杨帆

硕士生导师

Email: ldyf95@163.com

个人简介

本科就读于海南大学，硕士及博士就读于西北农林科技大学，于2024年获得博士学位，2025年进入鲁东大学园艺学院任教。

研究方向

主要从事比较进化基因组学研究，致力于从多进化尺度揭示重要性状的起源演化与功能分化规律，同时结合分子生物学、生物化学等手段，解析生物代谢通路的复杂分子遗传机制及其在作物遗传改良中的应用价值。研究成果以第一作者或参与发表在Plant journal等国际主流学术期刊。

发表论文

[1] Yang F, Luo J, Guo W, Zhang Y, Liu Y, Yu Z, Sun Y, Li M, Ma F, Zhao T. Origin and early divergence of tandem duplicated sorbitol transporter genes in Rosaceae: insights from evolutionary analysis of the SOT gene family in angiosperms. Plant Journal, 2024, 117(3):856-872.

[2] Yang F, Luo J, Han S, Zhang Y, Liu Z, Lan J, Sun Y, Zhao T. Evolutionary dynamics and functional characterization of proximal duplicated sorbitol-6-phosphate dehydrogenase genes in Rosaceae. Frontiers in Plant Science, 2024, 15:1480519.

[3] Yang F, Han S, Zhang Y, Chen X, Gai W, Zhao T. Phylogenomic Analysis and Functional Characterization of the APETALA2/Ethylene-Responsive Factor Transcription Factor Across Solanaceae. International Journal of Molecular Sciences, 2024, 25(20):11247.

[4] Yang F, Pan Y, Ali A, Zhang S, Li X, Qi X, Liu H, Men H, Cheng Z. Agronomic Biofortification of Garlic through Selenium and Arbuscular Mycorrhizal Fungi Application. Horticulturae, 2021, 7(8), 230.

[5] Gai W, Yang F, Yuan L, Haq S U, Wang Y, Wang Y, Shang L, Li F, Ge P, Dong H, Tao J, Wang F, Zhang X, Zhang Y.Multiple-model GWAS identifies optimal allelic combinations of quantitative trait loci for malic acid in tomato[J].Horticulture Research, 2023, 10 (4): uhad021.

[6] Gai W X, Yang F, Ali M, Ahmad A, Gong Z H.Pepper heat shock transcription factor A1d contributes to seed thermotolerance and germination vigor[J].Scientia Horticulturae, 2023, 311: 111786.

[7] Gai W X, Yuan L D, Yang F, Ahiakpa J K, Li F M, Ge P F, Zhang X Y, Tao J B, Wang F, Yang Y, Zhang Y Y.Genome-wide variants and optimal allelic combinations for citric acid in tomato[J].Horticulture Research, 2024, 11 (5): uhae070.

[8] Sun Y, Luo J, Feng P, Yang F, Liu Y, Liang J, Wang H, Zou Y, Ma F, Zhao T. MbHY5-MbYSL7 mediates chlorophyll synthesis and iron transport under iron deficiency in Malus baccata. Frontiers in Plant Science, 2022, 13:1035233.

[9] Sun Y, Liu Y, Liang J, Luo J, Yang F, Feng P, Wang H, Guo B, Ma F, Zhao T. Identification of PLATZ genes in Malus and expression characteristics of MdPLATZs in response to drought and ABA stresses. Frontiers in Plant Science, 2023, 13:1109784.

[9]Liu Y, Zhang Y, Han S, Guo B, Liang J, Yu Z, Yang F, Sun Y, Xue J, Lin Z, Schranz ME, Guan C, Ma F, Zhao T. S-RNase evolution in self-incompatibility: Phylogenomic insights into synteny with Class I T2 RNase genes. Plant Physiology. 2025, 197(3):kiaf072.

[10]Li H, Li J, Li X, Li J, Chen D, Zhang Y, Yu Q, Yang F, Liu Y, Dai W, Sun Y, Li P, Schranz ME, Ma F, Zhao T. Genomic investigation of plant secondary metabolism: insights from synteny network analysis of oxidosqualene cyclase flanking genes. New Phytologist. 2025, 245(5):2150-2169.