The effect of lipophilic weak acid on the segregational stability of TOL plasmids in Pseudomonas putida

G. M. Stephens; H. Dalton

The effect of lipophilic weak acid on the segregational stability of TOL plasmids in Pseudomonas putida

G. M. Stephens, H. Dalton

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

Abstract

The effect of various lipophilic weak acids on the stability of certain TOL plasmids was investigated. Benzoate induced deletion of TOL plasmid DNA in Pseudomonas putida MT15, followed by loss of the plasmid; this effect was pH- and concentration-dependent, suggesting that undissociated benzoic acid was a more effective curing agent than the benzoate anion. Plasmid loss always approached a frequency of 100% after a lag and apparently depended on the prior occurrence of deletions, although deleted plasmid was stably maintained in the absence of the acid. m-Toluate, acetate and butyrate also induced deletions and plasmid loss at high frequencies, although these acids were less effective than benzoate. Benzoate inhibited the growth of plasmid-containing cells rather than permitting faster growth of cured cells on benzoate. Similar results were obtained with P. putida strains MT20 and MT84, which contain different TOL plasmids. We suggest that lipophilic weak acids induced deletions, possibly by excision of a transposon-like region, and disrupted the segregation of deleted plasmid.

Original language	English
Pages (from-to)	1891-1899
Number of pages	8
Journal	Journal of General Microbiology
Volume	133
Issue number	7
Publication status	Published - 1987

Keywords

Pseudomonas putida (TOL plasmids of, lipophilic acids affect on segregational stability of)
Plasmid and Episome (TOL, of Pseudomonas putida, lipophilic acids affect on segregational stability of)
Gene and Genetic element Role: BIOL (Biological study) (transposon, excision of, lipophilic acid-mediated, TOL plasmids loss from Pseudomonas putida in relation to)
Pseudomonas TOL plasmid curing lipophilic acid
benzoate TOL plasmid segregation instability Pseudomonas
toluate TOL plasmid segregation instability Pseudomonas
acetate TOL plasmid segregation instability Pseudomonas
butyrate TOL plasmid segregation instability Pseudomonas

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title = "The effect of lipophilic weak acid on the segregational stability of TOL plasmids in Pseudomonas putida",

abstract = "The effect of various lipophilic weak acids on the stability of certain TOL plasmids was investigated. Benzoate induced deletion of TOL plasmid DNA in Pseudomonas putida MT15, followed by loss of the plasmid; this effect was pH- and concentration-dependent, suggesting that undissociated benzoic acid was a more effective curing agent than the benzoate anion. Plasmid loss always approached a frequency of 100% after a lag and apparently depended on the prior occurrence of deletions, although deleted plasmid was stably maintained in the absence of the acid. m-Toluate, acetate and butyrate also induced deletions and plasmid loss at high frequencies, although these acids were less effective than benzoate. Benzoate inhibited the growth of plasmid-containing cells rather than permitting faster growth of cured cells on benzoate. Similar results were obtained with P. putida strains MT20 and MT84, which contain different TOL plasmids. We suggest that lipophilic weak acids induced deletions, possibly by excision of a transposon-like region, and disrupted the segregation of deleted plasmid.",

keywords = "Pseudomonas putida (TOL plasmids of, lipophilic acids affect on segregational stability of), Plasmid and Episome (TOL, of Pseudomonas putida, lipophilic acids affect on segregational stability of), Gene and Genetic element Role: BIOL (Biological study) (transposon, excision of, lipophilic acid-mediated, TOL plasmids loss from Pseudomonas putida in relation to), Pseudomonas TOL plasmid curing lipophilic acid, benzoate TOL plasmid segregation instability Pseudomonas, toluate TOL plasmid segregation instability Pseudomonas, acetate TOL plasmid segregation instability Pseudomonas, butyrate TOL plasmid segregation instability Pseudomonas",

author = "Stephens, {G. M.} and H. Dalton",

note = "CAN 107:128061 3-1 Biochemical Genetics Dep. Biol. Sci.,University of Warwick,Coventry,UK. Journal 0022-1287 written in English. 64-19-7 (Acetic acid); 65-85-0 (Benzoic acid); 107-92-6 (Butyric acid); 766-76-7 (Benzoate anion); 16887-59-5 (m-Toluate) Role: BIOL (Biological study) (TOL plasmid segregational stability in Pseudomonas putida response to)",

year = "1987",

language = "English",

volume = "133",

pages = "1891--1899",

journal = "Journal of General Microbiology",

issn = "0022-1287",

publisher = "Microbiology Society",

number = "7",

}

TY - JOUR

T1 - The effect of lipophilic weak acid on the segregational stability of TOL plasmids in Pseudomonas putida

AU - Stephens, G. M.

AU - Dalton, H.

N1 - CAN 107:128061 3-1 Biochemical Genetics Dep. Biol. Sci.,University of Warwick,Coventry,UK. Journal 0022-1287 written in English. 64-19-7 (Acetic acid); 65-85-0 (Benzoic acid); 107-92-6 (Butyric acid); 766-76-7 (Benzoate anion); 16887-59-5 (m-Toluate) Role: BIOL (Biological study) (TOL plasmid segregational stability in Pseudomonas putida response to)

PY - 1987

Y1 - 1987

N2 - The effect of various lipophilic weak acids on the stability of certain TOL plasmids was investigated. Benzoate induced deletion of TOL plasmid DNA in Pseudomonas putida MT15, followed by loss of the plasmid; this effect was pH- and concentration-dependent, suggesting that undissociated benzoic acid was a more effective curing agent than the benzoate anion. Plasmid loss always approached a frequency of 100% after a lag and apparently depended on the prior occurrence of deletions, although deleted plasmid was stably maintained in the absence of the acid. m-Toluate, acetate and butyrate also induced deletions and plasmid loss at high frequencies, although these acids were less effective than benzoate. Benzoate inhibited the growth of plasmid-containing cells rather than permitting faster growth of cured cells on benzoate. Similar results were obtained with P. putida strains MT20 and MT84, which contain different TOL plasmids. We suggest that lipophilic weak acids induced deletions, possibly by excision of a transposon-like region, and disrupted the segregation of deleted plasmid.

AB - The effect of various lipophilic weak acids on the stability of certain TOL plasmids was investigated. Benzoate induced deletion of TOL plasmid DNA in Pseudomonas putida MT15, followed by loss of the plasmid; this effect was pH- and concentration-dependent, suggesting that undissociated benzoic acid was a more effective curing agent than the benzoate anion. Plasmid loss always approached a frequency of 100% after a lag and apparently depended on the prior occurrence of deletions, although deleted plasmid was stably maintained in the absence of the acid. m-Toluate, acetate and butyrate also induced deletions and plasmid loss at high frequencies, although these acids were less effective than benzoate. Benzoate inhibited the growth of plasmid-containing cells rather than permitting faster growth of cured cells on benzoate. Similar results were obtained with P. putida strains MT20 and MT84, which contain different TOL plasmids. We suggest that lipophilic weak acids induced deletions, possibly by excision of a transposon-like region, and disrupted the segregation of deleted plasmid.

KW - Pseudomonas putida (TOL plasmids of, lipophilic acids affect on segregational stability of)

KW - Plasmid and Episome (TOL, of Pseudomonas putida, lipophilic acids affect on segregational stability of)

KW - Gene and Genetic element Role: BIOL (Biological study) (transposon, excision of, lipophilic acid-mediated, TOL plasmids loss from Pseudomonas putida in relation to)

KW - Pseudomonas TOL plasmid curing lipophilic acid

KW - benzoate TOL plasmid segregation instability Pseudomonas

KW - toluate TOL plasmid segregation instability Pseudomonas

KW - acetate TOL plasmid segregation instability Pseudomonas

KW - butyrate TOL plasmid segregation instability Pseudomonas

M3 - Article

SN - 0022-1287

VL - 133

SP - 1891

EP - 1899

JO - Journal of General Microbiology

JF - Journal of General Microbiology

IS - 7

ER -

The effect of lipophilic weak acid on the segregational stability of TOL plasmids in Pseudomonas putida

Abstract

Keywords

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