no code implementations • 11 Apr 2024 • Samuel Lippl, Raphael Gerraty, John Morrison, Nikolaus Kriegeskorte
As animals interact with their environments, they must infer properties of their surroundings.
2 code implementations • 14 May 2020 • George G Vega Yon, Duncan C Thomas, John Morrison, Huaiyu Mi, Paul Thomas, Paul Marjoram
While very simple, our model of gene-function evolution has some key features that have the potential to generate an impact in the field: (a) compared to other methods, ours is highly-scalable, which means that it is possible to simultaneously analyze hundreds of what are known as gene-families, compromising thousands of genes, (b) supports our biological intuition as our model’s data-driven results coherently agree with what theory dictates regarding how gene-functions evolved, (c) notwithstanding its simplicity, the model’s prediction accuracy is comparable to other more complex alternatives, and (d) perhaps most importantly, it can be used to both support new annotations and to suggest areas in which existing annotations show inconsistencies that may indicate errors or controversies.