Tag: regulation

Maf1‐dependent transcriptional regulation of tRNAs prevents genomic instability and is associated with extended lifespan – Shetty – – Aging Cell – Wiley Online Library

Maf1‐dependent transcriptional regulation of tRNAs prevents genomic instability and is associated with extended lifespan – Shetty – – Aging Cell – Wiley Online Library

Fundamental cellular mechanisms such as nutrient sensing, DNA damage response pathways, and cell cycle regulation influence the aging process. Studies have shown that the nutrient sensory kinase, mTOR (TOR in yeast), regulates lifespan in response to nutrient availability. The mTOR kinase forms two distinct protein complexes: TORC1 and TORC2. TORC1, which is inhibited by rapamycin, regulates cell growth, proliferation, and metabolism. It is well established that TORC1 promotes protein translation via phosphorylation of ribosomal protein S6 kinase and the eIF4E‐binding protein (BP; Zoncu, Efeyan, & Sabatini, 2011). The TORC2 branch is less studied; however, TORC2 also plays important roles in metabolism, cell survival, and proliferation (Zoncu et al., 2011). Although the involvement of the TORC1 pathway in lifespan regulation is conserved among many species (i.e., TORC1 inhibition extends lifespan), it is still unclear how this pathway affects multiple downstream stress and damage response mechanisms.

https://onlinelibrary.wiley.com/doi/full/10.1111/acel.13068?utm_campaign=RESR_MRKT_Researcher_inbound&af=R&utm_medium=referral&utm_source=researcher_app

The distributions of protein coding genes within chromatin domains in relation to human disease | Epigenetics & Chromatin | Full Text

The distributions of protein coding genes within chromatin domains in relation to human disease | Epigenetics & Chromatin | Full Text

“The unprecedented resolution of genome-wide interaction maps shows functional consequences that extend the initial thought of an efficient DNA packaging mechanism: gene regulation, DNA repair, chromosomal translocations and evolutionary rearrangements seem to be only the peak of the iceberg. One key concept emerging from this research is the topologically associating domains (TADs) whose functional role in gene regulation and their association with disease is not fully untangled.”

https://epigeneticsandchromatin.biomedcentral.com/articles/10.1186/s13072-019-0317-2