goChem: A Composable Library for Multi-Scale Computational Chemistry Data Analysis.

Data analysis is a major task for Computational Chemists. The diversity of modeling tools currently available in Computational Chemistry requires the development of flexible analysis tools that can adapt to different systems and output formats. As a contribution to this need, we report the implementation of goChem, a versatile open-source library for multiscale analysis of computational chemistry data.

State of the art and future perspectives of new radionuclides in Nuclear Medicine.

This continuing education analyzes recent advances in Nuclear Medicine focused on the development of new radiopharmaceuticals that improve both the diagnosis and treatment of complex diseases. The focus is on teragnosis, which combines diagnosis and treatment by means of pairs of radiopharmaceuticals directed to the same molecular target, which allows the personalization of treatments. This first part specifically reviews the teragnostic pairs copper-64/copper-67, lead-212/lead-203 and scandium-44/scandium-47, highlighting their physical characteristics, methods of production and potential clinical applications.

Genomics Reveal Population Structure and Intergeneric Hybridization in an Endangered South American Bird: Implications for Management and Conservation.

Genomics is an invaluable tool for conservation, particularly for endangered species impacted by wildlife trafficking. This study uses genomic data to provide new insights to aid conservation and management of endangered species, using as a case study the Yellow cardinal (), a bird endemic to southern South America severely affected by illegal trade and the transformation of its natural habitat. We explore population structure within the Yellow cardinal, delimiting management units and describing connectivity among them.

4D light sheet imaging, computational reconstruction, and cell tracking in mouse embryos.

As light sheet fluorescence microscopy (LSFM) becomes widely available, reconstruction of time-lapse imaging will further our understanding of complex biological processes at cellular resolution. Here, we present a comprehensive workflow for in toto capture, processing, and analysis of multi-view LSFM experiments using the ex vivo mouse embryo as a model system of development. Our protocol describes imaging on a commercial LSFM instrument followed by computational analysis in discrete segments, using open-source software.

Renal-clearable probes for disease detection and monitoring.

The demand for novel, minimally invasive, cost-effective, and easily readable diagnostic tools, primarily designed for the longitudinal monitoring of diseases and their treatments, has promoted the development of diagnostic systems that selectively target cells, tissues, or organs, at the same time minimizing their nonspecific accumulation, thus reducing the risk of toxicity and side effects. In this review, we explore the development of renal-clearable systems in non-invasive or minimally invasive detection protocols, all with the objective of minimizing nonspecific accumulation and its associated toxicity effects through quick renal excretion. These probes can identify molecules of interest or different healthy states of the patients through the direct analysis of urine (urinalysis).