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Arthropod Venom Components and Their Potential Usage

Thousands of arthropod species, ranging from arachnids (spiders and scorpions) to hymenopterans (ants, bees, and wasps) and myriapods (centipedes), are venomous and use their venoms for both defense and predation. These venoms are invariably harmful to humans, and some may cause serious injuries, e....

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Bibliographic Details
Main Author: Konno, Katsuhiro
Other Authors: Rádis-Baptista, Gandhi
Format: eBook
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
Venom
Natural Antibiotics
Nav1.7
Knottins
Cutaneous Disease
Spider Venom
Amp
Ants
Drug Targets
Homology Modelling
Bees
Ltq Orbitrap Hybrid Mass Spectrometer
Metalloproteases
Pain Target
Loxosceles
Berberomeloe Majalis
Bioinformatics
Biotools
De Novo Sequencing
Ick-like Toxins
Venom Toxicity
Voltage-gated Sodium Channel
Malaria
Recombinant Toxins
Ion Channel Structure
Pilosulin-like Peptide
Proteome
Blister Beetle
Staphylococcus Aureus
Dinoponera Quadriceps
Peptides
Tertiapin
Neuropathic Pain
Loxosceles Spp.
Novel Therapeutics
Antivenoms
Insect Immune System
Linear Cationic ?-helical Peptide
Formicidae
Solitary Wasp
Hymenoptera
Mass Spectrometric Analysis
Lyetxi-b
Scorpion Venom
Toxoplasmosis
Automated Patch-clamp
Chagas Disease
Mechanism
Neutralizing Antibodies
Mastoparan
Pain
Small Hive Beetle
Acid-gated Currents
Chemotherapy
Tenebrio Molitor
Mechanical Allodynia
Venom Peptides
Protein–peptide Interactions
Nav Channel Activity
Stent
Human African Trypanosomiasis
Spider Toxin
Keratitis
Fmrf-amide
Nav
Antifeedant
Transcriptome
Mass Spectrometry Analysis
Channel-like Pore-forming Activity
N/a
Amphipathic ?-helix Structure
Centruroides Limpidus Karch
Acinetobacter Baumannii
Medicine / Bicssc
Scorpion
Ant
Acid-sensing Ion Channels
Heart Contractility
Bee Venom
Hymenoptera Venom
Antimicrobial Peptide
Oxaliplatin
Protons
Computational Docking
Insecticidal Peptide
Directed Disulfide Bond Formation
Cold Allodynia
Apoptosis
Myrmecology
Chronic Pain
Phospholipases D
Industrial Biotechnology
Virtual Screening
Leishmaniasis
Venom Allergens
Melittin
Brown Spider
Hybrid Immunogen
Proteomics
Alternative Treatment
Cantharidin
Pharmacology
Nematicide
Toxins
Piperidine Heterocyclic Amines
Ph Regulation
Skin
Ick Peptide
Envenomation
Ixodicide
Wasps
Arthropod
Insect Neurotoxin
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Description
Summary:Thousands of arthropod species, ranging from arachnids (spiders and scorpions) to hymenopterans (ants, bees, and wasps) and myriapods (centipedes), are venomous and use their venoms for both defense and predation. These venoms are invariably harmful to humans, and some may cause serious injuries, e.g., those from scorpions, spiders, and wasps. Arthropods’ venoms are also known as rich sources of biologically active compounds and have attracted the attention of toxin researchers for years. In this century, venom component analysis has progressed considerable due to the advances in analytical techniques, in particular, mass spectrometry and next-generation deep (DNA and RNA) sequencing. As such, proteomic and peptidomic analyses using LC–MS have enabled the full analysis of venom components, revealing a variety of novel peptide and protein toxins sequences and scaffolds, potentially useful as pharmacological research tools and for the development of highly selective peptide ligands and therapeutic leads, like chlorotoxin. Due to their specificity for numerous ion-channel subtypes, including voltage- and ligand-gated ion channels, arthropod neurotoxins have been investigated to dissect and treat neurodegenerative diseases and control epileptic syndromes. This Special Issue collects information on such progress, encouraging contributions on the chemical and biological characterization of venom components, not only peptides and proteins, but also small molecules, their mechanisms of action, and the development of venom-derived peptide leads.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by-nc-nd/4.0/
Physical Description:1 electronic resource (404 p.)
ISBN:9783039285419
books978-3-03928-541-9
9783039285402

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