Contact Details
University Links
- Position
- PhD Student
- Department
- Department of Physiology
- Qualifications
- BBiomedSci(Hons)
- Research summary
- How CSQ2 glycosylation influences heart failure and arrhythmia
- Memberships
- HeartOtago
Research
My research focuses on the calcium binding protein, Calsequestrin-2 (CSQ2) and how the post-translational modification of glycosylation affects CSQ2's function. In particular, I investigate how CSQ2 glycosylation influences heart failure and arrhythmia.
Publications
Sibbles, E., Jones, P., & Munro, M. (2023, August). Determining the functional effect of CSQ2 glycosylation on calcium-handling and heart failure. Verbal presentation at the 17th New Zealand Medical Sciences Congress (MedSci), Queenstown, New Zealand. Conference Contribution - Verbal presentation and other Conference outputs
Sibbles, E., Jones, P., & Munro, M. (2022, August-September). Determining the functional effect of CSQ2 glycosylation on calcium-handling and heart failure. Verbal presentation at the 16th New Zealand Medical Sciences Congress (MedSci), Queenstown, New Zealand. Conference Contribution - Verbal presentation and other Conference outputs
Cruz, E., Sibbles, E., & Munro, M. (2022, August-September). How the ratio of RyR2 and CSQ2 play a role in pro-arrhythmogenic Ca2+ release. Verbal presentation at the 16th New Zealand Medical Sciences Congress (MedSci), Queenstown, New Zealand. Conference Contribution - Verbal presentation and other Conference outputs
Sibbles, E. T., Waddell, H. M. M., Mereacre, V., Jones, P. P., & Munro, M. L. (2022). The function and regulation of calsequestrin-2: Implications in calcium-mediated arrhythmias. Biophysical Reviews, 14, 329-352. doi: 10.1007/s12551-021-00914-6 Journal - Research Other