This article explores the transformative potential and challenges of single cell omics in advancing our understanding of ...

The cellular life cycle ... Study the Cell Cycle? The cell cycle and its system of checkpoint controls show strong evolutionary conservation. As a result, all eukaryotes — from single-celled ...

Both life and geological processes get their start ... 3,800 mya: Bacteria diversify Single-celled bacteria are the oldest-known living organisms. Most bacteria reproduce by making carbon copies ...

This study provides a valuable new resource to investigate the molecular basis of the particular features characterizing the pipefish embryo. The authors found both unique and shared gene expression ...

On the other side there are the huge and unwieldy eukaryotes, the third great domain of life. A typical single-celled eukaryote, such as an amoeba, is about 15,000 times larger than a bacterium ...

The section on ‘Single-Cell Sequencing Technologies’ traces the evolution of these technologies, starting from initial RNA sequencing and progressing towards comprehensive genomic, epigenomic ...

Hyman of the Max Planck Institute of Molecular Cell Biology and Genetics in Dresden, Germany, were studying specklelike structures called P granules in the single-celled embryo of a tiny ...

Over time, those single-celled organisms were able to evolve into multicellular life, and eventually into all the living things we see around us. Scientists believe that single-celled organisms ...