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- 3D and 4D imaging of thymic T cell differentiation
- Activating https://www.wehi.edu.au/node/add/individual-student-research-page#Parkin to treat Parkinson’s disease
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- Defining the role of necroptosis in platelet production and function
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- Developing mucolytics to treat chronic respiratory diseases
- Developing new tools to visualise necroptotic cell death
- Development of live-cell, automated microscopy techniques for studying malaria
- Development of tools to inform malaria vaccine design
- Discovering new genetic causes of primary antibody deficiencies
- Discovery of novel drug combinations for the treatment of bowel cancer
- Dissecting the induction and integration of T cell migration cues
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- Eosinophil and neutrophil heterogeneity
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- Home renovations: understanding how Toxoplasma redecorates its host cell
- How the epigenetic regulator SMCHD1 works and how to target it to treat disease
- Human monoclonal antibodies against malaria infection
- Identification of malaria parasite entry receptors
- Identification of new therapeutic opportunities for pancreatic cancer
- Identifying disease-causing haplotypes with hidden Markov models
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- Investigating mechanisms of cell death and survival using zebrafish
- Investigating new paths to selective modulation of potassium channels
- Let me in! How Toxoplasma invades human cells
- Long-read sequencing for transcriptome and epigenome analysis
- Macro-evolution in cancer
- Mapping DNA repair networks in cancer
- Mapping how multiple malaria episodes are related
- Modelling gene regulatory systems
- Modulation of immune responses by immunosuppressive chemokines
- Molecular basis for inherited Parkinson’s disease mechanism of PINK1
- Mucus at the molecular level
- Novel cell death and inflammatory modulators in lupus
- Plasmodium vivax host-parasite interactions: impact on immunity
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- Regulation of cytokine signalling
- Screening for regulators of jumping genes
- Target identification of potent antimalarial agents
- Targeting the immune system in cancer
- The role of interleukin-11 in acute myeloid leukaemia
- Transmembrane control of type I cytokine receptor activation
- Uncovering the roles of long non-coding RNAs in human bowel cancer
- Understanding retinal eye diseases with retinal transcriptomic data analysis
- Understanding the role of stromal cells in pancreatic cancer growth
- Unravelling the tumour suppressor network in models of lung cancer
- Utilising pre-clinical models to discover novel therapies for tuberculosis
- Zombieland: evolution of a dead enzyme that kills cells by necroptosis
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Jerry Adams-Publications
Researcher:
Selected publications
- Adams JM, Cory S. The BCL-2 arbiters of apoptosis and their growing role as cancer targets. Cell Death Differ. 2017 Nov 3. PMID: 29099483.
- Czabotar PE, Lessene G, Strasser A, Adams JM. Control of apoptosis by the BCL-2 protein family: implications for physiology and therapy. Nature reviews Molecular cell biology. 2014 Jan;15(1):49-63. PMID: 24355989.
- Czabotar PE, Westphal D, Dewson G, Ma S, Hockings C, Fairlie WD, Lee EF, Yao S, Robin AY, Smith BJ, Huang DC, Kluck RM, Adams JM, Colman PM. Bax crystal structures reveal how BH3 domains activate Bax and nucleate its oligomerization to induce apoptosis. Cell. 2013 Jan 31;152(3):519-31. PMID: 23374347.
- Dewson G, Kratina T, Sim HW, Puthalakath H, Adams JM, Colman PM, Kluck RM. To trigger apoptosis, Bak exposes its BH3 domain and homodimerizes via BH3:groove interactions. Molecular cell. 2008 May 9;30(3):369-80. PMID: 18471982.
- Willis SN, Fletcher JI, Kaufmann T, van Delft MF, Chen L, Czabotar PE, Ierino H, Lee EF, Fairlie WD, Bouillet P, Strasser A, Kluck RM, Adams JM, Huang DC. Apoptosis initiated when BH3 ligands engage multiple Bcl-2 homologs, not Bax or Bak. Science. 2007 Feb 9;315(5813):856-9. PMID: 17289999.
- van Delft MF, Wei AH, Mason KD, Vandenberg CJ, Chen L, Czabotar PE, Willis SN, Scott CL, Day CL, Cory S, Adams JM, Roberts AW, Huang DC. The BH3 mimetic ABT-737 targets selective Bcl-2 proteins and efficiently induces apoptosis via Bak/Bax if Mcl-1 is neutralized. Cancer cell. 2006 Nov;10(5):389-99. PMID: 17097561. Pubmed Central PMCID: 2953559.
- Chen L, Willis SN, Wei A, Smith BJ, Fletcher JI, Hinds MG, Colman PM, Day CL, Adams JM, Huang DC. Differential targeting of prosurvival Bcl-2 proteins by their BH3-only ligands allows complementary apoptotic function. Molecular cell. 2005 Feb 4;17(3):393-403. PMID: 15694340.
- Bouillet P, Metcalf D, Huang DC, Tarlinton DM, Kay TW, Kontgen F, Adams JM, Strasser A. Proapoptotic Bcl-2 relative Bim required for certain apoptotic responses, leukocyte homeostasis, and to preclude autoimmunity. Science. 1999 Nov 26;286(5445):1735-8. PMID: 10576740.
- Vaux DL, Cory S, Adams JM. Bcl-2 gene promotes haemopoietic cell survival and cooperates with c-myc to immortalize pre-B cells. Nature. 1988 Sep 29;335(6189):440-2. PMID: 3262202.
- Adams JM, Harris AW, Pinkert CA, Corcoran LM, Alexander WS, Cory S, Palmiter RD, Brinster RL. The c-myc oncogene driven by immunoglobulin enhancers induces lymphoid malignancy in transgenic mice. Nature. 1985 Dec 12-18;318(6046):533-8. PMID: 3906410.
