基本信息
辦公電話:027-87288183
移動電話:13164628652
電子郵件:zoujun@mail.hzau.edu.cn
辦公地址:二綜B315
Ø 2009年畢業于77779193永利官网發育生物學專業,獲理學博士學位。随後在本校作物學博士後流動站從事油菜育種資源創新及種間雜交後代的基因組結構變異研究,2012年留校任教,主要研究方向為油菜種質資源創新及其基因組學。
Ø 主要研究工作有:1)基于芸薹屬亞基因組的大規模重構與滲透開展油菜種質創新與利用研究,2)種間雜交及外源種質滲透後代的基因組結構變異與遺傳進化研究;3)油菜複雜性狀的遺傳解析和全基因組選擇研究
Ø 研究工作經曆(按時間倒排序):
2012/03 — 至今, 77779193永利官网、77779193永利官网、教師
2015/09—2016/09,德國吉森尤斯圖斯-李比希大學,植物育種所,訪問研究
2014/10—2015/01,德國吉森尤斯圖斯-李比希大學,植物育種所,訪問研究
2011/10—2012/01,澳大利亞新南威爾士州沃加農業研究所,訪問研究
2010/01—2012/02,77779193永利官网,作物學博士後流動站,博士後
1. 國家自然科學基金面上項目,在油菜中發展基因組選擇技術助力新型種質資源庫優良株系的鑒定和雜交種測配,2022.01-2025.12(在研、主持)
2. 國家自然科學基金面上項目,“新型”甘藍型油菜的基因組結構變異,2020.01-2023.12(在研、主持)
3. 國家自然科學基金國際(地區)合作與交流項目-組織間合作研究NSFC-DFC(中德)項目, 與異源多倍體染色體碰撞相關的雜種優勢全基因組模式分析, 2019.01-2021.12(在研、主持)
4. 國際(地區)合作與交流項目,中德合作,Towards new Brassica crops: genetic improvement of Brassica hexaploids , 2017/08-2021/12(在研,參加)
5. 國家重點研發計劃,油菜雜種優勢利用技術與強優勢雜交種創制. 課題編号:2016YFD0101300,項目年限:2016-2020(已結題,參加)
6. 國家重點基礎研究發展計劃,油菜高産油量形成的分子生物學機制,課題編号:2015CB250100,項目年限:2015/01-2019/12(已結題,參加)
7. 湖北省自然科學基金重點項目(創新群體類),油菜雜種優勢利用的種質資源創制,課題編号:ZRZ2014000189,項目年限:2015/01-2017/12(已結題,參加)
8. 國家自然科學基金國際(地區)合作與交流項目/在華召開國際(地區)學術會議(非組織間協議項目),第19屆十字花科植物遺傳學會及芸薹屬2014年年會,課題編号:31410303006,項目年限:2014/01-2014/12(已結題,主持)
9. 國家自然科學基金青年科學基金項目,雜交導緻的油菜基因組脅迫與轉座子激活的聯系及其遺傳效應,31100876,2012/01-2014/12(已結題,主持)
10. 國家自然科學基金重點項目,新型甘藍型油菜ArCc基因資源庫的創建、評估和優異種質資源的選育, 2009/01-2012/12(已結題,參加)
11. 中國博士後科學基金,新型甘藍型油菜及其雜種基因組内反轉座子的活動,2010/06-2011/12(已結題,主持)
中文核心期刊:《種子産業化與技術》課程創新教學模式初探 鄒珺,王燕,羅子良,劉培發,餘四斌*
人才培養:指導了23位本科生畢業論文、17位研究生畢業論文,1位獲校級優秀碩士論文,1位獲校級優秀博士論文
1. 77779193永利官网2020年度 教學質量優秀二等獎
2. 77779193永利官网2020年度暑期社會實踐優秀指導教師
3. 77779193永利官网 2018-2019年度 優秀班主任
4. 77779193永利官网 2018年度 青年教師教學技能競賽二等獎
5. 77779193永利官网 2013年度 教學質量優秀二等獎
學術論文
發表研究論文50篇,累計引用1020次,H指數22(web of science, 202109);其中以第一或通訊作者(含共同)在Plant Biotechnology Journal(4篇,IF5年均=9.8)、Plant Journal(1篇,IF5年均=6.4), Journal of Experimental Botany(1篇,IF5年均=6.9)、Theoretical and Applied Genetics(4篇,IF5年均=5.6)、The Crop Journal(1篇,IF5年均=4.4)等SCI期刊發表論文19篇
2021
2. Zhang K, Mason A, Farooq M, Islam F, Quezada-Martinez D, Hu D, Yang S, Zou J*, Zhou W*. Challenges and prospects for a potential allohexaploid Brassica crop. Theoretical and Applied Genetics, 2021, June 04, first online, https://doi.org/10.1007/s00122-021-03845-8 134, 2711–2726
2020
1. Hu D#, Zhao Y#, Shen J, He X, Zhang Y, Jiang Y, Snowdon R, Meng J, Reif JC*, Zou J*. Genome-wide prediction for hybrids between parents with distinguished difference on exotic introgressions in Brassica napus. The Crop Journal, https://doi.org/10.1016/j.cj.2020.11.002
2. 秦晗,張文姗,王猛,熊思燦,胡丹丹,孫秀麗,胡蓮蓮,孟金陵,鄒珺*。四個芸薹屬物種硫苷比較及特殊硫苷種間導入。植物遺傳資源學報,2020,21(01):94-104.
2019
1. Zou J#, Mao L#, Qiu J#, Wang M, Jia L, Wu D, He Z, Chen M, Shen Y, Shen E, Huang Y, Li R, Hu D, Shi L, Wang K, Zhu Q, Ye C, Bancroft I, King G, Meng J, Fan L*. Genome-wide selection footprints and deleterious variations in young Asian allotetraploid rapeseed. Plant Biotechnology Journal, 2019, 17(10): 1998-2010. April 4 first online, https://doi.org/10.1111/pbi.13115(20 citations)
2. Hu D, Zhang W, Zhang Y, Chang S, Chen L, Chen Y, Shi Y, Shen J, Meng J, Zou J*. Reconstituting the genome of a young allopolyploid crop, Brassica napus, with its related species. Plant Biotechnology Journal, 2019, 17 (6): 1106-1118. https://doi.org/10.1111/pbi.13041 (8 citations)
2018
1. Zou J#*, H D#, Mason A, Shen X, Wang X, Wang N, Grandke F, Wang M, Chang S, Snowdon R, Meng J. Genetic changes in a novel breeding population of Brassica napus synthesized from hundreds of crosses between B. rapa and B. carinata. Plant Biotechnology Journal, 2018, 16(2), 507-519, doi: 10.1111/pbi.12791 (22 citation)
2. Luo Z#, Wang M#, Long Y, Huang Y, Shi L, Zhang C, Liu X, Fitt B, Xiang J, Mason A, Snowdon R, Liu P, Meng J, Zou J*. Incorporating pleiotropic quantitative trait loci in dissection of complex traits: seed yield in rapeseed as an example. Theor Appl Genet., 2018, 131(2), 497, equal to 2017, 130(8), 1569-1585, doi:10.1007/s00122-017-3005-2 (33 citation)
2017
1. Liu P#, Zhao Y#, Liu G, Wang M, Hu D, Hu J, Meng J, Reif JC*, Zou J*. Hybrid Performance of an immortalized F2 rapeseed population is driven by additive, dominance, and epistatic effects. Front. Plant Sci., 2017, 8:815. doi: 10.3389/fpls.2017.00815 (11 citations)
2. Zhang W#, Hu D#, Raman R, Guo S, Wei Z, Shen X, Meng J, Raman H*, Zou J*. Investigation of the genetic diversity and quantitative trait loci accounting for important agronomic and seed quality traits in Brassica carinata. Front. Plant Sci.,2017, 8:615. doi: 10.3389/fpls.2017.00615 (15 citations)
2016
1. Zou J#*, Zhao Y#, Liu P, Shi L, Wang X, Wang M, Meng J, Reif J*. Seed quality traits can be predicted with high accuracy in Brassica napus using genomic data. PLoS ONE, 2016, 11(11): e0166624. doi:10.1371/journal.pone.0166624 (16 citation)
2. Wei Z, Wang M, Chang S, Wu C, Liu P, Meng J, Zou J*.Introgressing subgenome components from Brassica rapa and B. carinata to B. juncea for broadening its genetic base and exploring intersubgenomic heterosis. Front. Plant Sci., 2016, 7:1677. doi: 10.3389/fpls.2016.01677 (15 citations)
3. Zou J, Hu D, Liu P, Raman H*, Liu Z*, Liu X, Parkin IA, Chalhoub B, Meng J*. Co-linearity and divergence of the A subgenome of Brassica juncea compared with other Brassica species carrying different A subgenomes. BMC Genomics, 2016, 17(1):18. doi: 10.1186/s12864-015-2343-1 (15 citations)
2015-2012
1. Shen E#, Zou J#, Behrens F#, Chen L, Ye C, Dai S, Li R, Ni M, Jiang X, Qiu J, Liu Y, Wang W, Zhu Q, Chalhoub B, Bancroft I, Meng J, Cai D*, Fan L*. Identification, evolution, and expression partitioning of miRNAs in allopolyploid Brasscia napus. Journal of Experimental Botany, 2015, 66(22): 7241-7253 doi:10.1093/jxb/erv420 (32 citations)
2. Zou J, Raman H*, Guo S, Hu D, Wei Z, Luo Zi, Long Y, Shi W, Fu Zhong, Du D, Meng J*. Constructing a dense genetic linkage map and mapping QTL for the traits of flower development in Brassica carinata. Theoretical and Applied Genetics, 2014, 127(7): 1593-1605 (23 citations)
2012前
1. Zou J#, Fu D#, Gong H, Qian W, Xia W, Pires C, Li R, Long Y, Mason A, Yang T, Lim Y, Beom S, Meng J*. De novo genetic variation associated with retrotransposon activation, genomic rearrangements and trait variation in a RIL population of Brassica napus derived from interspecific hybridization with B. rapa. The Plant Journal, 2011, 68(2):212-224 (61citations)
2. Zou J, Zhu J, Huang S, Tian E, Xiao Y, Fu D, Tu J, Fu T, Meng J*. Broadening the avenue of intersubgenomic heterosis for oilseed Brassica. Theoretical and Applied Genetics, 2010, 120: 283-290 (64 citations)
3. Zou J#, Jiang C#, Cao Z, Li R, Long Y, Chen S, Meng J*. Association mapping of seed oil content in different Brassica napus populations and its coincidence with QTL identified from linkage mapping. Genome, 2010, 53: 908-916 (54 citations)
4. Chen S#, Zou J#, Cowling W, Meng J*. Allelic diversity in a novel gene pool of canola-quality Brassica napus enriched with alleles from B. rapa and B. carinata. Crop & Pasture Science, 2010, 61, 483-492 (25 citations)
5. Zou J, Gong H, Yang Tae-Jin, Meng J*. Retrotransposons - a Major Driving Force in Plant Genome Evolution and a Useful Tool for Genome Analysis. J. Crop. Sci. Biotech., 2009, 12 (1):1-8 (16 citations)
6. Zou J, Fu D, Gong H, Tian E, Xiao Y, Huang S, Meng J*. How far we could go on modifying U’s triangle for rapeseed breeding? The Fifteenth Biennial Australian Research Assembly On Brassicas: conference proceedings. Geraldton, Western Australia. November, 2007. Full paper and abstract: 126-130.
以合作者身份發表SCI期刊論文26篇, 部分論文如下:
1. He Z, Ji R, Havlickova L, Wang L, Li Y, Lee H, Song J, Koh C, Yang J, Zhang M, Parkin I, Wang X, Edwards D, King G, Zou J, Liu K, Snowdon R, Banga S, Machackova I, Bancroft I*. Genome structural evolution in Brassica crops. Nature Plants. 2021, xx:xx. Doi: 10.1038/s41477-021-00928-8
2. Cheng T, Zhao P, Ren Y, Zou J, Sun M*. AtMIF1 increases seed oil content by attenuating GL2 inhibition. New Phytologist, 2021, 229(4):2152-2162, https://doi.org/10.1111/nph.17016
3. Zhang L, Zou J, Li S, Wang B, Raboanatahiry N, Li M. Characterization and expression profiles of miRNAs in the triploid hybrids of Brassica napus and Brassica rapa. BMC Genomics, 2019, 20(1): 64
4. Wang R, Liu H, Liu Z, Zou J, Meng J, Wang J. Genome-wide analysis of alternative splicing divergences between Brassica hexaploid and its parents. PLANTA, 2019, 250(2): 603-628
5. Wang R, Zou J, Meng J, Wang J. Integrative analysis of genome-wide lncRNA and mRNA expression in newly synthesized Brassica hexaploids. Ecology and evolution, 2018, 8(12): 6034-6052
6. Shah Smit, Weinholdt C, Jedrusik N, Molina C, Zou J, GroSSe I, Schiessl S, Jung C, Emrani N. Whole-transcriptome analysis reveals genetic factors underlying flowering time regulation in rapeseed (Brassica napus L.). Plant, cell & environment. 2018, 41(8): 1935-1947, doi:10.1111/pce.13353
7. Bayer P, Hurgobin B, Golicz A, Chan C, Yuan Y, Lee H, Renton M, Meng J, Li R, Long Y, Zou J, Bancroft I, Chalhoub B, King G, Batley J, Edwards D. Assembly and comparison of two closely related Brassica napus genomes. Plant Biotechnology Journal, 2017, 15(12), 1602-1610, doi : 0000-0002-0684-586X
8. Dai S, Hou J, Long Y, Wang J, Li C, Xiao Q, Jiang X, Zou X , Zou J, Meng J. Widespread and evolutionary analysis of a MITE family Monkey King in Brassicaceae. BMC Plant Biology, 2015, 15:149
9. Wang G, Ding G, Li L, Cai H, Ye X, Zou J, Xu F. Identification and characterization of improved nitrogen efficiency in interspecific hybridized new-type Brassica napus. Annals of Botany, 2014, 114 (3): 549-5
10. Shen Y, Zhao Q, Zou J, Wang W, Gao Y, Meng J, Wang J. Characterization and expression patterns of small RNAs in synthesized Brassica hexaploids. Plant Molecular Biology, 2014, 85:287-299
教材與著作
1. 鄒珺,孟金陵. 第八章,油菜種質資源創新與雜種優勢利用. 塗金星等編著,油菜雜種優勢利用的生物學基礎. 2018,北京,科學出版社,9ISBN978-7-03-058545-5.267-286頁
2. Zou J, Wang N, Meng J. Chapter 8, Mutagenesis. In: Edwards D, Batley J, Parkin IAP, Kole C (eds) Genetics, Genomics and Breeding of Oilseed Brassicas. Science Publishers, CRC press, USA, 2011, pp 158-173
近五年在國内外學術會議的口頭報告
1. 2020.01.04-05,湖北武漢,第一屆全國油菜生物學學術研讨會,大會報告,甘藍型油菜中近緣物種亞基因組間遺傳變異的滲透與種質資源創新
2. 2019.06.16-19,德國柏林,The 15th International Rapeseed Congress, 大會分組報告,Expanding a novel gene pool of Brassica napus with massive introgression of related oilseed species and exploring its intersubgenomic heterosis
3. 2018.03.26-28,湖北武漢,The international rapeseed genome workshop (China-Canada), 大會 報告,Exploring subgenomic variation in a novel breeding population of Brassica napus synthesized from hundreds of crosses between B. rapa and B. carinata
4. 2017.09.03-07,德國吉森,The 4th International Symposium on Genomics of Plant Genetic Resources, 大會報告, Development and evaluation of a novel gene pool of Brassica napus with introgression of genomic variation between and within related oilseed species
5. 2017.09.28-29,湖北武漢,第八屆湖北植物生物學大會,大會報告,人工合成甘藍型油菜群體中亞基因組遺傳變異
6. 2016.10.03-07,澳大利亞墨爾本,The 20th Crucifer Genetics Conference, Brassica 2016, and the 19th Australian Research Assembly, 大會分組報告,Investigation and improvement of the genome stability and genetic diversity of advanced allohexaploids derived from different interspecific cross origins
