| Keynote Speakers | |||
| 序号 | 姓 名 | 单 位 | 题目 |
| 1 | Bob Schmitz | University of Georgia | Deciphering cis-regulatory elements at single-cell resolution in plants |
| 2 |
Vivianne
GAA
Vleeshouwers
|
Wageningen University | Functional diversification of the potato immune receptor PERU at its center of origin |
| 3 | 晁代印 | 中国科学院分子植物卓越中心 | A GAPLESS Casparian strip for plant homeostasis |
| 4 | 戴俊彪 | 中国农科院深圳农业基因组所 | SynMoss: Design and synthesize a plant genome |
| 5 | 黄三文 | 中国热带农业科学院 |
The reinvention of potato and the PLANeT initiative |
| 6 | 戚益军 | 清华大学 | RNA regulation in plants |
| 7 | 王 文 | 西北工业大学 | Deciphering animal complex traits by evolutionary genomics |
| 8 | 白 洋 | 遗传发育所/北大 | Interactions between root microbiome and crops |
| 9 | 张强锋 | 清华大学 | AI approaches to single-cell genomics |
| 报告人 | |||
| 序号 | 姓 名 | 单 位 | 题目 |
| 1 | 陈 栩 | 福建农林大学 | Auxin regulation on soybean nodulation: from mechanisms to opportunities in breeding |
| 2 | 程 汉 | 中国热科院橡胶所 | Haplotype-resolved genome helps deciphing yield component traits in rubber tree |
| 3 | 刘建全 | 兰州大学 | Genomic structural variations and environmental adaptations |
| 4 | 王春明 | 南京农业大学 | Progress report on nitrogen use efficiency and salt tolerance in rice |
| 5 | 黄学辉 | 上海师范大学 | The development of an intelligent breeding system in rice |
| 6 | 赖锦盛 | 中国农业大学 |
The complete Telomere-to-telomere genome assembly of maize and beyond |
| 7 | 李红菊 | 中国科学院遗传发育所 | The molecular regulation and evolution of plant fertilization |
| 8 | 李建彩 | 中国科学院分子植物卓越中心 |
The retrograde evolutionary assembly safely switches a terpenoid pathway from indirect to direct defense |
| 9 | 李文学 | 中国农科院作科所 | Biofortification of iron content by regulating a NAC transcription factor in maize |
| 10 | 李兴旺 | 华中农业大学 |
Simultaneous Profiling of Chromatin-Associated RNA at Targeted DNA Loci and RNA-RNA Interactions through TaDRIM-seq |
| 11 | 田 丰 | 中国农业大学 | Maize smart-canopy architecture enhances yield at high densities |
| 12 | 鲁 非 | 中国科学院遗传发育所 | A high-resolution map of evolutionary constraint in bread wheat using Triticeae genomes |
| 13 | 罗 杰 | 海南大学 | Identification and regulation of metabolic gene clusters in plants |
| 14 | 倪中福 | 中国农业大学 | Dissection of the molecular basis underlining spike morphology in wheat species (Triticum L.) |
| 15 | 宋献军 | 中国科学院植物所 | The genetic basis of histone acetylation-centered regulation of grain size in rice |
| 16 | 唐朝荣 | 海南大学 | Pan-genome and phylogenomic analyses highlight Hevea species delineation and rubber trait evolution |
|
17 |
王 静 | 四川农业大学 | E3 ligases contribute to the balance between rice immunity and growth via different pathways |
| 18 | 武旭娜 | 云南大学 | Transceptor NRT1.1 and receptor-kinase QSK1 complex controls PM H+-ATPase activity under low nitrate |
| 19 | 胥国勇 | 武汉大学 |
Precise annotation of RNA
regulatory elements and their application in crop defense engineering |
| 20 |
徐明良 |
中国农业大学 |
A calcium-dependent protein kinase mediates quantitative resistance to multiple foliar diseases in maize |
| 21 |
杨 宁 |
华中农业大学 | The population genetic studies of Zea genus |
| 22 | 张 飞 | 华中农业大学 | A molecular pathway for the development of Citrus oil gland |
| 23 | 张 鹏 | 中国科学院分子植物卓越中心 | Structure guided engineering of Guard cell channels/transporters to boost photosynthesis |
| 24 | 张天真 |
浙江大学 |
Breeding by Design Strategy in Cotton in China |
| 25 | 张亮生 | 浙江大学 | The Angiosperm genomes and its gene resources mining |
| 26 | 张一婧 | 复旦大学 | Harmony in Diversity: Functional Epigenomic Study of Wheat Polyploidy |
| 27 | 肖 军 | 中国科学院遗传发育所 | Systemic identification of yield regulators via integration of multi-omics in wheat |
| 28 | 吴 双 | 福建农林大学 |
Trichome regulation
in tomato and its potential application in breeding |
| 29 | 王佳伟 | 中国科学院分子植物科学卓越创新中心 |
Reciprocal conversion between annual and polycarpic perennial flowering behaviour in the Brassicaceae |
|
30 |
顾周琳 | 中国科学院分子植物科学卓越创新中心 |
Genetic improvements during rice hybrid breeding and its implications for design breeding |
| 31 | 芦思佳 |
广州大学 |
Subfunctionalization and self-repression of duplicated homologues finetunes soybean flowering and adaptation |
| 32 | 祝 涛 |
南京大学 |
Comprehensive mapping and modelling of the rice regulome landscape unveils the regulatory architecture underlying complex traits |
| 33 | 刘 洋 |
中国科学院遗传发育所 |
Overriding Mendelian inheritance in Arabidopsis with a CRISPR toxin–antidote gene drive that impairs pollen germination |
| 34 | 桑 田 |
南方科技大学 |
Highly sensitive site-specific SUMOylation proteomics in Arabidopsis |
| 35 | 李鹍鹏 |
中国科学院植物研究所 |
Identification of errors in draft genome assemblies at single-nucleotide resolution for quality assessment and improvement |
| 36 | 黄 兴 |
中国科学院上海植物生理生态研究所 |
Maize DDK1 encoding an Importin-4 β protein is essential for seed development and grain filling by mediating nuclear exporting of eIF1A |
| 37 | 程时锋 |
中国农业科学院深圳农业基因组研究所 |
Understanding and Harnessing Traits for Breeding |