The intracellular signal for induction of resistance to alkylating agents in E. coli

Ian Teo; Barbara Sedgwick; Michael W. Kilpatrick; Tommie V. McCarthy; Tomas Lindahl

doi:10.1016/0092-8674(86)90396-X

The intracellular signal for induction of resistance to alkylating agents in E. coli

Ian Teo
, Barbara Sedgwick
, Michael W. Kilpatrick
, Tommie V. McCarthy
, Tomas Lindahl

Cancer Research UK

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

Abstract

The E. coli ada gene positively controls its own expression and that of other genes (alkA, alkB, aidB) involved in repair of DNA alkylation damage. The cloned ada and alkA genes and purified Ada protein have been used in cell-free systems to identify the inducing signal. Self-methylation of the Ada protein by transfer of a methyl group from a phosphotriester in alkylated DNA to a cysteine residue in the protein converts it to an activator of transcription. The covalently modified Ada protein binds specifically to promoter regions containing the sequence d(AAANNAAAGCGCA) immediately upstream of the RNA polymerase binding sites. This is apparently the first example of conversion of a regulatory gene product to a transcriptional activator by a posttranslational modification event.

Original language	English
Pages (from-to)	315-324
Number of pages	10
Journal	Cell
Volume	45
Issue number	2
DOIs	https://doi.org/10.1016/0092-8674(86)90396-X
Publication status	Published - 25 Apr 1986
Externally published	Yes

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title = "The intracellular signal for induction of resistance to alkylating agents in E. coli",

abstract = "The E. coli ada gene positively controls its own expression and that of other genes (alkA, alkB, aidB) involved in repair of DNA alkylation damage. The cloned ada and alkA genes and purified Ada protein have been used in cell-free systems to identify the inducing signal. Self-methylation of the Ada protein by transfer of a methyl group from a phosphotriester in alkylated DNA to a cysteine residue in the protein converts it to an activator of transcription. The covalently modified Ada protein binds specifically to promoter regions containing the sequence d(AAANNAAAGCGCA) immediately upstream of the RNA polymerase binding sites. This is apparently the first example of conversion of a regulatory gene product to a transcriptional activator by a posttranslational modification event.",

author = "Ian Teo and Barbara Sedgwick and Kilpatrick, \{Michael W.\} and McCarthy, \{Tommie V.\} and Tomas Lindahl",

year = "1986",

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T1 - The intracellular signal for induction of resistance to alkylating agents in E. coli

AU - Teo, Ian

AU - Sedgwick, Barbara

AU - Kilpatrick, Michael W.

AU - McCarthy, Tommie V.

AU - Lindahl, Tomas

PY - 1986/4/25

Y1 - 1986/4/25

N2 - The E. coli ada gene positively controls its own expression and that of other genes (alkA, alkB, aidB) involved in repair of DNA alkylation damage. The cloned ada and alkA genes and purified Ada protein have been used in cell-free systems to identify the inducing signal. Self-methylation of the Ada protein by transfer of a methyl group from a phosphotriester in alkylated DNA to a cysteine residue in the protein converts it to an activator of transcription. The covalently modified Ada protein binds specifically to promoter regions containing the sequence d(AAANNAAAGCGCA) immediately upstream of the RNA polymerase binding sites. This is apparently the first example of conversion of a regulatory gene product to a transcriptional activator by a posttranslational modification event.

AB - The E. coli ada gene positively controls its own expression and that of other genes (alkA, alkB, aidB) involved in repair of DNA alkylation damage. The cloned ada and alkA genes and purified Ada protein have been used in cell-free systems to identify the inducing signal. Self-methylation of the Ada protein by transfer of a methyl group from a phosphotriester in alkylated DNA to a cysteine residue in the protein converts it to an activator of transcription. The covalently modified Ada protein binds specifically to promoter regions containing the sequence d(AAANNAAAGCGCA) immediately upstream of the RNA polymerase binding sites. This is apparently the first example of conversion of a regulatory gene product to a transcriptional activator by a posttranslational modification event.

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EP - 324

JO - Cell

JF - Cell

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ER -

The intracellular signal for induction of resistance to alkylating agents in E. coli

Abstract

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