Functional Diversification of the Kinesin-14 Family in Land Plants
Overview
Affiliations
In most eukaryotes, cytoplasmic dynein serves as the primary cytoskeletal motor for minus-end-directed processes along microtubules. However, land plants lack dynein, having instead a large number of kinesin-14s, which suggests that kinesin-14s may have evolved to fill the cellular niche left by dynein. In addition, land plants do not have centrosomes, but contain specialized microtubule-based structures called phragmoplasts that facilitate the formation of new cell walls following cell division. This Review aims to compile the evidence for functional diversification of kinesin-14s in land plants. Known functions include spindle morphogenesis, microtubule-based trafficking, nuclear migration, chloroplast distribution, and phragmoplast expansion. Plant kinesin-14s have also evolved direct roles in chromosome segregation in maize and novel biochemical features such as actin transport and processive motility in the homodimeric state.
Lucas J, Geisler M J Mol Evol. 2024; 92(4):381-401.
PMID: 38926179 DOI: 10.1007/s00239-024-10178-9.
Functional Diversification and the Plant Secondary Cell Wall.
Colbert J, Coleman H J Mol Evol. 2023; 91(6):761-772.
PMID: 37979044 DOI: 10.1007/s00239-023-10145-w.
Cik1 and Vik1 accessory proteins confer distinct functions to the kinesin-14 Kar3.
Bergman Z, Wong J, Drubin D, Barnes G J Cell Sci. 2023; 136(11).
PMID: 37305999 PMC: 10281266. DOI: 10.1242/jcs.260621.
Pasten M, Carballo J, Gallardo J, Zappacosta D, Selva J, Rodrigo J Front Plant Sci. 2022; 13:1012682.
PMID: 36247597 PMC: 9563718. DOI: 10.3389/fpls.2022.1012682.
Abscisic acid induces the expression of AsKIN during the recovery period of garlic cryopreservation.
Xing X, Liu M, Jiang F, Zhou R, Bai Y, Wei H Plant Cell Rep. 2022; 41(10):1955-1973.
PMID: 36066602 DOI: 10.1007/s00299-022-02894-7.