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- A complete cure for HBV
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- Diseases
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- Towards targeting altered glial biology in high-grade brain cancers
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- A new regulator of 'stemness' to create dendritic cell factories for immunotherapy
- Advanced imaging interrogation of pathogen induced NETosis
- Can the 3D genome predict type 1 diabetes onset?
- Cancer driver deserts
- Cryo-electron microscopy of Wnt signalling complexes
- Developing drugs to block malaria transmission
- Developing new computational tools for CRISPR genomics to advance cancer research
- Developing novel antibody-based methods for regulating apoptotic cell death
- Development of tau-specific therapeutic and diagnostic antibodies
- Discovering novel paradigms to cure viral and bacterial infections
- Discovery and targeting of novel regulators of transcription
- Dissecting host cell invasion by the diarrhoeal pathogen Cryptosporidium
- Do membrane forces govern assembly of the deadly apoptotic pore?
- Doublecortin-like kinases, drug targets in cancer and neurological disorders
- E3 ubiquitin ligases in neurodegeneration, autoinflammation and cancer
- Engineering improved CAR-T cell therapies
- Epigenetic biomarkers of tuberculosis infection
- Finding treatments for chromatin disorders of intellectual disability
- Functional epigenomics in human B cells
- Genomic rearrangement detection with third generation sequencing technology
- How does DNA damage shape disease susceptibility over a lifetime?
- How does DNA hypermutation shape the development of solid tumours?
- How lymphocytes are stopped - a novel mechanism to prevent lymphoma
- How platelets prevent neonatal stroke
- Human lung protective immunity to tuberculosis
- Interaction with Toxoplasma parasites and the brain
- Interactions between tumour cells and their microenvironment in non-small cell lung cancer
- Investigating the role of dysregulated Tom40 in neurodegeneration
- Investigating the role of mutant p53 in cancer
- Leukaemia is caused by mutations in DNA. This project will explore how 3D DNA structure influences when and where these DNA mutations occur. There is an opportunity for a dedicated and enthusiastic student to join our team and reveal how 3D genome organis
- Lupus: proteasome inhibitors and inflammation
- Machine learning methods for somatic genome rearrangement detection
- Malaria: going bananas for sex
- Measurements of malaria parasite and erythrocyte membrane interactions using cutting-edge microscopy
- Measuring susceptibility of cancer cells to BH3-mimetics
- Minimising rheumatic adverse events of checkpoint inhibitor cancer therapy
- Mutational signatures of structural variation
- Naturally acquired immune response to malaria parasites
- Predicting the effect of non-coding structural variants in cancer
- Revealing the epigenetic origins of immune disease
- Reversing antimalarial resistance in human malaria parasites
- Structural and functional analysis of DNA repair complexes
- Targeting human infective coronaviruses using alpaca antibodies
- Uncovering the real impact of persistent malaria infections
- Understanding Plasmodium falciparum invasion of red blood cells
- Understanding how malaria parasites sabotage acquisition of immunity
- Understanding malaria infection dynamics
- Understanding the mechanism of type I cytokine receptor activation
- Unveiling the heterogeneity of small cell lung cancer
- Using alpaca antibodies to understand malaria invasion and transmission
- Using combination immunotherapy to tackle heterogeneous brain tumours
- Using intravital microscopy for immunotherapy against brain tumours
- Using nanobodies to cross the blood brain barrier for drug delivery
- Using structural biology to understand programmed cell death
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- Searching for solutions to muscular dystrophy
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- Taking a single cell focus with the DROP-seq
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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.
