Professor | 顾日良 | 数字化转型顾问

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Name	顾日良
Contact Information	rilianggu@cau.edu.cn
Language ability	汉语, 英语, 德语
Province	北京

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Name

顾日良

Contact Information

rilianggu@cau.edu.cn

Language ability

汉语, 英语, 德语

Province

北京

University/Lab Affiliation and Title	中国农业大学
Faculty	Veterinary Medicine
Academic Background & Achievements	2003-2006 博士，遗传学，中国农业大学 1997-2001 学士，生物学，中国农业大学发表科学论文50多篇
Work Experience	2021-至今教授，农学院，中国农业大学 2013-2020 副教授，农学院/资源环境学院，中国农业大学 2006-2012 讲师，资源环境学院，中国农业大学 2013-2014 访问学者，农学系，爱荷华州立大学，美国 2009 访问学者，作物遗传育种，霍恩海姆大学，德国 2008 访问学者，生物化学，帕拉茨基大学，捷克 2007-2008 访问学者，植物营养学，霍恩海姆大学，德国
Awards	2023 百篇优秀毕业论文（设计）优秀指导教师 2021 基于产教融合种业实践教学体系的构建与应用 2020 年度优秀教师 2018 百篇优秀毕业论文（设计）优秀指导教师

University/Lab Affiliation and Title

中国农业大学

Faculty

Veterinary Medicine

Academic Background & Achievements

2003-2006 博士，遗传学，中国农业大学
1997-2001 学士，生物学，中国农业大学
发表科学论文50多篇

Work Experience

2021-至今教授，农学院，中国农业大学
2013-2020 副教授，农学院/资源环境学院，中国农业大学
2006-2012 讲师，资源环境学院，中国农业大学
2013-2014 访问学者，农学系，爱荷华州立大学，美国
2009 访问学者，作物遗传育种，霍恩海姆大学，德国
2008 访问学者，生物化学，帕拉茨基大学，捷克
2007-2008 访问学者，植物营养学，霍恩海姆大学，德国

Awards

2023 百篇优秀毕业论文（设计）优秀指导教师
2021 基于产教融合种业实践教学体系的构建与应用
2020 年度优秀教师
2018 百篇优秀毕业论文（设计）优秀指导教师

Areas of Focus	玉米种子活力性状的分子遗传学研究玉米种子发育的分子遗传学研究高活力玉米种子生产研究
Publications	A genome‐wide association study uncovers a ZmRap2.7‐ZCN9/ZCN10 module to regulate ABA signalling and seed vigour in maize, 郭莎莎, 2024 RNA polymerase common subunit ZmRPABC5b is transcriptionally activated by Opaque2 and essential for endosperm development in maize, 陈全全, 2023 Transcriptome Analysis Revealed the Potential Molecular Mechanism of Anthocyanidins’ Improved Salt Tolerance in Maize Seedlings, J Wang, Z Yuan, D Li, M Cai, Z Liang, Q Chen, X Du, J Wang, R Gu, L Li, 2023 Combined population transcriptomic and genomic analysis reveals cis-regulatory differentiation of non-coding RNAs in maize, J. Lu（卢嘉雯）, 2023 The Anthocyanin Accumulation Related ZmBZ1, Facilitates Seedling Salinity Stress Tolerance via ROS Scavenging., Jie Wang（王洁）, 2022 Transcriptome analysis of near-isogenic lines provides novel insights into genes associated with seed low-temperature germination ability in maize (Zea mays L.), Xuhui Li（李旭辉）, 2022 The ideal harvest time for seed production in maize (Zea mays L.) varieties of different maturity groups., Dengxu Han（韩登旭）, 2022 QTL analysis across multiple environments reveals promising, Xinmin Hu（胡新民）, 2021 Small kernel 501 (smk501) encodes the RUBylation activating enzyme E1 subunit ECR1 (E1 C-TERMINAL RELATED 1) and is essential for multiple aspects of cellular events during kernel development in maize, Quanquan Chen（陈全全）, 2021 Nuclear-Encoded Maturase Protein 3 Is Required for the, Weiwei Chen（陈卫卫）, 2021

Areas of Focus

玉米种子活力性状的分子遗传学研究
玉米种子发育的分子遗传学研究
高活力玉米种子生产研究

Publications

A genome‐wide association study uncovers a ZmRap2.7‐ZCN9/ZCN10 module to regulate ABA signalling and seed vigour in maize, 郭莎莎, 2024
RNA polymerase common subunit ZmRPABC5b is transcriptionally activated by Opaque2 and essential for endosperm development in maize, 陈全全, 2023
Transcriptome Analysis Revealed the Potential Molecular Mechanism of Anthocyanidins’ Improved Salt Tolerance in Maize Seedlings, J Wang, Z Yuan, D Li, M Cai, Z Liang, Q Chen, X Du, J Wang, R Gu, L Li, 2023
Combined population transcriptomic and genomic analysis reveals cis-regulatory differentiation of non-coding RNAs in maize, J. Lu（卢嘉雯）, 2023
The Anthocyanin Accumulation Related ZmBZ1, Facilitates Seedling Salinity Stress Tolerance via ROS Scavenging., Jie Wang（王洁）, 2022
Transcriptome analysis of near-isogenic lines provides novel insights into genes associated with seed low-temperature germination ability in maize (Zea mays L.), Xuhui Li（李旭辉）, 2022
The ideal harvest time for seed production in maize (Zea mays L.) varieties of different maturity groups., Dengxu Han（韩登旭）, 2022
QTL analysis across multiple environments reveals promising, Xinmin Hu（胡新民）, 2021
Small kernel 501 (smk501) encodes the RUBylation activating enzyme E1 subunit ECR1 (E1 C-TERMINAL RELATED 1) and is essential for multiple aspects of cellular events during kernel development in maize, Quanquan Chen（陈全全）, 2021
Nuclear-Encoded Maturase Protein 3 Is Required for the, Weiwei Chen（陈卫卫）, 2021

遗传学玉米种子活力 Qtl Gwas 基因克隆功能机理种子发芽低温发芽储藏耐受性

潘俊松 - 上海交通大学

Area of Focus
遗传学 | 种质 | 黄瓜 | 创新 | 花卉栽培 | 矮牵牛 | 长春花 | 育种 | 分子标记 | 基因克隆

何绍贞 - 中国农业大学

黄伟 - 中国农业大学

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