Biomolecules future direction

This review is organized ais follows. In Section 2, we describe the foundations of the method in its most wide-spread implementation, the one based on DPT, plane wave basis sets and pseudopotentials. In Section 3, we outline the different approaches to AIMD modeling of biological systems. This is followed by a summary of the applications that appeared so far (Section 4), with particular emphasis on enzymes (Section 5). Finally, in Section 6, we give an outlook on possible future directions for the investigation of enzymes and other fundamental claisses of biomolecules. 

Recently a field of science called Life Science has been developed and its further development as a synthetic science which is related to a wide range of scientific fields is expected in the future. The aim of life science is to investigate the structure and properties of biomolecules that govern life activity, to elucidate the mechanism of the reactions of biomolecules, and to utilize the aspects of biomolecules for reactions in vitro. There are a number of polymeric compounds in vivo, such as proteins, that are related directly to life phenomena and nucleic acids that control the transmission of genetic information. To understand the functionality of these biopdymers and to exploit useful functional materials, an investigation on Biologically Important Polymers should be based on polymer chenustry. 

As a result of the shortcomings of current insulin therapy, much work has been directed toward developing polymeric controlled release systems that can be implanted or injected into the body to achieve glucose control in patients with diabetes. This chapter will review the history of such systems and will discuss ciurent technology and future trends for the sustained delivery of insulin for the treatment of diabetes mellitus. Several media serving as carriers include synthetic absorbable polymers, biomolecules, and ceramics. 

CEC-ESI-MS is a new integrated separation and detection technique for the analysis of biomolecules. It is stiU in the development stage. The following topics are considered as future research directions including ... 

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