Many papers in basic biomedical science do not contain the information that is needed to determine what statistical tests were used and to verify the results of these tests.
The analysis of 18th century Y. pestis genomes reveals a bacterial lineage that might be responsible for the 400-year period of European plague epidemics from the Renaissance through early modern times.
A statistical method for summarizing single-cell gene expression data identifies normal and disease-specific transcriptional programs from an atlas of 57,600 cells.
JNK pathway activity induces spermatogonial dedifferentiation under challenging conditions to maintain the germline stem cell pool and to endow it with potentially fitter cells that have increased proliferation.
Scientific abstracts have become less readable over the past 130 years, in part because recent texts include more general scientific jargon than older texts.
Single-cell RNA-sequencing and germline substitutions provide novel insights into how testis is a hotspot for evolutionary innovation of genes, expression, and mutation at the single-cell level.
Genetic and cell biological study indicates that germ cells' connectivity serves as a mechanism to increase the sensitivity of germline to DNA damage, protecting the genome of gametes, in the Drosophila testis.
The dual function of an ancient prokaryotic enzyme, which is linked to specific metabolite signals, may have been the evolutionary driving force behind its dual localization in eukaryotes.