Journal articles

PR65 is the HEAT repeat scaffold subunit of the heterotrimeric protein phosphatase 2A (PP2A) and an archetypal tandem repeat protein. Its conformational mechanics plays a crucial role in PP2A function by opening/closing substrate binding/catalysis interface. Using in silico saturation mutagenesis, we identified PR65 "hinge" residues whose substitutions could alter its conformational adaptability and thereby PP2A function, and selected six mutations that were verified to be expressed and soluble.

Bispecific antibodies are a successful and expanding therapeutic class, bridging two cell-types or engaging two different molecules on the same cell. Standard approaches to generate bispecifics are complicated by the need for disulfide reduction/oxidation or specialized formats. Here we present SpyMask, a modular approach to bispecifics using SpyTag/SpyCatcher spontaneous amidation. Two SpyTag-fused antigen-binding modules can be precisely conjugated onto DoubleCatcher, a tandem SpyCatcher where the second SpyCatcher is protease-activatable.

Defending against future pandemics requires vaccine platforms that protect across a range of related pathogens. Nanoscale patterning and efficient molecular self-assembly are key to the success of new vaccine approaches. Here we produce quartets of concatenated receptor-binding domains (RBDs) from a panel of SARS-like betacoronaviruses, precisely coupled to the computationally-designed mi3 nanocage through SpyTag/SpyCatcher spontaneous reaction.

Inositol 1,4,5-trisphosphate receptors (IP3Rs) are high-conductance channels that allow the regulated redistribution of Ca2+ from the ER to the cytosol and, at specialised membrane contact sites (MCS), to other organelles. Only a subset of IP3Rs release Ca2+ to the cytosol in response to IP3. These ‘licensed’ IP3Rs are associated with Kras-induced actin-interacting protein (KRAP) beneath the plasma membrane. It is unclear whether KRAP regulates IP3Rs at MCS.

Defending against future pandemics requires vaccine platforms that protect across a range of related pathogens. Nanoscale patterning can be used to address this issue. Here, we produce quartets of linked receptor-binding domains (RBDs) from a panel of SARS-like betacoronaviruses, coupled to a computationally designed nanocage through SpyTag/SpyCatcher links. These Quartet Nanocages, possessing a branched morphology, induce a high level of neutralizing antibodies against several different coronaviruses, including against viruses not represented in the vaccine.

Ca2+ imaging is frequently used in the investigation of sensory neuronal function and
nociception. In vitro imaging of acutely dissociated sensory neurons using membrane permeant fluorescent Ca2+ indicators remains the most common approach to study Ca2+
signalling in sensory neurons. Fluo4 is a popular choice of single-wavelength indicator due to
its brightness, high affinity for Ca2+ and ease of use. However, unlike ratiometric indicators,
the emission intensity from single-wavelength indicators can be affected by indicator

The cucumber mosaic virus (CMV) 2b protein is a suppressor of plant defenses and a pathogenicity determinant. Amongst the 2b protein’s host targets is the RNA silencing factor Argonaute 1 (AGO1), which it binds to and inhibits. In Arabidopsis thaliana, if 2b-induced inhibition of AGO1 is too efficient it induces reinforcement of antiviral silencing by AGO2, and triggers increased re-sistance against aphids, CMV’s insect vectors.

<jats:p>Development and proof-of-concept for a photoswitchable peptide staple with the ability to trigger a major change in binding affinity upon visible light irradiation.</jats:p>

Characterising RNA-protein interaction dynamics is fundamental to understand how bacteria respond to their environment. In this study, we have analysed the dynamics of 91% of the Escherichia coli expressed proteome and the RNA-interaction properties of 271 RNA-binding proteins (RBPs) at different growth phases. We find that 68% of RBPs differentially bind RNA across growth phases and characterise 17 previously unannotated proteins as bacterial RBPs including YfiF, a ncRNA-binding protein.

Matching of symmetry at interfaces is a fundamental obstacle in molecular assembly. Virus-like particles (VLPs) are important vaccine platforms against pathogenic threats, including Covid-19. However, symmetry mismatch can prohibit vaccine nanoassembly. We established an approach for coupling VLPs to diverse antigen symmetries. SpyCatcher003 enabled efficient VLP conjugation and extreme thermal resilience. Many people had pre-existing antibodies to SpyTag:SpyCatcher but less to the 003 variants.