Initially, because of the inadequate sensitivity of devices and other limitations, only major venom components of the dominant species were studied. However, in last two decades, increased sensitivity of devices and the development of new techniques, such as transcriptomics and proteomics techniques, have permitted us to analyze the structures and functions of rare species and to identify novel minor components. As a result, the number of venom components identified is increasing dramatically and the physiological functions of each component is more deeply understood. The scope of this book…mehr
Initially, because of the inadequate sensitivity of devices and other limitations, only major venom components of the dominant species were studied. However, in last two decades, increased sensitivity of devices and the development of new techniques, such as transcriptomics and proteomics techniques, have permitted us to analyze the structures and functions of rare species and to identify novel minor components. As a result, the number of venom components identified is increasing dramatically and the physiological functions of each component is more deeply understood. The scope of this book provides the readers an updated and comprehensive presentation on snake venoms. The subjects are divided into six sections, starting with the overview of snake venom compositions in Malaysian species, followed by description of enzymes and enzyme inhibitors contained in snake venoms. Also discussed are the effects of snake venom on cellular receptors, ion channels, blood, and lymph, as well as cytotoxic and antimicrobial molecules present in snake venoms. The last section covers the clinical consequences of envenomation and the management of snakebites using antivenins.
Prof P. Gopalakrishnakone is a world leader in the characterization of the structure and function of animal and plant toxins and chemical poisons, which contain highly specific and biologically active components. He has contributed significantly to the body of knowledge regarding the anatomy of snake venom glands and the development of drug candidates from animal toxins. Prof Gopal pioneered the development of the NUS Venom and Toxin Research Programme, which has put NUS at the forefront of toxin research internationally. The technology platform that has been built over the years under the Venom and Toxin Research Programme, coupled with its extensive library of protein and peptides, has enabled Prof Gopal and his team to complete the discovery process of lead candidates in time and to transfer valuable supplementary information to the next discovery steps involving profiling and optimization of lead candidates. The objective is to characterize the venom components and natural toxins at a molecular level and identify promising compounds amenable to the development of novel human therapeutics. Prof Gopal's lab has identified over twenty peptides with unique medical indications from venom-based proteins with some already under development as therapeutics.
Prof Gopal's research studies includes structure function studies (toxin detection, biosensors, antitoxins and neutralization factors), toxicogenomics and expression studies, antimicrobial peptides from venoms and toxins and PLA2 inhibitors as potential drug candidate for inflammatory diseases. The techniques he employs include quantum dots to toxinology, computational biology, microarrays and protein chips. He has patented analgesic peptide, anti inflammatory peptide as well as anti rheumatoid arthritis peptides. He is exploring various possibilities of delivery systems for these peptides to target sites and administration of these peptides orally, transdermally, ocular and injections.
Prof Gopal has over 100 international peer-reviewed papers in venom and toxin research, drug discovery, biosensors, and toxinogenomics. His research awards include the Outstanding University Researcher Award from the National University of Singapore (1998); Ministerial Citation, NSTB Year 2000 Award in Singapore; and the Research Excellence Award from the Faculty of Medicine, National University of Singapore (2003). His awards in teaching include, Faculty Teaching Excellence Award 2003/4 & NUS Annual Teaching Excellence Award 2003/4. He also received the Faculty Teaching Excellence Award in 2009/10 and the Annual Teaching Excellence Award, NUS FOR 2009/10. He is the President of International Society on Toxinology till 2012, and is a member of the editorial board of Toxicon, the official journal of the International Society on Toxinology.
Inhaltsangabe
Toxinology of Snake Venoms: The Malaysian Context. - Cellular Mechanisms of Action of Snake Phospholipase A2 Toxins. - Secreted Phospholipases A2 with beta-Neurotoxic Activity. - Anticoagulant and Membrane Damaging Properties of Snake Venom Phospholipase A2 Enzymes. - Phospholipase A2 Inhibitors from Snake Blood (sbPLIs). - A Brief Appraisal on Russell's Viper Venom (Daboia russelii russelii) Proteinases. - Endothelial Cell Toxicity of Vascular Apoptosis-Inducing Proteins from Hemorrhagic Snake Venom. - Snake Venom Protease Inhibitors: Enhanced Identification, Expanding Biological Function, and Promising Future. - Snake Venom Toxins Targeted at the Nervous System. - Snake -neurotoxins and the Nicotinic Acetylcholine Receptor. - Structural and Functional Diversity of Snake Sarafotoxins. - Crotamine: Function Diversity and Potential Applications. - Vipericidins, Snake Venom Cathelicidin-Related Peptides, in the Milieu of Reptilian Antimicrobial Polypeptides. - Cytotoxic Effects of Snake Venoms. - Cobra Venom Factor: The Unique Component of Cobra Venom That Activates the Complement System. - Non-Cobra Venom Factor Venom Components Acting on Complement Proteins. - Snake Venom Components Affecting the Coagulation System. - Snake Venom Disintegrins. - Role of Lymphatic System on Snake Venom Absorption. - Antivenom Safety and Tolerance for the Strategy of Snake Envenomation Management.
Toxinology of Snake Venoms: The Malaysian Context. - Cellular Mechanisms of Action of Snake Phospholipase A2 Toxins. - Secreted Phospholipases A2 with beta-Neurotoxic Activity. - Anticoagulant and Membrane Damaging Properties of Snake Venom Phospholipase A2 Enzymes. - Phospholipase A2 Inhibitors from Snake Blood (sbPLIs). - A Brief Appraisal on Russell's Viper Venom (Daboia russelii russelii) Proteinases. - Endothelial Cell Toxicity of Vascular Apoptosis-Inducing Proteins from Hemorrhagic Snake Venom. - Snake Venom Protease Inhibitors: Enhanced Identification, Expanding Biological Function, and Promising Future. - Snake Venom Toxins Targeted at the Nervous System. - Snake -neurotoxins and the Nicotinic Acetylcholine Receptor. - Structural and Functional Diversity of Snake Sarafotoxins. - Crotamine: Function Diversity and Potential Applications. - Vipericidins, Snake Venom Cathelicidin-Related Peptides, in the Milieu of Reptilian Antimicrobial Polypeptides. - Cytotoxic Effects of Snake Venoms. - Cobra Venom Factor: The Unique Component of Cobra Venom That Activates the Complement System. - Non-Cobra Venom Factor Venom Components Acting on Complement Proteins. - Snake Venom Components Affecting the Coagulation System. - Snake Venom Disintegrins. - Role of Lymphatic System on Snake Venom Absorption. - Antivenom Safety and Tolerance for the Strategy of Snake Envenomation Management.
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