Results 121 to 130 of about 1,142 (172)
Divergent venom effectors correlate with ecological niche in neuropteran predators. [PDF]
Fischer ML +9 more
europepmc +1 more source
A review of the venom microbiome and its utility in ecology and evolution including future directions for emerging research. [PDF]
De León ME +16 more
europepmc +1 more source
It's a Small World After All: The Remarkable but Overlooked Diversity of Venomous Organisms, with Candidates Among Plants, Fungi, Protists, Bacteria, and Viruses. [PDF]
Hayes WK +6 more
europepmc +1 more source
An in-depth exploration of snake venom-derived molecules for drug discovery in advancing antiviral therapeutics. [PDF]
Hboub H +4 more
europepmc +1 more source
Arthropod venoms: Biochemistry, ecology and evolution
Comprising of over a million described species of highly diverse invertebrates, Arthropoda is amongst the most successful animal lineages to have colonized aerial, terrestrial, and aquatic domains. Venom, one of the many fascinating traits to have evolved in various members of this phylum, has underpinned their adaptation to diverse habitats.
R R Senji Laxme +2 more
exaly +4 more sources
Structural diversity of arthropod venom toxins
Arthropods are a diverse and ancient group of invertebrate animals, which constitute approximately 75-85% of all known species on earth. Many arthropod species, such as spiders, scorpions and even some crustaceans, contain venoms that can be very complex, representing natural combinatorial libraries of bioactive compounds.
Norelle L. Daly, David Wilson
openaire +4 more sources
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Arthropod venoms as tools for the study of neuromuscular transmission
Comparative Biochemistry and Physiology Part C: Comparative Pharmacology, 1981Abstract 1. The effects of a selected number of relatively well studied arthropod venoms and toxins, on the neuromuscular transmission, are reviewed. 2. A few arthropod venoms and toxins are used as tools for the study of cation ionophores involved in the generation of action potentials and for the study of membrane recycling in nerve terminals. 3.
Tom Piek
exaly +3 more sources

