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United States Department of Agriculture

Agricultural Research Service

Title: Rapid Genetic Characterization of Pha Synthase and Its Applications

Authors
item Solaiman, Daniel
item Catara, Vittoria - UNIV OF CATANIA
item Greco, Sebastiana - PST DELLA SICILIA
item Ashby, Richard
item Foglia, Thomas

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: July 15, 2004
Publication Date: August 22, 2004
Citation: Solaiman, D., Catara, V., Greco, S., Ashby, R.D., Foglia, T.A. 2004. Rapid genetic characterization of pha synthase and its applications [abstract]. International Symposium on Biological Polyesters. p. 40.

Technical Abstract: Microorganisms containing short-chain-length (scl-) or medium-chain-length (mcl-) poly(hydroxyalkanoates) (PHA) are commonly identified by staining methods using lipophilic reagents. These methods provide powerful means for general screening of organisms actively producing and accumulating PHAs. The Southern blot hybridization method additionally allows the identification of potential PHA-producing microorganisms. PCR-based detection methods further afford rapid and sensitive means to screen for PHA biosynthesis genes. We have developed PCR assays for simultaneous or individual detection of the mcl-PHA synthase genes of Pseudomonas. The amplicons (~ 0.5 kb) can be directly sequenced or used as probes for hybridization studies. The sequence information can further be used to initiate chromosome walking for eventual cloning of the complete PHA biosynthesis operon. We have also used amplification pattern and sequence data to differentiate sub-groups of P. corrugata and P. mediterrania. Other researchers reported PCR methods for the detection of scl-PHA and of Bacillus spp., thus greatly expanding the types of PHA synthase gene and the organisms that can be characterized by this approach. The vast sequence information obtainable through PCR-based studies of various PHA synthase operons should facilitate the identification or construction of new PHA synthases capable of synthesizing novel PHAs.

Last Modified: 12/20/2014
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