Abstract
Microtubules (MTs) are involved in key processes in plant cells, including cell division, growth and development. MT-interacting proteins modulate MT dynamics and organization, mediating functional and structural interaction of MTs with other cell structures. In addition to conventional microtubule-associated proteins (MAPs) in plants, there are many other MT-binding proteins whose primary function is not related to the regulation of MTs. This review focuses on enzymes, chaperones, or proteins primarily involved in other processes that also bind to MTs. The MT-binding activity of these multifunctional MAPs is often performed only under specific environmental or physiological conditions, or they bind to MTs only as components of a larger MT-binding protein complex. The involvement of multifunctional MAPs in these interactions may underlie physiological and morphogenetic events, e.g., under specific environmental or developmental conditions. Uncovering MT-binding activity of these proteins, although challenging, may contribute to understanding of the novel functions of the MT cytoskeleton in plant biological processes.
Highlights
Microtubules (MTs) are involved in key processes in plant cells, including cell division, growth and development
In addition to conventional microtubule-associated proteins (MAPs) in plants, there are many other MT-binding proteins whose primary function is not related to the regulation of MTs
A fundamental feature of MAPs is their interaction with MTs through a MT-binding domain that is manifested in MT organization, dynamics or cellular transport, which influences plant morphogenesis
Summary
Traditional microtubule-associated proteins (MAPs) are typically conserved in eukaryotes. A fundamental feature of MAPs is their interaction with MTs through a MT-binding domain that is manifested in MT organization, dynamics or cellular transport, which influences plant morphogenesis. The localization of MAPs in the cell is well described mainly because of their close association with MT structures. MAPs are motor proteins that utilize MTs as tracks to transport cargo such as kinesins. Structural MAPs or severing proteins such as MAP65 and katanin bind, bundle or cleave MTs, and are involved in MT organization. MT dynamics, on the other hand, is influenced by MT +tip associated proteins (+TIPs), such as, e.g., CLASP, EB1, etc., through their binding.
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