The wide host-range antibiotic resistance plasmid RP1 was transferred from Pseudomonas aeruginosa via Escherichia coli into Pseudomonas glycinea. The plasmid was then acquired by Pseudomonas phaseolicola both in vitro and in planta in Phaseolus limensis leaves and pods. This was the first step in the design of a model system to determine the possible epidemiological significance of antibiotic resistance plasmids in the control of plant disease.
AllingtonW. B.,
ChamberlainD. W.1949; Trends in the population of pathogenic bacteria within leaf tissues of susceptible and immune plant species. Phytopathology 39:656–660
ChatterjeeA. K.,
StarrM. P.1972a; Genetic transfer of episomic elements among Erwinia species and other enterobacteria: F′lac+. Journal of Bacteriology III:169–176
ChatterjeeA. K.,
StarrM. P.1972b; Transfer among Erwina spp. and other enterobacteria of antibiotic resistance carried on R factors. Journal of Bacteriology 112:576–584
CrossJ. E.,
KennedyB. W.,
LambertJ. W.,
CooperR. L.1966; Pathogenic races of the bacteria blight pathogen of soybeans, Pseudomonas glycinea. Plant Disease Reporter 50:557–560
DattaN.,
HedgesR. W.,
ShawE. J.,
SykesR. B.,
RichmondM. H.1971; Properties of an R factor from Pseudomonas aeruginosa. Journal of Bacteriology 108:1244–1249
DunicanL. K.,
TierneyA. B.1973; Transformation of an R-factor from Pseudomonas aeruginosa into Rhizobium trifolii. Molecular and General Genetics 126:187–190
GoodmanR. N.1972; Electrolyte leakage and membrane damage in relation to bacterial population, pH and ammonia production in tobacco leaf tissue inoculated with Pseudomonas pisi. Phytopathology 62:1327–1331
GuimaraesW. V.,
PanopoulosN. J.,
SchrothM. N.1973; R factor transfer from Pseudomonas aeruginosa to Pseudomonas syringae and to saprophytic pseudomonads. In 2nd International Congress of Plant Pathology University of Minnesota:Sept5–121973 Abstracts of Papers.
GuimaraesW. V.,
PanopoulosN. J.,
SchrothM. N.1974; New R factors transferred to plant pathogenic pseudomonads. American Phytopathological Society, Proceedings of the Annual Meetings p. 163
HollowayB. W.,
RichmondM. H.1973; R-factors used for genetic studies in strains of Pseudomonas aeruginosa and their origin. Genetical Research 21:103–105
KeenN. T.,
KennedyB. W.1974; Hydroxyphaseollin and related isoflavanoids in the hypersensitive resistant response of soybeans against Pseudomonas glycinea. Physiological Plant Pathology 4:173–185
LebenC.,
DaftS. C.,
SchmitthennerA. F.1968; Bacterial blight of soybeans: population levels of Pseudomonas glycinea in relation to symptom development. Phytopathology 58:1143–1146
LowburyE. J. L.,
KidsonA.,
LillyH. A.,
AyliffeG. A. J.,
JonesR. J.1969; Sensitivity of Pseudomonas aeruginosa to antibiotics: emergence of strains highly resistant to carbenicillin. Lancet ii:448–452
MattesR.,
BurkardtH. J.,
HeumannW.,
PhulerA.1973; R factors from Pseudomonas aeruginosainvestigated in Rhizobium lupini and Escherichia coli. Genetics 74:S175 abstract
O’GaraF.,
DunicanL. K.1973; Transformation and physical properties of R-factor RP4 transferred from Escherichia coli to Rhizobium trifolii. Journal of Bacteriology 116:1177–1180
OlsenR. H.,
ThomasD. D.1974; Characteristics and purification of PRRi, and RNA phage specific for the broad host rang5 Pseudomonas R1822 drug resistance plasmid. Journal of Virology 12:1560–1567
PanopoulosN. L.,
GuimaraesW. V.,
SchrothM. N.1973; Transfer of R factor carrying carbenicillin resistance to plant pathogenic pseudomonads. Phytopathology 63:1217 abstract
SchneiderH.,
FormalS. B.,
BaronL. S.1961; Experimental genetic recombination in vivo between Escherichia coli and Salmonella typhimurium. Journal of Experimental Medicine 114:141–148
SchrothM. N.,
VitanzaV. B.,
HildebrandD. C.1971; Pathogenic and nutritional variation in the halo blight group of flourescent pseudomonads of bean. Phytopathology 61:853–857
VidaverA. K.,
MathysM. L.,
ThomasM. E.,
SchusterM. L.1972; Bacteriocins of the phytopathogens Pseudomonas syringae, P. glycinea and P. phaseolicola. Canadian Journal of Microbiology 18:705–7I3