2022年6月毕业于电子科技大学生物医学工程专业，获工学博士学位。随后进入枣庄学院生命科学与技术学院工作。主讲《遗传学》《基因组学》等课程。主要从事麦类作物分子细胞生物学研究，旨在挖掘小麦近缘物种优异基因资源，创制可应用于育种的新种质材料。多年来一直与山东省农业科学院和四川省农业科学院等单位进行科研项目合作。近年来在《Frontiers in Plant Science》《Planta》《Plants-Basel》和《Genome》等期刊发表SCI论文10余篇。

近年来发表的代表性论文(^#表示共同第一；*表示通讯作者)：

[1]Wang Hongjin#, Zhang Hongjun#, Li Bin#, Yu Zhihui, et al. Molecular cytogenetic characterization of new wheat-Dasypyrum breviaristatum introgression lines for improving grain quality of wheat[J]. Front Plant Sci, 2018, 9: 365.

[2]Wang Hongjin, Yu Zhihui, Li Guangrong, Yang Zujun*. Diversified chromosome rearrangements detected in a wheat-Dasypyrum breviaristatum substitution line induced by gamma-ray irradiation[J]. Plants (Basel), 2019, 8: 6.

[3]Wang Hongjin#, Yu Zhihui#, Li Bin, Lang Tao, et al. Characterization of New wheat-Dasypyrum breviaristatum introgression lines with superior gene(s) for spike length and stripe rust tesistance[J]. Cytogenet Genome Res, 2018, 156: 117-125.

[4]Wang Hongjin, Yu Zhihui, Zhang Ahui, Tang Lingrong, et al. Physical location of stripe rust resistance gene(s) in chromosome 2Vb in wheat-Dasypyrum breviaristatum derivative lines[C]. The 2nd International Conference of Plant Chromosome Engineering and Functional Genomics for Breeding, 3-5 June 2019, Beijing, 51.

[5]Li Guangrong,Wang Hongjin, Lang Tao, Li Jianbo, et al. New molecular markers and cytogenetic probes enable chromosome identification of wheat-Thinopyrum intermedium introgression lines for improving protein and gluten contents[J]. Planta, 2016, 244(4): 865-876.

[6]Yu, Zhihui,Wang Hongjin, Xu Yunfang, Li Yongshang, et al. Characterization of chromosomal rearrangement in new wheat-Thinopyrum intermedium addition lines carrying Thinopyrum-specific grain hardness genes[J]. Agronomy, 2019, 9:1.

[7]Yu Zhihui,Wang Hongjin, Jiang Wenxi, Jiang Chengzhi, et al. Karyotyping Dasypyrum breviaristatum chromosomes with multiple oligonucleotide probes reveals the genomic divergence in Dasypyrum[J]. Genome, 2021, 64: 789-800.

[8]Wang Xiaolu, Yu Zhihui,Wang Hongjin, Li Jianbo, et al. Characterization, identification and evaluation of wheat-Aegilops sharonensis chromosome derivatives[J]. Front Plant Sci, 2021, 12: 708551.

[9]Lang Tao, Li Guangrong,Wang Hongjin, Yu Zhihui, et al. Physical location of tandem repeats in the wheat genome and application for chromosome identification[J]. Planta, 2019, 249: 663-675.

[10]Li Guangrong, Zhang Tao, Yu Zhihui,Wang Hongjin, et al. An efficient Oligo-FISH painting system for revealing chromosome rearrangements and polyploidization in Triticeae[J]. Plant J, 2021, 105: 978-993.

[11]Lyu Zhongfan, Hao Yongchao, Chen Liyang, Xu Shoushen,Wang Hongjin, et al. Wheat-Thinopyrum substitution lines imprints compensation both from recipients and donors[J]. Front Plant Sci, 2020, doi: 10.3389/fpls.2022.837410.

[12]Li Jianbo, Lang Tao, Li Bin, Yu Zhihui,Wang Hongjin, et al. Introduction of Thinopyrum intermedium ssp trichophorum chromosomes to wheat by trigeneric hybridization involving Triticum, Secale and Thinopyrum genera[J]. Planta, 2017, 245(6): 1121-1135.

[13]Li Guangrong, Gao Dan, La Shixiao,Wang Hongjin,et al. Characterization of wheat-Secale africanum chromosome 5R(a) derivatives carrying Secale specific genes for grain hardness[J]. Panta, 2016, 243(5): 1203-1212.