Requirement of Negative Residues, Asp 95 and Asp 105, in S2 on Membrane Integration of a Voltage-dependent K+ Channel, KAT1

Yoko Sato; Yoshihiro Hosoo; Masao Sakaguchi; Nobuyuki Uozumi

doi:10.1271/bbb.67.923

Requirement of Negative Residues, Asp 95 and Asp 105, in S2 on Membrane Integration of a Voltage-dependent K⁺ Channel, KAT1

Yoko Sato, Yoshihiro Hosoo, Masao Sakaguchi, Nobuyuki Uozumi

Research output: Contribution to journal › Article › peer-review

Abstract

Voltage-dependent K⁺ channels consist of a voltage-sensing region and a pore-forming region. Here we have identified the negative residues of the second transmembrane segment in the plant voltage-dependent K⁺ channel, KAT1, which involves the function of voltage sensing. Point mutations at D95 and D105 but not D89 and D116 failed to complement the K⁺ uptake deficient properties of the mutant yeast. In vitro translation and translocation experiments showed that the membrane integration of the third and fourth segments involving voltage sensor were impaired by the replacement of D95 or D105 by serine. These data show that both the residues play a crucial role in the membrane topogenesis of the voltage sensor in KAT1.

Original language	English
Pages (from-to)	923-926
Number of pages	4
Journal	Bioscience, Biotechnology and Biochemistry
Volume	67
Issue number	4
DOIs	https://doi.org/10.1271/bbb.67.923
Publication status	Published - 2003 Jan 1
Externally published	Yes

Keywords

Channel
Potassium
Topogenesis
Topology
Transmembrane

ASJC Scopus subject areas

Biotechnology
Analytical Chemistry
Biochemistry
Applied Microbiology and Biotechnology
Molecular Biology
Organic Chemistry

Access to Document

10.1271/bbb.67.923

Cite this

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abstract = "Voltage-dependent K+ channels consist of a voltage-sensing region and a pore-forming region. Here we have identified the negative residues of the second transmembrane segment in the plant voltage-dependent K+ channel, KAT1, which involves the function of voltage sensing. Point mutations at D95 and D105 but not D89 and D116 failed to complement the K+ uptake deficient properties of the mutant yeast. In vitro translation and translocation experiments showed that the membrane integration of the third and fourth segments involving voltage sensor were impaired by the replacement of D95 or D105 by serine. These data show that both the residues play a crucial role in the membrane topogenesis of the voltage sensor in KAT1.",

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AU - Hosoo, Yoshihiro

AU - Sakaguchi, Masao

AU - Uozumi, Nobuyuki

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AB - Voltage-dependent K+ channels consist of a voltage-sensing region and a pore-forming region. Here we have identified the negative residues of the second transmembrane segment in the plant voltage-dependent K+ channel, KAT1, which involves the function of voltage sensing. Point mutations at D95 and D105 but not D89 and D116 failed to complement the K+ uptake deficient properties of the mutant yeast. In vitro translation and translocation experiments showed that the membrane integration of the third and fourth segments involving voltage sensor were impaired by the replacement of D95 or D105 by serine. These data show that both the residues play a crucial role in the membrane topogenesis of the voltage sensor in KAT1.

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