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A comprehensive review of stress signaling in plants using genomics and functional genomic approaches Improving agricultural production and meeting the needs of a rapidly growing global population requires crop systems capable of overcoming environmental stresses. Understanding the role of different signaling components in plant stress regulation is vital to developing crops which can withstand abiotic and biotic stresses without loss of crop yield and productivity. Emphasizing genomics and functional genomic approaches, Protein Kinases and Stress Signaling in Plants is a comprehensive review of cutting-edge research on stress perception, signal transduction, and stress response generation. Detailed chapters cover a broad range of topics central to improving agricultural production developing crop systems capable of overcoming environmental stresses to meet the needs of a rapidly growing global population. This book describes the field of protein kinases and stress signaling with a special emphasis on functional genomics. It presents a highly valuable contribution in the field of stress perception, signal transduction and generation of responses against one or multiple stress signals. This timely resource: Summarizes the role of various kinases involved in stress management Enumerates the role of TOR, GSK3-like kinase, SnRK kinases in different physiological conditions Examines mitogen-activated protein kinases (MAPKs) in different stresses Describes the different aspects of calcium signaling under different stress conditions Examines photo-activated kinases (PAPKs) in varying light conditions Briefs the presence of tyrosine kinases in plants Highlights the cellular functions of receptor ]like protein kinases (RLKs) Possible implication of these kinases in developing stress tolerant crops Protein Kinases and Stress Signaling in Plants: Functional Genomic Perspective is an essential resource for researchers and students in the fields of plant molecular biology and signal transduction, plant responses to stress, plant cell signaling, plant protein kinases, plant biotechnology, transgenic plants and stress biology.
Protein kinases are fascinating enzymes that maintain the proper function of nearly every task performed by the cells of the human body. By extracting a phosphate from the energy molecule ATP and linking it to another protein, protein kinases alter the structure and ultimate function of other proteins. In this way, protein kinases help monitor the extracellular environment and integrate signaling cues that, for the most part, are beneficial for human health and survival. However, protein kinases are often dysregulated and responsible for the initiation and progression of many types of cancers, inflammatory disorders, and other diseases. Thus, decades of research have revealed much about how protein kinases are regulated and approaches to inhibit these enzymes to treat disease. However, nearly 30 years since the identification of the first clinically beneficial small molecule protein kinase inhibitor, there are only a few examples where these drugs provide sustained and durable patient responses. The goal of this book is to provide biomedical scientists, graduate, and professional degree students insight into different approaches using small molecules to block specific protein kinase functions that promote disease.
In this book leading researchers in the field discuss the state-of-the-art of many aspects of SAPK signaling in various systems from yeast to mammals. These include various chapters on regulatory mechanisms as well as the contribution of the SAPK signaling pathways to processes such as gene expression, metabolism, cell cycle regulation, immune responses and tumorigenesis. Written by international experts, the book will appeal to cell biologists and biochemists.
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 catalogue 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 wanted to know about proteins but were too busy to look for. The Protein Kinase FactsBook: Protein - Tyrosine Kinases contains over 130 entries on members of the family from vertebrates, " Drosophila" , higher plants, yeasts, nematodes, slime moulds and other organisms. Key Features* Subunit structure and isoforms* Genetics* Sequence database accession numbers* Domain structures* Amino acid sequences* Homologues in other species* Patterns of expression* Physiological substrates and specificity determinants* Assays* Enzyme activators and inhibitors* References.
Protein Kinases in Drug Discovery, Volume 124 discusses the latest information on protein kinases and how they modify other proteins by chemically adding phosphate groups to them. New chapters in this release include Transport Proteins and AMPs: Implications in Human Disease, Protein kinase CK2 inhibition as a pharmacological strategy, Emerging role of Protein kinase in diabetes mellitus: From Mechanism to therapy, Dual Roles of ATP-binding site in Protein Kinases: Orthosteric inhibition and Allosteric Regulation, Pseudokinases in drug discovery and development: progress, challenges and future prospects, Comparison of knowledge-based vs. combinatorial peptide library approaches for the identification of protein kinase substrates, and more. Contains timely chapters written by well-renown authorities in their field Includes a number of high-quality illustrations, figures and tables, and targets a very wide audience of specialists, researchers and students Integrates experimental and computational methods for studying the role of protein kinases in different diseases, along with sections on the design of suitable protein kinase inhibitors for use in the treatment of patients
Protein kinase C (PKC), a family of serine-threonine kinases, rocketed to the forefront of the cancer research field in the early 1980’s with its identification as an effector of phorbol esters, natural products with tumor promoting activity. Phorbol esters had long been of interest to the cancer research field due to early studies in the mouse skin carcinogenesis model, which showed that prolonged topical application of phorbol esters promoted the formation of skin tumors on mice previously treated with mutagenic agents. Research in the last years has established key roles for PKC isozymes in the control of cell proliferation, migration, adhesion, and malignant transformation. In addition, there is a large body of evidence linking PKC to invasion and cancer cell metastasis. Moreover, it is now well established that the expression of PKC isozymes is altered in various types of cancers. More importantly, small molecule inhibitors have been developed with significant anti-cancer activity. The relevance of PKC isozymes in cancer signaling is therefore remarkable. This book will have 4 sections. There will be 23 chapters. Each section will have a brief introduction by an expert in the field (~ 1-2 pages).
Since the publication of Protein Kinases in 1994 many novel protein kinases have been discovered, but perhaps more importantly there have been dramatic advances in our understanding of the cellular functions of this remarkably diverse class of proteins. Protein Kinase Functions is not just an update of the previous edition but provides a new focus on the context and function of protein kinases, thus reflecting the recent advances in kinase biology. Chapters on genetic approaches to protein kinase functions, the MAP kinase pathway, and cyclin-dependent kinases have been completely updated and new topics covered in depth are: phosphatidylinositol 3-kinase signalling, JAK-STAT signalling, suppression of tyrosine kinases by the SOCS family proteins, the TGF� superfamily, and the involvement of protein kinases in response to DNA damage. Throughout, emphasis is placed not on individual kinases, but on the functional aspects of the whole system and the relationship between processes and molecules. It is the aim of Protein Kinase Functions to enable the reader to assimilate, compare, and integrate the molecular machinery used by cells to co-ordinate and respond to their environments.
The NMDA receptor plays a critical role in the development of the central nervous system and in adult neuroplasticity, learning, and memory. Therefore, it is not surprising that this receptor has been widely studied. However, despite the importance of rhythms for the sustenance of life, this aspect of NMDAR function remains poorly studied. Written
Cyclin Dependent Kinase 5 provides a comprehensive and up-to-date collection of reviews on the discovery, signaling mechanisms and functions of Cdk5, as well as the potential implication of Cdk5 in the treatment of neurodegenerative diseases. Since the identification of this unique member of the Cdk family, Cdk5 has emerged as one of the most important signal transduction mediators in the development, maintenance and fine-tuning of neuronal functions and networking. Further studies have revealed that Cdk5 is also associated with the regulation of neuronal survival during both developmental stages and in neurodegenerative diseases. These observations indicate that precise control of Cdk5 is essential for the regulation of neuronal survival. The pivotal role Cdk5 appears to play in both the regulation of neuronal survival and synaptic functions thus raises the interesting possibility that Cdk5 inhibitors may serve as therapeutic treatment for a number of neurodegenerative diseases.