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王家刚

发布时间:2022年03月09日 17:56 作者: 点击:[]

  姓名:王家刚        

  出生:1988年0605                        

  性别:男                      

  籍贯:山东省临沂市

  邮箱:wangjiagangsdau@163.com

  电话:15153884920




教育背景

                           

2021.01-至今      山西农业大学  校聘教授

2016.11-2020.12       山东大学     博士后

2016.06-2016.11    山东农业大学  研究助理 

2011.09-2016.06    山东农业大学  硕博连读  细胞生物学专业

2007.09-2011.06    山东农业大学  本科      生物技术专业


研究方向

                           

结合分子生物学、遗传学、细胞生物学、生物化学及基因组学等技术手段,博士期间主要进行植物生殖发育生物学、胚珠发育、叶片衰老、蛋白质胞内分拣和囊泡运输的研究。博士后期间主要进行逆境条件下硝态氮信号转导和活性氧、氮和糖等信号分子交叉调控植物生长发育和逆境响应的分子机制研究。目前以拟南芥和谷子作为模式植物,探究植物生殖发育机理,逆境条件下的硝态氮信号转导,培育适应全程机械化生产的谷子新品种和探究其分子机制。在PNAS、PLOS Genetics、Plant Physiology、JIPB、Scientific Reports等发表论文多篇。


奖励情况

                           

获得2014年度山东省遗传学会学术报告一等奖

获得2014年度博士生国家奖学金

获得2015年度全国植物细胞生物学大会优秀墙报一等奖

    获得2017年度山东省优秀博士毕业论文奖

    获得2019年度山东省高等学校科学技术奖叁等奖(第二完成人)

获得2020年度山东省科学技术奖二等奖(第三完成人)

  

  

主持和参加的项目

                           

1.山西农业大学高层次人才启动经费,主持;

2.中国博士后科学基金第67批面上资助,HBI1-TCP20转录因子复合体正调控CEP1短肽介导系统氮需求的分子机制研究,主持;

3.山东省博士后2020年度创新基金,HBI1通过调控硝态氮信号转导促进植物生长发育的分子机制研究,主持;

4.2019年度青岛市博士后应用研究项目,主持;

5.中国博士后科学基金第61批面上资助,赤霉素调控侧生生长点干细胞的起始和分化的分子机理研究,主持;

6.山东省博士后2017年度创新基金,HBI1-HIC1转录因子复合体调控植物生长发育和免疫抗病平衡的分子机制研究,主持;

7.中国博士后科学基金第11批特别资助,转录因子HBI1调控拟南芥不定根起始的分子

机制研究,主持;

8.国家重大研究计划课题,花粉管导向生长的分子网络,参加;

9.国家自然科学基金面上项目,糖基磷脂酰肌醇锚定蛋白MDP在花粉管生长和导向过程中的作用机理研究,参加;

10.国家“青年千人计划”,植物生长和免疫平衡调控的分子网络研究,参加;

11.国家自然科学基金面上项目,油菜素内酯和生物钟协调控制植物生长和免疫抗病平衡的分子机制,参加。


发表文章

                           

1. Jia-Gang Wang1, Sha Li1, Xin-Ying Zhao, Liang-Zi Zhou, Guo-Qiang Huang, Chong Feng, Yan Zhang (2013) HAPLESS13, the Arabidopsis µ1 adaptin, is essential for protein sorting at the trans-Golgi network/early endosome. Plant Physiology, 162, 1-14. (1: co-first author) (IF:5.949,一区).

2. Sha Li, Fu-Rong Ge, Ming Xu, Xin-Ying Zhao, Guo-Qiang Huang, Liang-Zi Zhou, Jia-Gang Wang, Anja Kombrink, Sheila McCormick, Xian Sheng Zhang, Yan Zhang (2013) Arabidopsis COBRA-LIKE 10, a GPI-anchored protein, mediates directional growth of pollen tubes. Plant Journal,74,486-97(IF:5.775,二区).

3. Xin-Ying Zhao1, Jia-Gang Wang1, Shi-Jian Song, Qun Wang, Hui Kang, Yan Zhang ,Sha Li (2016) Precocious leaf senescence by functional loss of PROTEIN S-ACYL TRANSFERASE14 involves the NPR1-dependent salicylic acid signaling. Scientific Reports, 6, 203-209. (1: co-first author) (IF:4.122,三区).

4. Jia-Gang Wang, Chong Feng, Hai-Hong Liu, Fu-Rong Ge, Sha Li, Hong-Ju Li, Yan Zhang (2016a) HAPLESS13-mediated trafficking of STRUBBELIG is critical for ovule development in Arabidopsis. PLoS Genetics.12:e1006269. (IF:5.540,二区).

5. Jia-Gang Wang1, Chong Feng1, Hai-Hong Liu, Qiang-Nan Feng, Sha Li, Yan Zhang (2017) AP1G mediates vacuolar acidification during synergid-controlled pollen tube reception. PNAS .114:E4877–E4883. (1: co-first author) (IF:9.504,一区).

6. Chong Feng1, Jia-Gang Wang1, Hai-Hong Liu, Sha Li, Yan Zhang (2017) Arabidopsis adaptor protein 1G is critical for pollen development. JIPB .59:594–599. (1: co-first author)(IF:4.885,一区).

7. Qiang-Nan Feng, Shi-Jian Song, Shi-Xia Yu, Jia-Gang Wang, Sha Li, Yan Zhang (2017) Adaptor protein-3-dependent vacuolar trafficking involves a subpopulation of COPII and

HOPS tethering proteins. Plant Physiology, 174: 1609–1620(IF:5.949,一区).

8. Qi-Qi Zhang1, Jia-Gang Wang1, Ling-Yan Wang, Jun-Fang Wang, Qun Wang, Ping Yu, Ming-Yi Bai, Min Fan (2020) Gibberellin repression of axillary bud formation in Arabidopsis by modulation of DELLA-SPL9 complex activity. JIPB .62(4):421-432. (1: co-first author)(IF:4.885,一区).

9. Xiaoqian Chu, Mingzhe Li, Shujuan Zhang, Min Fan, Chao Han, Fengning Xiang, Genying Li, Yong Wang, Cheng-Bin Xiang, Jia-Gang Wang*, Ming-Yi Bai*. HBI1-TCP20 interaction positively regulates the CEPs-mediated systemic nitrate acquisition. JIPB. doi: 10.1111/jipb.13035. (*: corresponding author)(IF:4.885,一区).


   

    Name: Jia-Gang Wang

    Born: June 5, 1988

    Gender: Male

    Hometown: Linyi City, Shandong Province

    Email: wangjiagangsdau@163.com

    Phone: 15153884920



Education

2021.01-present, Shanxi Agricultural University, Professor

2016.11-2020.12, Shandong University, Postdoc

2016.06-2016.11, Shandong Agricultural University, Research Assistant

2011.09-2016.06, Shandong Agricultural University, Master and Ph.D. in Cell Biology

2007.09-2011.06 Shandong Agricultural University, undergraduate in biotechnology


Research

Combining molecular biology, genetics, cell biology, biochemistry, genomics and other technical methods, during the Ph.D. period, I mainly conducted research on plant reproduction and development biology, ovule development, leaf senescence, protein intracellular sorting and vesicle trafficking. During the postdoctoral period, I mainly conducted research on the molecular mechanism of nitrogen signal transduction and the cross-decomposition of signal molecules between reactive oxygen, nitrogen and sugar under stress conditions during plant growth and development. At present, Arabidopsis thaliana and fox millet are used as model plants to explore the mechanism of plant reproduction and development, nitrogen signal transduction under stress conditions, cultivate new fox millet varieties suitable for full mechanized production and explore the molecular mechanisms. Published several papers in PNAS, PLOS Genetics, Plant Physiology, JIPB, Scientific Reports, etc.


Reward

Won the First Prize of the Academic Report of Shandong Genetic Society in 2014

Received the National Scholarship for Doctoral Students in 2014

Won the first prize of excellent poster at the National Plant Cell Biology Conference in 2015

Won the Shandong Province Excellent Doctoral Thesis Award in 2017

Won the third prize of the Shandong Provincial Higher Education Science and Technology

Award in 2019 (the second finisher)

Won the second prize of the Shandong Science and Technology Award in 2020 (the third finisher)  


Projects

1.Shanxi Agricultural University high-level talent start-up funding, principal investigator;

2.China Postdoctoral Science Foundation of 67th, HBI1-TCP20 transcription factor complex

positively regulates the molecular mechanism of CEP1 peptide-mediated systemic nitrogen

demand, principal investigator

3.Shandong Province Postdoctoral Innovation Foundation in 2020, HBI1 promotes plant

growth and development by regulating nitrate signal transduction, principal investigator

4.Qingdao Postdoctoral Applied Research Project in 2019, principal investigator

5.China Postdoctoral Science Foundation of 61th, the molecular mechanism of Gibberellin

regulating the initiation and differentiation of axillary bud, principal investigator

6.Shandong Province Postdoctoral Innovation Foundation in 2017, HBI1-HIC1 transcription

factor complex regulates the  balance between plant growth and immunity, principal investigator

7.The 11th special grant from the China Postdoctoral Science Foundation, the transcription

factor HBI1 regulates Arabidopsis adventitious root initiation, principal investigator

8.National major research project, the molecular network of pollen tube growth, participate

9.The National Natural Science Foundation of China, the function of glycosylphosphatidylinositol

-anchored protein MDP in pollen tube growth and guidance, participate

10.National "Thousand Young Talents Program", molecular network research on the balance

of plant growth and immunity, participate

11.General project of National Natural Science Foundation of China, the molecular mechanism

of brassinolide and biochronometer coordinated control the balance of plant growth and

immunity, participate



Publications

1. Jia-Gang Wang1, Sha Li1, Xin-Ying Zhao, Liang-Zi Zhou, Guo-Qiang Huang, Chong Feng, Yan Zhang (2013) HAPLESS13, the Arabidopsis µ1 adaptin, is essential for protein sorting at the trans-Golgi network/early endosome. Plant Physiology, 162, 1-14. (1: co-first author) IF:5.949.

2. Sha Li, Fu-Rong Ge, Ming Xu, Xin-Ying Zhao, Guo-Qiang Huang, Liang-Zi Zhou, Jia-Gang Wang, Anja Kombrink, Sheila McCormick, Xian Sheng Zhang, Yan Zhang (2013) Arabidopsis COBRA-LIKE 10, a GPI-anchored protein, mediates directional growth of pollen tubes. Plant Journal,74,486-97IF:5.775.

3. Xin-Ying Zhao1, Jia-Gang Wang1, Shi-Jian Song, Qun Wang, Hui Kang, Yan Zhang ,Sha Li (2016) Precocious leaf senescence by functional loss of PROTEIN S-ACYL TRANSFERASE14 involves the NPR1-dependent salicylic acid signaling. Scientific Reports, 6, 203-209. (1: co-first author) IF:4.122.

4. Jia-Gang Wang, Chong Feng, Hai-Hong Liu, Fu-Rong Ge, Sha Li, Hong-Ju Li, Yan Zhang (2016a) HAPLESS13-mediated trafficking of STRUBBELIG is critical for ovule development in Arabidopsis. PLoS Genetics.12:e1006269. IF:5.540.

5. Jia-Gang Wang1, Chong Feng1, Hai-Hong Liu, Qiang-Nan Feng, Sha Li, Yan Zhang (2017) AP1G mediates vacuolar acidification during synergid-controlled pollen tube reception. PNAS .114:E4877–E4883. (1: co-first author) IF:9.504.

6. Chong Feng1, Jia-Gang Wang1, Hai-Hong Liu, Sha Li, Yan Zhang (2017) Arabidopsis adaptor protein 1G is critical for pollen development. JIPB .59:594–599. (1: co-first author)IF:4.885.

7. Qiang-Nan Feng, Shi-Jian Song, Shi-Xia Yu, Jia-Gang Wang, Sha Li, Yan Zhang (2017) Adaptor protein-3-dependent vacuolar trafficking involves a subpopulation of COPII and

HOPS tethering proteins. Plant Physiology, 174: 1609–1620IF:5.949.

8. Qi-Qi Zhang1, Jia-Gang Wang1, Ling-Yan Wang, Jun-Fang Wang, Qun Wang, Ping Yu, Ming-Yi Bai, Min Fan (2020) Gibberellin repression of axillary bud formation in Arabidopsis by modulation of DELLA-SPL9 complex activity. JIPB .62(4):421-432. (1: co-first author)IF:4.885.

9. Xiaoqian Chu, Mingzhe Li, Shujuan Zhang, Min Fan, Chao Han, Fengning Xiang, Genying Li, Yong Wang, Cheng-Bin Xiang, Jia-Gang Wang*, Ming-Yi Bai*. HBI1-TCP20 interaction positively regulates the CEPs-mediated systemic nitrate acquisition. JIPB. doi: 10.1111/jipb.13035. (*: corresponding author)IF:4.885.





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