Chemical synthesis practicality

The N-to-C assembly of the peptide chain is unfavorable for the chemical synthesis of peptides on solid supports. This strategy can be dismissed already for the single reason that repeated activation of the carboxyl ends on the growing peptide chain would lead to a much higher percentage of racemization. Several other more practical disadvantages also tend to disfavor this approach, and acid activation on the polymer support is usually only used in one-step fragment condensations (p. 241). 

The examples given above represent only a few of the many demonstrated photochemical appHcations of lasers. To summarize the situation regarding laser photochemistry as of the early 1990s, it is an extremely versatile tool for research and diagnosis, providing information about reaction kinetics and the dynamics of chemical reactions. It remains difficult, however, to identify specific processes of practical economic importance in which lasers have been appHed in chemical processing. The widespread use of laser technology for chemical synthesis and the selective control of chemical reactions remains to be realized in the future. 

CGA (Compressed Gas Association, Inc.). 1970 (Reaffirmed 1984). Acetylene Transmission for Chemical Synthesis (Recommended Minimum Safe Practices for Piping. Systems). Publication G-1.3. Compressed Gas Association, Inc., Arlington, VA. 

During the course of the British-American wartime penicillin project, a large body of information relevant to the constitution and chemistry of the penicillins was uncovered. It was recognized at an early stage that the penicillins are assembled from a relatively small number of atoms, and this observation spurred hopes that a practical path for a chemical synthesis of the penicillins could be found before the end of the war. Although the atoms that constitute the... 

In the context of drug discovery, computational methods do not add value unless they can achieve practical results. Results must be produced quickly enough so that they can influence decision making in chemical synthesis. Most importantly, computational methods must be accurate enough to maintain the trust of the medicinal chemist. Without this trust, computational predictions will rarely be tested in the laboratory, which will then prevent the generation of critical data useful for improving the original predictions. 

Biotin is a member of the vitamin B famify and is an essential factor in the processes and maintenance of normal metabohsm in human beings. It is an essential growth factor for some bacteria Its chemical stmcture was estabhshed in the eady 1940s and a practical, highly stereospecific, chemical synthesis enabled D-biotin, identical to that found in yeasts and other cells, to be produced. 

Noyori, R. (2005) Pursuing Practical Elegance in Chemical Synthesis. Chemical Communications, 1807-1811. 

The chemical world is often divided into measurers and makers of molecules. This division has deep historic roots, but it artificially impedes taking advantage of both aspects of the chemical sciences. Of key importance to all forms of chemistry are instruments and techniques that allow examination, in space and in time, of the composition and characterization of a chemical system under study. To achieve this end in a practical manner, these instruments will need to multiplex several analytical methods. They will need to meet one or more of the requirements for characterization of the products of combinatorial chemical synthesis, correlation of molecular structure with dynamic processes, high-resolution definition of three-dimensional structures and the dynamics of then-formation, and remote detection and telemetry. 

For this purpose, Ag zeolite and Ag, developed by Garegg25 and Paulsen,26 respectively, have been widely employed (Scheme 7.6). Reactions using these activators have found practical use in synthetic studies on glycoprotein glycans and glycolipids. For instance, Paulsen reported the chemical synthesis of the core pentasaccharide structure 6 common to all types of Asn-linked glycans, using the Ag... 

On the other hand, the merits of such insights are obvious. It would become possible to evaluate the relative importance of surface and bulk mechanisms of PT. The transition from high to low proton mobility upon dehydration could be related to molecular parameters that are variable in chemical synthesis. It could become feasible to determine conditions for which high rates of interfacial PT could be attained with a minimal amount of hghtly bound water. As an outcome of great practical value, this understanding could direct the design of membranes that operate well at minimal hydration and T > 100°C. 

Semisynthesis can be defined as the use of fragments of proteins, or intact proteins themselves, as ready-made intermediates in the chemical synthesis of proteins. Many modifications to the native structure of a protein can be expected to have profound effects, and produce materials of the greatest academic or practical value, but only involve a change of one or a few atoms out of the thousands that often go to make up the complete molecule. If a semisynthetic method can be found to incorporate, at the correct site, a small synthetic fragment carrying the wanted change, there is no need to go to the trouble of constructing the rest of the molecule when it has already been preformed for us biosynthetically. 

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