ATF2 protein may play a crucial role in cancer’s ability to resist chemotherapy and radiation treatment Researchers in Purdue University have discovered a molecular system that may play a crucial role in cancer’s ability to resist chemotherapy and radiation treatment and that also could be involved in Alzheimer’s and heart disease. The researchers, using an innovative imaging technique developed at Purdue, have learned a protein previously believed to be confined to the nucleus of healthy cells in fact shuttles between your nucleus and cytoplasm, the region of the cell encircling the nucleus. Furthermore, the protein’s shuttling is normally controlled by the presence of another proteins in the nucleus and its attachment to that second protein nizagara wikipedia .
Their data indicated that ATP measurements possess a solid statistical association with bacterial amounts in saliva and plaque specimens, including quantities for oral streptococci, and may be used as a potential evaluation device for oral hygiene and caries risk in kids. ‘The usage of ATP-driven bioluminescence provides wide implications in dentistry and medicine and can be used translationally in the clinic to determine the efficacy of interventional therapies, including the use of mouth rinses and perhaps in the detection of bacterial attacks in periodontal and additional infectious diseases,’ noted Curt Machida, Ph.D., principal investigator and OHSU professor of integrative biosciences and pediatric dentistry.. ATP-driven bioluminescence predicts children at high risk for tooth decay: OHSU study The study, published in Pediatric Dentistry, indicates that ATP-driven bioluminescence is a useful tool at the dentist’s office for predicting children at high risk for tooth decayResearchers at the Oregon Health & Science University School of Dentistry have determined that ATP-driven bioluminescence – a means of measuring visible light generated from ATP contained in bacteria – can be an innovative tool for rapidly assessing in children at the chair-side the number of oral bacteria and amount of plaque that may ultimately lead to tooth decay.