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Palladium-Catalyzed Modification of Nucleosides, Nucleotides and Oligonucleotides describes the procedures and protocols related to the modification of nucleosides, nucleotides and oligonucleotides via Pd-mediated cross-coupling processes. The book highlights the growing area of nucleic acid modification and how Pd-mediated coupling reactions can assist this development. Users will find key synthetic protocols for these reactions in this latest volume in the Latest Trends in Palladium Chemistry series. As most of the research in the field of antiviral agents has centered on the use of modified nucleosides that have exhibited promising activity, this book provides an up-to-date reference for both professionals in industry and other interested parties. - Provides synthetic routes for useful nucleoside molecules, information otherwise found only through time-consuming literature searches - Covers metal-mediated and metal-catalyzed cross coupling processes of nucleosides and related compounds - Includes Suzuki-Miyaura, Stille and Sonogashira reactions, as well as C-H bond functionalization - Highlights the growing area of nucleic acid modification and how Pd-mediated coupling reactions can assist
This volume is comprised of 18 chapters, covering various aspects of DNA modification and RNA modified bases. It also discusses in detail circular RNA, therapeutic oligonucleotides and their different properties. The chemical nature of DNA, RNA, protein and lipids makes these macromolecules easily modifiable, but they are also susceptible to damage from both endogenous and exogenous agents. Alkylation and oxidation show a potential to disrupt the cellular redox equilibrium and cause cellular damage leading to inflammation and even chronic disease. Furthermore, DNA damage can drive mutagenesis and the resulting DNA sequence changes can induce carcinogenesis and cancer progression. Modified nucleosides can occur as a result of oxidative DNA damage and RNA turnover, and are used as markers for various diseases. To function properly some RNA needs to be chemically modified post-transcriptionally. Dysregulation of the RNA-modification pattern or of the levels of the enzymes that catalyze these modifications alters RNA functionality and can result in complex phenotypes, likely due to defects in protein translation. While modifications are best characterized in noncoding ribonucleic acids like tRNA and rRNA, coding mRNAs have also been found to contain modified nucleosides. This book is a valuable resource, not only for graduate students but also researchers in the fields of molecular medicine and molecular biology.
Modified Nucleosides in Cancer and Normal Metabolism - Methods and Applications
This book comprises the lectures presented at the workshop Modified Nuc1eosides and Cancer held from 28 September to 2 October, 1981 in Freiburg, West Germany. The workshop was organized by Gisela Nass and sponsored by the Deutsche Forschungsgemeinschaft. The purpose of the workshop was to cover the varied analytical methods for quantitative and qualitative determination of modified nucleosides and their metabolism including bio synthesis, all in relation to the function of these compounds in the origin and growth of cancer cells. The potential signi ficance of measuring modified nucleosides in body fluids for tumor diagnosis in humans received particular attention. Various fields of research which have previously been segregat ed are thus unified in this volume. Emphasis was also placed on the fact that modified nucleosides are constituents of the genetic material, the desoxyribonucleic> acid, on the one hand, and of the transfer ribonucleic acids on the other hand, with the latter macromolecules participating not only in the translation of genetic information into protein, but also in many regulatory processes in all single- and multi-, cellular organisms including man.
This book spans diverse aspects of modified nucleic acids, from chemical synthesis and spectroscopy to in vivo applications, and highlights studies on chemical modifications of the backbone and nucleobases. Topics discussed include fluorescent pyrimidine and purine analogs, enzymatic approaches to the preparation of modified nucleic acids, emission and electron paramagnetic resonance (EPR) spectroscopy for studying nucleic acid structure and dynamics, non-covalent binding of low- and high-MW ligands to nucleic acids and the design of unnatural base pairs. This unique book addresses new developments and is designed for graduate level and professional research purposes.
With the explosion of combinatorial solid-phase methods, access to information has become one of the main barriers facing a synthetic chemist who is contemplating a combinatorial approach to a medicinal chemistry problem. The Combinatorial Index is an answer to that problem. This compendium of methods from the primary literature provides quick and convenient access to reliable synthetic transformations as well as information on linkers and analytical methods. Each synthetic procedure is preceded by a section entitled"Points of Interest,"which highlights the strengths and weaknesses of the various studies. The index also covers the use of solution-based synthesis for the generation of molecular diversity. - Organized for rapid retrieval of published information on classes of synthetic transformations, linkers, and analytical methods - Serves as a laboratory manual for bench chemists - Includes a chapter on linkers to assist in choice of linking strategy - Discusses strengths and limitations of the various methods - Contains a structural index showing functional group transformations in solid-phase synthesis
Naturally occurring RNA always contains numerous biochemically altered nucleotides. They are formed by enzymatic modification of the primary transcripts during the complex RNA maturation process designated RNA modification. A large number of enzymes catalyzing the formation of these modified nucleosides or converting one canonical base into another at the posttranscriptional level have been studied for many years, but only recently have systematic and comparative studies begun. The functions of individual enzymes and/or the modified/edited nucleosides in RNA, however, have remained largely ignored. This book provides advance information on RNA modification, including the associated editing machinery, while offering the reader some perspective on the significance of such modifications in fine-tuning the structure and functions of mature RNA molecules and hence the ability to influence the efficiency and accuracy of genetic expression. Outstanding scientists who are actively working on RNA modification/editing processes have provided up-to-date information on these intriguing cellular processes that have been generated over the course of millions of years in all living organisms. Each review has been written and illustrated for a large audience of readers, not only specialists in the field, but also for advanced students or researchers who want to learn more about recent progress in RNA modification and editing.
• Up-to-date review on the chemistry and biology of nucleosides • Modern synthetic methodology • Comprehensive coverage of antiviral nucleosidesThis book summarizes the recent advances in nucleosides chemistry and chemotherapy over the past 10-15 years. It covers recently discovered nucleoside antiviral agents, their therapeutic aspects and biochemistry, and also extensive reviews on their chiral synthesis.
"Primary Liver Cancer: Challenges and Perspectives" presents the recent progress in basic and clinical research in Primary Liver Cancer (PLC) in China and around the world. PLC patients in China make up more than 50% of the total patients worldwide. By contributing to the book, the leading experts in the field of liver cancer in China as well as in the US share with readers their new concepts, practices, and experiences from bench to bed, from population study to individual survey, from molecular search to clinical practice, and from early diagnosis to treatment. The book is intended for researchers in the fields of epidemiology, molecular genetics, cell biology, immunology of HCC and other cancers, and clinical oncology in primary liver cancer. Jianren Gu is a Professor of molecular oncology at the Shanghai Cancer Institute, Shanghai Jiao Tong University School of Medicine and Academician of Chinese Academy of Engineering.
Analytical Methods for Major and Modified Nucleosides - HPLC, GC, MS, NMR, UV and FT-IR