Inhibition of reverse transcription in vivo by elevated manganese ion concentration

Eric C. Bolton; Albert S. Mildvan; Jef D. Boeke

doi:10.1016/S1097-2765(02)00495-1

Inhibition of reverse transcription in vivo by elevated manganese ion concentration

Eric C. Bolton, Albert S. Mildvan, Jef D. Boeke

School of Medicine

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

58 Scopus citations

Abstract

Mutations in PMR1, a yeast gene encoding a calcium/manganese exporter, dramatically decrease Ty1 retro-transposition. Ty1 cDNA is reduced in pmr1 mutant cells, despite normal levels of Ty1 RNA and proteins. The transposition defect results from Mn²⁺ accumulation that inhibits reverse transcription. Cytoplasmic accumulation of Mn²⁺ in pmr1 cells may directly affect reverse transcriptase (RT) activity. Trace amounts of Mn²⁺ potently inhibit Ty1 RT and HIV-1 RT in vitro when the preferred cation, Mg²⁺, is present. Both Mn²⁺ and Mg²⁺ alone activate Ty1 RT cooperatively with Hill coefficients of 2, providing kinetic evidence for a dual divalent cation requirement at the RT active site. We propose that occupancy of the B site is the major determinant of catalytic activity and that Mn²⁺ at this site greatly reduces catalytic activity.

Original language	English (US)
Pages (from-to)	879-889
Number of pages	11
Journal	Molecular cell
Volume	9
Issue number	4
DOIs	https://doi.org/10.1016/S1097-2765(02)00495-1
State	Published - 2002

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/S1097-2765(02)00495-1

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title = "Inhibition of reverse transcription in vivo by elevated manganese ion concentration",

abstract = "Mutations in PMR1, a yeast gene encoding a calcium/manganese exporter, dramatically decrease Ty1 retro-transposition. Ty1 cDNA is reduced in pmr1 mutant cells, despite normal levels of Ty1 RNA and proteins. The transposition defect results from Mn2+ accumulation that inhibits reverse transcription. Cytoplasmic accumulation of Mn2+ in pmr1 cells may directly affect reverse transcriptase (RT) activity. Trace amounts of Mn2+ potently inhibit Ty1 RT and HIV-1 RT in vitro when the preferred cation, Mg2+, is present. Both Mn2+ and Mg2+ alone activate Ty1 RT cooperatively with Hill coefficients of 2, providing kinetic evidence for a dual divalent cation requirement at the RT active site. We propose that occupancy of the B site is the major determinant of catalytic activity and that Mn2+ at this site greatly reduces catalytic activity.",

author = "Bolton, {Eric C.} and Mildvan, {Albert S.} and Boeke, {Jef D.}",

note = "Funding Information: We thank the members of the Boeke laboratory for suggestions and reagents. We thank Karen Chapman for isolating the original pmr1 mutant (KM255). We thank Forrest Spencer for the yeast genomic library as well as John McCusker and Rajini Rao for plasmid gifts and Rafael Irizarry for curve-fitting assistance. We especially thank Charles Dann III and Daniel Leahy for guidance and use of their FPLC. The following reagent was obtained through the AIDS Research and Reference Reagent Program, Division of AIDS, NIAID, NIH: HIV-1 RT from Dr. Stuart Le Grice and Dr. Kathryn Howard. This work was supported by NIH grant GM 36481 to J.D.B.",

year = "2002",

doi = "10.1016/S1097-2765(02)00495-1",

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T1 - Inhibition of reverse transcription in vivo by elevated manganese ion concentration

AU - Bolton, Eric C.

AU - Mildvan, Albert S.

AU - Boeke, Jef D.

N1 - Funding Information: We thank the members of the Boeke laboratory for suggestions and reagents. We thank Karen Chapman for isolating the original pmr1 mutant (KM255). We thank Forrest Spencer for the yeast genomic library as well as John McCusker and Rajini Rao for plasmid gifts and Rafael Irizarry for curve-fitting assistance. We especially thank Charles Dann III and Daniel Leahy for guidance and use of their FPLC. The following reagent was obtained through the AIDS Research and Reference Reagent Program, Division of AIDS, NIAID, NIH: HIV-1 RT from Dr. Stuart Le Grice and Dr. Kathryn Howard. This work was supported by NIH grant GM 36481 to J.D.B.

PY - 2002

Y1 - 2002

N2 - Mutations in PMR1, a yeast gene encoding a calcium/manganese exporter, dramatically decrease Ty1 retro-transposition. Ty1 cDNA is reduced in pmr1 mutant cells, despite normal levels of Ty1 RNA and proteins. The transposition defect results from Mn2+ accumulation that inhibits reverse transcription. Cytoplasmic accumulation of Mn2+ in pmr1 cells may directly affect reverse transcriptase (RT) activity. Trace amounts of Mn2+ potently inhibit Ty1 RT and HIV-1 RT in vitro when the preferred cation, Mg2+, is present. Both Mn2+ and Mg2+ alone activate Ty1 RT cooperatively with Hill coefficients of 2, providing kinetic evidence for a dual divalent cation requirement at the RT active site. We propose that occupancy of the B site is the major determinant of catalytic activity and that Mn2+ at this site greatly reduces catalytic activity.

AB - Mutations in PMR1, a yeast gene encoding a calcium/manganese exporter, dramatically decrease Ty1 retro-transposition. Ty1 cDNA is reduced in pmr1 mutant cells, despite normal levels of Ty1 RNA and proteins. The transposition defect results from Mn2+ accumulation that inhibits reverse transcription. Cytoplasmic accumulation of Mn2+ in pmr1 cells may directly affect reverse transcriptase (RT) activity. Trace amounts of Mn2+ potently inhibit Ty1 RT and HIV-1 RT in vitro when the preferred cation, Mg2+, is present. Both Mn2+ and Mg2+ alone activate Ty1 RT cooperatively with Hill coefficients of 2, providing kinetic evidence for a dual divalent cation requirement at the RT active site. We propose that occupancy of the B site is the major determinant of catalytic activity and that Mn2+ at this site greatly reduces catalytic activity.

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Inhibition of reverse transcription in vivo by elevated manganese ion concentration

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