PCR-based DGGE and FISH analysis of methanogens in an anaerobic closed digester tank for treating palm oil mill effluent

Meisam Tabatabaei; Mohd Rafein Zakaria; Raha Abdul Rahim; André-Denis G. Wright; Yoshihito Shirai; Norhani Abdullah; Kenji Sakae; Shinya Ikeno; Masatsugu Hori; Nakamura Kazunori; Alawi Sulaiman; Mohd Ali Hassan

Ayuda

PCR-based DGGE and FISH analysis of methanogens in an anaerobic closed digester tank for treating palm oil mill effluent

Meisam Tabatabaei ^[3] ; Mohd Rafein Zakaria ^[3] ; Raha Abdul Rahim ^[4] ; André-Denis G. Wright ^[5] ; Yoshihito Shirai ^[1] ; Norhani Abdullah ^[6] ; Kenji Sakai ^[2] ; Shinya Ikeno ^[1] ; Masatsugu Mori ^[2] ; Nakamura Kazunori ^[2] ; Alawi Sulaiman ^[7] ; Mohd Ali Hassan ^[7]
1. [1] Kyushu Institute of Technology
  
  Kyushu Institute of Technology
  
  Kokurakita Ku, Japón
2. [2] Kyushu University
  
  Kyushu University
  
  Hakata Ku, Japón
3. [3] University Putra Malaysia Faculty of Biotechnology and Biomolecular Sciences Department of Bioprocess Technology
4. [4] University Putra Malaysia Faculty of Biotechnology and Biomolecular Sciences Department of Cell and Molecular Biology
5. [5] Queensland Bioscience Precinct CSIRO Livestock Industries
6. [6] University Putra Malaysia Faculty of Biotechnology and Biomolecular Sciences Department of Microbiology
7. [7] University Putra Malaysia Faculty of Engineering Department of Food and Process Engineering
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Localización: Electronic Journal of Biotechnology, ISSN-e 0717-3458, Vol. 12, Nº. 3, 2009, págs. 12-13
Idioma: inglés
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Resumen
- 16S ribosomal RNA (rRNA)-targeted fluorescent in situ hybridization combined with polymerase chain reaction (PCR)-cloning, light microscopy using Gram stains, scanning electron microscopy and denatured gradient gel electrophoresis were used to reveal the distribution of methanogens within an anaerobic closed digester tank fed with palm oil mill effluent. For specific detection of methanogens, 16S rRNA-cloning analysis was conducted followed by restriction fragment length polymorphism (RFLP) for presumptive identification of methanogens. To cover the drawbacks of the PCR-cloning study, the organization of the microorganisms was visualized in the activated sludge sample by using fluorescent oligonucleotide probes specific to several different methanogens, and a probe for bacteria. In situ hybridization with methanogens and bacterial probes and denatured gradient gel electrophoresis within activated sludge clearly confirmed the presence of Methanosaeta sp. and Methanosarcina sp. cells. Methanosaeta concilii was found to be the dominant species in the bioreactor. These results revealed the presence of possibly new strain of Methanosaeta in the bioreactor for treating palm oil mill effluent called Methanosaeta concilii SamaliEB (Gene bank accession number: EU580025). In addition, fluorescent hybridization pictured the close association between the methanogens and bacteria and that the number of methanogens was greater than the number of bacteria.