Welcome to our book review site go-pdf.online!
You may have to Search all our reviewed books and magazines, click the sign up button below to create a free account.
Tissue-Resident Memory T Cells
Tissue-resident memory T (TRM) cells play a major role in control of viral infections. Their involvement in cancer diseases has been more recently demonstrated. This non-circulating T-lymphocyte subset lacks molecules enabling egress from the tissue and migration to lymph nodes, expresses specific markers of residency and displays specific transcription factors. The present special issue elucidates our current knowledge on CD8+ TRM cells and explores less frequently described resident subsets, such as CD4+ TRM and innate-like cells, as well as their specific metabolism and niches for their formation in infectious and cancer diseases.
Mechanisms of Neuroinflammation and Inflammatory Neurodegeneration in Acute Brain Injury
Mechanisms of brain-immune interactions became a cutting-edge topic in systemic neurosciences over the past years. Acute lesions of the brain parenchyma, particularly, induce a profound and highly complex neuroinflammatory reaction with similar mechanistic properties between differing disease paradigms like ischemic stroke, intracerebral hemorrhage (ICH) and traumatic brain injury (TBI). Resident microglial cells sense tissue damage and initiate inflammation, activation of the endothelial brain-immune interface promotes recruitment of systemic immune cells to the brain and systemic humoral immune mediators (e.g. complements and cytokines) enter the brain through the damaged blood-brain barri...
Nanobody
Nanobodies have become outstanding tools for biomedical research, diagnostics and therapy. Recent advances in the identification and functionalization of target-specific nanobodies now make nanobody-based approaches broadly available to many researches in the field. This book provides a compilation of original research articles and comprehensive reviews covering important and up to date aspects of research on nanobodies and their applications for immunoassays, proteomics, protein crystallization and in vitro and in vivo imaging.
The P2X7 Receptor
This detailed volume covers diverse aspects of P2X7 receptor analysis, ranging from its molecular structure to related pharmacological and immunological tools, via its analysis in heterologous expression systems as well as assays using primary cells and whole animal models. After three introductory chapters that focus on its structure, ligands, and physiological functions, the book details the generation of antibody and nanobody tools for P2X7 receptors, provides protocols for the analysis of expressed P2X7 receptors with a focus on their electrophysiological analysis, as well as protocols for the investigation of P2X7 down-stream signaling in immune cells by flow cytometry. Mouse models and...
Single-Domain Antibodies—Biology, Engineering and Emerging Applications, volume II
This Research Topic is the second volume of Single-Domain Antibodies: Biology, Engineering and Emerging Applications. Please see volume I here. Single-domain antibodies (sdAbs) represent the minimal antigen binding-competent form of the immunoglobulin domain and have unique properties and applications. SdAbs are naturally produced as parts of the heavy-chain-only antibodies of camelid ruminants and cartilaginous fishes. For applications requiring antibody fragments, sdAbs have significant advantages over fragments derived from conventional antibodies such as Fabs or scFvs. The scope of this Research Topic covers current understanding and new developments in (i) the biology, immunology, and genetics of sdAbs in camelids and sharks, (ii) approaches for the isolation and characterization of sdAbs, (iii) strategies for optimizing sdAb solubility, stability, and antigen binding properties and for reducing their immunogenicity, and (iv) specialized applications of sdAbs, including as therapeutics, diagnostics, imaging agents, cellular and molecular probes, and as tools for developmental and structural biology.
