研究方向：梨树抗病与抗逆境的分子机制解析。
通过整合生物信息学与功能基因组学手段，鉴定关键基因并利用转基因等技术阐明其功能，旨在揭示其背后的信号调控网络，为梨树抗逆育种提供理论依据与基因资源。

1、Lin, Likun, et al. Transcription factor PbbZIP4 is targeted for proteasome‐mediated degradation by the ubiquitin ligase PbATL18 to influence pear's resistance to Colletotrichum fructicola by regulating the expression of PbNPR3. The Plant Journal 116.3 (2023): 903-920.（中科院一区TOP，IF=6.2）

2、Lin, Likun et al. “Synergistic Interaction Between PbbZIP88 and PbSRK2E Enhances Drought Resistance in Pear Through Regulation of PbATL18 Expression and Stomatal Closure.” Plant, cell & environment vol. 48,1 (2025): 15-31. doi:10.1111/pce.15131 （中科院一区TOP，IF=6.0）

3、Lin, Likun, et al. E3 ubiquitin ligase PbrATL18 is a positive factor in pear resistance to drought and Colletotrichum fructicola infection. Horticultural Plant Journal 10.3 (2024): 698-712. （中科院一区TOP，IF=5.7）

4、Lin, Likun, et al. A WRKY transcription factor PbWRKY40 from Pyrus betulaefolia functions positively in salt tolerance and modulating organic acid accumulation by regulating PbVHA-B1 expression. Environmental and Experimental Botany 196 (2022): 104782. （中科院二区TOP，IF=4.5）

5、Lin, Likun et al. “Genome-wide identification of the Phospholipase D (PLD) gene family in Chinese white pear (Pyrus bretschneideri) and the role of PbrPLD2 in drought resistance.” Plant science : an international journal of experimental plant biology vol. 350 (2025): 112286. doi:10.1016/j.plantsci.2024.112286 （中科院二区TOP，IF=4.2）

1、入选2024年度中国科协青年人才托举工程博士生专项计划（托举学会：中国园艺学会）