(# co-first author; * corresponding author)

Tian, H., Lv, R., and Yi, P.* (2024). Crosstalk between ROP GTPase signaling and plant hormones. J Exp Bot doi:10.1093/jxb/erae162. PDF / web link

Ruan, J., Yin, Z., and Yi, P.* (2024). Effects of fluorescent tags and activity status on the membrane localization of ROP GTPases. Plant Signal Behav 19:2306790. PDF / web link

Ruan, J.#, Lai, L.#, Ou, H., and Yi, P.* (2023). Two subtypes of GTPase-activating proteins coordinate tip growth and cell size regulation in Physcomitrium patens. Nat Commun 14:7084. PDF / web link / preprint

Lai, L., Ruan, J., Xiao, C., and Yi, P.* (2023). The putative myristoylome of Physcomitrium patens reveals conserved features of myristoylation in basal land plants. Plant Cell Rep 42:1107-1124. PDF / web link

Ou, H., and Yi, P.* (2022). ROP GTPase-dependent polarity establishment during tip growth in plants. New Phytol 236:49-57. PDF / web link

Ruan, J. and Yi, P.* (2022). Exogenous 6-benzylaminopurine inhibits tip growth and cytokinesis via regulating actin dynamics in the moss Physcomitrium patens. Planta 256:1. (Cover Story) PDF / web link

Yi, P.* and Goshima, G. (2022). Division site determination during asymmetric cell division in plants. Plant Cell 34:2120-2139. PDF / web link

Li, D., Liu, Y., Yi, P., Zhu, Z., Li, W., Zhang, Q.C., Li, J.B., and Ou, G.* (2021). RNA editing restricts hyperactive ciliary kinases. Science 373:984-991. PDF / web link

Yi, P.* and Goshima, G. (2020). Transient cotransformation of CRISPR/Cas9 and oligonucleotide templates enables efficient editing of target loci in Physcomitrella patens. Plant Biotechnol J 18:599-601. PDF / web link / preprint

Yi, P.* and Goshima, G. (2020). Rho of Plants GTPases and Cytoskeletal Elements Control Nuclear Positioning and Asymmetric Cell Division during Physcomitrella patens Branching. Curr Biol 30:2860-2868. PDF / web link

Yi, P., Xie, C., and Ou, G.* (2018). The kinases male germ cell-associated kinase and cell cycle-related kinase regulate kinesin-2 motility in Caenorhabditis elegans neuronal cilia. Traffic 19:522-535. PDF / web link / preprint

Yi, P.* and Goshima, G.* (2018). Microtubule nucleation and organization without centrosomes. Curr Opin Plant Biol 46:1-7. PDF / web link

Yi, P., Li, W.J., Dong, M.Q., and Ou, G.* (2017). Dynein-Driven Retrograde Intraflagellar Transport Is Triphasic in C. elegans Sensory Cilia. Curr Biol 27:1448-1461. PDF / web link

Li, W.#, Yi, P.#, and Ou, G.* (2015). Somatic CRISPR-Cas9-induced mutations reveal roles of embryonically essential dynein chains in Caenorhabditis elegans cilia. J Cell Biol 208:683-692. PDF / web link

Yi, P., Li, W., and Ou, G.* (2014). The application of transcription activator-like effector nucleases for genome editing in C. elegans. Methods 68:389-396. PDF / web link

Feng, G.#, Yi, P.#, Yang, Y.#, Chai, Y.#, Tian, D.#, Zhu, Z., Liu, J., Zhou, F., Cheng, Z., Wang, X., Li, W., and Ou, G.* (2013). Developmental stage-dependent transcriptional regulatory pathways control neuroblast lineage progression. Development 140:3838-3847. PDF / web link

Cheng, Z.#, Yi, P.#, Wang, X., Chai, Y., Feng, G., Yang, Y., Liang, X., Zhu, Z., Li, W., and Ou, G.* (2013). Conditional targeted genome editing using somatically expressed TALENs in C. elegans. Nat Biotechnol 31:934-937. PDF / web link