Der-Shyan Sheu scite author profile

Colony PCR and semi-nested PCR techniques were employed for screening polyhydroxyalkanoate (PHA) producers isolated from the environment. Three degenerate primers were designed based on multiple sequence alignment results and were used as PCR primers to detect PHA synthase genes. Optimized colony PCR conditions were achieved by adding 3 % DMSO combined with 1 M betaine to the reaction mixture. The sensitivity limit of the colony PCR was 1i 10 5 viable cells for Ralstonia eutropha. Nineteen PHA-positive bacteria were used to evaluate this PCR protocol ; fifteen of the nineteen could be detected by colony PCR, and the other four could be detected by applying semi-nested PCR detection following colony PCR. In a preliminary screening project, 38 PHApositive strains were isolated from environmental samples by applying the PCR protocol, and their phenotype was further confirmed by Nile blue A staining assay. By combining the colony PCR and semi-nested PCR techniques, a rapid, reliable and highly accurate detection method has been developed for detecting PHA producers. This protocol is suitable for screening large numbers of environmental isolates. The PHA accumulation ability of well-separated colonies isolated from environmental samples can be directly validated by PCR with no further culturing or chromosomal DNA extraction procedures. In addition to its application to the screening of wild-type isolates, the individual PCR-amplified product is also suitable as a specific probe for PHA operon cloning. The results suggest that the application of this PCR protocol for rapid detection of PHA producers from the environment is plausible.

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Seasonal variations of unicellular diazotroph groups A and B, and Trichodesmium in the northern South China Sea and neighboring upstream Kuroshio Current

Shiozaki

Chen

Lin

et al. 2014

Continental Shelf Research

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Altering the Substrate Specificity of Polyhydroxyalkanoate Synthase 1 Derived from Pseudomonas putida GPo1 by Localized Semirandom Mutagenesis

Sheu

Lee

2004

J Bacteriol

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The substrate specificity of polyhydroxyalkanoate (PHA) synthase 1 (PhaC1 Pp , class II) from Pseudomonas putida GPo1 (formerly known as Pseudomonas oleovorans GPo1) was successfully altered by localized semirandom mutagenesis. The enzyme evolution system introduces multiple point mutations, designed on the basis of the conserved regions of the PHA synthase family, by using PCR-based gene fragmentation with degenerate primers and a reassembly PCR. According to the opaqueness of the colony, indicating the accumulation of large amounts of PHA granules in the cells, 13 PHA-accumulating candidates were screened from a mutant library, with Pseudomonas putida GPp104 PHA ؊ as the host. The in vivo substrate specificity of five candidates, L1-6, D7-47, PS-A2, PS-C2, and PS-E1, was evaluated by the heterologous expression in Ralstonia eutropha PHB ؊ 4 supplemented with octanoate. Notably, the amount of 3-hydroxybutyrate (short-chain-length [SCL] 3-hydroxyalkanoate [3-HA] unit) was drastically increased in recombinants that expressed evolved mutant enzymes L1-6, PS-A2, PS-C2, and PS-E1 (up to 60, 36, 50, and 49 mol%, respectively), relative to the amount in the wild type (12 mol%). Evolved enzyme PS-E1, in which 14 amino acids had been changed and which was heterologously expressed in R. eutropha PHB ؊ 4, not only exhibited broad substrate specificity (49 mol% SCL 3-HA and 51 mol% medium-chain-length [MCL] 3-HA) but also conferred the highest PHA production (45% dry weight) among the candidates. The 3-HA and MCL 3-HA units of the PHA produced by R. eutropha PHB ؊ 4/pPS-E1 were randomly copolymerized in a single polymer chain, as analytically confirmed by acetone fractionation and the 13 C nuclear magnetic resonance spectrum.

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Thermophilic bacterium Caldimonas taiwanensis produces poly(3-hydroxybutyrate-co-3-hydroxyvalerate) from starch and valerate as carbon sources

Sheu

Chen

Yang

et al. 2009

Enzyme and Microbial Technology

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Rapid differentiation between short-chain-length and medium-chain-length polyhydroxyalkanoate-accumulating bacteria with spectrofluorometry

Sheu

Lee

2003

Journal of Microbiological Methods

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Der-Shyan Sheu

Rapid detection of polyhydroxyalkanoate-accumulating bacteria isolated from the environment by colony PCR

Seasonal variations of unicellular diazotroph groups A and B, and Trichodesmium in the northern South China Sea and neighboring upstream Kuroshio Current

Altering the Substrate Specificity of Polyhydroxyalkanoate Synthase 1 Derived from Pseudomonas putida GPo1 by Localized Semirandom Mutagenesis

Thermophilic bacterium Caldimonas taiwanensis produces poly(3-hydroxybutyrate-co-3-hydroxyvalerate) from starch and valerate as carbon sources

Rapid differentiation between short-chain-length and medium-chain-length polyhydroxyalkanoate-accumulating bacteria with spectrofluorometry

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