Publications by authors named "Luca Masera"
In this work, four identical micro sensors on the same chip with noble metal decorated tin oxide nanowires as gas sensing material were located at different distances from an integrated heater to work at different temperatures. Their responses are combined in highly informative 4D points that can qualitatively (gas recognition) and quantitatively (concentration estimate) discriminate all the tested gases. Two identical chips were fabricated with tin oxide (SnO) nanowires decorated with different metal nanoparticles: one decorated with Ag nanoparticles and one with Pt nanoparticles.
View Article and Find Full Text PDFBackground: The advent of high-throughput experimental techniques paved the way to genome-wide computational analysis and predictive annotation studies. When considering the joint annotation of a large set of related entities, like all proteins of a certain genome, many candidate annotations could be inconsistent, or very unlikely, given the existing knowledge. A sound predictive framework capable of accounting for this type of constraints in making predictions could substantially contribute to the quality of machine-generated annotations at a genomic scale.
View Article and Find Full Text PDFArticle Synopsis
- - The scientific community is investigating how grapevines respond to climate change to identify genetic traits that can enhance their resilience through breeding and better agronomic practices.
- - A new method called NESRA has been developed to expand local gene networks (LGNs) related to grapevine responses using transcriptomic data, focusing on pathways for anthocyanin and stilbenoid synthesis, as well as hormone signaling networks.
- - The NESRA algorithm has shown promising results by aligning with experimental data and refining gene interactions, making it a valuable tool for further validation and research in grapevine genetics.