Wide-gauge posture in the limb skeleton of Titanosauriformes is an exaptation to gigantism, as it is not correlated with body size in deeply branching titanosaurs.

The study presents valuable theoretical insights by attempting to classify pattern-forming gene subnetworks and exploring their potential mechanisms. However, the results are incomplete, as they rely ...

The study provides valuable technical advances to generate and isolate neural rosettes. The technique is robust, as indicated by both reviewers. The evidence is solid, as shown in orthogonal ...

A time-course RNA-seq analysis of muscle remodeling reveals transcriptional dynamics independent of autophagy and highlights the significance of BNIP3 in mitochondrial degradation in vivo.

eLife reviews research spanning vesicle transport and signal transduction to cell cycle and cell polarity and fate. Learn more about what we review and sign up for the latest content.

eLife reviews research that gives new insights into biological molecules or uses chemical approaches to illuminate complex biological processes. Learn more about what we review and sign up for the ...

Studying the growth of bacteria without cell walls in an artificial environment can shed new light on the proliferation of primitive life-forms billions of years ago.

eLife reviews research covering virology, bacteriology and mycology. Learn more about what we review and sign up for the latest research.

Preprints that have been invited for review by eLife are published as Reviewed Preprints and include an eLife assessment, public reviews and a response from the authors (if available).

eLife reviews research spanning allergy, immunity and immunoregulation, inflammation and T-cell receptor signalling. Learn more about what we review and sign up for the latest research.

eLife reviews research on stem cell function, organogenesis, and tissue regeneration. Learn more about what we review and sign up for the latest research.

The structure of the catalytic core of the N6-methyladenosine RNA methyltransferase complex METTL3-METTL14 reveals that METTL3 is the catalytic subunit, while METTL14 plays non-catalytic roles in ...