Lack of myostatin results in excessive muscle growth but impaired force generation
Journal Article
Amthor, H., Macharia, R., Navarrete, R., Schuelke, M., Brown, S. C., Otto, A., Voit, T., Muntoni, F., Vrbova, G., Partridge, T., Zammit, P., Bunger, L., & Patel, K. Lack of myostatin results in excessive muscle growth but impaired force generation. https://doi.org/10.1073/pnas.0604893104
Outputs (2484)
Larval programming of post-hatch muscle growth and activity in Atlantic salmon (Salmo salar)
Journal Article
Albokhadaim, I., Hammond, C. L., Ashton, C., Simbi, B. H., Bayol, S. A. M., Farrington, S. J., & Stickland, N. (in press). Larval programming of post-hatch muscle growth and activity in Atlantic salmon (Salmo salar). Journal of Experimental Biology, 210(10), 1735-1741. https://doi.org/10.1242/jeb.003194Larval muscle development in Atlantic salmon is known to be affected by temperature; however, the long term effects and possible mechanisms involved are less well understood. Therefore, the aim of this study was to evaluate the influence of egg incub... Read More about Larval programming of post-hatch muscle growth and activity in Atlantic salmon (Salmo salar).
Application of seminal plasma in sex-sorting and sperm cryopreservation
Presentation / Conference Contribution
de Graaf, S. P., Leahy, T., Marti, J., Evans, G., & Maxwell, W. M. C. Application of seminal plasma in sex-sorting and sperm cryopreservationSubstantial dilution of boar semen during processing decreased the concentration of seminal plasma, perhaps contributing to the decline in sperm quality after cryopreservation and sex-sorting. Results of replacing seminal plasma in investigations fro... Read More about Application of seminal plasma in sex-sorting and sperm cryopreservation.
Myosin IIC: A third molecular motor driving neuronal dynamics
Journal Article
Wylie, S. R., & Chantler, P. D. Myosin IIC: A third molecular motor driving neuronal dynamics. Molecular Biology of the Cell, 19(9), 3956-3968. https://doi.org/10.1091/mbc.E07-08-0744Neuronal dynamics result from the integration of forces developed by molecular motors, especially conventional myosins. Myosin IIC is a recently discovered nonsarcomeric conventional myosin motor, the function of which is poorly understood, particula... Read More about Myosin IIC: A third molecular motor driving neuronal dynamics.
Epoxygenases and peroxisome proliferator-activated receptors in mammalian vascular biology
Journal Article
Wray, J., & Bishop-Bailey, D. Epoxygenases and peroxisome proliferator-activated receptors in mammalian vascular biology. Experimental Physiology, 93(1), 148-54. https://doi.org/10.1113/expphysiol.2007.038612
WHAT LIMITS ACCELERATION?
Presentation / Conference Contribution
Williams, S. B., Usherwood, J. R., Tan, H., & Wilson, A. M. WHAT LIMITS ACCELERATION?
LUMINAL FACTORS AFFECTING APICAL P2 RECEPTOR MEDIATED REGULATION OF RENAL ENAC
Presentation / Conference Contribution
Wildman, S. S. P., & Unwin, R. LUMINAL FACTORS AFFECTING APICAL P2 RECEPTOR MEDIATED REGULATION OF RENAL ENAC
Sodium-dependent regulation of renal amiloride-sensitive currents by apical P2 receptors
Journal Article
Wildman, S. S. P., Marks, J., Turner, C. M., Yew-Booth, L., Peppiatt-Wildman, C. M., King, B. F., Shirley, D. G., Wang, W. H., & Unwin, R. J. Sodium-dependent regulation of renal amiloride-sensitive currents by apical P2 receptors. Journal of the American Society of Nephrology, 19(4), 731-742. https://doi.org/10.1681/asn.2007040443The epithelial sodium channel (ENaC) plays a major role in the regulation of sodium balance and BP by controlling Na+ reabsorption along the renal distal tubule and collecting duct (CID). ENaC activity is affected by extracellular nucleotides acting... Read More about Sodium-dependent regulation of renal amiloride-sensitive currents by apical P2 receptors.
HOW TO SWIM THE PUFFERFISH WAY: A BIOMECHANICAL AND CFD ANALYSIS
Presentation / Conference Contribution
Wiktorowicz Conroy, A., & Gordon, M. HOW TO SWIM THE PUFFERFISH WAY: A BIOMECHANICAL AND CFD ANALYSIS
P2X receptors: epithelial ion channels and regulators of salt and water transport
Journal Article
Wildman, S. S. P., & King, B. F. P2X receptors: epithelial ion channels and regulators of salt and water transportWhen the results from electrophysiological studies of renal epithelial cells are combined with data from in vivo tubule microperfusion experiments and immunohistochemical surveys of the nephron, the accumulated evidence suggests that ATP-gated ion ch... Read More about P2X receptors: epithelial ion channels and regulators of salt and water transport.