Nature Aging
Efficient epigenetic clock measurements with TIME-seq
Protein levels in cerebrospinal fluid indicate different subtypes in Alzheimer’s disease
Targeting COPIng liabilities of senescent cells
TIME-seq reduces time and cost of DNA methylation measurement for epigenetic clock construction
A single-cell atlas of the aging mouse ovary
Publisher Correction: Transcriptional and epigenetic decoding of the microglial aging process
Cerebrospinal fluid proteomics in patients with Alzheimer’s disease reveals five molecular subtypes with distinct genetic risk profiles
A plasma proteome measure of organ aging
Early exposure to a systemic stressor confers protection later in life
Slow and steady lives the longest
Publisher Correction: Mechanisms, pathways and strategies for rejuvenation through epigenetic reprogramming
Publisher Correction: Female aging: when translational models don’t translate
Autophagy protein ATG-16.2 and its WD40 domain mediate the beneficial effects of inhibiting early-acting autophagy genes in <i>C. elegans</i> neurons
Transcriptional and epigenetic dysregulation impairs generation of proliferative neural stem and progenitor cells during brain aging
Beyond integrated care for older adults
NADase CD38 is a key determinant of ovarian aging
The Information Theory of Aging
Mechanisms, pathways and strategies for rejuvenation through epigenetic reprogramming
Long-term care insurance and the future of healthy aging in China
Author Correction: CD133<sup>+</sup> endothelial-like stem cells restore neovascularization and promote longevity in progeroid and naturally aged mice
How long will we live? And how much of that time will comprise a healthy life? What is aging, and can we stop or even reverse the aging process? What is the connection between aging and disease? Can we predict the evolving trends in the aging of human populations and prepare our societies for what has been called the Silver Tsunami? These are some of the important questions that the broad field of aging research is trying to address and that together form one of the Grand Challenges of the twenty-first century. The mission of Nature Aging is to provide a unique multidisciplinary, unifying and highly visible publishing platform for the aging-research community. The journal is highly selective yet broad in its coverage, publishing research from across the entire spectrum of the field, ranging from the basic biology of aging to the impact of aging on society. The journal aims to foster interactions among different areas of this diverse field of research and to promote new and exciting ideas within and beyond the research community, to enable synergy and maximize scientific and societal impact.
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