Dr Rachel Gormal
Dr

Rachel Gormal

Email: 
Phone: 
+61 7 334 63339

Availability

Dr Rachel Gormal is:
Available for supervision

Qualifications

  • Doctor of Philosophy, Griffith University

Research interests

  • Super-resolution Microscopy Techniques and Analysis

  • The applicaton of nanobodies in cell biology

  • Structural Biology and in silico modelling

Search Professor Rachel Gormal’s works on UQ eSpace

43 works between 2013 and 2025
All (43) Journal Article (33) Other Outputs (8) Conference Publication (2)

41 - 43 of 43 works

2013

Journal Article

The Munc18-1 domain 3a loop is essential for neuroexocytosis but not for syntaxin-1A transport to the plasma membrane

Martin, Sally, Tomatis, Vanesa M., Papadopulos, Andreas, Christie, Michelle P., Malintan, Nancy T., Gormal, Rachel S., Sugita, Shuzo, Martin, Jennifer L., Collins, Brett M. and Meunier, Frederic A. (2013). The Munc18-1 domain 3a loop is essential for neuroexocytosis but not for syntaxin-1A transport to the plasma membrane. Journal of Cell Science, 126 (11), 2353-2360. doi: 10.1242/jcs.126813

The Munc18-1 domain 3a loop is essential for neuroexocytosis but not for syntaxin-1A transport to the plasma membrane

2013

Journal Article

Myosin VI small insert isoform maintains exocytosis by tethering secretory granules to the cortical actin

Tomatis, Vanesa M., Papadopulos, Andreas, Malintan, Nancy T., Martin, Sally, Wallis, Tristan, Gormal, Rachel S., Kendrick-Jones, John, Buss, Folma and Meunier, Frederic A. (2013). Myosin VI small insert isoform maintains exocytosis by tethering secretory granules to the cortical actin. Journal of Cell Biology, 200 (3), 301-320. doi: 10.1083/jcb.201204092

Myosin VI small insert isoform maintains exocytosis by tethering secretory granules to the cortical actin

2013

Journal Article

Secretagogue stimulation of neurosecretory cells elicits filopodial extensions uncovering new functional release sites

Papadopulos, Andreas, Martin, Sally, Tomatis, Vanesa M., Gormal, Rachel S. and Meunier, Frederic A. (2013). Secretagogue stimulation of neurosecretory cells elicits filopodial extensions uncovering new functional release sites. Journal of Neuroscience, 33 (49), 19143-19153. doi: 10.1523/JNEUROSCI.2634-13.2013

Secretagogue stimulation of neurosecretory cells elicits filopodial extensions uncovering new functional release sites

Availability

Dr Rachel Gormal is:
Available for supervision

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Supervision history

Current supervision

Enquiries

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