Professor | Zhikun Wang | Asia Growth Partners

Name	Zhikun Wang
Contact Information	zhikunwang1998@aliyun.com
Language ability	Chinese, English
Province	Heilongjiang

Name

Zhikun Wang

Contact Information

zhikunwang1998@aliyun.com

Language ability

Chinese, English

Province

Heilongjiang

University/Lab Affiliation and Title	Northeast Agricultural University
Faculty	Agriculture
Academic Background & Achievements	1993-1996: High School at Kedong County First Middle School 1996-2000: Bachelor of Engineering, Henan University of Technology 2001-2004: Master of Science in Vegetable Genetics and Breeding, Northeast Agricultural University 2004-2007: PhD in Vegetable Genetics and Breeding, Northeast Agricultural University 2007-2010: Postdoctoral Researcher in Crop Science, Northeast Agricultural University
Work Experience	2007-2010: Assistant Researcher 2010-2010: Master's Supervisor 2016-2017: Visiting Scholar, University of Missouri, Columbia 2023-2023: PhD Supervisor 2010-Present: Associate Researcher

University/Lab Affiliation and Title

Northeast Agricultural University

Faculty

Agriculture

Academic Background & Achievements

1993-1996: High School at Kedong County First Middle School
1996-2000: Bachelor of Engineering, Henan University of Technology
2001-2004: Master of Science in Vegetable Genetics and Breeding, Northeast Agricultural University
2004-2007: PhD in Vegetable Genetics and Breeding, Northeast Agricultural University
2007-2010: Postdoctoral Researcher in Crop Science, Northeast Agricultural University

Work Experience

2007-2010: Assistant Researcher
2010-2010: Master's Supervisor
2016-2017: Visiting Scholar, University of Missouri, Columbia
2023-2023: PhD Supervisor
2010-Present: Associate Researcher

Areas of Focus	Soybean Genetic Breeding
Publications	Soybean WRINKLED1 protein GmWRI1a promotes flowering under long-day conditions via regulating expressions of flowering-related genes, Wang ZK et al., 2023 Comparative analysis of nutritional composition of seeds of wild-type soybean and lines overexpressing GmWRI1a, Wang ZK et al., 2023 Overexpression of soybean GmWRI1a stably increases the seed oil content in soybean, Wang ZK et al., 2022 Genetic dissection of 2-heptenal content in soybean (Glycine max) seed through genome-wide association study, Wang ZK et al., 2020 A genome-wide association study of hexanal content related to soymilk off-flavours in seed of soybean (Glycine max), Wang ZK et al., 2020 Overexpressing Sesamum indicum L.'s DGAT1 increases the seed oil content of transgenic soybean, Wang ZK et al., 2019 Genome-wide association analysis of 1-octen-3-ol content related to soymilk off-flavor in soybean seed, Wang ZK et al., 2019 GmLEA2-1, a late embryogenesis abundant protein gene isolated from soybean (Glycine max (L.) Merr.), confers tolerance to abiotic stress, Wang ZK et al., 2018 Overexpression of SiDGAT1, a gene encoding acyl-CoA:diacylglycerol acyltransferase from Sesamum indicum L. increases oil content in transgenic Arabidopsis and soybean, Wang ZK et al., 2014 Domestication footprints anchor genomic regions of agronomic importance in soybean, Wang ZK et al., 2016 Transgenic expression of ThIPK2 gene in soybean improves stress tolerance, oleic acid content and seed size, Wang ZK et al., 2012

Areas of Focus

Soybean Genetic Breeding

Publications

Soybean WRINKLED1 protein GmWRI1a promotes flowering under long-day conditions via regulating expressions of flowering-related genes, Wang ZK et al., 2023
Comparative analysis of nutritional composition of seeds of wild-type soybean and lines overexpressing GmWRI1a, Wang ZK et al., 2023
Overexpression of soybean GmWRI1a stably increases the seed oil content in soybean, Wang ZK et al., 2022
Genetic dissection of 2-heptenal content in soybean (Glycine max) seed through genome-wide association study, Wang ZK et al., 2020
A genome-wide association study of hexanal content related to soymilk off-flavours in seed of soybean (Glycine max), Wang ZK et al., 2020
Overexpressing Sesamum indicum L.'s DGAT1 increases the seed oil content of transgenic soybean, Wang ZK et al., 2019
Genome-wide association analysis of 1-octen-3-ol content related to soymilk off-flavor in soybean seed, Wang ZK et al., 2019
GmLEA2-1, a late embryogenesis abundant protein gene isolated from soybean (Glycine max (L.) Merr.), confers tolerance to abiotic stress, Wang ZK et al., 2018
Overexpression of SiDGAT1, a gene encoding acyl-CoA:diacylglycerol acyltransferase from Sesamum indicum L. increases oil content in transgenic Arabidopsis and soybean, Wang ZK et al., 2014
Domestication footprints anchor genomic regions of agronomic importance in soybean, Wang ZK et al., 2016
Transgenic expression of ThIPK2 gene in soybean improves stress tolerance, oleic acid content and seed size, Wang ZK et al., 2012

Soybean Genetics Breeding Rna Interference Disease Resistance Transgenic Gene Expression Nutritional Composition Abiotic Stress Seed Oil Content

Xin Wang - China Agricultural University

Ziyan Liu - College of Plant Science and Technology

Shaojiang Chen - China Agricultural University

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