Natural products play an integral and ongoing role in promoting numerous aspects of scientific advancement, and many aspects of basic research programs are intimately related to natural products. The significance, therefore, of the Studies in Natural Product Chemistry series, edited by Professor Atta-ur-Rahman, cannot be overestimated. This volume, in accordance with previous volumes, presents us with cutting-edge contributions of great importance.

How do you keep track of basic information on the proteins you work with? Where do you find details of their physicochemical properties, amino acid sequences, gene organization? Are you tired of scanning review articles, primary papers and databases to locate that elusive fact?
The Academic Press FactsBook series will satisfy scientists and clinical researchers suffering from information overload. Each volume provides a catalog of the essential properties of families of molecules. Gene organization, amino acid sequences, physicochemical properties, and biological activity are presented using a common, easy-to-follow format. Taken together they compile everything you want to know about proteins but are too busy to look for. The Chemokine FactsBook contains more than 40 entries on chemokines, and chemokine receptors from human or other origin, including IL-8, MCP-1, C5-a, RANTES, Lymphotactin, and CC CKR-1.
The text provides information on tissue sources, target cells, physicochemical properties, transcription factors, regulation of expression in disease, receptor-binding characteristics, gene structure and location, amino acid sequences, and accession numbers and references.
Key Features
* Contains over 40 entries on chemokines and chemokine receptors from human or other origin, including:
* IL-8
* MCP-1
* C5-a
* RANTES
* Lymphotactin
* CC CKR-1
Entries provide information on:
* Tissue sources
* Target cells
* Physicochemical properties
* Transcription factors
* Regulation of expression
* Expression in disease
* Receptor-binding characteristics
* Gene structure and location
* Amino acid sequences
* Database accession numbers
* References

In Volume 18 of this well-established series, Professor Atta-ur-Rahman again brings together the work of several of the world's leading authorities in organic chemistry. Their contributions demonstrate the rapid, ongoing development of this field by illustrating many of the latest advances in synthetic methods, total synthesis, structure determination, biosynthetic pathways, and biological activity.
The opening chapter presents an overview of strategies for the synthesis of several classes of natural products with an emphasis on complex polycyclic systems. Subsequent chapters discuss the synthesis of specific classes of compounds, including morphine, polyketides, acetogenins, nonactic acid derivatives, complex spirocyclic ethers, a-lactam and pyridone derivatives, inositol phosphates, sphingolipids, brassinosteroids, Hernandia lignans, and dimeric steroidal pyrazine alkaloids. Finally, the ever stronger links between chemistry and biology are reinforced by chapters on the origin and function of secondary metabolites, bioactive conformations of gastrin hormones, and immunochemistry."

Recent advances in genetic engineering and in the chemistry and biochemistry of fruit and vegetables have radically changed our understanding of the mechanisms underlying these processes, and the potential for modification of the products themselves. This is the first book to examine these topics and address the role of fresh fruits and vegetables in a healthy diet and the prevention of cancer and coronary diseases. The main focus is on the secondary metabolites which are responsible for quality characteristics including color, aroma, and flavor, and their nutritional importance and role in the prevention of cancer and cardiovascular diseases. The book also explores how the post-harvest technological treatments to which these commodities are submitted can cause changes in secondary metabolism, with consequences for the quality of the product.

In the past, the stability of milk and milk products was the primary consideration, but this is no longer the principal objective due to the evolution of modern sanitary practices as well as pasteurization. Today, the manufacture of dairy products of consistently good flavor and texture is crucial. In previous flavor studies, researchers identified hundreds of volatile compounds, with little or no attention paid to their sensory contribution to overall flavor of dairy products. The availability of powerful chromatographic separation techniques like high resolution gas chromatography in combination with mass spectrometry and olfactory detection ports have revolutionized the work on characterization of dairy flavor. This along with recent developments in sensory methods and our increased knowledge about the genomics of diary culture organisms have allowed great advancements in our understanding of dairy flavor chemistry. Flavor of Dairy Products covers the evolution of dairy flavor research and presents updated information in the areas of instrumental analysis, biochemistry, processing and shelf-life issues related to the flavor of dairy products.

Consumers, regulators, and the food industry increasingly require that foods comply not only with label descriptions of food content, but also with information regarding the food's origin. For example, the wine industry has a long history of labeling wines based on varietal, regional, or age (vintage)-related properties. However, regulatory agencies are now beginning to require methods to confirm this label information. Food retailers are also facing voluntary or mandatory labeling requirements that will indicate regional or country-of-origin, species and/or varietal information. As a result, development of reliable analytical methods to confirm the authenticity of the label information is needed. This book presents the latest research on food and wine authentication. The chapters are authored by leading international scientists whose research focuses on the development and application of analytical methodologies used for the authentication of food and beverages.

Measuring metabolic rates is central to important questions in many areas of scientific research. Unfortunately these measurements are anything but straightforward, and numerous pitfalls await the novice and even the experienced investigator.
Measuring Metabolic Rates de-mystifies the field, explaining every common variation of metabolic rate measurement, from century-old manometric methods through ingenious syringe-based techniques, direct calorimetry, aquatic respirometry, stable-isotope metabolic measurement and every type of flow-through respirometry. Each variation is described in enough detail to allow it to be applied in practice. Background information on different analyzer and equipment types allows users to choose the best instruments for their application. Respirometry equations - normally a topic of terror and confusion to researchers - are derived and described in enough detail to make their selection and use effortless.
Vital topics such as manual and automated baselining, implementing multi-animal systems, and the correct analysis and presentation of metabolic data are covered in enough detail to turn a respirometry neophyte into a hardened metabolic warrior, ready to take on the task of publication in peer-reviewed journals.

The role of parasites and pathogens in the evolution of life history traits is of increasing interest to both ecologists and evolutionary biologists. Immunology, which was once studied almost exclusively by immunologists, has become an important area of proximate investigation to animal physiologists as a means for understanding changes in disease susceptibility and the neural and neuroendocrine mechanisms that mediate these changes. The coalescence of these different perspectives has given rise to the field of ecological immunology, an interdisciplinary research field that examines interactions among host physiology and disease ecology in a wide range of environmentally relevant contexts. The goal of ecological immunology is to understand immune function in the context of life-history traits across a wide range of organisms. Research within the field combines diverse approaches from a wide range of scientific disciplines including evolution, ecology, and life history theory to endocrinology, neuroscience, molecular biology, and behavior. This book critically reviews recent advances in the discipline of ecoimmunology. Chapters are written by experts in their respective fields and cover diverse topics including how environmental factors can affect host immune function, the complex dynamics among host immunity, pathogen prevalence and disease susceptibility, and the physiological mechanisms that lead to adaptive changes in immune responses. By integrating analyses of immune system function within animal biology, investigators will gain will gain a more comprehensive and satisfying understanding of organism-environment interactions at both ultimate and proximate levels of analysis.

Environmental pollution as a consequence of diverse human activities has become a global concern. Urbanization, mining, industrial revolution, burning of fossil fuels/firewood and poor agricultural practices, in addition to improper dumping of waste products, are largely responsible for the undesirable change in the environment composition. Environmental pollution is mainly classified as air pollution, water pollution, land pollution, noise pollution, thermal pollution, light pollution, and plastic pollution. Nowadays, it has been realized that with the increasing environmental pollution, impurities may accumulate in plants, which are required for basic human uses such as for food, clothing, medicine, and so on. Environmental pollution has tremendous impacts on phenological events, structural patterns, physiological phenomena, biochemical status, and the cellular and molecular features of plants. Exposure to environmental pollution induces acute or chronic injury depending on the pollutant concentration, exposure duration, season and plant species. Moreover, the global rise of greenhouse gases such as carbon monoxide, carbon dioxide, nitrous oxides, methane, chlorofluorocarbons and ozone in the atmosphere is among the major threats to the biodiversity. They have also shown visible impacts on life cycles and distribution of various plant species. Anthropogenic activities, including the fossil-fuel combustion in particular, are responsible for steady increases in the atmospheric greenhouse gases concentrations. This phenomenon accelerates the global heating. Studies have suggested that the changes in carbon dioxide concentrations, rainfall and temperature have greatly influenced the plant physiological and metabolic activities including the formation of biologically active ingredients. Taken together, plants interact with pollutants, and cause adverse ecological and economic outcomes. Therefore, plant response to pollutants requires more investigation in terms of damage detection, adaptation, tolerance, and the physiological and molecular responses. The complex interplay among other emerging pollutants, namely, radioisotopes, cell-phone radiation, nanoparticles, nanocomposites, heavy metals etc. and their impact on plant adaptation strategies, and possibility to recover, mitigation, phytoremediation, etc., also needs to be explored. Further, it is necessary to elucidate better the process of the pollutant's uptake by plant and accumulation in the food chain, and the plant resistance capability against the various kinds of environmental pollutants. In this context, the identification of tolerance mechanisms in plants against pollutants can help in developing eco-friendly technologies, which requires molecular approaches to increase plant tolerance to pollutants, such as plant transformation and genetic modifications. Pollutant-induced overproduction of reactive oxygen species that cause DNA damage and apoptosis-related alterations, has also been examined. They also trigger changes at the levels of transcriptome, proteome, and metabolome, which has been discussed in this book.

ZIP Metal Ion Transporters, Volume 684 in the Methods in Enzymology series, highlights new advances in the field with this new volume presenting interesting chapters on a variety of topics, including Biochemistry, Biophysics and Structural Biology, Structure determination of a bacterial ZIP in lipidic cubic phase, Cell-based metal transport assay for animal and plant ZIPs, Measurement of metal binding affinity and transport activity in ZIP transporters using spectroscopic methods, Considerations in production of the (prokaryotic) ZIP family transporters for structural and functional studies, Metal-protein interactions investigated using model systems: thermodynamic, spectroscopic and computational methods, and more. Additional chapters cover Getting Zinc Into and Out of Cells, In-silico modeling of ZIP9 (TBD), Cellular Function and Regulation, Methods to visualize zinc transporter proteins of the SLC39A family in cells, Assessing metal ion transporting activity of ZIPs: intracellular zinc and iron detection, In vitro studies for studying manganese transport and homeostasis, and much more.

Advances in Microbial Physiology, Volume 83 in this ongoing serial, highlights new advances in the field with this new volume presenting interesting chapters. Each chapter is written by an international board of authors. Topics of interest in this update include RidA paradigm, Targeting the cell envelope to overcome antimicrobial resistance, Biosynthesis and function of microbial methylmenaquinones, Antibiotic efficacy, Role of central metabolism/bacterial physiology on tolerance to cell wall-acting antibiotics, and Physiology of diazotrophs.

This special volume titled The Cardiovascular Glycocalyx in Health and Disease has the goal of giving an updated perspective of the glycocalyx function through the cardiovascular system and its integration in whole system physiology. This volume will address roles of the glycocalyx at the membrane and cellular level and its implications to overall cardiovascular function and disease progression. Further, pharmacological targeting of the glycocalyx will be addressed as an important mechanism for diagnosis and therapeutic interventions.

Advances in Biomembranes and Lipid Self-Assembly, Volume 37 provides a comprehensive compilation of recent developments in a field that is in a state of rapid growth as new experimental and theoretical techniques are used on many problems, both old and new. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics, and laser physics, with timely articles written by experts. New chapters in this updated release include Engulfment of particles by vesicles containing curved membrane proteins coupled with active cytoskeletal forces, Interaction of cells with different types of nanostructured surfaces, Solid-supported lipid bilayer formation by solvent exchange, and more.

Control of Cell Cycle & Cell Proliferation, Volume 135 in the Advances in Protein Chemistry and Structural Biology series, highlights new advances, with this new volume presenting chapters on a variety of timely topics, including Exploiting pivotal mechanisms behind the senescence-like cell cycle arrest, Viral infection on through Cell Cycle Regulation, Analyzing drug resistant mutation in CDK4 gene and identification of potential inhibitors through structure based virtual screening approach, Controlling cell proliferation by targeting CDK6 using drug repurposing approach, Cdk Regulators: Growth Arrest or Apoptosis? Scenarios in normal and cancerous cells, Targeting cell cycle signaling pathways for cancer therapy, and much more. Other sections focus on The role of the nucleolus in regulating cell cycle, Chromatin regulators in DNA replication and genome stability maintenance during S-phase, Role of macrophage in cancer cell progression and targeted immunotherapies, Anti-cancer drug molecules targeting cancer cell cycle and proliferation, Cellular signals integrate cell cycle and metabolic control in cancer, Therapeutic targeting and proliferation of HSCs by small molecules and biologicals, Mechanism of cell cycle regulation and cell proliferation during human viral infection, and Cyclin-dependent kinases: Role, regulation, and therapeutic targets in cancer.

Profiles of Drug Substances, Excipients, and Related Methodology, Volume 48 encompasses review articles and database compilations that fall within one or more of the following five broad categories: Physical Profiles of Drug Substances and Excipients; Analytical Profiles of Drug Substances and Excipients; ADME Profiles of Drug Substances and Excipients; Methodology Related to the Characterization of Drug Substances and Excipients; Methods of Chemical Synthesis. There is no comparable book series that gives this crucial information in such a timely and relevant manner. The volume offers in-depth profiles of five drug compounds: Brimonidine, Cristine, Remdesivir, Vandetanib, and Lapatinib. It also includes an additional chapter that discusses Pharmaceutical-Based Cosmetic Serums.

Biochemical Pathways and Environmental Responses in Plants: Part C, Volume 683 in the Methods in Enzymology series, highlights advances in the field. with this new volume presenting chapters on topics including Preparation of hydroxycinnamoyl-CoA thioesters using recombinant 4-coumarate:coenzyme A ligase (4CL) for characterization of BAHD acyltransferases, Near-real time determination of BAHD acyl-coA transferase reaction rates, Bioinformatic tools for protein structure prediction and for molecular docking applied to enzyme active site analysis, Computational and biochemical methods to measure the activity of carboxysomes and protein organelles in vivo, Dirigent Proteins Family Function and Structure, Three-in-One Method for High-throughput plant multi-omics, amongst other timely topics. Additional sections cover Analysis of isoprenyl-phosphates by liquid chromatography-mass spectrometry, Lignin/Lignan Biosynthesis Structure/Function, Comparison of TLC, HPLC, and direct infusion mass spectrometry methods for identification and quantification of diacylglycerol molecular species, Plant sphingolipid analysis, RNA-seq analysis of alternative pre-mRNA splicing mediated by photoreceptors in Physcomitrium patens, and much more.

Plant Small RNA for Food Crops provides foundational insights into the role of small RNA in food crops in varying environmental conditions and how it can help in developing molecular frameworks to support agricultural sustainability to feed the world's population. Small RNA populations have been widely identified in various plants and have been reported to be involved in regulating the molecular functioning of plants and their responses for biotic and abiotic environmental factors. Until now, however, a detailed compilation of role of small RNAs in food crops growth, yield and environmental responses had been unavailable. This book provides a detailed description of role of various small RNAs whose utilization in a range of food crops may serve to improve sustainability, productivity, and maintenance during environmental stress conditions. It brings together the reported small RNAs along with their applications specific to food crops, but also covers recent studies, innovations and future perspectives.

Integrated Methods in Protein Biochemistry: Part C, Volume 679 in the Methods in Enzymology series, highlights new advances in the field with this new volume presenting interesting chapters on a variety of topics, including NanoBiT-based methods to monitor the activation and modulation of RTKs, The interplay of G-protein ss? subunit and PLC-ss enzyme in PIP2 hydrolysis and downstream signaling, Biochemical Analysis of Protein-Protein Interfaces underlying the regulation of Bacterial Secretion Systems, Probing the structure and function of N-acetylmannosamine-6-phosphate 2-epimerase, Spectroscopic analysis of cysteine dioxygenase: a mammalian thiol-dioxygenase, DeGlyPHER: MS-based analysis of viral spike N-glycoforms, and more. Other sections cover Covalent protein painting: MS-based protein footprinting, Characterization of GPCR signaling complexes using negative-staining electron microscopy, Probing protein misfolding and dissociation with free electron laser, Optimized protocol for the characterization of Cas12a activities, Proximity proteomics for the identification and characterization of extracellular vesicles, Functional characterization of lytic polysaccharide monooxygenases (LPMOs), Characterization of RRE domain in RiPP biosynthesis, The Preparation of Recombinant Arginyltransferase 1 (ATE1) for Structural and Biophyiscal Characterizations, Testing anti-cancer drugs with Holographic Incoherent-light-source Quantitative Phase Imaging, and more.

Advances in Microbial Physiology serial highlights new advances in the field with this new volume presenting interesting chapters. Each chapter is written by an international board of authors.

Contaminants of emerging concern in the marine environment: current challenges in marine pollution reviews the available data in relation to contaminants of emerging concern (CECs) in the marine environment: main sources, transport pathways, distribution in seawater and sediments, bioaccumulation, and biological effects. Each chapter recaps the most relevant information about the main groups of CECs, describing the particularities and specificities of each group and focusing on the most relevant individual contaminants. CECs are not regulated substances, and therefore not considered in national and international monitoring programs, even though they may have a potential impact on the environment due to their continuous input, relative persistence, and/or toxicity. CECs are relevant not only in continental and coastal areas close to their main sources, but also in the open sea, because some of them are likely to be transported long distances through air deposition or absorbed into particulate material. The persistence of many degradable substances in the marine environment increases when they are absorbed into particulate material/sediments and/or when they are subjected to anaerobic conditions that slow down the degradation kinetic of many contaminants. Bioaccumulation of several CECs has been confirmed in different coastal organisms; however, in general, the information available (species and trophic levels considered) is very limited because most studies are mainly focused on specific coastal areas. This book offers useful information about not regulated contaminants that are not considered in international monitoring programs but have potential impacts in coastal and open-sea areas. Therefore reading the book will allow them to improve their view about the real impact of current-use contaminants in the marine environment.

Advances in Clinical Chemistry, Volume 113, the latest installment in this internationally acclaimed series, contains chapters authored by world-renowned clinical laboratory scientists, physicians and research scientists. The serial discusses the latest and most up-to-date technologies related to the field of clinical chemistry with sections in this release focusing on Biosensors for saliva biomarkers, Biochemistry and pathophysiology of the Transient Potential Receptor Vanilloid 6 (TRPV6) calcium channel, Protein Glycation in Diabetes Mellitus, Biomarkers of Oxidative Stress and Reproductive Complications, Cortisol: Analytical and Clinical Determinants, and Hemophilia A: Emicizumab monitoring and impact on coagulation testing.

Hormones and Epigenetics, Volume 122, the latest release in the Vitamins and Hormones series, highlights new advances in the field, with this new volume presenting timely, interesting chapters written by an international board of authors.