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Ananda M. Chakrabarty
Researcher at General Electric
Publications - 31
Citations - 1928
Ananda M. Chakrabarty is an academic researcher from General Electric. The author has contributed to research in topics: Plasmid & Pseudomonas putida. The author has an hindex of 19, co-authored 31 publications receiving 1903 citations. Previous affiliations of Ananda M. Chakrabarty include University of Illinois at Urbana–Champaign.
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Cloning of genes controlling alginate biosynthesis from a mucoid cystic fibrosis isolate of Pseudomonas aeruginosa.
TL;DR: Mucoid strains of Pseudomonas aeruginosa isolated from the sputum of cystic fibrosis patients produce copious quantities of an exopolysaccharide known as alginic acid, which has been difficult to isolate individual structural gene mutants defective in alginate synthesis.
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A Transmissible Plasmid Controlling Camphor Oxidation in Pseudomonas Putida
TL;DR: An hypothesis is presented of a general mechanism for the formation and maintenance of metabolic diversity, and two gene linkage groups are shown for the reactions before and after isobutyrate.
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Genetic Basis of the Biodegradation of Salicylate in Pseudomonas
TL;DR: The gene cluster can be eliminated from some salicylate-positive cells by treatment with mitomycin C and appears to exist inside the cell as an extrachromosomal element, termed the SAL plasmid, which can be transferred by conjugation from P. putida R1 to a variety of other Pseudomonas species.
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Chromate resistance plasmid in Pseudomonas fluorescens.
TL;DR: Chromate resistance of Pseudomonas fluorescens LB300, isolated from chromium-contaminated sediment in the upper Hudson River, was found to be plasmid specified, and transformation of such strains with purified pLHB1 plasmids DNA resulted in a simultaneous re-acquisition of the chromate resistance phenotype and theplasmid.
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Common induction and regulation of biphenyl, xylene/toluene, and salicylate catabolism in Pseudomonas paucimobilis.
TL;DR: Evidence is presented that the catabolism of biphenyl, xylene/toluene, and salicylate is regulated by a common unit in this strain of Pseudomonas paucimobilis, and the meta pathway enzymes for the oxidative degradation of these compounds are specifically induced.