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马先进 2023级博士生     进组时间: 2022.10

2022.10-2023.07 河南大学,作物逆境适应与改良国家重点实验室,科研助理

2019.09-2022.06 中国林业科学研究院亚热带林业研究所,园林植物与观赏园艺专业,硕士 

2015.09-2019.06 河南城建学院,园林专业,学士 


发表文章:

Ma, X., Yu, Y., Hu, Z., Huang, H., Li, S. and Yin, H., 2022. Characterizations of a Class-I BASIC PENTACYSTEINE Gene Reveal Conserved Roles in the Transcriptional Repression of Genes Involved in Seed Development. Current Issues in Molecular Biology44(9), pp.4059-4069.

Lin, P., Wang, K., Wang, Y., Hu, Z., Yan, C., Huang, H., Ma, X., Cao, Y., Long, W., Liu, W. and Li, X., 2022. The genome of oil-Camellia and population genomics analysis provide insights into seed oil domestication. Genome Biology23, pp.1-21.

Hu, Z., Nie, Z., Yan, C., Huang, H., Ma, X., Wang, Y., Ye, N., Tuskan, G.A., Yang, X. and Yin, H., 2021. Transcriptome and degradome profiling reveals a role of miR530 in the circadian regulation of gene expression in Kalanchoë marnieriana. Cells10(6), p.1526.

Li, S., Huang, H., Ma, X., Hu, Z., Li, J. and Yin, H., 2022. Characterizations of MYB Transcription Factors in Camellia oleifera Reveal the Key Regulators Involved in Oil Biosynthesis. Horticulturae8(8), p.742.

Yan, C., Nie, Z., Hu, Z., Huang, H., Ma, X., Li, S., Li, J., Yao, X. and Yin, H., 2022. Tissue-specific transcriptomics reveals a central role of CcNST1 in regulating the fruit lignification pattern in Camellia chekiangoleosa, a woody oil-crop. Forestry Research2(1).