Dr Allara Zylberberg
Dr Allara Zylberberg
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Available for student supervision
Dr Allara Zylberberg works as a Postdoctoral researcher within the Kidney Regeneration Laboratory at the Murdoch Children's Research Institute (MCRI), led by Professor Melissa Little.
Allara obtained her PhD in 2022 from the Biomedicine Discovery Institute at Monash University. She was supervised by Professor Ian Smyth and examined two separate mechanisms underlying the development of Polycystic Kidney Disease. Allara joined the Kidney Regeneration group in July 2022, where she currently works with a team led by Dr Kynan Lawlor with the broad vision of developing stem cell derived kidney tissues suitable for clinical renal replacement. This research focuses on developing methods to understand and manipulate the structure of kidney organoids to improve their maturity and growth so that they can be used to supplement renal function in patients with kidney disease.
Allara obtained her PhD in 2022 from the Biomedicine Discovery Institute at Monash University. She was supervised by Professor Ian Smyth and examined two separate mechanisms underlying the development of Polycystic Kidney Disease. Allara joined the Kidney Regeneration group in July 2022, where she currently works with a team led by Dr Kynan Lawlor with the broad vision of developing stem cell derived kidney tissues suitable for clinical renal replacement. This research focuses on developing methods to understand and manipulate the structure of kidney organoids to improve their maturity and growth so that they can be used to supplement renal function in patients with kidney disease.
Dr Allara Zylberberg works as a Postdoctoral researcher within the Kidney Regeneration Laboratory at the Murdoch Children's Research Institute (MCRI), led by Professor Melissa Little.
Allara obtained her PhD in 2022 from the Biomedicine Discovery...
Allara obtained her PhD in 2022 from the Biomedicine Discovery...
Dr Allara Zylberberg works as a Postdoctoral researcher within the Kidney Regeneration Laboratory at the Murdoch Children's Research Institute (MCRI), led by Professor Melissa Little.
Allara obtained her PhD in 2022 from the Biomedicine Discovery Institute at Monash University. She was supervised by Professor Ian Smyth and examined two separate mechanisms underlying the development of Polycystic Kidney Disease. Allara joined the Kidney Regeneration group in July 2022, where she currently works with a team led by Dr Kynan Lawlor with the broad vision of developing stem cell derived kidney tissues suitable for clinical renal replacement. This research focuses on developing methods to understand and manipulate the structure of kidney organoids to improve their maturity and growth so that they can be used to supplement renal function in patients with kidney disease.
Allara obtained her PhD in 2022 from the Biomedicine Discovery Institute at Monash University. She was supervised by Professor Ian Smyth and examined two separate mechanisms underlying the development of Polycystic Kidney Disease. Allara joined the Kidney Regeneration group in July 2022, where she currently works with a team led by Dr Kynan Lawlor with the broad vision of developing stem cell derived kidney tissues suitable for clinical renal replacement. This research focuses on developing methods to understand and manipulate the structure of kidney organoids to improve their maturity and growth so that they can be used to supplement renal function in patients with kidney disease.
Top Publications
- Zylberberg, AK, Cottle, DL, Runting, J, Rodrigues, G, Tham, MS, Jones, LK, Cumming, HE, Short, KM, Zaph, C, Smyth, IM. Modulating inflammation with interleukin 37 treatment ameliorates murine Autosomal Dominant Polycystic Kidney Disease.. Kidney Int 105(4) : 731 -743 2024 view publication
- Tham, MS, Cottle, DL, Zylberberg, AK, Short, KM, Jones, LK, Chan, P, Conduit, SE, Dyson, JM, Mitchell, CA, Smyth, IM. Deletion of Aurora kinase A prevents the development of polycystic kidney disease in mice.. Nat Commun 15(1) : 371 2024 view publication
- Cottle, DL, Ursino, GMA, Jones, LK, Tham, MS, Zylberberg, AK, Smyth, IM. Topical Aminosalicylic Acid Improves Keratinocyte Differentiation in an Inducible Mouse Model of Harlequin Ichthyosis.. Cell Rep Med 1(8) : 100129 2020 view publication
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