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The Cell Nucleus V3
The Cell Nucleus, Volume III focuses mainly on nucleic acids, nuclear proteins, and special aspects of nuclear functions. This volume particularly discusses the organization of bacterial and viral DNA, as well as the nuclear DNA of eukaryotic organisms. It also describes nuclear DNA polymerases, precursors of messenger RNA, ribonucleoproteins, and nuclear high- and low-molecular-weight RNAs. Furthermore, this volume looks into the two broad classes of nuclear proteins: histones and nonhistone proteins. It also presents advances made in the knowledge of mammalian DNA-dependent RNA polymerase, cytochemical detection of nuclear enzymes, and nuclear protein synthesis. Moreover, it elucidates the effects of female steroid hormones on target cell nuclei, describes the nucleus during avian erythropoiesis, and reports the general properties of intranuclear viruses.
Cell Biology by the Numbers
A Top 25 CHOICE 2016 Title, and recipient of the CHOICE Outstanding Academic Title (OAT) Award. How much energy is released in ATP hydrolysis? How many mRNAs are in a cell? How genetically similar are two random people? What is faster, transcription or translation?Cell Biology by the Numbers explores these questions and dozens of others provid
Nuclear Structure and Function
This volume is a comprehensive guide to the methodologies used in the study of structural domains of cell nuclei. The text covers chromatin, the karyoskeleton, the soluble domain, and the nucleolus. It details methods that are used to isolate components from these domains and techniques used to assemble and disassemble nuclear elements. There is also coverage of three-dimensional mapping and localization of nuclear processes.Key Features* Provides a practical laboratory guide for studying cell nuclei* Includes comprehensive and easy-to-follow protocols
Comparative Oncology
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Genome Organization And Function In The Cell Nucleus
By way of its clear and logical structure, as well as abundant highresolution illustrations, this is a systematic survey of the players and pathways that control genome function in the mammalian cell nucleus. As such, this handbook and reference ties together recently gained knowledge from a variety of scientific disciplines and approaches, dissecting all major genomic events: transcription, replication, repair, recombination and chromosome segregation. A special emphasis is put on transcriptional control, including genome-wide interactions and non-coding RNAs, chromatin structure, epigenetics and nuclear organization. With its focus on fundamental mechanisms and the associated biomolecules, this will remain essential reading for years to come.
Calcium and Calmodulin Function in the Cell Nucleus
This book is about the role of calcium and calmodulin in the cell nucleus. Calcium, which is an important second messenger of signal transduction pathways, can also operate in the cell nucleus. Different calcium binding proteins, which are the targets of cellular calcium, have been identified in the nucleus of many different cell types. Prominent among these calcium binding proteins is calmodulin, which appears to be involved in the regulation of major nuclear functions such as gene expression and DNA replication.
The Cell: A Very Short Introduction
Introduces cells, discussing their structure, life cycle, and what they can do.
Acidic Proteins of the Nucleus
Acidic Proteins of the Nucleus focuses on the functional role of acidic nuclear proteins in differential gene expression. Historically, these proteins are referred to as acidic in nature because they are insoluble in dilute mineral acids and their amino acid composition shows a preponderance of acidic over basic amino acid residues. After an introduction to DNA-binding proteins and transcriptional control in prokaryotic and eukaryotic systems, the subsequent chapters describe various approaches for isolating, separating, and characterizing acidic nuclear proteins. The core chapters specifically cover the isolation, fractionation, and characterization of acidic nuclear phosphoproteins, and the role of these proteins in cell proliferation, cell differentiation, and cell cycle. The last two chapters address the role of acidic nuclear protein in binding steroid hormones and in gene regulation. Each chapter contains some previously unpublished work and provides recommendations for future research. This book will be a good reference background for researchers of acidic nuclear proteins.
