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RADICAL POLYMERIZATION --- ANIONIC POLYMERIZATION --- CATIONIC POLYMERIZATION --- POLYMERIZATION CATALYSTS --- LIQUID CRYSTALS --- MACROCYCLIC COMPOUNDS --- POLYMERS, COMPOSITES --- POLYMER DEGRADATION --- POLYMERS --- POLYMERS --- PROPERTIES --- USES
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Polymers --- Polymer degradation --- Polymerization --- Solids --- Solutions (chemistry) --- Viscoelasticity
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Supramolecular chemistry is a central theme not only in chemistry, but in neighboring disciplines including physics and the biological sciences. The author has introduced this notion and has been awarded the Nobel Prize for his achievements in this area. He presents here the concepts, lines of development and perspectives of this highly interdisciplinary and burgeoning field of research. Topics include: - molecular recognition - catalysis and transport processes - molecular and supramolecular devices - self-processes By placing the basic concepts into a broader perspective, the author succeeds in inspiring, stimulating and challenging the creative imagination of his reader.
Macromolecules --- Macromolécules --- Supramolecular chemistry. --- 541.64 --- #WSCH:LOSA --- #WSCH:MODS --- #WSCH:FY13 --- #WSCH:AAS2 --- #WSCH:AAS1 --- Macromolecular chemistry. Polymerization products. Polycondensation products. Polyaddition products --- 541.64 Macromolecular chemistry. Polymerization products. Polycondensation products. Polyaddition products --- Macromolécules --- Supramolecular chemistry --- Chemistry, Physical and theoretical --- Electric conductivity. --- Macrocyclic compounds. --- Molecular association. --- Coordination compounds --- Photochemistry --- Transport properties --- Coordination compounds. --- Photochemistry.
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PCR (polymerase chain reaction) is now one of the most widely used of basic molecular biology techniques and is an indispensable research tool for the molecular biologist. The basic PCR technique provides the cornerstone for in vitro DNA amplification - allowing the researcher to produce large quantities of DNA from minute amounts of starting material.PCR: A Practical Approach Volume 2 is not a revised version of PCR: A Pracical Approach, but sets out to address some of the exciting new applications fo PCR including cDNA cloning, mRNA quantitation and expression of proteins from PCR products, genomic DNA mapping and fingerprinting, and mutational analysis. The Polymerase Chain Reaction (PCR) has become one of the most widely used techniques in biomedical research, enabling the fast, inexpensive production of large quantities of DNA from minute amounts of starting material. Although the basic procedure is very simple, many variations of it have been developed for different applications, for use in such diverse areas as forensic and diagnostic medicine, genetic engineering, and the food industry. PCR: A Practical Approach provides a general introduction to PCR for researchers new to the area, followed by chapters detailing specific applications of the technique. It covers gene analysis at the level of restriction enzyme polymorphism, point mutation and sequence analysis. Methods for using different source materials - cloned DNA, genomic DNA, RNA, nucleic acid from archive material and PCR products themselves - are given. The emphasis throughout is on the practical applications of the technique and detailed experimental protocols are included at all stages, backed up by advice on avoiding potential pitfalls. This volume provides a starting point for those new to PCR and will also serve as a useful reference for more experienced researchers in all areas of biological science.
General biochemistry --- DNA (deoxyribonucleic acid) --- biochemie --- PCR (polymerase chain reaction) --- genetische informatie --- Molecular biology --- Analytical biochemistry --- biologie --- moleculaire biologie --- polymeren --- Macromolecules --- Gene Amplification --- Réaction en chaîne de la polymérase --- Technique des traceurs --- Tracer techniques --- État physique --- physical states --- Polymerase Chain Reaction. --- -Chain reaction, Polymerase --- PCR (Biochemistry) --- DNA polymerases --- Amplification, Gene --- Anchored Polymerase Chain Reaction --- Inverse Polymerase Chain Reaction --- Nested Polymerase Chain Reaction --- Anchored PCR --- Inverse PCR --- Nested PCR --- PCR, Anchored --- PCR, Inverse --- PCR, Nested --- Polymerase Chain Reactions --- Reaction, Polymerase Chain --- Reactions, Polymerase Chain --- Ligase Chain Reaction --- -Molecular bases of life. Molecular biology --- -577.2 Molecular bases of life. Molecular biology --- Chain reaction, Polymerase --- Réaction en chaîne de la polymérase --- Polymerase chain reaction --- DNA Replication --- Polymerase Chain Reaction --- 577.2 --- 577.2 Molecular bases of life. Molecular biology --- Molecular bases of life. Molecular biology --- PCR --- Replication, Autonomous --- Autonomous Replication --- Autonomous Replications --- DNA Replications --- Replication, DNA --- Replications, Autonomous --- Replications, DNA --- DNA-Binding Proteins --- Virus Replication --- S Phase --- Laboratory manuals --- #WSCH:WBIO --- Polymerization --- methods --- Laboratory manuals. --- Polymerase chain reaction. --- Dna replication. --- Gene amplification. --- DNA Replication. --- Gene Amplification. --- klonen --- enzymen --- Polymerase chain reaction - Laboratory manuals. --- Genes
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