Twyman Research Management

Specialist consultants in
scientific project development,
management and presentation

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Welcome

to Twyman Research Management

Twyman Research Management Ltd is a UK company that specializes in scientific project development, management and presentation, including the preparation of research proposals, project management and reporting, project dissemination and complementary activities, and expert assistance with the preparation, editing and revision of scientific manuscripts.

We have been working for more than 20 years to develop and manage research projects and improve the quality of scientific publications.

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Services Overview

We offer a range of services relating to the development, management and presentation of scientific projects

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Article of the Month

January 2020

Natural enzymes are usually optimized for industrial applications by introducing mutations that improve properties such as stability, substrate selection or catalytic turnover. Enzyme libraries can be combined with activity assays to screen large numbers of variants, and this is sufficient to screen all possible individual mutations at all sites. However, combinations of two or more mutations increase the number of potential variants far beyond current screening capabilities, and some kind of rational selection must be implemented to identify promising candidates. In January's article of the month, Ostafe et al. use machine learning to find the optimal combination of five independent mutations in the enzyme glucose oxidase, leading to an enzyme variant that remains active across a broad pH range and shows greater specificity for two different mediators. Machine learning can therefore be used to predict structure–activity relationships and streamline the optimization of enzymes by directed evolution.

Article details: Ostafe R et al. (2020) One‐shot optimization of multiple enzyme parameters: Tailoring glucose oxidase for pH and electron mediators. Biotechnol Bioeng 117 (1) 17–29.

Image shows a space-filling model of the enzyme glucose oxidase.
Image credit: wwPDB, created with NGL Viewer.

December 2019

Plants flower in response to various environmental cues including the day length, a phenomenon known as photoperiodism. Some plants flower only when days are short, others only when days are long, and others like tobacco (Nicotiana tabacum) can flower regardless of the day length (day neutral). This is controlled by FLOWERING LOCUS T (FT) proteins, some acting as activators and some as repressors. In December's article of the month, Schmidt et al. analyze the role of the NtFT5 gene and report that it is an indispensable major floral activator during long days. They show that tobacco plants with only one functional copy of this gene remain in the vegetative growth phase for longer, producing about 10% more biomass before flowering and also producing more seeds. NtFT5 could therefore be used as a means to increase the yields of other crop species.

Article details: Schmidt FJ et al. (2020) The major floral promoter NtFT5 in tobacco (Nicotiana tabacum) is a promising target for crop improvement. Front Plant Sci 10, 1666.

Image shows flowering tobacco plants.
Image credit: H Zell (CC BY-SA 3.0).

November 2019

Helicobacter pylori is a common bacterial pathogen in humans, causing chronic gastritis, ulcers and even stomach cancer. It is difficult to eradicate, and treatment usually involves multiple antibiotics, which can encourage the spread of antibiotic-resistant strains. In November's article of the month, Menchicchi et al. show that colloidal nanoparticles with an oily emulsion core and a coating of low-molecular-weight dextran sulfate can inhibit the adhesion of H. pylori to stomach cells, without signs of toxicity against gastrointestinal cell lines. These nanoparticles could therefore be developed as a complementary therapy against H. pylori, helping to reduce antibiotic use and prevent the emergence of multidrug-resistant bacteria.

Article details: Menchicchi et al. (2019) Low-molecular-weight dextran sulfate nanocapsules inhibit the adhesion of Helicobacter pylori to gastric cells. ACS Appl Bio Mater 2 (11) 4777–4789.

Image shows the bacterium Helicobacter pylori.
Image credit: AJC1 (CC BY-SA 2.0).