Fu-Shyan Wen scite author profile

Molecular biological approaches were developed to monitor the potential biohydrogen-producing clostridia in an anaerobic semisolid fermentation system that used brewery yeast waste as the fermentation substrate. The denaturing gradient gel electrophoresis with 16S rDNA gene-targeted polymerase chain reaction (PCR) analysis was employed to confirm the existence of clostridia in the system. Remarkably, reproducible nucleotide sequences of clostridia were obtained from different hydrogen production stages by using hydrogenase gene-targeted reverse transcription (RT)-PCR. These RNA-based information suggested that the predominant hydrogen-producing strains possess either a specific Clostridium pasteurianum-like or a specific Clostridium saccharobutylicum-like hydrogenase sequence. Comparison of the hydrogenase gene-targeted sequence profiles between PCR and RT-PCR revealed that the specific C. pasteurianum-like hydrogenase harboring bacterial strains were dominant in both mRNA and bacterial population level. On the other hand, the specific C. saccharobutylicum-like hydrogenase harboring strains expressed high level of hydrogenase mRNA but may not be dominant in population. Furthermore, quantitative real-time RT-PCR analysis showed the expression pattern of the clostridial hydrogenase mRNA and may serve as an activity index for the system.

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Clostridium strain co-cultures for biohydrogen production enhancement from condensed molasses fermentation solubles

Hsiao

Chang

et al. 2009

International Journal of Hydrogen Energy

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Flow-FISH analysis and isolation of clostridial strains in an anaerobic semi-solid bio-hydrogen producing system by hydrogenase gene target

Jen

Chou

Hsu

et al. 2007

Appl Microbiol Biotechnol

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By using hydrogenase gene-targeted polymerase chain reaction (PCR) and reverse transcriptase PCR (RT-PCR), the predominant clostridial hydrogenase that may have contributed to biohydrogen production in an anaerobic semi-solid fermentation system has been monitored. The results revealed that a Clostridium pasteurianum-like hydrogenase gene sequence can be detected by both PCR and RT-PCR and suggested that the bacterial strain possessing this specific hydrogenase gene was dominant in hydrogenase activity and population. Whereas another Clostridium saccharobutylicum-like hydrogenase gene can be detected only by RT-PCR and suggest that the bacterial strain possessing this specific hydrogenase gene may be less dominant in population. In this study, hydrogenase gene-targeted fluorescence in situ hybridization (FISH) and flow cytometry analysis confirmed that only 6.6% of the total eubacterial cells in a hydrogen-producing culture were detected to express the C. saccharobutylicum-like hydrogenase, whereas the eubacteria that expressed the C. pasteurianum-like hydrogenase was 25.6%. A clostridial strain M1 possessing the identical nucleotide sequences of the C. saccharobutylicum-like hydrogenase gene was then isolated and identified as Clostridium butyricum based on 16S rRNA sequence. Comparing to the original inoculum with mixed microflora, either using C. butyricum M1 as the only inoculum or co-culturing with a Bacillus thermoamylovorans isolate will guarantee an effective and even better production of hydrogen from brewery yeast waste.

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Molecular monitoring of microbes in a continuous hydrogen-producing system with different hydraulic retention time

Chang

Wen

et al. 2008

International Journal of Hydrogen Energy

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Characterization of two novel filamentous phages of Xanthomonas

Lin¹,

You²,

Huang³

et al. 1994

Journal of General Virology

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Two filamentous phages of Xanthomonas campestris pv.vesicatoria and Xanthomonas oryzae pv. oryzae were isolated and designated ~bXv and ~bXo, respectively. They were similar to other filamentous phages of Xanthomonas in (i) shape, (ii) restrictive host specificity, (iii) high stability, (iv) an ssDNA genome, (v) a dsDNA as the replicative form (RF), (vi) propagation without lysis of host cells and (vii) ability to integrate into the host chromosome. These phages showed sequence homology to filamentous phage ~bLf ofX. c. pv. campestris. ~bXv was inactivated by antisera against q~Xv, ~bXo and ~bLf, whereas ~bXo and ~bLf were inactivated only by their respective antisera and the anti-~bXv serum. Both the single-stranded phage DNAs and the RF DNAs of q~Xv, ~bXo and ~bLf were able to transfect X. c. pv. vesicatoria, X. o. pv. oryzae and X. c. pv. campestris. Physical maps of ~bXv and ~bXo were constructed for the RF DNAs.Genome sizes were estimated, based on mapping data, to be 6"8 kb for ~bXv and 7-6 kb for ~bXo, larger than that of the ~bLf genome (6.0 kb). The difference in genome sizes appeared to result from insertions of large DNA fragments. These fragments and the regions mediating integration were localized in the physical maps.

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Fu-Shyan Wen

Molecular detection of the clostridia in an anaerobic biohydrogen fermentation system by hydrogenase mRNA-targeted reverse transcription-PCR

Clostridium strain co-cultures for biohydrogen production enhancement from condensed molasses fermentation solubles

Flow-FISH analysis and isolation of clostridial strains in an anaerobic semi-solid bio-hydrogen producing system by hydrogenase gene target

Molecular monitoring of microbes in a continuous hydrogen-producing system with different hydraulic retention time

Characterization of two novel filamentous phages of Xanthomonas

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