Record Display for the EPA National Library Catalog
RECORD NUMBER: 29 OF 262
|OLS Field Name||OLS Field Data|
|Main Title||Biocommunication and Natural Genome Editing [electronic resource] /|
|Subjects||Life sciences. ; Biological models. ; Microbiology. ; Botany. ; Zoology.|
|Collation||XIII, 213 p. online resource.|
Due to license restrictions, this resource is available to EPA employees and authorized contractors only
Introduction: Metaphysical and Postmetaphysical Relationships of Humans with Nature and Life -- Plant Communication -- Communicative Competences of Honey-Bees -- Biocommunication of Corals -- Biocommunication of Fungal Organisms -- Bacteria Communication -- Natural Genome Editing Competences of Viruses and Virus-Like Agents -- How Bacteria Escaped Selection Pressure of the Early RNA-World -- Viral Origins of Telomeres and Telomerases -- Real Life-World of Noncoding RNA-Species -- Outlook. This is the first uniform description of all key levels of communication in the organismic kingdoms of plants, fungi, animals and bacteria based on the most recent empirical data. Biocommunication occurs on three levels (A) intraorganismic, i.e. intra- and intercellular, (B) interorganismic, between the same or related species and (C) transorganismic, between organisms which are not related. The biocommunicative approach demonstrates both that cells, tissues, organs and organisms coordinate and organize by communication processes and genetic nucleotide sequence order in cellular and non-cellular genomes is structured language-like, i.e. follow combinatorial (syntactic), context-sensitive (pragmatic) and content-specific (semantic) rules. Without sign-mediated interactions no vital functions within and between organisms can be coordinated. Exactly this feature is absent in non-living matter. Additionally the biocommunicative approach investigates natural genome editing competences of viruses. Natural genome editing from a biocommunicative perspective is competent agent-driven generation and integration of meaningful nucleotide sequences into pre-existing genomic content arrangements and the ability to (re)combine and (re)regulate them according to context-dependent (i.e. adaptational) purposes of the host organism. The biocommunicative approach is an original scientific field of investigations. Readers must be competent in basic knowledge of biology and genetics.