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PCR-based community structure studies of Bacteria associated with eukaryotic organisms: a simple PCR strategy to avoid co-amplification of eukaryotic DNA

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GEN. NOV., SEQUENCE, DEGRADING BACTERIUM, SP-NOV., GRADIENT GEL-ELECTROPHORESIS, 16S RIBOSOMAL-RNA, DGGE, Biased PCR, Nested PCR, Bacterial SSU rDNA, Co-amplification, Eulcaryotic SSU rDNA, AMPLIFICATION

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Citation

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Chicago
Bakke, Ingrid, Peter De Schryver, Nico Boon, and Olav Vadstein. 2011. “PCR-based Community Structure Studies of Bacteria Associated with Eukaryotic Organisms: a Simple PCR Strategy to Avoid Co-amplification of Eukaryotic DNA.” Journal of Microbiological Methods 84 (2): 349–351.
APA
Bakke, I., De Schryver, P., Boon, N., & Vadstein, O. (2011). PCR-based community structure studies of Bacteria associated with eukaryotic organisms: a simple PCR strategy to avoid co-amplification of eukaryotic DNA. JOURNAL OF MICROBIOLOGICAL METHODS, 84(2), 349–351.
Vancouver
1.
Bakke I, De Schryver P, Boon N, Vadstein O. PCR-based community structure studies of Bacteria associated with eukaryotic organisms: a simple PCR strategy to avoid co-amplification of eukaryotic DNA. JOURNAL OF MICROBIOLOGICAL METHODS. 2011;84(2):349–51.
MLA
Bakke, Ingrid, Peter De Schryver, Nico Boon, et al. “PCR-based Community Structure Studies of Bacteria Associated with Eukaryotic Organisms: a Simple PCR Strategy to Avoid Co-amplification of Eukaryotic DNA.” JOURNAL OF MICROBIOLOGICAL METHODS 84.2 (2011): 349–351. Print.
@article{1196384,
  author       = {Bakke, Ingrid and De Schryver, Peter and Boon, Nico and Vadstein, Olav},
  issn         = {0167-7012},
  journal      = {JOURNAL OF MICROBIOLOGICAL METHODS},
  keyword      = {GEN. NOV.,SEQUENCE,DEGRADING BACTERIUM,SP-NOV.,GRADIENT GEL-ELECTROPHORESIS,16S RIBOSOMAL-RNA,DGGE,Biased PCR,Nested PCR,Bacterial SSU rDNA,Co-amplification,Eulcaryotic SSU rDNA,AMPLIFICATION},
  language     = {eng},
  number       = {2},
  pages        = {349--351},
  title        = {PCR-based community structure studies of Bacteria associated with eukaryotic organisms: a simple PCR strategy to avoid co-amplification of eukaryotic DNA},
  url          = {http://dx.doi.org/10.1016/j.mimet.2010.12.015},
  volume       = {84},
  year         = {2011},
}

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