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黄军艳，女，1977年生，湖北武汉人，中共党员，博士，副研究员/硕士研究生导师。2007年参加工作，主要从事油菜抗病性及相关性状遗传机制研究。先后主持国家自然科学基金、国家重点研发子课题等项目5项，发表学术论文50余篇，获授权发明专利20余件。

教育经历

2018.04-2019.09，英国约翰英尼斯研究中心（John Innes Centre, UK），博士后

2000.09-2007.01，华中农业大学生命科学技术学院，博士

1996.09-2000.06，华中农业大学生命科学技术学院，学士

工作经历

2007.03—至今，中国农业科学院油料作物研究所

研究方向Research Directions

植物分子生物学与基因工程,植物抗病性

2. 机电结构优化与控制研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行2. 机电结构优化与控制研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行整体布局设计。整体布局设计。

团队展示

The Innovation Program of Oil Crops Genomics & Disease Resistance Improvement is one of 11 programs at Oil Crops Research Institute of Chinese Academy of Agricultural Sciences. In recent ten years, we have 38 to 46 people working on four interconnected areas, polyploid genome evolution, breeding by genome design, Brassica napus disease resistance, and their application to integrated disease control.

Polyploid Genome Evolution. Almost all higher plants experienced one or more cycles of whole genome duplications (WGD). However, why recurrent WGDs occur and how diploidization after polyploidization links to biodiversity and speciation are unclear. We use the family Brassicaceae plants as a model to address the questions by comparing sequence variation of individual genomes with different age WGDs and population genomics of Arabidopsis and Brassica species. To this end, we have completed de novo genome assembling of a dozen of B. napus accessions and constructed a consensus pangenome of Brassica genus, part of which were in collaboration with other research groups in the world. We also generated population phenome, metabolome, transcriptome and spliceome of a B. napus oilseed rape diverse accession panel.
Breeding by Genome Design (BGD). The BGD objective is to conduct both fore- and back-ground selection in B. napus, not only for expected traits, but also more preferentially for shortening breeding period and designing elite cultivars. We developed a large association population and multiple bi-parental segregation populations, and by integrating multi-omics data of thousands of B. napus accessions, we mapped thousand loci controlling important traits and some of regulatory networks of traits-genes. Meanwhile, we have been investigating genome evolution of a large number of accessions and pedigrees. These together enable us to conduct BGD.
Brassica Disease Resistance. With an aim to breeding disease resistance varieties, we conduct studies on gene mapping, cloning and molecular mechanisms of disease resistance in B. napus. Currently we are mainly working on three major diseases in Brassica or oilseed crops: molecular mechanisms of broad-spectrum resistance conferred by a dominant and two recessive genes and breeding for sustainable resistant Brassica varieties against parasitic pathogen Plasmodiophora brassicae causing destructive clubroot; QTL and genes conferring resistance to necrotrophic pathogen Sclerotinia sclerotiorum causing devastating tissue rot, its co-evolution with flowering time, and breeding for resistance and earliness varieties; and gene mapping and mechanism of broad-spectrum resistance to Xanthomonas campestris causing black rot in Brassica crops, and its application to breeding.
Green and Sustainable integrated Control of Oilseed Crop Diseases. In the integrated control, we use resistant varieties as a major measure and incorporate chemical pesticide by developing cost-saving and higher efficient spray technology (i.e. remote drone) for S. sclerotiorum disease control; for clubroot control, we aim to combine broad-spectrum resistance variety with crop rotation management.

项目情况

1. 油菜产量性状形成的分子网络调控 (2023YFF000700)，国家重点研发计划课题， 2023.12-2027.11。

2. 油料作物功能基因组学与抗病性改良，中国农业科学院科技创新工程，2025。

3. 油菜菌核病防控岗位（CARS-12），油菜现代产业技术体系建设，2025。

在研项目

1. 油菜产量性状形成的分子网络调控 (2023YFF000700)，国家重点研发计划课题， 2023.12-2027.11。

2. 油料作物功能基因组学与抗病性改良，中国农业科学院科技创新工程，2025。

3. 油菜菌核病防控岗位（CARS-12），油菜现代产业技术体系建设，2025。

发表文章（部分）

1.    Jie Liu, Yupo Wu, Xiong Zhang, Rafaqat Ali Gill1, Ming Hu, Zetao Bai,Chuanji Zhao, Yi Zhang, Yueying Liu, Qiong Hu, Xiaohui Cheng, Junyan Huang*, Lijiang Liu, ShunpingYan, Shengyi Liu. 2023. Functional and evolutionary study of MLO gene family inthe regulation of Sclerotinia stem rot resistance in Brassica napus L. Biotechnology for Biofuels and Bioproducts 16:86.
2.    Zhixue Dong, Minqiang Tang, Xiaobo Cui, Chuanji Zhao 2, Chaobo Tong,Yueying Liu, Yang Xiang, Zaiyun Li, JunyanHuang*, Xiaohui Cheng, Shengyi Liu. 2022. Integrating GWAS, linkage mappingand gene expression analyses reveal the genetic control of first branch heightin Brassica napus L. Frontiers in Plant Science. 13:1080999.doi:10.3389/fpls.2022.1080999.
3.    Jie Liu, Yupo Wu, Xiaobo Cui, Xiong Zhang, Meili Xie, Lijiang Liu, YueyingLiu, Junyan Huang*,Xiaohui Cheng, Shengyi Liu. 2022. Genome-Wide Characterization of OvateFamily Protein Gene Family Associated with Number of Seeds per Silique inBrassica napus. Frontiers in Plant Science 13:962592. DOI;10.3389/fpls.2022.962592.
4.    Jie Liu, Rong Zuo, Yizhou He, Cong Zhou, Lingli Yang, Rafaqat Ali Gill,Zetao Bai, Xiong Zhang, Yueying Liu, Xiaohui Cheng, Junyan Huang*. 2022. Analysis of Tissue-Specific Defense Responsesto Sclerotinia Sclerotiorum in Brassica napus. Plants (Basel, Switzerland)11(15). doi: 10.3390/plants11152001.
5.    Chuanji Zhao, Luqman Bin Safdar, Meili Xie, Meijuan Shi, Zhixue Dong, LiYang, Xiaohui Cheng, Yueying Liu, Zetao Bai, Yang Xiang, Chaobo Tong, Junyan Huang*,Lijiang Liu, Shengyi Liu.2021. Mutation of the PHYTOENE DESATURASE 3 Gene Causes Yellowish-White Petalsin Brassica napus. The Crop Journal 9(5):1124–34.
6.    Chuanji Zhao, Lijiang Liu, Luqman Bin Safdar, Meili Xie, Xiaohui Cheng,Yueying Liu, Yang Xiang, Chaobo Tong, Jinxing Tu, Junyan Huang*, Shengyi Liu. 2020. Characterization and FineMapping of a Yellow-Virescent Gene Regulating Chlorophyll Biosynthesis andEarly Stage Chloroplast Development in Brassica Napus. G3 (Bethesda, Md.)10(9):3201–11. doi: 10.1534/g3.120.401460.
7.    Yan Li, Caihua Dong, Ming Hu, Zetao Bai, Chaobo Tong, Rong Zuo, YueyingLiu, Xiaohui Cheng, Mingxing Cheng, JunyanHuang*. 2019. Identification of Flower-Specific Promoters throughComparative Transcriptome Analysis in Brassica Napus. International Journal ofMolecular Sciences 20(23):5949.
8.    Minqiang Tang, Yuanyuan Zhang, Yueying Liu, Chaobo Tong, Xiaohui Cheng,Wei Zhu, Zaiyun Li, Junyan Huang*, ShengyiLiu. 2019. Mapping Loci Controlling Fatty Acid Profiles, Oil and ProteinContent by Genome-Wide Association Study in Brassica Napus. The Crop Journal7(2):217–26.
9.    Fengqi Zhang, Junyan Huang*,Minqiang Tang, Xiaohui Cheng, Yueying Liu, Chaobo Tong, Jingyin Yu, TehrimSadia, Caihua Dong, Lingyan Liu, Baojun Tang, Jianguo Chen, Shengyi Liu.2019. Syntenic Quantitative Trait Loci and Genomic Divergence for SclerotiniaResistance and Flowering Time in Brassica Napus. Journal of Integrative PlantBiology 61(1):75–88. doi: 10.1111/jipb.12754.

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