Publications by authors named "Samuel Espino"
Mollusk-hunting (molluscivorous) cone snails belong to a monophyletic group in Conus, a genus of venomous marine snails. The molluscivorous lineage evolved from ancestral worm-hunting (vermivorous) snails ∼18 Ma. To enable the shift to a molluscivorous lifestyle, molluscivorous cone snails must solve biological problems encountered when hunting other gastropods, namely: (i) preventing prey escape and (ii) overcoming the formidable defense of the prey in the form of the molluscan shell, a problem unique to molluscivorous Conus.
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- Researchers studied jellyfish venom to identify its biomedical potential, focusing on its effects on mouse dorsal root ganglia (DRG) cells.
- They found that while crude venom caused cell death, purified venom fractions showed specific, reversible effects on different cell types, categorized into three phenotypic responses (A, B, C).
- The study highlights that jellyfish venom contains diverse compounds that can interact with ion channels and receptors, indicating possible wide-ranging physiological applications.
Article Synopsis
- Venomous animals, like certain cone snails, have special ways to capture their prey and protect themselves, usually by messing with their prey's systems like nerves and blood.
- One particular cone snail catches fish using a unique insulin that lowers the fish's blood sugar, making them weaker and easier to catch.
- The study found that the cone snail also uses another toxin that stops fish from releasing a hormone that would normally boost their blood sugar, making it even harder for the fish to escape.
Venomous molluscs (Superfamily Conoidea) comprise a substantial fraction of tropical marine biodiversity (>15,000 species). Prior characterization of cone snail venoms established that bioactive venom components used to capture prey, defend against predators and for competitive interactions were relatively small, structured peptides (10-35 amino acids), most with multiple disulfide crosslinks. These venom components ("conotoxins, conopeptides") have been widely studied in many laboratories, leading to pharmaceutical agents and probes.
View Article and Find Full Text PDFNatural products such as conotoxins have tremendous potential as tools for biomedical research and for the treatment of different human diseases. Conotoxins are peptides present in the venoms of predatory cone snails that have a rich diversity of pharmacological functions. One of the major bottlenecks in natural products research is the rapid identification and evaluation of bioactive molecules.
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- * The study characterizes a specific peptide from Drilliidae venom, named cdg14a, which is small and rich in disulfide bonds, and shows effects on mouse behavior, causing increased excitability in certain nerve cells.
- * Findings indicate that cdg14a could influence specific potassium channels, highlighting the potential of Drilliidae venoms as a source for developing new therapeutic agents targeting ion channels in the nervous system.
is a cone snail endemic to the west side of the island of Sal, in the Cabo Verde Archipelago off West Africa. We describe the isolation and characterization of the first bioactive peptide from the venom of this species. This 30AA venom peptide is named conotoxin AtVIA (δ-conotoxin-like).
View Article and Find Full Text PDFMembers of Mas related G-protein coupled receptors (Mrgpr) are known to mediate itch. To date, several compounds have been shown to activate these receptors, including chloroquine, a common antimalarial drug, and peptides of the RF-amide family. However, specific ligands for these receptors are still lacking and there is a need for novel compounds that can be used to modulate the receptors in order to understand the cellular and molecular mechanism in which they mediate itch.
View Article and Find Full Text PDFThe turripeptide ubi3a was isolated from the venom of the marine gastropod Unedogemmula bisaya, family Turridae, by bioassay-guided purification; both native and synthetic ubi3a elicited prolonged tremors when injected intracranially into mice. The sequence of the peptide, DCCOCOAGAVRCRFACC-NH (O = 4-hydroxyproline) follows the framework III pattern for cysteines (CC-C-C-CC) in the M-superfamily of conopeptides. The three-dimensional structure determined by NMR spectroscopy indicated a disulfide connectivity that is not found in conopeptides with the cysteine framework III: C-C C-C, C-C.
View Article and Find Full Text PDFIn natural proteins and peptides, amino acids exist almost invariably as l-isomers. There are, however, several examples of naturally-occurring peptides containing d-amino acids. In this study we investigated the role of a naturally-occurring d-amino acid in a small peptide identified in the transcriptome of a marine cone snail.
View Article and Find Full Text PDFCone snails in the Virgiconus clade prey on marine worms. Here, we identify six related conotoxins in the O1-superfamily from three species in this clade, Conus virgo, Conus terebra and Conus kintoki. One of these peptides, vi6a, was directly purified from the venom of C.
View Article and Find Full Text PDFNeuroactive diol and acyloin metabolites from cone snail-associated bacteria.
Bioorg Med Chem Lett
September 2013
The bacterium Gordonia sp. 647W.R.
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