"\u0160tursa, Petr" . "978-81-308-0424-8" . . "Macek, T." . "Trends in Bioremediation and Phytoremediation" . . . . . "Approaches to microbial diversity analysis in contaminated environments"@en . . . "Leewis, M. C." . . "microbial diversity; PCR; DNA cloning"@en . "22330" . "Research Signpost" . . "8"^^ . . . . "6"^^ . "RIV/60461373:22330/10:00024131!RIV11-GA0-22330___" . . "Approaches to microbial diversity analysis in contaminated environments" . "Kurzawov\u00E1, Veronika" . "Recent findings that only a small fraction of microbes have yet to be cultivated have resulted in the development of many novel approaches for studying the overall microbial species and metabolic diversity. These approaches are aimed at revealing and exploiting the genetic and metabolic potential that has remained hidden. Nowadays, scientists are capable of not only resolving the genetic code and taxonomically classifying individual microorganisms, but also ascribing the function of microorganisms in relation to their genetic material and, in turn, identifying those microbial populations that play key roles in habitat functioning. These advances have been enabled by the improvement of molecular biological methods, such as DNA isolation directly from the environment, polymerase chain reaction (PCR), DNA cloning and sequencing, and community fingerprinting techniques, or stable isotope probing, as well as analytical methods. A huge recent development of bioinformatics and the existence of p" . . . . . "[3F21C8AE27F3]" . "Trivandrem" . "RIV/60461373:22330/10:00024131" . "Recent findings that only a small fraction of microbes have yet to be cultivated have resulted in the development of many novel approaches for studying the overall microbial species and metabolic diversity. These approaches are aimed at revealing and exploiting the genetic and metabolic potential that has remained hidden. Nowadays, scientists are capable of not only resolving the genetic code and taxonomically classifying individual microorganisms, but also ascribing the function of microorganisms in relation to their genetic material and, in turn, identifying those microbial populations that play key roles in habitat functioning. These advances have been enabled by the improvement of molecular biological methods, such as DNA isolation directly from the environment, polymerase chain reaction (PCR), DNA cloning and sequencing, and community fingerprinting techniques, or stable isotope probing, as well as analytical methods. A huge recent development of bioinformatics and the existence of p"@en . "Loveck\u00E1, Petra" . "Approaches to microbial diversity analysis in contaminated environments" . . . "247567" . "P(2B08031), P(GA525/09/1058), P(ME09024), Z(AV0Z40550506), Z(MSM6046137305)" . . "Demnerov\u00E1, Kate\u0159ina" . "Uhl\u00EDk, Ond\u0159ej" . "440"^^ . . . . . "Mackov\u00E1, Martina" . . "17"^^ . "Approaches to microbial diversity analysis in contaminated environments"@en .