Oct 30, 2019
Recent study finds that cellular aging (telomere shortening) is linked to structural changes in the brain (cortical thickening) and it is all reversible!
seen from Malaysia
seen from China
seen from China
seen from United States
seen from United States
seen from United States
seen from China
seen from Türkiye
seen from Canada
seen from United States
seen from United Kingdom
seen from Türkiye
seen from United States
seen from Japan
seen from Malaysia
seen from United States
seen from Malaysia
seen from Albania
seen from Canada
seen from Mexico
Recent study finds that cellular aging (telomere shortening) is linked to structural changes in the brain (cortical thickening) and it is all reversible!
It's Mathematically Impossible to Beat Aging, Researchers Say
Aging is a natural part of life, but that hasn't stopped people from embarking on efforts to stop the process.
The research is in PNAS. (full open access)
🧬 Somatic Stem Cells and the Science of Aging: How Your Body Repairs Itself
Aging is one of life’s few certainties — yet science is rapidly decoding what it means at a biological level. Central to this story are somatic stem cells, the body’s internal repair system. These powerful but often overlooked cells play a major role in how we regenerate tissue, respond to damage, and even how quickly we age. In this article we’ll explore: What somatic stem cells are How they…
View On WordPress
AI for Aging Research: How Artificial Intelligence is Reversing Cellular and Genetic Aging
Discover how AI for aging research is revolutionizing longevity science by simulating and reversing cellular and genetic aging processes. In recent years, AI for aging research has emerged as a transformative force in the quest to understand and combat the aging process. By leveraging advanced algorithms and machine learning, scientists are now able to simulate cellular and genetic aging with…
Harvard Study Uncovers Vitamin That May Slow Cellular Aging @neosciencehub #HarvardStudy #VitaminD3 #CellularAging #neosciencehub
"Bloody" aging stems from methylome: and DNMT 3s the energy out of the mitochondria
As we age blood stem cells, the essential source of new blood cells in the body, can accumulate genetic mutations. These mutations can give the cells a growth advantage, laying the foundation for developing serious health conditions. Now, scientists at The Jackson Laboratory have not only discovered the mechanism that fuels their unchecked growth but have also found a way to stop it. Led by…
Brain cancer "going APE": here is its way to resist TMZ and leave DNA repair BEReft of options
In spite of intensive research, glioblastoma remains one of the most lethal types of brain cancer. Despite there are several available medications, temozolomide (TMZ) is the front-line drug in its treatment; while TMZ effectively penetrates the brain and targets tumors, its success depends on the tumor cells attempting to repair the DNA damage caused by the drug. Unfortunately, glioblastomas…
An UBIquitous Parkin to take a NAP iSINT BAD while OPTN' for cargo hold: but TANK-binding will lead to a mit-o-loss
There are several pathways to induce mitophagy, or the self-degradation of irreversibly damaged cellular mitochondria. The most well-characterized of these depends on proteins called PINK1 and Parkin, two proteins actively involved in the abnormalities of brain cells affected by Parkinson’s disease. Two other proteins, TFEB and HKDC1, play a key role in the maintenance of both mitochondria and…