Your search keyword '"Ignazio Avella"' showing total 3 results

1. A roadmap to the enzymes from spider venom: biochemical ecology, molecular diversity, and value for the bioeconomy

Author

Josephine Dresler, Ignazio Avella, Maik Damm, Ludwig Dersch, Jonas Krämer, Andreas Vilcinskas, and Tim Lüddecke

Subjects

Araneae, biocatalysis, biodiscovery, venomics, industrial application, toxinology, Animal biochemistry, QP501-801, Zoology, QL1-991

Abstract

Spiders are ancient and highly successful predators, which use venom for both predation and defense. Their venoms are complex mixtures of potent biological molecules, emerging as a prolific source of biomolecular innovation in agriculture, biomedicine, and bioeconomy. While small cysteine-rich neurotoxins are typically considered the main components of spider venoms, recent research has shown that spider venoms also contain many high-molecular-weight proteins, especially enzymes. To date, very little is known about the diversity, biochemistry and ecology of these components. Here, we provide the first systematic overview of spider venom enzymes, describing all known examples in terms of their properties and functions in the spider venom system. We argue that the sheer diversity of these neglected spider venom compounds offers significant translational potential and holds great potential for the bioeconomy, reflecting a wide range of technical applications such as industrial production, food processing, and waste management.

Published

2024

2. Who are you? The genetic identity of some insular populations of Hierophis viridiflavus s.l. from the Tyrrhenian Sea

Author

Ignazio Avella, Riccardo Castiglia, and Gabriele Senczuk

Subjects

Zoology, QL1-991

Abstract

This work investigates the genetic identity of Hierophis viridiflavus s.l. specimens from insular populations, to determine which of the two previously identified species is present on each island. Here, the authors hypothesise about times and modes of colonization and discuss the faunistic value of the obtained results. This follows the recent proposal to consider the two clades as two different species. Specimens from the islands of Favignana, Lipari and Vulcano belong to H. carbonarius and probably all belong to putative Sicilian source populations. Conversely, all individuals from the Pontine Islands (Ponza, Palmarola, Ventotene) should be considered to belong to H. viridiflavus. Even if genetically identical to the specimens from the Tyrrhenian Italian coast, these individuals show a darker colouration, very similar to the one usually shown by H. carbonarius specimens. Considering that the Pontine H. viridiflavus populations probably have a very recent origin, the dark livery of these individuals could be the result of a rapid morphological adaptation to insular environments.

Published

2017

3. Unexpected lack of specialisation in the flow properties of spitting cobra venom

Author

Arie van der Meijden, Nicholas R. Casewell, Wolfgang Wüster, Robert A. Harrison, Chris Holland, Ignazio Avella, Riccardo Castiglia, Paul D. Rowley, Edgar Barajas-Ledesma, and Edouard Crittenden

Subjects

Concentration, VIPeR, Toxinology, Physiology, Naja, Zoology, Venom, Cobra, Aquatic Science, 03 medical and health sciences, Animals, Elapidae, Molecular Biology, wd_400, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Spitting cobra venom, computer.programming_language, Elapid Venoms, 0303 health sciences, Spitting, biology, Viscosity, pH, qu_4, 030302 biochemistry & molecular biology, biology.organism_classification, Bitis, Rheology, Insect Science, Africa, Animal Science and Zoology, computer, Tooth, wd_410

Abstract

Venom spitting is a defence mechanism based on airborne venom delivery used by a number of different African and Asian elapid snake species (‘spitting cobras’; Naja spp. and Hemachatus spp.). Adaptations underpinning venom spitting have been studied extensively at both behavioural and morphological level in cobras, but the role of the physical properties of venom itself in its effective projection remains largely unstudied. We hereby provide the first comparative study of the physical properties of venom in spitting and non-spitting cobras. We measured the viscosity, protein concentration and pH of the venom of 13 cobra species of the genus Naja from Africa and Asia, alongside the spitting elapid Hemachatus haemachatus and the non-spitting viper Bitis arietans. By using published microCT scans, we calculated the pressure required to eject venom through the fangs of a spitting and a non-spitting cobra. Despite the differences in the modes of venom delivery, we found no significant differences between spitters and non-spitters in the rheological and physical properties of the studied venoms. Furthermore, all analysed venoms showed a Newtonian flow behaviour, in contrast to previous reports. Although our results imply that the evolution of venom spitting did not significantly affect venom viscosity, our models of fang pressure suggests that the pressure requirements to eject venom are lower in spitting cobras than in non-spitting cobras.

Published

2020