Twyman Research Management

Specialist consultants in
scientific project development,
management and presentation



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.


Services Overview

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


Article of the Month

May 2020

Plant viruses can be developed as vaccines by engineering them to display proteins or peptides from other viruses responsible for diseases in humans. This is advantageous for several reasons: plant viruses are safe because they do not replicate in humans, they are effective because they induce a strong immune response, and they are easy to produce in large quantities using plants. But plant viruses can also be engineered to carry human peptides that induce immunotolerance, and the resulting therapeutic vaccines can be used to treat autoimmune disorders. In May's article of the month, Zampieri et al. show how plant viruses carrying major autoantigens associated with type 1 diabetes and rheumatoid arthritis can induce immunotolerance in mice. Vaccination completely prevented the onset of diabetes and reduced the severity of arthritis symptoms. The peptides were carried by different plant viruses that triggered different but overlapping immunotolerance mechanisms. These results could lead to clinical tests in humans and ultimately to new treatments for autoimmune disorders.

Article details: Zampieri R et al. (2020) Prevention and treatment of autoimmune diseases with plant virus nanoparticles. Sci Adv 6 (19) eaaz0295.

Image shows computer models of Cowpea mosaic virus, one of the two viruses used in this study to carry human autoantigens.
Image credit: wwPDB, created with NGL Viewer.

April 2020

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a novel coronavirus responsible for the current COVID-19 pandemic. There is a massive international effort underway to develop diagnostic reagents, vaccines and antiviral drugs in a bid to slow down the spread of the disease and save lives. One part of that international effort involves the plant science research community, uniting researchers and commercial enterprises from around the world to achieve the rapid supply of protein antigens and antibodies for diagnostic kits, and scalable production systems for the emergency manufacturing of vaccines and antiviral drugs. In April's article of the month, Capell et al. discuss some of the ways in which plants are being used in the fight against COVID-19 and how they might be used in the future against this and other pandemics.

Article details: Capell T et al. (2020) Potential applications of plant biotechnology against SARS-CoV-2. Trends Plant Sci (accepted and in press).

Image shows the structure of SARS-CoV-2.
Image credit: CDC/Alissa Eckert/Dan Higgins.

March 2020

Insects have conquered many environments and are particularly adept at overcoming microbial pathogens, making them useful resources for the discovery of new antibiotics. The comparative analysis of diverse insect taxa has shown that different groups have favored the expansion and contraction of different gene families encoding antimicrobial peptides, reflecting the unique challenges in their environment. In our article of the month for March, Shelomi et al. investigate the profile of antimicrobial peptides produced by stick insects by comprehensive RNA sequencing in specimens of Peruphasma schultei injected with microbial cocktails to induce a strong immune response. This revealed the induction of many different types of antimicrobial peptide, including multiple cysteine-rich peptides expressed at very high levels and a uniquely high number of lipopolysaccharide-binding protein sequences. The analysis of diverse insects representing a variety of habitats will help to increase the number of candidate antibiotics for further analysis.

Article details: Shelomi M et al. (2020) The unique antimicrobial peptide repertoire of stick insects. Dev Comp Immunol 103, 103471.

Image shows a nymph specimen of the stick insect species Peruphasma schultei.
Image credit: Drägüs (CC BY-SA 3.0).