Structure, function, and regulation of myosin 1C

Barbara Barylko; Gwanghyun Jung; Joseph P. Albanesi

doi:10.18388/abp.2005_3450

Structure, function, and regulation of myosin 1C

Barbara Barylko, Gwanghyun Jung, Joseph P. Albanesi

Research output: Contribution to journal › Review article › peer-review

36 Scopus citations

Abstract

Myosin 1C, the first mammalian single-headed myosin to be purified, cloned, and sequenced, has been implicated in the translocation of plasma membrane channels and transporters. Like other forms of myosin I (of which eight exist in humans) myosin 1C consists of motor, neck, and tail domains. The neck domain binds calmodulins more tightly in the absence than in the presence of Ca ²⁺. Release of calmodulins exposes binding sites for anionic lipids, particularly phosphoinositides. The tail domain, which has an isoelectic point of 10.5, interacts with anionic lipid headgroups. When both neck and tail lipid binding sites are engaged, the myosin associates essentially irreversibly with membranes. Despite this tight membrane binding, it is widely believed that myosin 1C docking proteins are necessary for targeting the enzyme to specific subcellular location. The search for these putative myosin 1C receptors is an active area of research.

Original language	English (US)
Pages (from-to)	373-380
Number of pages	8
Journal	Acta Biochimica Polonica
Volume	52
Issue number	2
DOIs	https://doi.org/10.18388/abp.2005_3450
State	Published - 2005

Keywords

Domain structure
Membrane protein translocation
Myosin 1

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.18388/abp.2005_3450

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abstract = "Myosin 1C, the first mammalian single-headed myosin to be purified, cloned, and sequenced, has been implicated in the translocation of plasma membrane channels and transporters. Like other forms of myosin I (of which eight exist in humans) myosin 1C consists of motor, neck, and tail domains. The neck domain binds calmodulins more tightly in the absence than in the presence of Ca 2+. Release of calmodulins exposes binding sites for anionic lipids, particularly phosphoinositides. The tail domain, which has an isoelectic point of 10.5, interacts with anionic lipid headgroups. When both neck and tail lipid binding sites are engaged, the myosin associates essentially irreversibly with membranes. Despite this tight membrane binding, it is widely believed that myosin 1C docking proteins are necessary for targeting the enzyme to specific subcellular location. The search for these putative myosin 1C receptors is an active area of research.",

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AU - Barylko, Barbara

AU - Jung, Gwanghyun

AU - Albanesi, Joseph P.

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AB - Myosin 1C, the first mammalian single-headed myosin to be purified, cloned, and sequenced, has been implicated in the translocation of plasma membrane channels and transporters. Like other forms of myosin I (of which eight exist in humans) myosin 1C consists of motor, neck, and tail domains. The neck domain binds calmodulins more tightly in the absence than in the presence of Ca 2+. Release of calmodulins exposes binding sites for anionic lipids, particularly phosphoinositides. The tail domain, which has an isoelectic point of 10.5, interacts with anionic lipid headgroups. When both neck and tail lipid binding sites are engaged, the myosin associates essentially irreversibly with membranes. Despite this tight membrane binding, it is widely believed that myosin 1C docking proteins are necessary for targeting the enzyme to specific subcellular location. The search for these putative myosin 1C receptors is an active area of research.

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Structure, function, and regulation of myosin 1C

Abstract

Keywords

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