Verfügbarkeit: Molecular microbial ecology

Molecular microbial ecology:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	New York, NY [u.a.] Taylor & Francis 2005
Schriftenreihe:	BIOS advanced methods
Schlagworte:	Microbiologie moléculaire Écologie microbienne Ökologie Molecular microbiology Microbial ecology Ecology Environmental Microbiology Nucleic Acid Hybridization Polymerase Chain Reaction > methods Molekularbiologie Mikroorganismus Mikrobiologie
Online-Zugang:	Table of contents Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XVI, 381 S. graph. Darst. cm
ISBN:	1859962831

Internformat

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Datensatz im Suchindex

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adam_text	Molecular Microbial Ecology Dr A Mark Osborn (Ed ) Department of Animal amp; Plant Sciences, University of Sheffield, Sheffield, UK Dr Cindy J Smith (Ed ) Department of Biological Sciences, University of Essex, Colchester, UK Taylor amp; Francis Taylor amp; Francis Group Contents Contributors xi Abbreviations xii Preface xiii 1 Nucleic acid extraction from environmental samples 1 Annett Milling, Newton C M Gomes, Miruna Oros-Sichler, Monika Gb tz and Kornelia Smalla 1 1 Introduction 1 1 2 Recovery of cells from environmental matrices 2 1 3 Cell lysis and DNA extraction protocols 3 1 4 Immunochemical isolation of DNA from metabolically active cells 5 1 5 RNA extraction from environmental matrices 6 Protocol 1 1 11 Protocol 1 2 17 Protocol 13_ 21 Prokaryotic systematic^: PCR and sequence analysis of amplified 25 16S rRNA genes Wilfred F M Roling and Ian M Head 2 1 Introduction - 25 2 2 Application of PCR in microbial ecology 26 221 Good working practices in PCR: avoiding PCR inhibition and 28 contamination 222 Pitfalls of PCR: artifacts and differential amplification 30 223 rRNA versus rDNA: indicative of active versus total microbial 32 communities? 2 3 Generation and analysis of clone libraries 34 231 Generation of clone libraries 34 232 Screening of clone libraries 35 2 4 Quantitative analysis of clone libraries: coverage and diversity indices 38 241 Coverage and sampling 38 242 Diversity indices 40 2 5 Phylogenetic inference 41 251 Sequencing 41 252 Phylogenetic analysis 42 253 Parsimony 44 254 Distance methods 46 vi Contents 255 Maximum likelihood 47 256 Bootstrap analysis 50 ,26 Phylogenetic analysis compared to other molecular techniques 50 ^261 Comparing large numbers of samples 51 262 Quantification 51 263 Relationship between phylogenetic information and function 52 2 7 Concluding remarks 52 Protocol 2 1 57 3 DNA fingerprinting of microbial communities 65 Andreas Felske and A Mark Osborn 3 1 Introduction 65 311 DGGE 66 312 TGGE 68 313 SSCP analysis 68 314 T-RFLP analysis 69 315 LH-PCR (length heterogeneity PCR) 70 316 Comparison of the different methods 71 3 2 Applications of microbial community fingerprinting 74 321 Combination of cloning with fingerprinting 76 322 Screening isolated strains next to fingerprints 76 323 Southern blot hybridization and fingerprints 77 324 Multiple competitor RT-PCR/TGGE for rRNA 78 325 Environmental fingerprints with protein-coding genes 79 3 3 Analyzing microbial community fingerprints 79 331 Cutting out fingerprint bands for sequencing 80 332 The rRNA sequence hetejogeneity 81 333 Quantitative analysis of fingerprint signals 82 334 Cluster analysis of DNA fingerprint signals 84 335 Diversity and species richness 84 336 The operational taxonomic unit 85 3 4 Miscellaneous-advice 85 Protocol 3 1 91 4 Molecular typing of environmental isolates 97 Jan L W Rademaker, Henk J M Aarts and Pablo Vinuesa 4 1 Introduction 97 411 Role of PCR amplification-based typing for microbial ecology 98 4 2 Microbial typing methods 98 421 AFLP analysis 99 422 rep-PCR fingerprinting 103 423 Mini- and microsatellite fingerprinting 106 424 Fingerprinting methods using random primers 106 (RAPD, AP-PCR, DAF) 425 Ribosomal RNA gene fingerprinting methods 108 4 3 Computer-assisted analysis of PCR-generated fingerprint profiles 113 4 4 Concluding remarks 114 Protocol 4 1 127 Protocol 4 2 131 Contents vii RT-PCR and mRNA expression analysis of functional genes 135 Balbina Nogales P5 1 Introduction 135 -^ 5 2 Advantages and limitations of the RT-PCR analysis of bacterial 136 functional genes 5 3 The RT-PCR reaction 137 531 The RNA template 137 532 Primers for reverse transcription 138 533 Reverse transcriptases 138 534 One-step and two-step RT-PCR protocols 139 5 4 Quantitative RT-PCR 140 5 5 Analysis of global gene expression 140 5 6 Conclusions 141 Protocol 5 1 145 Protocol 5 2 146 6 Quantitative real-time PCR 151 Cindy J Smith 6 1 Introduction 151 6 2 Quantification 152 6 3 qPCR chemistries 154 631 Taq nuclease assay 154 632 SYBR green 156 6 4 Applications 156 641 qPCR analysis of total microbial communities via analysis 156 of amplified ribosomal RN£ genes 642 Functional ecology * 157 Protocol 6 1 161 7 Stable-isotope probing 167 Stefan Radajewski and J: Colin Murrell 7 1 Introduction 167 7 2 Stable-isotope labeling of DNA 168 7 3 Application of stable-isotope probing 169 731 Methylotroph populations 169 732 Ammonia-oxidizing populations 170 7 4 Future prospects 170 Protocol 7 1 173 8 Applications of nucleic acid hybridization in microbial ecology 179 A Mark Osborn, Vivien Prior and Konstantinos Damianakis 8 1 Introduction 179 8 2 Fundamentals of DNA hybridization 180 821 Probe design 180 822 Choice of nucleic acid template 184 8 3 Hybridization applications in microbial ecology 186 831 Hybridization analysis of cultured bacteria 186 viii Contents 832 Hybridization analysis of total community DNA 187 833 Reverse sample genome probing (RSGP) and microarray 189 ,r analysis of microbial communities Protocol 8 1 198 Protocol 8 2 207 Protocol 8 3 211 Fluorescence in situ hybridization for the detection of prokaryotes 213 Holger Daims, Kilian Stoecker and Michael Wagner 9 1 Introduction 213 9 2 Fundamentals of rRNA FISH 214 9 3 Structure-function analyses: combination of FISH with other techniques 217 Protocol 9 1 223 10 Lessons from the genomes: microbial ecology and genomics 241 Andrew S Whiteley, Mike Manefield, Sarah L Turner and Mark J Bailey 10 1 Introduction 241 10 2 Structural genomics 242 10 3 Comparative genomics 242 10 3 1 Small genomes 243 10 3 2 Large genomes 244 10 3 3 The horizontal gene pool 244 10 3 4 Insights into phylogeny 245 10 4 Functional genomics in microbfSl ecology 246 10 4 1 Characterizing microbial responses to environmental change 246 10 4 2 Relating specific genes to specific functions 247 10 4 3 Expression of genes from components of a genome 248 10 5 The application of genomic tools in situ 249 10 5 1 Organism diversity ~ 249 10 5 2 Functional genes 250 10 5 3 Metagenomics 250 10 5 4 Functional gene arrays 252 10 5 5 Diversity, function and process 253 10 6 Lessons learned and future perspectives 254 11 Metagenomic libraries from uncultured microorganisms 261 Doreen E Gillespie, Michelle R Rondon, Lynn L Williamson and Jo Handelsman 11 1 Introduction 261 11 2 Factors affecting experimental design 261 11 2 1 Environmental source 262 11 2 2 DNA isolation 264 11 2 3 Vector selection 264 11 2 4 Host cell selection 264 11 3 Summary 265 Protocol 11 1 269 Contents ix 12 A molecular toolbox for bacterial ecologists: PCR primers for functional gene analysis Michael J Larkin, A Mark Osborn and Derek Fairley j-12 1 Introduction 12 2 Adopting a strategy to detect sequences from the environment 12 3 Primer and probe design 12 4 PCR primers to amplify 16S rRNA gene sequences 12 5 PCR primers for detecting functional genes 13 Molecular detection of fungal communities in soil 303 Eric Smit, Francisco de Souza and Renske Landeweert 13 1 Introduction 303 13 2 Molecular strategies for fungal community analyses 304 13 3 DNA extraction 305 13 4 Target genes 306 13 5 Primers for fungal populations 307 13 6 In silico analysis of 18S rRNA primers 310 13 7 Specific application of molecular identification techniques for studying 311 mycorrhizal fungi 13 7 1 Analyzing arbuscular mycorrhizal fungal diversity 311 13 7 2 Analyzing ectomycorrhizal fungal diversity 312 13 8 Conclusions 313 Protocol 13 1 317 14 Environmental assessment: bioreporter systems Steven A Ripp and Gary S Sayler * 14 1 Introduction 14 2 Reporter systems 14 2 1 fJ-Galactosidase (lacZ) 14 2 2 Chloramphenicol acetyltransferase (CAT) 14 2 3 Catechol 2,3-dioxygenase (xylE) 14 2 4 BrLactamase (bid) 14 2 5 B-Glucorinidase (gusA, gurA, uidA) 14 2 6 Ice nucleation (inaZ) 14 2 7 Green fluorescent protein (GFP) 14 2 8 Aequorin 14 2 9 Uroporphyrinogen (Urogen) III methyltransferase (UMT) 14 2 10 Luciferases 14 3 Mini-transposons as genetic tools in biosensor construction Case study IS Bioinformatics and web resources for the microbial ecologist Wolfgang Ludwig 15 1 Introduction 15 2 Databases 15 2 1 European Bioinformatics Institute (EBI) databases 15 2 2 GenBank x Contents 15 3 Genome projects 359 ° 15 3 1 Munich Information Center for Protein Sequences (MIPS) 359 15 3 2 Sanger Institute 359 S 15 3 3 The Institute for Genomic Research (TIGR) 359 15 3 4 Mobile genetic elements (MGE) databases 360 15 4 Ribosomal RNA databases 360 15 4 1 Ribosomal Database Project 360 15 4 2 European Ribosomal RNA database 362 15 5 rRNA-targeted probes 363 15 5 1 ProbeBase 363 15 5 2 Roscoff database 363 15 5 3 PRIMROSE 363 15 6 ARB project 363 15 6 1 ARB databases 364 15 6 2 Phylogenetic treeing 366 15 6 3 Future developments 369 15 7 Concluding remarks 369 Index 373
adam_txt	Molecular Microbial Ecology Dr A Mark Osborn (Ed ) Department of Animal amp; Plant Sciences, University of Sheffield, Sheffield, UK Dr Cindy J Smith (Ed ) Department of Biological Sciences, University of Essex, Colchester, UK Taylor amp; Francis Taylor amp; Francis Group Contents Contributors xi Abbreviations xii Preface xiii 1 Nucleic acid extraction from environmental samples 1 Annett Milling, Newton C M Gomes, Miruna Oros-Sichler, Monika Gb'tz and Kornelia Smalla 1 1 Introduction 1 1 2 Recovery of cells from environmental matrices 2 1 3 Cell lysis and DNA extraction protocols 3 1 4 Immunochemical isolation of DNA from metabolically active cells 5 1 5 RNA extraction from environmental matrices 6 Protocol 1 1 11 Protocol 1 2 17 Protocol 13_ 21 Prokaryotic systematic^: PCR and sequence analysis of amplified 25 16S rRNA genes Wilfred F M Roling and Ian M Head 2 1 Introduction - 25 2 2 Application of PCR in microbial ecology 26 221 Good working practices in PCR: avoiding PCR inhibition and 28 contamination 222 Pitfalls of PCR: artifacts and differential amplification 30 223 rRNA versus rDNA: indicative of active versus total microbial 32 communities? 2 3 Generation and analysis of clone libraries 34 231 Generation of clone libraries 34 232 Screening of clone libraries 35 2 4 Quantitative analysis of clone libraries: coverage and diversity indices 38 241 Coverage and sampling 38 242 Diversity indices 40 2 5 Phylogenetic inference 41 251 Sequencing 41 252 Phylogenetic analysis 42 253 Parsimony 44 254 Distance methods 46 vi Contents 255 Maximum likelihood 47 256 Bootstrap analysis 50 ,26 Phylogenetic analysis compared to other molecular techniques 50 ^261 Comparing large numbers of samples 51 262 Quantification 51 263 Relationship between phylogenetic information and function 52 2 7 Concluding remarks 52 Protocol 2 1 57 3 DNA fingerprinting of microbial communities 65 Andreas Felske and A Mark Osborn 3 1 Introduction 65 311 DGGE 66 312 TGGE 68 313 SSCP analysis 68 314 T-RFLP analysis 69 315 LH-PCR (length heterogeneity PCR) 70 316 Comparison of the different methods 71 3 2 Applications of microbial community fingerprinting 74 321 Combination of cloning with fingerprinting 76 322 Screening isolated strains next to fingerprints 76 323 Southern blot hybridization and fingerprints 77 324 Multiple competitor RT-PCR/TGGE for rRNA 78 325 Environmental fingerprints with protein-coding genes 79 3 3 Analyzing microbial community fingerprints 79 331 Cutting out fingerprint bands for sequencing 80 332 The rRNA sequence hetejogeneity 81 333 Quantitative analysis of fingerprint signals 82 334 Cluster analysis of DNA fingerprint signals 84 335 Diversity and species richness 84 336 The 'operational taxonomic unit' 85 3 4 Miscellaneous-advice 85 Protocol 3 1 91 4 Molecular typing of environmental isolates 97 Jan L W Rademaker, Henk J M Aarts and Pablo Vinuesa 4 1 Introduction 97 411 Role of PCR amplification-based typing for microbial ecology 98 4 2 Microbial typing methods 98 421 AFLP analysis 99 422 rep-PCR fingerprinting 103 423 Mini- and microsatellite fingerprinting 106 424 Fingerprinting methods using random primers 106 (RAPD, AP-PCR, DAF) 425 Ribosomal RNA gene fingerprinting methods 108 4 3 Computer-assisted analysis of PCR-generated fingerprint profiles 113 4 4 Concluding remarks 114 Protocol 4 1 127 Protocol 4 2 131 Contents vii RT-PCR and mRNA expression analysis of functional genes 135 Balbina Nogales P5 1 Introduction 135 -^ 5 2 Advantages and limitations of the RT-PCR analysis of bacterial 136 functional genes 5 3 The RT-PCR reaction 137 531 The RNA template 137 532 Primers for reverse transcription 138 533 Reverse transcriptases 138 534 One-step and two-step RT-PCR protocols 139 5 4 Quantitative RT-PCR 140 5 5 Analysis of global gene expression 140 5 6 Conclusions 141 Protocol 5 1 145 Protocol 5 2 146 6 Quantitative real-time PCR 151 Cindy J Smith 6 1 Introduction 151 6 2 Quantification 152 6 3 qPCR chemistries 154 631 Taq nuclease assay 154 632 SYBR green 156 6 4 Applications 156 641 qPCR analysis of total microbial communities via analysis 156 of amplified ribosomal RN£ genes 642 Functional ecology * 157 Protocol 6 1 161 7 Stable-isotope probing 167 Stefan Radajewski and J: 'Colin Murrell 7 1 Introduction 167 7 2 Stable-isotope labeling of DNA 168 7 3 Application of stable-isotope probing 169 731 Methylotroph populations 169 732 Ammonia-oxidizing populations 170 7 4 Future prospects 170 Protocol 7 1 173 8 Applications of nucleic acid hybridization in microbial ecology 179 A Mark Osborn, Vivien Prior and Konstantinos Damianakis 8 1 Introduction 179 8 2 Fundamentals of DNA hybridization 180 821 Probe design 180 822 Choice of nucleic acid template 184 8 3 Hybridization applications in microbial ecology 186 831 Hybridization analysis of cultured bacteria 186 viii Contents 832 Hybridization analysis of total community DNA 187 833 Reverse sample genome probing (RSGP) and microarray 189 ,r analysis of microbial communities Protocol 8 1 198 Protocol 8 2 207 Protocol 8 3 211 Fluorescence in situ hybridization for the detection of prokaryotes 213 Holger Daims, Kilian Stoecker and Michael Wagner 9 1 Introduction 213 9 2 Fundamentals of rRNA FISH 214 9 3 Structure-function analyses: combination of FISH with other techniques 217 Protocol 9 1 223 10 Lessons from the genomes: microbial ecology and genomics 241 Andrew S Whiteley, Mike Manefield, Sarah L Turner and Mark J Bailey 10 1 Introduction 241 10 2 Structural genomics 242 10 3 Comparative genomics 242 10 3 1 Small genomes 243 10 3 2 Large genomes 244 10 3 3 The horizontal gene pool 244 10 3 4 Insights into phylogeny 245 10 4 Functional genomics in microbfSl ecology 246 10 4 1 Characterizing microbial responses to environmental change 246 10 4 2 Relating specific genes to specific functions 247 10 4 3 Expression of genes from components of a genome 248 10 5 The application of genomic tools in situ 249 10 5 1 Organism diversity ~ 249 10 5 2 Functional genes 250 10 5 3 Metagenomics 250 10 5 4 Functional gene arrays 252 10 5 5 Diversity, function and process 253 10 6 Lessons learned and future perspectives 254 11 Metagenomic libraries from uncultured microorganisms 261 Doreen E Gillespie, Michelle R Rondon, Lynn L Williamson and Jo Handelsman 11 1 Introduction 261 11 2 Factors affecting experimental design 261 11 2 1 Environmental source 262 11 2 2 DNA isolation 264 11 2 3 Vector selection 264 11 2 4 Host cell selection 264 11 3 Summary 265 Protocol 11 1 269 Contents ix 12 A molecular toolbox for bacterial ecologists: PCR primers for functional gene analysis Michael J Larkin, A Mark Osborn and Derek Fairley j-12 1 Introduction 12 2 Adopting a strategy to detect sequences from the environment 12 3 Primer and probe design 12 4 PCR primers to amplify 16S rRNA gene sequences 12 5 PCR primers for detecting functional genes 13 Molecular detection of fungal communities in soil 303 Eric Smit, Francisco de Souza and Renske Landeweert 13 1 Introduction 303 13 2 Molecular strategies for fungal community analyses 304 13 3 DNA extraction 305 13 4 Target genes 306 13 5 Primers for fungal populations 307 13 6 In silico analysis of 18S rRNA primers 310 13 7 Specific application of molecular identification techniques for studying 311 mycorrhizal fungi 13 7 1 Analyzing arbuscular mycorrhizal fungal diversity 311 13 7 2 Analyzing ectomycorrhizal fungal diversity 312 13 8 Conclusions 313 Protocol 13 1 317 14 Environmental assessment: bioreporter systems Steven A Ripp and Gary S Sayler * 14 1 Introduction 14 2 Reporter systems 14 2 1 fJ-Galactosidase (lacZ) 14 2 2 Chloramphenicol acetyltransferase (CAT) 14 2 3 Catechol 2,3-dioxygenase (xylE) 14 2 4 BrLactamase (bid) 14 2 5 B-Glucorinidase (gusA, gurA, uidA) 14 2 6 Ice nucleation (inaZ) 14 2 7 Green fluorescent protein (GFP) 14 2 8 Aequorin 14 2 9 Uroporphyrinogen (Urogen) III methyltransferase (UMT) 14 2 10 Luciferases 14 3 Mini-transposons as genetic tools in biosensor construction Case study IS Bioinformatics and web resources for the microbial ecologist Wolfgang Ludwig ' 15 1 Introduction 15 2 Databases 15 2 1 European Bioinformatics Institute (EBI) databases 15 2 2 GenBank x Contents 15 3 Genome projects 359 ° 15 3 1 Munich Information Center for Protein Sequences (MIPS) 359 15 3 2 Sanger Institute 359 S 15 3 3 The Institute for Genomic Research (TIGR) 359 15 3 4 Mobile genetic elements (MGE) databases 360 15 4 Ribosomal RNA databases 360 15 4 1 Ribosomal Database Project 360 15 4 2 European Ribosomal RNA database 362 15 5 rRNA-targeted probes 363 15 5 1 ProbeBase 363 15 5 2 Roscoff database 363 15 5 3 PRIMROSE 363 15 6 ARB project 363 15 6 1 ARB databases 364 15 6 2 Phylogenetic treeing 366 15 6 3 Future developments 369 15 7 Concluding remarks 369 Index 373
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id	DE-604.BV021283594
illustrated	Illustrated
index_date	2024-07-02T13:47:51Z
indexdate	2024-07-09T20:34:40Z
institution	BVB
isbn	1859962831
language	English
lccn	2005014409
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-014604553
oclc_num	60414717
open_access_boolean
owner	DE-M49 DE-BY-TUM DE-355 DE-BY-UBR DE-11
owner_facet	DE-M49 DE-BY-TUM DE-355 DE-BY-UBR DE-11
physical	XVI, 381 S. graph. Darst. cm
publishDate	2005
publishDateSearch	2005
publishDateSort	2005
publisher	Taylor & Francis
record_format	marc
series2	BIOS advanced methods
spelling	Molecular microbial ecology A. Mark Osborn and Cindy Smith (eds) New York, NY [u.a.] Taylor & Francis 2005 XVI, 381 S. graph. Darst. cm txt rdacontent n rdamedia nc rdacarrier BIOS advanced methods Includes bibliographical references and index Microbiologie moléculaire Écologie microbienne Ökologie Molecular microbiology Microbial ecology Ecology Environmental Microbiology Nucleic Acid Hybridization Polymerase Chain Reaction methods Ökologie (DE-588)4043207-5 gnd rswk-swf Molekularbiologie (DE-588)4039983-7 gnd rswk-swf Mikroorganismus (DE-588)4039226-0 gnd rswk-swf Mikrobiologie (DE-588)4316357-9 gnd rswk-swf Molekularbiologie (DE-588)4039983-7 s Mikrobiologie (DE-588)4316357-9 s Ökologie (DE-588)4043207-5 s DE-604 Mikroorganismus (DE-588)4039226-0 s b DE-604 Osborn, A. Mark Sonstige oth Smith, Cindy J. Sonstige oth http://www.loc.gov/catdir/toc/ecip0513/2005014409.html Table of contents HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014604553&sequence=000006&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Molecular microbial ecology Microbiologie moléculaire Écologie microbienne Ökologie Molecular microbiology Microbial ecology Ecology Environmental Microbiology Nucleic Acid Hybridization Polymerase Chain Reaction methods Ökologie (DE-588)4043207-5 gnd Molekularbiologie (DE-588)4039983-7 gnd Mikroorganismus (DE-588)4039226-0 gnd Mikrobiologie (DE-588)4316357-9 gnd
subject_GND	(DE-588)4043207-5 (DE-588)4039983-7 (DE-588)4039226-0 (DE-588)4316357-9
title	Molecular microbial ecology
title_auth	Molecular microbial ecology
title_exact_search	Molecular microbial ecology
title_exact_search_txtP	Molecular microbial ecology
title_full	Molecular microbial ecology A. Mark Osborn and Cindy Smith (eds)
title_fullStr	Molecular microbial ecology A. Mark Osborn and Cindy Smith (eds)
title_full_unstemmed	Molecular microbial ecology A. Mark Osborn and Cindy Smith (eds)
title_short	Molecular microbial ecology
title_sort	molecular microbial ecology
topic	Microbiologie moléculaire Écologie microbienne Ökologie Molecular microbiology Microbial ecology Ecology Environmental Microbiology Nucleic Acid Hybridization Polymerase Chain Reaction methods Ökologie (DE-588)4043207-5 gnd Molekularbiologie (DE-588)4039983-7 gnd Mikroorganismus (DE-588)4039226-0 gnd Mikrobiologie (DE-588)4316357-9 gnd
topic_facet	Microbiologie moléculaire Écologie microbienne Ökologie Molecular microbiology Microbial ecology Ecology Environmental Microbiology Nucleic Acid Hybridization Polymerase Chain Reaction methods Molekularbiologie Mikroorganismus Mikrobiologie
url	http://www.loc.gov/catdir/toc/ecip0513/2005014409.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014604553&sequence=000006&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT osbornamark molecularmicrobialecology AT smithcindyj molecularmicrobialecology

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