Areas of Focus
- Crop Genetics and Breeding
- Rice Genetics and Breeding
Work Experience
- 2020/08-2022/08 Postdoctoral Fellow, Crop Science, Northeast Agricultural University
- 2022/10-2023/08 Associate Professor, Department of Agronomy, Northeast Agricultural University
- 2023/08-present Associate Professor, Department of Seed Science and Engineering, Northeast Agricultural University
Academic Background & Achievements
- 2008/09-2010/05 Qinggang No.1 Middle School
- 2010/09-2014/06 Bachelor in Agronomy, Northeast Agricultural University
- 2014/09-2017/06 Master in Crop Genetics and Breeding, Northeast Agricultural University
- 2017/09-2020/06 PhD in Crop Science, Shenyang Agricultural University
Publications
- BSA-seq and fine linkage mapping for the identification of a novel locus (qPH9) for mature plant height in rice (Oryza sativa), Wei Xin, 2022
- Morphological and Physiological Characteristics of Rice Cultivars with Higher Yield and Nitrogen Use Efficiency at Various Nitrogen Rates, Wei Xin, 2022
- The Response of Grain Yield and Root Morphological and Physiological Traits to Nitrogen Levels in Paddy Rice, Wei Xin, 2021
- Candidate Gene Analysis for Nitrogen Absorption and Utilization in Japonica Rice at the Seedling Stage Based on a Genome-Wide Association Study, Wei Xin, 2021
- Adaptation Mechanism of Roots to Low and High Nitrogen Revealed by Proteomic Analysis, Wei Xin, 2021
- An Integrated Analysis of the Rice Transcriptome and Metabolome Reveals Root Growth Regulation Mechanisms in Response to Nitrogen Availability, Wei Xin, 2019
- An Integrated Analysis of the Rice Transcriptome and Metabolome Reveals Differential Regulation of Carbon and Nitrogen Metabolism in Response to Nitrogen Availability, Wei Xin, 2019
- 黑龙江省稻瘟病生理小种及品种资源抗性鉴定, 辛威, 2016
- An integrated analysis of the rice transcriptome and lipidome reveals lipid metabolism plays a central role in rice cold tolerance, Wei Xin, 2022
- Mapping of Candidate Genes in Response to Low Nitrogen in Rice Seedlings, Wei Xin, 2022
- Transcriptome and Co-Expression Network Analysis Reveals the Molecular Mechanism of Rice Root Systems in Response to Low-Nitrogen Conditions, Wei Xin, 2023
