Containing a comprehensive collection of convenient and quantitative methods for studying centrosomes, spindle pole bodies and related organelles, this text is a valuable resource for researchers and others interested in studying the role of these organelles in cell replication. Chapters outlining the role of these organelles in other cell functions are also included, and a wide variety of experimental systems for analyzing these organelles are presented. Detailed protocols for experiments are contained in each chapter for researchers to perform in their own labs. This volume outlines key methodologies used to analyze centrosomes and spindle pole bodies, their replication, and reproduction in the clear, well-illustrated style of the METHODS IN CELL BIOLOGY series.

DNA sequence specificity is a sub-specialty in the general area of molecular recognition. This area includes macromolecular-molecular interactions (e.g., protein-DNA), oligomer-DNA interacitons (e.g., triple strands), and ligand-DNA interactions (e.g., drug-DNA). It is this latter group of DNA sequence specificity interactions that is the subject of Volumes 1 and 2 of "Advances in DNA Sequence Specific Agents." As was the case for Volume 1, Part A also covers methodology, but in Volume 2 we include calorimetric titrations, molecular modeling, X-ray crystallographic and NMR structural studies, and transcriptional assays. Part B also follows the same format as Volume 1 and describes the sequence specificities and covalent and noncovalent interactions of small ligands with DNA.
This volume is aimed in general at scientists who have an interest in deciphering the molecular mechanisms for sequence recognition of DNA. The methods have general applicability to small molecules as well as oligomers and proteins, while the examples provide general principles involved in sequence recognition.

This practical book provides the detailed methodology and expert guidance required for measuring and manipulating cytosolic ion concentrations. In addition, the strengths, weaknesses, and pitfalls of various techniques are presented. It is an invaluable source for those needing an objective evaluation of current methodologies and for those contemplating setting up such procedures.
Key Features
* A one-source reference for measuring and manipulating intracellular ions and for comparing and evaluating current methodologies
* Includes overviews of
* Optical probes and reagents
* Fabrication and use of ion-selective microelectrodes
* Use of NMR spectroscopy
* Ionophores

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.

Resident Stem Cells and Regenerative Therapy: Sources and Clinical Applications, Second Edition presents the main findings to date and the important factors to be considered when contemplating resident stem cells in regenerative therapies. Chapters on cardiac, brain, neural, liver, kidney, skeletal muscle, bone, pancreatic, skin and lung resident stem cells will assist in defining the level of success that has been achieved and the direction for the road ahead. With contributions from leading laboratories, open questions related to resident stem cells and regenerative therapies will also be presented for debate. In the last several decades, stem cells have greatly impacted the scientific and lay communities, providing huge advances in the treatment of devastating human diseases, including myocardial infarction, diabetes, muscular dystrophy, cystic fibrosis, cirrhosis, and osteoporosis. Alongside debates of induced pluripotent stem cells and embryonic stem cells has been the discovery of adult stem cells in many different tissues. While these organ resident or progenitor stem cells offer prospects to contribute to tissue regeneration, they also present challenges because of the complexity of organ structures.

Viral Vectors in Cancer Immunotherapy, Volume 379 in the International Review of Cell and Molecular Biology presents the latest on cancer immunotherapy and how it has transformed cancer treatment through advances in immune checkpoint inhibitors and adoptive cell therapy. Chapters in this new release include Past, present and future of viral vectors in cancer immunotherapy, Alphaviruses in cancer immunotherapy, Adenoviral-based cancer gene therapy, Armored modified vaccinia Ankara in cancer immunotherapy, Strategies of Semliki Forest virus in immuno-oncology, Maraba virus in cancer immunotherapy, Oncolytic viruses in hematological malignancies, Oncolytic virus for cancer therapies: Overview and future directions, and more. The use of genetically modified viruses allows the expression of pro-inflammatory molecules, while the immune system receives danger signals from the viruses themselves. In some cases, the virus can also induce tumor cell death. This book will review advances in virus-based cancer immunotherapy in both solid tumors and hematologic malignancies.

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.

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.

Ionizing Radiation and the Immune Response, Part B, Volume 378 reviews the latest knowledge on the immune response induced by ionizing radiations. Specific chapters in this new release include NK functions in radio-induced immune response, TRT and immune response, Radio-induced immune response and lipid metabolism, Effect of protons and heavy ions on immune response, Effect of flash therapy and mini beam on immune response, Radio-induced lymphopenia, CT to potentiate radio-induced immune response, Impact of RT on healthy tissues (inflammation), Radio-induced macrophagic response, To use nanoparticles and ionizing radiations to modulate immune response: opinion of the chemist, biologist and clinician, and much more. Other sections cover the Role of Dendritic cells in radiation-induced immune response, the Relationship between the tumor microenvironment and the efficacy of the radiotherapy/immunotherapy combination, and Biomarkers of radiation induced response to optimize radio-immunotherapy combination.

Research in the field of senescence has boomed recently due to the gradual realization that senescent cells are associated with a significant number of diseases. The genetic or pharmacological elimination of senescent cells can cause widespread benefits and improves outcomes for most of those diseases. Cellular Senescence in Diseases presents an updated review of the role of cellular senescence in multiple pathologies. Focus is given to those diseases where the implication of senescence has been more extensively documented, such as (cancer, lung and liver diseases, diabetes, Neurodegenerative diseases and others). The Editors recruited a group of worldwide experts in each individual pathology to review the role of cellular senescence in each one of them, aiming at identifying potential therapeutic pathways. The first two chapters provide an overview of the cellular senescence principles. Next, the chapters are divided into specific diseases. Cancer, including premalignant lesions (OIS), Advanced disease (TIS), and Metastasis are covered. The following condition covered is Lund diseases, including IPF, COPD, and Pulmonary Hypertension. Next Liver Diseases are covered, including Fibrosis and Cirrhosis, and Fatty liver disease. Next there is coverage for Kidney implications, including fibrosis and transplantation. Vascular diseases are covered next including infarction and hear fibrosis, and atherosclerosis. Both diabetes types 1 and 2 are covered next. Following chapters cover Obesity, Sarcopenia, and Bone and Cartilage disorders, respectively. Neurodegenerative diseases are covered next, focusing on Alzheimer and Parkinson. The next chapter discusses accumulation of senescent cell in tissues during aging. The two final chapters cover current developments and conclusions. Cellular Senescence in Diseases is designed for researchers and clinicians with a focus on the cellular mechanisms of diseases. All chapters cover current experimental therapeutic approaches to eliminate or cancel the pathological effects of senescent cells. Pharmaceutical scientists may also benefit from the contents of the book in the exploration of novel therapeutic opportunities.

Advances in Applied Microbiology, Volume 122 continues the comprehensive reach of this widely read and authoritative review source in microbiology. Users will find invaluable references and information on a variety of areas relating to the topic of microbiology. This release includes updates on BioMateriOME: to understand microbe-material interactions within sustainable, living architectures.

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.

Ionizing Radiation and the Immune Response, Volume 376, Part A reviews the latest updates on the immune response induced by ionizing radiations. Sections discuss the role of specific immune cells (macrophage, lymphocyte, NK cells...) and describe the effect of modern radiotherapy techniques (TRT, minibeams, flash-RT, proton therapy, heavy ions...) on immune response. Sample chapters cover NK functions in radio-induced immune response, TRT and immune response, Radio-induced immune response and lipid metabolism, Effect of protons and heavy ions on immune response, Effect of flashtherapy and mini beam on immune response, Radio-induced lymphopenia, CT to potentiate radio-induced immune response, and much. Other sections focus on the Effect of low dose radiation on radio-induced immune response, Role of Dendritic cells in radiation-induced immune response, Relationship between the tumor microenvironment and the efficacy of the radiotherapy/immunotherapy combination+A23, Biomarkers of radiation induced response to optimize radio-immunotherapy combination.

Myeloid-Derived Suppressor Cells, Volume 378, includes comprehensive and detailed reviews on the current advances in myeloid derived suppressor cells, an immature, heterogenous cell population from the myeloid lineage that has been extensively described in the last decades due to its potent immunosuppressive activity in a variety of pathologies. Reviews maintain a high standard by publishing invited articles on important and timely topics authored by prominent researchers. The articles published in IRCMB have a high impact. IRCMB ranks high amongst scientific journals dealing with cell biology.

Cilia: From Mechanisms to Disease, Part A, Volume 175 in the Methods in Cell Biology series, offers a range of techniques and protocols that can be used to study aspects of this interesting cellular organelle both in vitro and in vivo. In this volume, different study models are used, such as human cell lines, Mus musculus, Danio rerio, Paramecium caudatum or Chlamydomonas reinhardtii. Besides, protocols to study the genesis, morphology, composition and function of cilia will be addressed. In this book, the ciliary study will be realized by using different techniques such as flow cytometry, time-lapse images of fluorescent ciliary proteins, the use of organoids, the evaluation of the ciliary-GPCR dynamics or genetic modulation by using CRISPR/Cas9.

Mitochondria and Bacterial Pathogens, Volume 374, Part A. Mitochondria control various processes that are integral to cellular and organismal homeostasis, including Ca2+ fluxes, bioenergetic metabolism, and cell death. Perhaps not surprisingly, multiple pathogenic bacteria have evolved strategies to subvert mitochondrial functions in support of their survival and dissemination. In the IRCMB volume 375, the authors discus different pathogenic mechanisms that converge on the ability of bacteria to control the mitochondrial compartment of host cells.

Regulation of Downstream Targets, Volume 134 in the Advances in Protein Chemistry and Structural Biology series, presents interesting chapters on topics such as Transcriptional regulatory mechanisms and signaling networks in Viral Infections, Identification of potential key genes associated with pathogenesis and prognosis of endometrial cancer based on Integrated Bioinformatics Approaches, Differential regulation of genes in stage IB pancreatic cancer associated with increased risk of metastasis, AMPK-related LKB1-downstream targets, A compilation of bioinformatic approaches to identify novel downstream targets for the detection and prophylaxis of cancer, Protein phosphatases and their targets: Critical determinants of signaling pathway in plants, and more. Other sections cover Calcium decoders and their targets: The holy alliance that regulate cellular responses, Importin alpha family NAAT/IBB domain: functions of a multi-faceted long chameleon sequence, Aurora Kinase A and related downstream molecules: A Potential Network for Cancer Therapy, Emerging Role of Heat Shock Proteins in Cardiovascular Diseases, Function, Structure, Evolution, Regulation and Drug Target Relevance of Arylalkylamine N-acetyltransferase, and Analysis of signaling cascades from myeloma cells treated with pristimerin.

Cancer glycobiology is a blazing hot area of cancer research with aberrant post-translational glycosylations on lipids and proteins considered critical for cancer development and metastasis. The NIH/NCI Alliance of Glycobiologists for Cancer Research is a consortium of (10) tumor glycobiology laboratories funded to investigate how cancer-associated glycans (CAG) impact the development and metastasis of cancer. The hope of this momentous effort is to discover CAGs for use as novel biomarkers to detect early-stage cancer or its aggressive behavior or, alternatively, as novel molecular targets with the promise of a curative approach to cancer therapy. The mission of the 'Alliance' is to study structure and function of CAGs in cancer development and to provide clinically useful biomarkers for detecting cancer early or the potential of metastasis. This charge has stimulated extensive collaborations across US and International institutions to accelerate discovery of glycan-based biomarkers to the forefront of NCI's efforts to diagnose early-stage cancer and provide curative anti-cancer therapies. The main goals of these research efforts are: 1. To identify and study how cancer-associated glycans functionally impact cancer growth and metastasis 2. To identify cancer-associated glycans that can serve as biomarkers for the detection or progression of cancer 3. To develop cancer-associated glycans as novel therapeutic targets for the treatment and cure of cancer This volume consists of (9) chapters, one from each funded laboratory, that reviews new methods and mechanisms highlighting glycoconjugates and their roles as cancer biomarkers and/or anti-cancer therapeutic targets.

Radiation Oncology and Radiotherapy, Part B, Volume 174 in the Methods in Cell Biology series, highlights advances in the field, with this new volume presenting interesting chapters on timely topics including CT-assisted focal irradiation of tumors in mice, Methods to preserve correct dosimetry in small animal irradiators, Monitoring TGFbeta signaling in irradiated tumors, Cytofluorometric characterization of the lymphoid compartment of irradiated tumors, Cytofluorometric characterization of the myeloid compartment of irradiated tumors, Mass cytometry to characterize the immune infiltrate of irradiated tumors, Characterization of the immune infiltrate in irradiated mouse tumor by multiplex immunofluorescence, and much more. Other chapters cover Methods to study FOXP3+CD8+ cells in irradiated bone metastases, Luminex-based characterization of cytokine signaling by irradiated tumors, Explant-based assessment of anticancer immunity in irradiated tumors, Pipeline to characterize the TCR repertoire of irradiated tumors, Pipeline to identify tumor neoantigens exposed by radiation, and more.

The Immunological Synapse, Part A, Volume 173 in the Methods in Cell Biology series provides state-of-the-art methods for the study of the immunological synapse. Sections cover Imaging polarized granule release at the cytotoxic T cell immunological synapse using TIRF microscopy: control by polarity regulators, Analysis of centrosomal area actin reorganization and centrosome polarization upon lymphocyte activation at the immunological synapse, P815-based redirected degranulation assay to study human NK cell effector functions, Cytotoxic and Chemotactic Dynamics of Natural Killer Cells Quantified by Live-cell Imaging, Quantification of interaction frequency between antigen-presenting cells and T cells by conjugation assay, and more. Other chapters focus on the Study of the Effects of NK-Tumor Cell Interaction by Proteomic Analysis and Imaging, Quantification of lymphocytic choriomeningitis virus specific T cells and LCMV viral titers, Quantification of lymphocytic choriomeningitis virus specific T cells and LCMV viral titers, An in vitro model to monitor natural killer cell effector functions against primary breast cancer, and Standardized Protocol for the Evaluation of Chimeric Antigen Receptor (CAR)-modified Cell Immunological Synapse Quality using the Glass-supported Planar L.

Secretory Proteins, Volume 133 in the Advances in Protein Chemistry and Structural Biology series highlights new advances in the field, including chapters on Proprotein Convertases regulate trafficking and maturation of key proteins within the secretory pathway, Secretory Proteins in Cancer Diagnosis, Senescent Cells and SASP in Cancer Microenvironment: new approaches in cancer therapy, Autophagy for secretory protein: Therapeutic targets in cancer, Secretory proteins and pathways of secretion of osteosarcoma, Monocyte secretory proteins as drug targets for arresting progression of atherosclerosis, The secretory phenotypes of envenomed cells: insights into venom cytotoxicity, Macromolecules for secretory pathway in SARS-CoV-2 infection, and much more. Other sections cover Exploring the role of secretory proteins in the human infectious diseases diagnosis and therapeutics, Secretory proteins in orchestration of microbial pathogenesis- the curious case of Staphylococcus aureus, Influence of pathological mutations in Aspartylglucosylamine Deaspartylase causing Aspartylglucosaminuria: an in silico approach, and Change in conformational dynamics of Lipase A secretory protein upon mutation causing Wolman disease.

Advances in Biomembranes and Lipid Self-Assembly, Volume 36 serial highlights new advances in the field with this new volume presenting interesting chapters. Each chapter is written by an international board of authors.

Ion Transport and Membrane Interactions in Vascular Health and Disease, Volume 90 in the Current Topics in Membranes series, highlights advances in the field, with this new volume including chapters on an Introduction to Ion transport and membrane interactions in vascular health and disease, Endothelial cell microdomains of Ca2+ and metabolism, Cytoplasmic nanojunctions between smooth muscle organelles control specific Ca2+ signaling, TRPML channels in coronary vascular phenotypic modulation and calcification, Local voltage-gated Ca2+ channel regulation of vascular smooth muscle in diabetes, Biphasic changes in smooth muscle Ca2+ transporters during the progression of coronary atherosclerosis, Role of K+ channels in atherosclerosis, and more.

Advances in Applied Microbiology, Volume 121 continues the comprehensive reach of this widely read and authoritative review source in microbiology. Users will find invaluable references and information on a variety of areas relating to the topics of microbiology.