Job Opportunity funded by @BBSRC in my lab @biokent , looking at dual filament regulation of muscle activity using SM imaging. Please share https://t.co/g1MCbL3xe3
@UniKent
Video shows Cy3-ATP binding to a myofibril. Pilagov, @laurenswh, @Neil_Kad et al. @BioKent image fluorescently tagged ATP with single-molecule precision to reveal the activity of individual myosins in different sarcomeric locations. https://t.co/RB9tlKzlOi
#MolecularPhysiology
Single-molecule imaging reveals how mavacamten and PKA modulate ATP turnover in skeletal muscle myofibrils. A new study from Matvey Pilagov, @laurenswh, Neil Kad @Neil_Kad and colleagues @BioKent: https://t.co/RB9tlKQoQi
#MolecularPhysiology
Professor Neil Kadd and researchers are helping to tackle one of the biggest killers in young athletes. #Hypertrophic#Cardiomyopathy (#HCM) –a disease in which the heart muscle becomes thickened (hypertrophied).
Read the full story: https://t.co/qP8VGF3Dvy
@UniKent
Very proud the project I worked on with @Neil_Kad while doing my MSc @biokent on imaging single molecules of ATP being used in myofibrils, is now published in @JGenPhysiol
https://t.co/6VCTK9zO3Q
Imaging single molecules of ATP being utilized by myosin in myofibrils allows investigators from the @Neil_Kad lab in @BioKent to understand how drugs and phosphorylation affect muscle. https://t.co/RB9tlKyNYK
#MolecularPhysiology
@Schiphol It's a ridiculous situation that is created, I sympathize with the fact there are staff shortages, but the general lack of information and no-one is taking responsibility for anything that is going on, not the airlines, not the airport, passengers left to scramble by themselves