Publications by authors named "Albert Dominguez Mantes"
Across biological systems, cells undergo coordinated changes in gene expression, resulting in transcriptome dynamics that unfold within a low-dimensional manifold. While low-dimensional dynamics can be extracted using RNA velocity, these algorithms can be fragile and rely on heuristics lacking statistical control. Moreover, the estimated vector field is not dynamically consistent with the traversed gene expression manifold.
View Article and Find Full Text PDFAcross a range of biological processes, cells undergo coordinated changes in gene expression, resulting in transcriptome dynamics that unfold within a low-dimensional manifold. Single-cell RNA-sequencing (scRNA-seq) only measures temporal snapshots of gene expression. However, information on the underlying low-dimensional dynamics can be extracted using RNA velocity, which models unspliced and spliced RNA abundances to estimate the rate of change of gene expression.
View Article and Find Full Text PDFCharacterizing the genetic structure of large cohorts has become increasingly important as genetic studies extend to massive, increasingly diverse biobanks. Popular methods decompose individual genomes into fractional cluster assignments with each cluster representing a vector of DNA variant frequencies. However, with rapidly increasing biobank sizes, these methods have become computationally intractable.
View Article and Find Full Text PDFArticle Synopsis
- The study presents Archetypal Analysis as a more efficient and unsupervised method for estimating genetic clusters in genomic data, making it particularly useful for large and diverse cohorts.
- Unlike traditional methods like ADMIXTURE that require extensive computational resources, Archetypal Analysis significantly reduces compute time and memory usage, allowing for faster analysis of genetic data.
- The findings suggest that Archetypal Analysis not only produces similar cluster structures as existing methods but also helps avoid misinterpretations related to socially constructed ethnic labels in genetics.