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RPS6
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40S ribosomal protein S6 (Phosphoprotein NP33) (Small ribosomal subunit protein eS6) [OK/SW-cl.2] ==Publications== {{medline-entry |title=Transcriptomic evidence that insulin signalling pathway regulates the ageing of subterranean termite castes. |pubmed-url=https://pubmed.ncbi.nlm.nih.gov/32424344 |abstract=Insulin is a protein hormone that controls the metabolism of sugar, fat and protein via signal transduction in cells, influencing growth and developmental processes such as reproduction and ageing. From nematodes to fruit flies, rodents and other animals, glucose signalling mechanisms are highly conserved. Reproductive termites (queens and kings) exhibit an extraordinarily long lifespan relative to non-reproductive individuals such as workers, despite being generated from the same genome, thus providing a unique model for the investigation of longevity. The key reason for this molecular mechanism, however, remains unclear. To clarify the molecular mechanism underlying this phenomenon, we sequenced the transcriptomes of the primary kings (PKs), primary queens (PQs), male (WMs) and female (WFs) workers of the lower subterranean termite Reticulitermes chinensis. We performed RNA sequencing and identified 33 insulin signalling pathway-related genes in R. chinensis. RT-qPCR analyses revealed that [[EIF4E]] and [[RPS6]] genes were highly expressed in WMs and WFs workers, while mTOR expression was lower in PKs and PQs than in WMs and WFs. PQs and PKs exhibited lower expression of akt2-a than female workers. As the highly conserved insulin signalling pathway can significantly prolong the healthspan and lifespan, so we infer that the insulin signalling pathway regulates ageing in the subterranean termite R. chinensis. Further studies are recommended to reveal the biological function of insulin signalling pathway-related genes in the survival of termites to provide new insights into biomolecular homeostasis maintenance and its relationship to remarkable longevity. |mesh-terms=* Aging * Animals * Insulin * Isoptera * Molecular Sequence Annotation * Signal Transduction * Transcriptome |full-text-url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7235038 }} {{medline-entry |title=Role of Visfatin in Restoration of Ovarian Aging and Fertility in the Mouse Aged 18 Months. |pubmed-url=https://pubmed.ncbi.nlm.nih.gov/31942708 |abstract=The activation of dormant primordial follicles and ovarian angiogenesis has been attempted as a new treatment strategy for age-related ovarian aging. This study examined whether visfatin rescues age-related fertility decline in female mice aged 18 months, and whether this effect relates to the mTOR/PI3K signaling pathways for activation of primordial follicles and ovarian angiogenesis. Female mice were intraperitoneally injected with 0.1 ml of 500 ng/ml or 1000 ng/ml of visfatin three times at intervals of 2 days, and both ovaries were provided for H
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