The Proteins Composition Structure And Function V1
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The Proteins Composition, Structure, and Function V1
The Proteins: Composition, Structure, and Function, Second Edition, Volume I explores the quantitative relationships between protein composition, structure, and function. This book is composed of six chapters that cover the rapid and fundamental advances in understanding protein chemistry. This book outlines first the quantitative procedures and various methods suitable for the determination of amino acids found as constituents of naturally occurring peptides and as free amino acids in tissues and body fluids. These topics are followed by a discussion on some of the aspects of peptide chemistry, which appear significant in relation to peptides possessing physiological activity. The next chapter considers protein synthesis that represents the sequences of chemical reactions whereby amino acids are assembled in biological systems to produce proteins. This volume also examines the correlation of structure with function; the mechanisms of control of protein biosynthesis; the exact role of intramolecular interactions in the determination of tertiary structure; and the colinearity of genetic "maps with amino acid sequences. A chapter describes the methods of analysis and reactions of sulfhydryl, disulfide, and thiol ester groups in proteins, as well as the evidence relating to the functions of these sulfur groups in proteins. The final chapter looks into the models and theories for the noncovalent bond interactions in proteins. This book is of value to organic chemists, biochemists, and researchers in the protein-related fields.
Macromolecular Physics V1
Macromolecular Physics, Volume 1: Crystal Structure, Morphology, Defects provides a unified treatment of crystals of linear macromolecules. This book is organized into four chapters: structure of macromolecules, microscopic structure of crystals, crystal morphology, and defect crystal. This publication specifically discusses the macromolecular hypothesis, molecular conformation, and synthesis of macromolecules. The discovery and proof of the lattice theory, structures of minimum free energy, and crystal structures of macromolecules are also deliberated. This publication likewise covers the macromolecular crystals, macroscopic recognition of defects, and deformation of polymer crystals. This volume is a good reference for physicists, scientists, and specialists concerned with research on crystals of linear macromolecules.
The Proteins of Plastid Nucleoids – Structure, Function and Regulation
Author: Thomas Pfannschmidt
language: en
Publisher: Frontiers Media SA
Release Date: 2016-09-13
Plastids are plant cell-specific organelles of endosymbiotic origin that contain their own genome, the so-called plastome. Its proper expression is essential for faithful chloroplast biogenesis during seedling development and for the establishment of photosynthetic and other biosynthetic functions in the organelle. The structural organisation, replication and expression of this plastid genome, thus, has been studied for many years, but many essential steps are still not understood. Especially, the structural and functional involvement of various regulatory proteins in these processes is still a matter of research. Studies from the last two decades demonstrated that a plethora of proteins act as specific regulators during replication, transcription, post-transcription, translation and post-translation accommodating a proper inheritance and expression of the plastome. Their number exceeds by far the number of the genes encoded by the plastome suggesting that a strong evolutionary pressure is maintaining the plastome in its present stage. The plastome gene organisation in vascular plants was found to be highly conserved, while algae exhibit a certain flexibility in gene number and organisation. These regulatory proteins are, therefore, an important determinant for the high degree of conservation in plant plastomes. A deeper understanding of individual roles and functions of such proteins would improve largely our understanding of plastid biogenesis and function, a knowledge that will be essential in the development of more efficient and productive plants for agriculture. The latter represents a major socio-economic need of fast growing mankind that asks for increased supply of food, fibres and biofuels in the coming decades despite the threats exerted by global change and fast spreading urbanisation.