I am looking for a new position in computational biology/bioinformatics preferably in #academia in the #USA.
I am an experienced Computational Biologist with eight years of post-PhD experience in applying computational methods across diverse domains, from molecular modeling to #highdimensional and #machinelearning based single-cell flow/mass cytometry and serum proteomics data analysis.
'"If the research process included the creation of custom code, the authors were required to make it available during the peer review assessment & make it public upon…publication…At the end of the year-long trial period, code sharing had risen from 53%…to 87%…The journal decided to make code sharing a permanent [policy]. Today, the sharing rate is 96%."
I am a biologist working in the University of Antioquia, in Medellín, Colombia. I am mostly involved in #ComputationalBiology and #Bioinformatics, but I enjoy and work in other subjects too:
Molecular Biology
Genetics
Dynamical systems (ODEs)
Systems Biology
Microbiology
I believe in #OpenScience and I could say that #Linux and free software changed my life.
Birth defects related to chromosomal abnormalities often stem from exposure to chemicals early in the mother's life. But determining which chemicals are at fault poses a serious challenge—akin to solving a hit-and-run case, decades after the fact. Two researchers in the UC Davis College of Biological Sciences are developing a...
Announcement! Submit your work for the upcoming Women in Bioinformatics Workshop held in November in Connecticut, organized by my colleague Sahar Al Seesi. I am on the Program Committee, and look forward to seeing some great work! Submissions open to all researchers. Please boost for visibility!
Darpa Seeking On-Demand, Distributed Production of Proteins
A synthetic biology company is receiving a contract with the U.S. advanced defense research agency to devise a high-speed localized process for making therapeutic proteins.
Open science project OpenWorm simulates the roundworm Caenorhabditis elegans at the cellular level.
A deep, principled understanding of the biology of this organism remains elusive.
The long-term goal is to model all 959 cells of C. elegans. This bottom up simulation is pursued by the OpenWorm community.
Using glowing fish to detect harmful pesticides (phys.org)
Birth defects related to chromosomal abnormalities often stem from exposure to chemicals early in the mother's life. But determining which chemicals are at fault poses a serious challenge—akin to solving a hit-and-run case, decades after the fact. Two researchers in the UC Davis College of Biological Sciences are developing a...