Dr Steven Hussey

Figure 1. Design of standardized synthetic E. grandis SCW-related transcription factors and promoters ( Hussey et al. 2019 ).Hammers indicate domesticated sequences, dotted lines indicate restriction cleavage sites, coloured bases indicate standard syntax sequences and lowercase sequences indicate spacer nucleotides. (A)Transcription factor Phytobricks contain attL GATEWAY recombination sites (green), fifty-one basepair chewback linkers, BsaI Type IIS recognition sites and standard syntax sequences (purple text). The start codon of the domesticated coding sequence (green) remains in frame with N-terminal tags in GATEWAY destination vectors, while being primarily intended for Golden Gate, MoClo and Golden Braid assembly. (B) The DNA Affinity Purification Sequencing (DAP-seq) panel of transcription factors is available as a C-terminal fusion to the HALO purification tag, intended for in vitrotranscription and translation via the SP6 phage promoter. While not standardized by a universal syntax, the coding sequences are fully domesticated and can thus be subcloned as standardized parts into a universal acceptor plasmid. (C) The secondary cell wall promoter panel features semi-domesticated 2 kb promoter sequences (including 5’ UTRs) compatible with GATEWAY and AarI-mediated Golden Gate cloning. Standard prefix and suffix syntax sequences allow for two-step Type IIS assembly to any Phytobrick panel CDS in (A). AmpR, ampicillin resistance gene; CDS, coding sequence; SpecR, spectinomycin resistance gene.

Biomaker Africa

I am currently coordinating the Biomaker Programme at UP, in partnership with the UP Makerspace. UP has been awarded pump-priming support from the UK Global Challenges Research Fund through the University of Cambridge to build capacity in using Arduino-based plug-and-play hardware, low-cost open-source electronics and XOD visual programming for biological applications. Through the Biomaker model, multidisciplinary teams of varying levels of education and expertise are challenged to design and build practical devices, bioinstruments and biosensors using open-source parts and 3D printing. UP has held a number of training workshops and challenges in 2019, among them a two-day workshop run by Biomaker and plant synthetic biology leader Prof. Jim Haseloff. A number of Arduino-based training kits have been made available for student use at the UP Makerspace.

Low-cost viral diagnostics (LCVD) collaboration

I am also involved in research aimed developing new low-cost point-of-care diagnostics technology based on CRISPR/Cas, cell-free expression, isothermal nucleic acid amplification and fluorescent as well as lateral flow detection systems. These modular diagnostic assay components can be customized and optimized for wide disease detection applications in the biomedical, agricultural and forestry sciences. Dr Letrisha Padayachee, a postdoctoral fellow at UP working on efficient viral genomic DNA extraction and RPA-based target amplification, has also set up a protein expression platform based on bacterial cell-free extracts. The project, led by Prof. Jim Ajioka, is a collaborative effort with five PIs from the University of Cambridge, Imperial College London, the CSIR and UP. Together, they have run training workshops in viral diagnostics development at the Future Africa campus.