Historical perspectives on RNA nucleoside modifications-- RNA-modifying and RNA-editing enzymes: methods for their identification-- Detection and structure analysis of modified nucleosides in RNA by mass spectrometry-- Incorporation of modified...
mehr
Historical perspectives on RNA nucleoside modifications-- RNA-modifying and RNA-editing enzymes: methods for their identification-- Detection and structure analysis of modified nucleosides in RNA by mass spectrometry-- Incorporation of modified nucleotides into RNA for studies on RNA structure, function, and intermolecular interactions-- Biophysical and conformational properties of modified nucleosides in RNA (nuclear magnetic resonance studies)-- Effects of pseudouridylation on tRNA hydration and dynamics: a theoretical approach. Modulation role of modified nucleotides in RNA loop-loop interaction-- Mechanisms of RNA-modifying and -editing enzymes-- Structural basis of base exchange by tRNA guanine transglycosylases-- Biosynthesis and functions of modified nucleosides in eukaryotic mRNA-- Posttranscriptional modifications in the U small nuclear RNAs-- The pseudouridine residues of rRNA: number, location, biosynthesis, and function-- Small nucleolar RNAs guide the ribose methylations of eukaryotic rRNAs-- Fuctional aspects of the three modified nucleotides in yeast mitochondrial large-subunit rRNA. Regulatory aspects of rRNA modifications and pre-tRNA processing-- Editing of tRNA-- RNA editing by base conversion in plant organellar RNAs-- Apolipoprotein B mRNA editing-- Adenosine-to-inosine conversion in mRNA-- Nucleoside deaminases for cytidine and adenosine: comparison with deaminases acting on RNA-- Mitochondrial mRNA editing in kinetoplastid protozoa-- RNA editing in physarum mitochondria-- Contrascriptional paramyxovirus mRNA editing: a contradiction in trems?-- Intracellular locations of RNA-modifying enzymes. Genetics and regulation of base modification in the tRNA and rRNA of prokaryotes and eukaryotes-- Links between tRNA modification and metabolism and modified nucleosides as tumor markers-- Modified nucleosides in translation-- Importance of modified nucleotides in replication of retroviruses, plant pararetroviruses, and retrotransposons-- Modified nucleotides always were: an evolutionary model-- Chemical structures and classification of postranscriptionally modified nucleosides in RNA-- RNA editing types and characteristics. General properties of RNA-modifying and -editing enzymes-- Location and distribution of modified nucleotides in tRNA-- Modified nucleosides at positions 34 and 37 of tRNAs and their predicted coding capacities. This Comprehensive, current text explores the manifold ways in which living cells respond to genomic injury and alterations, including both spontaneous and environmentally induced DNA damage. With more than 4,000 complete references to primary research literature and over 380 color figures throughout, this book is an important text for all courses in DNA repair and mutagenesis. It will also serve as a major reference for all molecular biologists working in cancer biology, recombination, transcription and gene regulation, DNA replication, environmental studies, and biological evolution
Historical perspectives on RNA nucleoside modifications-- RNA-modifying and RNA-editing enzymes: methods for their identification-- Detection and structure analysis of modified nucleosides in RNA by mass spectrometry-- Incorporation of modified...
mehr
Universitätsbibliothek der Eberhard Karls Universität
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Historical perspectives on RNA nucleoside modifications-- RNA-modifying and RNA-editing enzymes: methods for their identification-- Detection and structure analysis of modified nucleosides in RNA by mass spectrometry-- Incorporation of modified nucleotides into RNA for studies on RNA structure, function, and intermolecular interactions-- Biophysical and conformational properties of modified nucleosides in RNA (nuclear magnetic resonance studies)-- Effects of pseudouridylation on tRNA hydration and dynamics: a theoretical approach. Modulation role of modified nucleotides in RNA loop-loop interaction-- Mechanisms of RNA-modifying and -editing enzymes-- Structural basis of base exchange by tRNA guanine transglycosylases-- Biosynthesis and functions of modified nucleosides in eukaryotic mRNA-- Posttranscriptional modifications in the U small nuclear RNAs-- The pseudouridine residues of rRNA: number, location, biosynthesis, and function-- Small nucleolar RNAs guide the ribose methylations of eukaryotic rRNAs-- Fuctional aspects of the three modified nucleotides in yeast mitochondrial large-subunit rRNA. Regulatory aspects of rRNA modifications and pre-tRNA processing-- Editing of tRNA-- RNA editing by base conversion in plant organellar RNAs-- Apolipoprotein B mRNA editing-- Adenosine-to-inosine conversion in mRNA-- Nucleoside deaminases for cytidine and adenosine: comparison with deaminases acting on RNA-- Mitochondrial mRNA editing in kinetoplastid protozoa-- RNA editing in physarum mitochondria-- Contrascriptional paramyxovirus mRNA editing: a contradiction in trems?-- Intracellular locations of RNA-modifying enzymes. Genetics and regulation of base modification in the tRNA and rRNA of prokaryotes and eukaryotes-- Links between tRNA modification and metabolism and modified nucleosides as tumor markers-- Modified nucleosides in translation-- Importance of modified nucleotides in replication of retroviruses, plant pararetroviruses, and retrotransposons-- Modified nucleotides always were: an evolutionary model-- Chemical structures and classification of postranscriptionally modified nucleosides in RNA-- RNA editing types and characteristics. General properties of RNA-modifying and -editing enzymes-- Location and distribution of modified nucleotides in tRNA-- Modified nucleosides at positions 34 and 37 of tRNAs and their predicted coding capacities. This Comprehensive, current text explores the manifold ways in which living cells respond to genomic injury and alterations, including both spontaneous and environmentally induced DNA damage. With more than 4,000 complete references to primary research literature and over 380 color figures throughout, this book is an important text for all courses in DNA repair and mutagenesis. It will also serve as a major reference for all molecular biologists working in cancer biology, recombination, transcription and gene regulation, DNA replication, environmental studies, and biological evolution
