With Cholesterol, Drs. Anna Bukiya and Alex Dopico have compiled a comprehensive resource on biological and clinical aspects of cholesterol, spanning biophysics and biochemistry, as well as the latest pharmacological discoveries employed to tackle disorders associated with abnormal cholesterol levels. Early chapters on basic biology offer guidance in cholesterol lab chemistry, cholesterol metabolism and synthesis, molecular evolution of cholesterol and sterols, cholesterol peptides, and cholesterol modulation. Chapters on cellular and organismal development discuss cholesterol transport in blood, lipoproteins, and cholesterol metabolism; cholesterol detection in the blood; cellular cholesterol levels; hypercholesterolemia; and the role of cholesterol in early human development. Pathophysical specialists consider familial hypobetalipoproteinemia, critical illness and cholesterol levels, coronary artery disease, CESD, cholesterol and viral pathology, cholesterol and neurodegenerative disorders, and cholesterol and substance use disorders. A final section examines pharmacology of drug delivery systems targeting cholesterol related disorders, cholesterol receptors, cholesterol reduction, statins, citrate lyase, cyclodextrins, and clinical management. Cholesterol: From Biophysics and Biochemistry to Pathology and Pharmacology empowers researchers, students, and clinicians across various disciplines to advance new cholesterol-based studies, improve clinical management, and drive drug discovery.

The Human Mitochondrial Genome: From Basic Biology to Disease offers a comprehensive, up-to-date examination of human mitochondrial genomics, connecting basic research to translational medicine across a range of disease types. Here, international experts discuss the essential biology of human mitochondrial DNA (mtDNA), including its maintenance, repair, segregation, and heredity. Furthermore, mtDNA evolution and exploitation, mutations, methods, and models for functional studies of mtDNA are dealt with. Disease discussion is accompanied by approaches for treatment strategies, with disease areas discussed including cancer, neurodegenerative, age-related, mtDNA depletion, deletion, and point mutation diseases. Nucleosides supplementation, mitoTALENs, and mitoZNF nucleases are among the therapeutic approaches examined in-depth. With increasing funding for mtDNA studies, many clinicians and clinician scientists are turning their attention to mtDNA disease association. This book provides the tools and background knowledge required to perform new, impactful research in this exciting space, from distinguishing a haplogroup-defining variant or disease-related mutation to exploring emerging therapeutic pathways.

Enzymes Conjugated to Graphene, Volume 609 in the Methods in Enzymology series, highlights new advances in the field, with this new volume presenting interesting chapters on Enzyme immobilization, Detection of Urea, Enzyme immobilization Enzyme immobilization, PAMAM dendrimer modified reduced graphene oxide post functionalized by horseradish peroxidase for biosensing H2O2, HRP immobilized for LEV detection, Enzyme immobilization, Graphene biocatalysts, Enzyme immobilization, Interactions, Enzyme immobilization, GQD, Enzyme Immobilization, and Enzyme immobilization on functionalized graphene oxide nanosheets.

Radical SAM Enzymes, Volume 606, the latest release in the Methods in Enzymology series, highlights new advances in the field, with this new volume presenting interesting chapters on the Characterization of the glycyl radical enzyme choline trimethylamine-lyase and its radical S-adenosylmethionine activating enzyme, Diphathimide biosynthesis, Radical SAM glycyl radical activating enzymes, Radical SAM enzyme BioB in the biosynthesis of biotin, Biogenesis of the PQQ cofactor, Role of MoaAC in the biogenesis of the molybdenum cofactor, Biosynthesis of the nitrogenase cofactor, Bioinformatics of the radical SAM superfamily, The involvement of SAM radical enzymes in the biosynthesis of methanogenic coenzymes, methanopterin and coenzyme F420, and more.

Enzymes as Sensors, Volume 589, the latest release in the Methods in Enzymology series, covers a variety of topics, including advances in genetically coded fluorescent sensors, enzymes as sensors, and bioapplications of electrochemical sensors and biosensors. Users will find a comprehensive discussion of timely topics that presents a micro-level delivery of specific content related to the study of enzymes in sensors. New to this edition are highly specialized chapters on integrated strategies for gaining a systems level view of dynamic signaling networks, sensitive protein detection and quantification in paper-based microfluidics for point-of-care, and microneedle enzyme sensor arrays for continuous in vivo monitoring. This state-of-the-art series is ideal for those interested in the latest information on enzymology, with this edition focusing on sensors and their role in enzymes.

Proteomics in Biology Part A, the latest volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field, and a focus on proteomics for this updated volume.

Single-Molecule Enzymology, Part B, the latest volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods in single-molecule enzymology, and includes sections on such topics as force-based and hybrid approaches, fluorescence, high-throughput sm enzymology, and nanopore and tethered particle motion.

Enzymology at the Membrane Interface, the latest volume in the Methods in Enzymology series, covers a subset of enzymes that work in the environment of the biological cell membrane. This field, called interfacial enzymology, involves a special series of experimental approaches for the isolation and study of these enzymes.

Developmental Signaling in Plants, the latest volume in The Enzymes series, follows up on the themes discussed in volume 35, notably cell-to-cell and organ-to-organ communication. In addition, it looks at the environmental and hormonal effects on development and the epigenetics on development.

De Novo Enzyme Design, the newest volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume includes the design of metal binding maquettes, insertion of non-natural cofactors, Cu metallopeptides, non-covalent interactions in peptide assemblies, peptide binding and bundling, heteronuclear metalloenzymes, florinated peptides, De Novo imaging agents, and protein-protein interaction.

cryoEM, a new volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods and new developments in recording images, the creation, evaluation and validation of 3D maps from the images, model building into maps and refinement of the resulting atomic structures, and applications of essentially single particle methods to helical structures and to sub-tomogram averaging.

Synthetic Biology and Metabolic Engineering in Plants and Microbes, Part B, the latest volume in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. This volume covers research methods, synthetic biology, and metabolic engineering in plants and microbes, and includes sections on such topics as the usage of integrases in microbial engineering, biosynthesis, and engineering of tryptophan derived metabolites, regulation and discovery of fungal natural products, and elucidation and localization of plant pathways.

The critically acclaimed laboratory standard for almost 50 years, "Methods in Enzymology" is one of the most highly respected publications in the field of biochemistry. Each volume is eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with over 520 volumes and 40,000 chapters in the collection, much of the material is still relevant today and is truly an essential publication for researchers in all fields of life sciences, including microbiology, biochemistry, cancer research, and genetics, just to name a few.

In this volume, number 545, we have brought together a number of core protocols concentrating on protein, carefully written and edited by experts.
Indispensable tool for the researcher Carefully written and edited by experts to contain step-by-step protocolsBrings together a number of core protocols concentrating on protein

This volume is an in-depth treatment of G-Protein Signaling, Part A, and will cover general methods of analysis of RGS protein analysis, including Expression and post-translational modification, Assays of GAP activity and allosteric control, Electrophysiological methods and RGS-insensitive Ga subunits, Mouse models of RGS protein action, Methods of RGS protein inhibition, and G-protein regulators of model organisms.
Table of Contents
-Expression and post-translational modification
-Assays of GAP activity and allosteric control
-Electrophysiological methods and RGS-insenstitive Ga subunits
-Mouse Models of RGS protein action
-Methods of RGS protein inhibition
-G-protein regulators of model organisms

Liposomes are cellular structures made up of lipid molecules. Important as a cellular model in the study of basic biology, liposomes are also used in clinical applications such as drug delivery and virus studies.
*Methods in Liposome Preparation
*Physiochemical Characterization of Liposomes

This volume and its companion Volume 351 will supplement Volume 194 of MIE. The guides are specifically designed to meet the needs of graduate students and postdocs as well as researchers. Whether an established researcher or newcomer to the field, these volumes will contain all the up-to-date methods needed to study "Genes in Yeast." Procedures are included to enable newcomers to set up a yeast laboratory and to master basic manipulations. Relevant background and reference information will be given for proven procedures that can be used as a guide for developing protocols in a number of disciplines.

In recent years, powered by evolving technologies and experimental design, studies have better illuminated the regulating role of proteolytic enzymes across human development and pathologies. Proteolytic Signaling in Health and Disease provides an in-depth discussion of fundamental physiological and developmental processes regulated by proteases, from protein turnover and autophagy to antigen processing and presentation and major histocompatibility complex (MHC) molecules. Moving on from basic biology, international chapter authors examine a range of pathological conditions associated with proteolysis, including inflammation, wound healing, and cancer. Later chapters discuss the newly discovered network of connected events among proteases (and their inhibitors), the so-called 'protease web', and how best to study it. This book also empowers new research with up-to-date analytical methods and step-by-step protocols for studying proteolytic signaling events.

Chemical Biology of the Genome provides a comprehensive overview of essential concepts and principles of genomic and epigenomics dynamics as explored through the lens of chemical biology. Key examples and case studies illustrate chemical biology methods for study and analysis of the genome and epigenome, with an emphasis on relevance to physiological and pathophysiological processes and drug discovery. Authors and international leaders in biochemical studies of the genome, Drs. Siddhartha Roy and Tapas Kundu, adopt an integrated, interdisciplinary approach throughout, demonstrating how fast evolving chemical and mass-scale sequencing tools are increasingly used to interpret biochemical processes of the genome. Later sections discuss chemical modifications of the genome, DNA sequence recognition by proteins and gene regulation, GWAS and EpiGWAS studies, 3D architecture of the genome, and functional genome architecture. In-depth, discovery focused chapters examine intervention in gene networks using SiRNA/ShRNA, miRNA, and anti-miR, small molecule modulation of iPS, drug resistance pathways altered DNA methylation as drug targets, anti-miR as therapeutics, and nanodelivery of drugs.

Advanced Methods in Molecular Biology and Biotechnology: A Practical Lab Manual is a concise reference on common protocols and techniques for advanced molecular biology and biotechnology experimentation. Each chapter focuses on a different method, providing an overview before delving deeper into the procedure in a step-by-step approach. Techniques covered include genomic DNA extraction using cetyl trimethylammonium bromide (CTAB) and chloroform extraction, chromatographic techniques, ELISA, hybridization, gel electrophoresis, dot blot analysis and methods for studying polymerase chain reactions. Laboratory protocols and standard operating procedures for key equipment are also discussed, providing an instructive overview for lab work. This practical guide focuses on the latest advances and innovations in methods for molecular biology and biotechnology investigation, helping researchers and practitioners enhance and advance their own methodologies and take their work to the next level.

The Enzymes, Volume 47, highlights new advances in the field, with this new volume presenting interesting chapters on The Multipurpose Family of Oxidases, Vanillyl alcohol oxidase, Choline oxidases, Aryl alcohol oxidase, D- and L-amino acid oxidases, Sugar oxidases, Phenolic Compounds hydroxylases, Baeyer-Villiger Monooxygenases, Flavin-dependent halogenases, Flavin-dependent dehalogenases, Styrene Monooxygenases, Bacterial luciferases, Cellobiose Dehydrogenases, Prenylated flavoenzymes, Ene-reductases, Flavoenzymes in Biocatalysis.

Enzymes - Mechanisms, Dynamics and Inhibition, Volume 122, the latest release in the Advances in Protein Chemistry and Structural Biology series, highlights new advances in the field, with this new volume presenting new and interesting chapters on the topics. Each chapter is written by an international board of authors.

Methods in Enzymology, Volume 644, the latest release in this ongoing serial, continues the legacy of this premier serial with quality chapters authored by leaders in the field. Chapters in this new release include Site-directed recombination (SDR) in vivo: a fast and reliable tool to unveil beneficial epistasis, Creation and application of amine oxidase with expanded substrate specificities from porcine kidney D-amino acid oxidase, Methods to assess correlation networks for engineering transketolase, Exploration of Enzyme Diversity by Integrating Bioinformatics with Microfluidics, Engineering lytic polysaccharide monooxygenases (LPMOs), Emulsion-based directed evolution of enzymes in yeast, and much more.

Enzyme Active Sites and their Reaction Mechanisms provides a one-stop reference on how enzymes "work." Here, Dr. Harry Morrison, PhD and Professor Emeritus at Purdue University, provides a detailed overview of the origin and function of forty enzymes, the chemical details of their active sites, their mechanisms of action, and associated cofactors. The enzymes featured highlight a step forward, along with possible areas of application, thus supporting new research in academic and industrial labs. Each chapter is written in a clear format, including a brief summary of enzyme function and structure, a detailed description of their mechanisms of action and associated co-factors.

Post-translational Modifications That Modulate Enzyme Activity, Volume 626 in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. Updated chapters include Crosstalk between cellular metabolism and histone acetylation, Isolation of protein complexes and modifications that regulate transcriptional machinery, High-throughput phosphoproteome mapping through multiplexed mass spectrometry, Differentiation of D and L epimerization in proteins, Biochemical analysis of protein arginylation, Site-specific Determination of lysine acetylation stoichiometries on the proteome-scale, Genomic and biochemical analysis of RNA post-transcriptional modifications, Isolation and characterization of glycosylated (neuro)peptides, and more.