Study offers clues to beating hearing loss
The Leeds team has discovered that the myosin 7 motor protein – found in the tiny hairs of the inner ear that pick up sound – moves and works in a different way from many other myosins.
Dr Michelle Peckham from the University of Leeds' Faculty of Biological Sciences says: “We're really excited by this discovery as it could lead to new insights into certain forms of deafness. Mutations in this protein have been linked to hearing loss, particularly of the type connected to Usher syndrome, which is a form of degenerative deaf-blindness.”
There are around 40 myosin motor proteins in the human body, the most familiar of which is the type of myosin found in skeletal and heart muscle. But all cells have many different kinds of myosin.
Dr Peckham says: “What's exciting about our findings is that we have found that, unlike muscle myosins, which have two heads, myosin 7 only has one. What's more, for the first time we've found how this myosin can be switched on and switched off. When switched off, the tip of its tail curls round and contacts the head, and switched on this contact is broken and the myosin stretches out. This knowledge should help inform any further studies into how a mutation can create problems in hearing.”
Follow-up studies could include a more detailed analysis of the role of myosin 7 in Usher syndrome, an inherited genetic condition, which affects hearing, sight and balance. It can vary in its severity; in some cases a child may be born deaf and their sight may deteriorate during childhood, whilst in others the syndrome can go undetected into the teens when hearing and sight usually begins to deteriorate.
There is no cure for Usher syndrome and sufferers are usually offered assistance in managing their disabilities.
Dr Peckham says: “Our studies on how normal myosin 7 works pave the way for understanding how a defective myosin 7 protein in Usher patients results in deafness.”
Dr Peckham worked with colleagues Professor Peter Knight and Dr Tom Baboolal from the Faculty of Biological Sciences. This is a collaborative study with Prof Jim Seller's group at The National Heart, Lung and Blood Institute in the USA and has been funded by the BBSRC. It is published in the Proceedings of the National Academy of Sciences Online Early Edition this week.
Media Contact
More Information:
http://www.leeds.ac.ukAll latest news from the category: Life Sciences and Chemistry
Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.
Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.
Newest articles
Sea slugs inspire highly stretchable biomedical sensor
USC Viterbi School of Engineering researcher Hangbo Zhao presents findings on highly stretchable and customizable microneedles for application in fields including neuroscience, tissue engineering, and wearable bioelectronics. The revolution in…
Twisting and binding matter waves with photons in a cavity
Precisely measuring the energy states of individual atoms has been a historical challenge for physicists due to atomic recoil. When an atom interacts with a photon, the atom “recoils” in…
Nanotubes, nanoparticles, and antibodies detect tiny amounts of fentanyl
New sensor is six orders of magnitude more sensitive than the next best thing. A research team at Pitt led by Alexander Star, a chemistry professor in the Kenneth P. Dietrich…
