Beatriz Serrano-Solano

Contributions

The following list includes only slides and tutorials where the individual has been added to the contributor list. This may not include the sum total of their contributions to the training materials (e.g. GTN css or design, tutorial datasets, workflow development, etc.) unless described by a news post.

GitHub Activity

Editorial Roles

This contributor has taken on additional responsibilities as an editor for the following topics. They are responsible for ensuring that the content is up to date, accurate, and follows GTN best practices.

Tutorials

Slides

News

Hello in many languages
20 May 2021
new tutorial español

¡El primer tutorial en español ya está disponible! Galaxy siempre ha tenido tutoriales traducidos automáticamente mediante Google-Translate, ahora nos estamos embarcando en un nuevo proyecto para estudiar la experiencia de aprendizaje con tutoriales en bioinformática traducidos por humanos. Nuestro objetivo es crear un paquete de tutoriales para el análisis de datos single-cell (célula única) en primera instancia, con el fin de estudiar su uso y utilidad en un taller para hablantes nativos de español. Agradecemos enormemente a las nuevas participantes @gtn:pclo y @gtn:ales-ibt (EMBL-EBI) así como a las miembros existentes de GTN @gtn:beatrizserrano (University of Freiburg), @gtn:shiltemann & @gtn:hexylena (Erasmus-MC), por su arduo trabajo en este proyecto de traducción y mantenimiento y, por supuesto, a @gtn:nomadscientist (The Open University/EBI) como líder de proyecto.

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Biosynthesis of miRNA in plants
10 April 2021
new tutorial transcriptomics plants mirna

Plant lovers are in luck! A new tutorial on this fascinating kingdom has been added to the GTN. It details the necessary steps to identify potential targets of brassinosteroid-induced miRNAs. Brassinosteroids are phytohormones that have the ability to stimulate plant growth and confer resistance against abiotic and biotic stresses. These characteristics have led to great interest in the field of biotechnology due to its potential for increasing agricultural productivity.

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Video of green coloured cells dividing on a dark background.
18 March 2021
new tutorial imaging

Most biological processes are dynamic and observing them over time can provide valuable insights. Combining fluorescent markers with time-lapse imaging is a common approach to collect data on dynamic cellular processes such as cell division. However, automated time-lapse imaging can produce large amounts of data that can be challenging to process. One of these challenges is the tracking of individual objects as it is often impossible to manually follow a large number of objects over many time points.

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