Paradigm4 announces the general availability of flexFS, a hyperscale file system designed for AI/ML and large file data workloads, providing unparalleled throughput at 50% lower cost
Dr. Zach Pitluk and Dr. Srikant Sarangi on preparing the way for AI/ML to impact drug discovery and development.
Paradigm4’s REVEAL Integrative Analytics platform enables Alnylam Pharmaceuticals to discover novel, genetically-validated drug targets from population scale biobank genotype-phenotype datasets and underlies the extraordinary pace and productivity of Alnylam’s RNAi therapeutics pipeline.
Paradigm4’s REVEAL Integrative Analytics platform enables Alnylam Pharmaceuticals to discover novel, genetically-validated drug targets from population scale biobank genotype-phenotype datasets and underlies the pace and productivity of Alnylam’s RNAi therapeutics pipeline.
New genetically-validated drug targets are found at accelerated speed using population scale biobank genotype-phenotype datasets after a foundational partnership is formed between Paradigm4 and Alnylam.
Metabolomics—often referred to as the youngest of the omics—provides key insight into phenotype. However, bulk metabolomics requires the homogenization of the sample and is thus unable to discern metabolic differences at a cellular level.
25th October 2022: Paradigm4’s REVEAL Integrative Analytics platform enables Alnylam Pharmaceuticals to discover novel, genetically-validated drug targets from population scale biobank genotype-phenotype datasets and underlies the extraordinary pace and productivity of Alnylam’s RNAi therapeutics pipeline. Using Paradigm4’s cloud-based scientific analytics platform and data from the UK Biobank, Alnylam has identified
Over the past 5 decades or so, the growing understanding that RNA can influence protein function through routes other than direct translation has opened the prospect of discovering small molecules for tackling diseases in novel ways.
Peptides play important roles in human physiology. They present as intact peptides or can arise from protein degradation. Regardless of the source, peptidomics—the characterization of intact peptides in a biological sample—is fast emerging as an approach to uncover another layer in human health and disease.
