DEEP DRILLING OF THE HUMAN PLASMA PROTEOME. Like turning out city lights lets you see the faint stars more clearly - removal of high abundance proteins from human biofluids allows quantum leaps in biomarker discovery. This project will develop products that remove the biggest obstacle in proteomics - high abundance proteins (city lights). Cheap, efficient and routine removal of abundant proteins will amplify the power of ?cutting edge? proteomic technologies in the discovery of novel biomarkers ....DEEP DRILLING OF THE HUMAN PLASMA PROTEOME. Like turning out city lights lets you see the faint stars more clearly - removal of high abundance proteins from human biofluids allows quantum leaps in biomarker discovery. This project will develop products that remove the biggest obstacle in proteomics - high abundance proteins (city lights). Cheap, efficient and routine removal of abundant proteins will amplify the power of ?cutting edge? proteomic technologies in the discovery of novel biomarkers. This is possible because undiscovered low copy number biomarkers (faint stars) exist in human diagnostic fluids at levels far lower than current proteomic array detection limits.Read moreRead less
Detection of peptide hormone performance enhancing agents in sport using mass spectrometry. Doping control in sport is to protect the health, legal and ethical rights of athletes. The use of banned drugs in competitive sports is becoming increasingly sophisticated and the need to counter this provides a stimulus for ground breaking analytical research. This project will exploit mass spectrometry for investigation of methods to distinguish administered peptide hormones from endogenous material a ....Detection of peptide hormone performance enhancing agents in sport using mass spectrometry. Doping control in sport is to protect the health, legal and ethical rights of athletes. The use of banned drugs in competitive sports is becoming increasingly sophisticated and the need to counter this provides a stimulus for ground breaking analytical research. This project will exploit mass spectrometry for investigation of methods to distinguish administered peptide hormones from endogenous material and to develop assays for measurement of the peptide hormones, erythropoietin, growth hormone and chorionic gonadotrophin in blood or urine. The outcomes will flow to other areas where trace substance detection is important, such as environmental chemistry, medicine and quality control.Read moreRead less