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Full-Text Articles in Life Sciences
Variations In Tetrodotoxin Levels In Populations Of Taricha Granulosa Are Expressed In The Morphology Of Their Cutaneous Glands, Pedro Luiz Mailho-Fontana, Carlos Jared, Marta Maria Antoniazzi, Juliana Mozer Sciani, Daniel Carvalho Pimenta, James P. Strange, Taran Grant, Edmund D. Brodie Jr., Edmund D. Brodie Jr.
Variations In Tetrodotoxin Levels In Populations Of Taricha Granulosa Are Expressed In The Morphology Of Their Cutaneous Glands, Pedro Luiz Mailho-Fontana, Carlos Jared, Marta Maria Antoniazzi, Juliana Mozer Sciani, Daniel Carvalho Pimenta, James P. Strange, Taran Grant, Edmund D. Brodie Jr., Edmund D. Brodie Jr.
Biology Faculty Publications
Tetrodotoxin (TTX), one of the most toxic substances in nature, is present in bacteria, invertebrates, fishes, and amphibians. Marine organisms seem to bioaccumulate TTX from their food or acquire it from symbiotic bacteria, but its origin in amphibians is unclear. Taricha granulosa can exhibit high TTX levels, presumably concentrated in skin poison glands, acting as an agent of selection upon predatory garter snakes (Thamnophis). This co-evolutionary arms race induces variation in T. granulosa TTX levels, from very high to undetectable. Using morphology and biochemistry, we investigated differences in toxin localization and quality between two populations at the extremes …
A Rapid And Accurate Minion-Based Workflow For Tracking Species Biodiversity In The Field, Hendrik Freitag, Simone Maestri, Emanuela Cosentino, Marta Paterno, Jhoana M. Garces, Luca Marcolungo, Massimiliano Alfano, Iva Njunjić, Menno Schilthuizen, Ferry Slik, Michele Menegon, Marzia Rossato, Massimo Delledonne
A Rapid And Accurate Minion-Based Workflow For Tracking Species Biodiversity In The Field, Hendrik Freitag, Simone Maestri, Emanuela Cosentino, Marta Paterno, Jhoana M. Garces, Luca Marcolungo, Massimiliano Alfano, Iva Njunjić, Menno Schilthuizen, Ferry Slik, Michele Menegon, Marzia Rossato, Massimo Delledonne
Biology Faculty Publications
Genetic markers (DNA barcodes) are often used to support and confirm species identification. Barcode sequences can be generated in the field using portable systems based on the Oxford Nanopore Technologies (ONT) MinION sequencer. However, to achieve a broader application, current proof-of-principle workflows for on-site barcoding analysis must be standardized to ensure a reliable and robust performance under suboptimal field conditions without increasing costs. Here, we demonstrate the implementation of a new on-site workflow for DNA extraction, PCR-based barcoding, and the generation of consensus sequences. The portable laboratory features inexpensive instruments that can be carried as hand luggage and uses standard …