Fructose operon mutants of Spiroplasma citri

Laboratoire de Biologie Cellulaire et Moléculaire, Institut de Biologie Végétale Moléculaire, Institut National de la Recherche Agronomique and Université Victor Segalen Bordeaux 2, Domaine de la Grande Ferrade, BP 81, 33883 Villenave d’Ornon cedex, France 1 Author for correspondence: Frédéric Laigr...

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Published in:Microbiology (Society for General Microbiology) 2000-09, Vol.146 (9), p.2229-2236
Main Authors: Gaurivaud, Patrice, Laigret, Frederic, Verdin, Eric, Garnier, Monique, Bove, Joseph M
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Bacterial plant pathogens
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Bacteriology
Biological and medical sciences
Drug Resistance, Microbial
Fructose - genetics
Fructose - metabolism
Fundamental and applied biological sciences. Psychology
Gene Deletion
Genetics
Life Sciences
Microbiology
Microbiology and Parasitology
Molecular Sequence Data
Mutation
Operon
Phytopathology. Animal pests. Plant and forest protection
Recombination, Genetic
Repressor Proteins - genetics
Repressor Proteins - metabolism
Spiroplasma - drug effects
Spiroplasma - genetics
Spiroplasma - metabolism
Spiroplasma citri
Systematics. Structure, properties and multiplication. Genetics
Transcription Factors - chemistry
Transcription Factors - genetics
Transcription Factors - metabolism
Transcription, Genetic
Xylitol - pharmacology
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Summary:Laboratoire de Biologie Cellulaire et Moléculaire, Institut de Biologie Végétale Moléculaire, Institut National de la Recherche Agronomique and Université Victor Segalen Bordeaux 2, Domaine de la Grande Ferrade, BP 81, 33883 Villenave d’Ornon cedex, France 1 Author for correspondence: Frédéric Laigret. Tel: +33 5 56 84 31 50. Fax: +33 5 56 84 31 59. e-mail: laigret{at}bordeaux.inra.fr Fructose-negative mutants of Spiroplasma citri wild-type strain GII-3 were selected by two methods. The first method is based on the selection of spontaneous xylitol-resistant mutants, xylitol being a toxic fructose analogue. Five such mutants were obtained, but only one, xyl3, was unable to use fructose and had no phosphoenolpuryvate:fructose phosphotransferase system (fructose-PTS) activity. Amplification and sequencing of the fructose permease gene of mutant xyl3 revealed the presence of an adenylic insertion leading to a truncated permease. The second method is based on inactivation of fruA and/or fruK by homologous recombination involving one crossing-over between the chromosomal genes and inactivated genes carried by replicative plasmids. Fructose-negative mutants were obtained at a frequency of about 10%. Fructose-PTS activity and 1-phosphofructokinase activity were not detected in four representative mutants that were characterized (H31, H45, E38 and E53). In strain H31, Southern blot analysis and PCR showed that the result of homologous recombination was, as expected, the presence in the chromosome of two mutated fruA – fruK copies with the plasmid sequence in between. Only the mutated copy, under control of the fructose operon promoter, was transcribed. This work describes for the first time the use of two methods to obtain fructose-auxotrophic mutants of S. citri . The method involving homologous recombination is a general procedure for gene disruption in S. citri . Keywords: Spiroplasma citri , fructose operon, xylitol, gene disruption Abbreviations: 1-PFK, 1-phosphofructokinase; 6-PFK, 6-phosphofructokinase; fructose-PTS, phosphoenolpyruvate:fructose phosphotransferase system; Xyl R , xylitol resistant; wt, wild-type The GenBank accession number for the sequence reported in this paper is AF202665 .
ISSN:1350-0872
1465-2080
DOI:10.1099/00221287-146-9-2229