Knockdown of alpha myosin heavy chain disrupts the cytoskeleton and leads to multiple defects during chick cardiogenesis

Rutland, Catrin; Warner, Louise; Thorpe, Aaran; Alibhai, Aziza; Robinson, Thelma; Shaw, Barry; Layfield, Robert; Brook, David J.; Loughna, Siobhan

doi:10.1111/j.1469-7580.2009.01079.x

All Outputs (2)

The ‘dark matter’ of ubiquitin-mediated processes: opportunities and challenges in the identification of ubiquitin-binding domains (2019)
Journal Article
Radley, E., Long, J., Gough, K., & Layfield, R. (2019). The ‘dark matter’ of ubiquitin-mediated processes: opportunities and challenges in the identification of ubiquitin-binding domains. Biochemical Society Transactions, 47(6), 1949-1962. https://doi.org/10.1042/bst20190869

Ubiquitin modifications of target proteins act to localise, direct and specify a diverse range of cellular processes, many of which are biomedically relevant. To allow this diversity, ubiquitin modifications exhibit remarkable complexity, determined... Read More about The ‘dark matter’ of ubiquitin-mediated processes: opportunities and challenges in the identification of ubiquitin-binding domains.

Knockdown of alpha myosin heavy chain disrupts the cytoskeleton and leads to multiple defects during chick cardiogenesis (2009)
Journal Article
Rutland, C., Warner, L., Thorpe, A., Alibhai, A., Robinson, T., Shaw, B., …Loughna, S. (2009). Knockdown of alpha myosin heavy chain disrupts the cytoskeleton and leads to multiple defects during chick cardiogenesis. Journal of Anatomy, 214(6), 905-915. https://doi.org/10.1111/j.1469-7580.2009.01079.x

Atrial septal defects are a common congenital heart defect in humans. Although mutations in different genes are now frequently being described, little is known about the processes and mechanisms behind the early stages of atrial septal development. B... Read More about Knockdown of alpha myosin heavy chain disrupts the cytoskeleton and leads to multiple defects during chick cardiogenesis.