H. Alkaloid content and essential oil composition of Mahonia breviracema cultivated under different light environments. Journal of Applied Botany and Food Quality. 2018, 91: 171-179.
15.Kong D#, Li Y, Wang M, Bai M, Zou R, Tang H, Wu H. Effects of light intensity on leaf photosynthetic characteristics, chloroplast structure, and alkaloid content of Mahonia bodinieri (Gagnep.) Laferr. Acta Physiologiae Plantarum. 2016, 38:120.
16.Li Y, Kong D#, Wu H. Comprehensive chemical analysis of the flower buds of five Lonicera species by ATR-FTIR, HPLC-DAD, and chemometric methods. Revista Brasileira de Farmacognosia. 2018, 28: 533-541.
17.Wei H, Kong D, Yang J, Wang H. Light Regulation of Stomatal Development and Patterning: Shifting the Paradigm from Arabidopsis to Grasses. Plant Communications. 2020, 1, 100030.
18.Liu Y, Wei H, Ma M, Sun J, Kong D, Ma X, Wang H, Xie Y, Chen C, Wang B. Arabidopsis FHY3 and FAR1 regulate the balance between growth and defense responses under shade conditions. Plant Cell. 2019, 31(9): 2089-2106.
19.Wang B, Lin Z, Li X, Zhao Y, Zhao B, Wu G, Ma X, Wang H, Xie Y, Li Q, Song G, Kong D, Wei H, Shen R, Wu H, Chen C, Meng Z, Wang T, Li Y, Li X, Chen Y, Lai J, Hufford M B, Ross-Ibarra J, He H, Wang H. Genome-wide selection and genetic improvement during modern maize breeding. Nature Genetics. 2020, 52: 565-571.
20.Li Y, Kong D, Wu H. Analysis and evaluation of essential oil components of cinnamon barks using GC-MS and FTIR spectroscopy. Industrial Crops and Products. 2013, 41, 269–278.
21.Li Y, Kong D, Huang R, Liang H, Xu C, Wu H. Variations in essential oil yield and composition of different development stages of C. cassia. Industrial Crops and Products. 2013, 47, 92-101.
22.Li Y, Kong D, Lin X, Xie Z, Bai M, Huang S, Nian H, Wu H. Quality evaluation for essential oil of Cinnamomum verum leaves at different growth stages based on GC-MS, FTIR and microscopy. Food Analytical Methods. 2016, 9, 202-212.
所获奖励:
1.2014年度广西科学技术奖二等奖(省部级),第六完成人;
2.2015年度广西科乐竞体育-中国一站式服务官网科学技术一等奖(厅局级),第一完成人;
3.2015年度广西科乐竞体育-中国一站式服务官网科学技术一等奖(厅局级),第四完成人;
4.2016年度广西科乐竞体育-中国一站式服务官网科学技术一等奖(厅局级),第一完成人;
5.2022 年度北京市自然科学奖二等奖(省部级),第六完成人
授权专利:
1.王海洋; 王宝宝; 魏洪彬; 赵永平; 孔德鑫; 谢钰容; 调控玉米开花期的基因、启动子及其应用, 2021-4-23, 中国, 201910272796.9
2.王海洋; 孔德鑫; 魏洪彬; 王宝宝; 赵永平; 刘宇婷; 赵斌斌; 李全权; 薛伟聪;UB2/UB3基因在调控玉米多果穗发育中的应用, 2021-8-31, 中国, 201910803890.2
3.王海洋; 赵斌斌; 王宝宝; 赵永平; 谢钰容; 孔德鑫; 李全权; 李耀耀; ZmSBP12基因在调控玉米抗旱性、株高及穗位高中的用途, 2022-7-22, 中国, 202010232213.2
4.王海洋; 王宝宝; 郑智刚; 卓楚云; 孔德鑫; 徐妙云; 谢钰容; 调控玉米根系夹角和倒伏抗性的基因及其应用, 2022-4-22, 中国, CN202210423670.9
5.王海洋; 孔德鑫; 魏洪彬; 王宝宝; 谢钰容; 盘璇; 景艺峰; 刘宇婷; 赵永平; ZmSBP14、ZmSBP10或ZmSBP26基因在调控玉米气孔发育中的用途, 2019-10-22, 中国, 201911007878.7
6.王海洋; 魏洪彬; 孔德鑫; 赵永平; 王宝宝; 段亚平; 赵斌斌; 刘宇婷; 李全权 ; ZmSPL 基因在调控玉米柱头乳突细胞发育中的应用, 2019-10-17, 中国, 201910989830.4
7.王海洋; 魏洪彬; 孔德鑫; 谢钰容; 苟亚军; 赵永平; 王宝宝; 刘扬; 赵斌斌; 景艺峰; 沈荣鑫; ZmSPL基因在调控玉米冠根或气生根发育中的应用, 2019-10-17, 中国, 201910989836.1
8.王海洋; 郭芳燕; 魏洪彬; 孔德鑫; 李春连; 薛伟聪; GT1基因在调控玉米雄花序性别决定和/或多果穗发育中的应用,2022-01-28,中国,ZL 20221109362.9
9.王海洋; 赵永平; 王宝宝; 谢钰容; 孔德鑫; 刘扬; 具有调控植物开花期功能的ZmELF3.1蛋白及其功能缺失突变体和应用,2019-07-04,中国,201910601083.2
10.王海洋; 孔德鑫; 魏洪彬; 王宝宝; 赵斌斌; 沈荣鑫; 段亚平; 景艺峰; 薛伟聪; ZmSBP28基因在调控玉米株型中的用途,2019-10-22, 中国,ZL20191 1008537.1
11.王海洋; 陈家欢; 李耀耀; 赵永平; 赵斌斌; 王宝宝; 孔德鑫; 糖基转移酶ZmKOB1基因及其在调控玉米雌穗结实性状或发育上的应用,2021-06-11, 202110653667.1
