Forensic biosciences
We research the rate and pattern of colonisation of human remains by invertebrates, particularly muscid flies and blowflies, but also marine organisms. This research is relevant to the interpretation of the minimum time since death when used in a forensic context.
Papers
Gunn A. and Pitt S.J., 2012. Microbes as forensic indicators Tropical Biomedicine 29 (3): 311–330
PMID: 23018494
Gunn A., B. Jerry, 2011. The ability of the blowflies Calliphora vomitoria (Linnaeus), Calliphora vicina (Rob-Desvoidy) and Lucilia sericata (Meigen) (Diptera: Calliphoridae) and the muscid flies Muscina stabulans (Fallén) and Muscina prolapsa (Harris) (Diptera: Muscidae) to colonise buried remains. Forensic Science International 207 (1–3), 198–204. doi>
Staff
Simone Dürr, Alan Gunn
Epigenetics
Epigenetics concerns the mechanisms that confer the organismal and cellular inheritance of gene expression patterns that do not involve a change in DNA sequence. Chemical modifications of DNA and DNA-associated proteins (histones and HP1 proteins) are key players in epigenetic inheritance. Our research uses state-of-the-art genetically-engineered mice, along with induced pluripotent stem (iPS) cells, to investigate three main themes:
(i) the development of brown adipose tissue;
(ii) the mechanisms of epigenetic rejuvenation;
(iii) behavioural epigenetics: understanding how gene activity is influenced by experiences and the environment.
Collaborations
- University of Antwerp, Vaccine and Infectious Disease Institute (Professor Peter Ponsaerts): differentiation capacity of HP1 mutant ES cells
- Forschungseinrichtung für Experimentelle Medizin (Germany) (Dr Geert Michaels): epigenetic rejuvenation
- Bellvitge Biomedical Research Institute (Spain) (Professor Alejandro Vaquero): HP1 proteins and chromatin structure
- Universitätsmedizin Berlin, Institute of Cell Biology and Neurobiology (Professor Victor Tarabykin): HP1 proteins and cerebral corticogenesis
- University of Roma "Tor Vergata" (Professor Silvia Biocca): functional knock-out of HP1 proteins using intracellular antibodies
- The Hebrew University of Jerusalem (Professor Eran Meshorer): HP1 proteins and ES cell pluripotency
Papers
Maria Manukyan M. and Singh P.B., 2014. Epigenome rejuvenation: HP1β mobility as a measure of pluripotent and senescent chromatin ground states. Scientific Reports 4 4789. doi>
Manukyan M. and Singh P.B., 2012. Epigenetic rejuvenation. Genes to Cells 17 (5), 337-343. doi>
Brown J.P., Bullwinkel J., Baron-Lühr B., Billur M., Schneider P., Winking H. and Singh P.B. 2010. HP1γ function is required for male germ cell survival and spermatogenesis. Epigenetics & Chromatin, 3 (9). doi>
Staff
Prim Singh, Will Swaney, Alun Hughes
Human biology
Research in human biology is in two main areas: firstly, studying the relationships between physiology and nutrition, with a special emphasis on the interactions of dietary and lifestyle habits with adipose tissue, obesity and the inflammatory response. Secondly, the study of interactions between non-cancer and cancer cells in the initiation and progression of solid tumours. In this tumour microenvironment we are particularly interested in the influence of hypoxia and nutrient deficiency, both of which are conditions that occur in the centre of solid tumours. These conditions are contributing factors in the resistance to chemo- and radiotherapy and therefore a better understanding in this area may help to identify potential therapeutic targets.
Papers
Sharma S, Evans A, Hemers E. 2016. Mesenchymal-epithelial signalling in tumour microenvironment: role of high-mobility group Box 1 Cell and Tissue Research, 365, 357-366
Pérez-de-Heredia F., Gómez-Martínez S., Díaz L., Veses, A.M, Nova E., Wärnberg J., Huybrechts I., Vyncke K., Androutsos O., Ferrari M., Palacios G., Wastlund A., Kovács E.,
Gottrand F., González-Gross M., Castillo M.J., Sjöstrom M., Manios Y., Kafatos A., Molnár D., Widhalm K., Moreno L.A., Marcos A., on behalf of the HELENA Study Group, 2015. Influence of sex, age, pubertal maturation and body mass index on circulating white blood cell counts in healthy European adolescents—the HELENA study. European Journal of Pediatrics. doi>
Veses A. M., Gómez-Martínez S., Pérez de Heredia F., Esteban-Cornejo I., Castillo R., Estecha S., García-Fuentes M., Veiga O. L., Calle M. E., Marcos A. 2015. Cognition and the risk of eating disorders in Spanish adolescents: the AVENA and AFINOS studies European Journal of Pediatrics 174 (2), 229-236. doi>
Pérez de Heredia F., Garaulet M., Gómez-Martínez S., Díaz L.E., Wärnberg J., Androutsos O., Michels N., Breidenassel C., Cuenca-García M., Huybrechts I., Gottrand F., Ferrari M., Santaliestra-Pasías A.M., Kafatos A., Molnár D., Sjöstrom M., Widhalm K., Moreno L.A., Marcos A., on behalf of the HELENA Study Group. 2014. Self-reported sleep duration, white blood cell counts and cytokine profiles in European adolescents: the HELENA study. Sleep Medicine 15 (10), 1251–1258. doi>
Magrone T., Perez de Heredia F., Jirillo E., Morabito G., Marcos A., Serafinide M., 2013. Functional foods and nutraceuticals as therapeutic tools for the treatment of diet-related diseases. Canadian Journal of Physiology and Pharmacology, 2013, 91(6): 387-396. doi>
Gómez-Martínez S., Martínez-Gómez D., Perez de Heredia F., Romeo J., Cuenca-Garcia M., Martín-Matillas M., Castillo M., Rey-López J., Vicente-Rodriguez G., Moreno L., Marcos A., 2012. Eating Habits and Total and Abdominal Fat in Spanish Adolescents: Influence of Physical Activity. The AVENA Study. Journal of Adolescent Health 50 (4), 403–409. doi>
Pérez de Heredia F., Wood I.S., Trayhurn P., 2010. Hypoxia stimulates lactate release and modulates monocarboxylate transporter (MCT1, MCT2, and MCT4) expression in human adipocytes. Pflügers Archiv - European Journal of Physiology 459 (3), 509-518. doi>
Staff
Elaine Hemers, Fatima Perez de Heredia, Alun Hughes
Marine biology
Biofouling is the growth of organisms (plants, animals, microorganisms) on artificial surfaces in the marine environment. Biofouling control measures (antifouling) cost the maritime industry billions of pounds every year. We follow a holistic approach in our biofouling and antifouling research and have combined our research expertise in biology/chemistry (School of Natural Sciences and Psychology) and engineering (Faculty of Engineering and Technology) with focus on research in the field (Dr S. Dürr) and in the lab (Dr S. Conlan). Our research is orientated in the basics of biofouling in terms of larval behaviour, species interactions, community structure and dynamics as well as in applied antifouling research with antifouling testing (e.g. coatings), sensor and adhesive research. We work with and for marine industries (aquaculture, shipping, renewable energies) and have worked in the EU funded projects: Advanced Nanostructured Surfaces for the Control of Biofouling (AMBIO) and Collective Research on Aquaculture Biofouling (CRAB). Our facilities at LJMU include cold rooms, environmental chambers and specialised microscopes. We use the Liverpool Docks as our easily accessible biofouling model system. Our public outreach programme includes regular events such as ‘Dockwatch’ at Liverpool’s Albert Dock.
Collaborations
- City University London (Prof Ron Douglas and Prof Jim Bowmaker): vision research, biofouling species settlement behaviour
- Daithi O’Murchu Marine Research Station, Ireland (Dr Julie Maguire): biofouling and antifouling in aquaculture
- Duke University, USA (Prof Dan Rittschof): biofouling adhesive research
- National University of Singapore (Dr Serena Teo): adhesive research
- Newcastle University (Prof Tony Clare): biofouling adhesive research
- Newcastle University (Prof Anya Hurlbert): colour perception in biofouling species
- Tassal & Huon, Australia (Dr Belinda Yaxley and Dom O’Brian): biofouling and antifouling in aquaculture
- University of Brest, France (Prof Claire Hellio): natural biocides for antifouling coatings
- University of Gothenburg (Prof Per Sundberg): invasive species, ballast water
- World Museum Liverpool (Dr Geraldine Reid): diatom identification, biofilm assessment
Public collaborators
- Canal & River Trust
- Mersey Maritime
- Wirral Country Park
- Maritime Museum Liverpool
Papers
Tasso, M., Conlan, S. L., Clare, A. S. and Werner, C., 2012. Active Enzyme Nanocoatings Affect Settlement of Balanus amphitrite Barnacle Cyprids. Adv. Funct. Mater., 22: 39–47. doi>
Maruzzo D., Conlan S., Aldred N., Clare A.S., Høeg J.T., 2011. Video observation of surface exploration in cyprids of Balanus amphitrite: the movements of antennular sensory setae Biofouling: The Journal of Bioadhesion and Biofilm Research 27 (2) 225-239. doi>
Dürr S., Thomason J.C., 2010. Biofouling Blackwell Publishing Ltd. doi>
Dürr, S. and Watson, D. I., 2009. Biofouling and Antifouling in Aquaculture, in Biofouling (eds S. Dürr and J. C. Thomason), Wiley-Blackwell, Oxford, UK. doi>
Butler, A. J., Canning-Clode, J., Coutts, A. D. M., Cowie, P. R., Dobretsov, S., Dürr, S., Faimali, M., Lewis, J. A., Page, H. M., Pratten, J., Ready, D., Rittschof, D., Spratt, D. A., Terlizzi, A. and Thomason, J. C., 2009. Techniques for the Quantification of Biofouling, in Biofouling (eds S. Dürr and J. C. Thomason), Wiley-Blackwell, Oxford, UK. doi>
Beigbeder A., Degee P., Conlan S.L, Mutton R.J., Clare A.S., Pettitt M.E., Callow M.E., Callow J.C., Dubois P., 2008. Preparation and characterisation of silicone-based coatings filled with carbon nanotubes and natural sepiolite and their application as marine fouling-release coatings Biofouling: The Journal of Bioadhesion and Biofilm Research 24 (4) 291-302. doi>
Staff
Sheelagh Conlan, Simone Dürr
Parasitology
We study how parasitic organisms affect the health, behaviour and life history traits of their hosts at both the phenotypic and molecular level. Key study systems are entomopathogenic nematodes, molluscicidal nematodes, filarial nematodes, flatworms, snails, flies, blackflies and mosquitos.
Papers
Williams A.J., Rae R., 2015 Susceptibility of the Giant African snail (Achatina fulica) exposed to the gastropod parasitic nematode Phasmarhabditis hermaphrodita. Journal of Invertebrate Pathology 127:122-26. doi>
Colebunders R., Post R., O'Neill S., Haesaert G., Opar B., Lakwo T., Laudisoit A., and Hendy A., 2014. Nodding syndrome since 2012: recent progress, challenges and recommendations for future research. Tropical Medicine & International Health 20 (2): 194–200. doi>
Staff
Alan Gunn, Rory Post, Robbie Rae, Sally Williamson
Pharmacology and molecular biology
We study how drugs, toxins and pesticides interact with the nervous system. This incorporates a range of approaches, from the molecular to the whole organism level. Our research interests include using advanced molecular biology techniques to produce recombinant toxins for development as potential drugs or pesticides; studying the pharmacology of specific receptors in the nervous system; and conducting bioassays to assess how particular drugs and toxins affect the behaviour of invertebrate animals.
Collaborations
Durham University: novel biopesticides based on venom toxins
Papers
Nakasu E., Williamson S., Edwards M., Fitches E., Gatehouse J., Wright G., Gatehouse A., 2014. Novel biopesticide based on a spider venom peptide shows no adverse effects on honeybees. Proceedings B 281 (1787). doi>
Staff
Andrias O’Reilly, Sally Williamson
Translational plant biology
We are researching plant genome evolution, molecular adaptations and photosynthesis to secure global food supplies in a changing world climate and to better understand the evolution of plants.
Collaborations
Australian National University and Lancaster University (UK): designing better RuBisCOs for crops to improve global yield
Papers
Whitney S.M., Birch R., Kelso C., Beck J.L, and Kapralov M.V., 2015. Improving recombinant Rubisco biogenesis, plant photosynthesis and growth by coexpressing its ancillary RAF1 chaperone. PNAS 112 (11) 3564-3569.
Sharwood RE, Ghannoum O, Kapralov MV, Gunn LH, Whitney SM (2016) Temperature responses of Rubisco from Paniceae grasses provide opportunities for improving C3 photosynthesis. Nature Plants. 2:16186.
Staff
Maxim Kapralov
Vector biology and control
We study insect vectors of human disease – particularly the blackfly vectors of onchocerciasis and mosquito vectors of malaria and lymphatic filariasis. We undertake both operational and applied research e.g. into the success of the onchocerciasis control programme and into insecticide resistance in mosquito vectors of malaria and lymphatic filariasis. Insecticide resistance represents a major impediment to successful vector control and we study the molecular mechanisms of this using genomic, transcriptomic and molecular biological tools. Additionally, we are undertaking research on novel insecticides based upon spider venom and the use of novel strains of entomopathogenic nematodes for control of insect vectors.
Collaborations
- Centre for Ecology and Hydrology: British Blackfly Barcoding
- Creighton University: Simulium genome project
- Imperial College London: onchocerciasis transmission in southern Ghana
- Liverpool School of Tropical Medicine and Wellcome Trust Sanger Institute: genomic studies of insecticide resistance in mosquitoes
- London School of Hygiene & Tropical Medicine: microfloristics of blackflies
- Ministry of Health of Burkina Faso: recrudescence of onchocerciasis
- University of Antwerp: nodding syndrome
- WHO African Programme for Onchocerciasis Control: onchocerciasis vector taxonomy
Papers
Gomes B, Wilding CS, Weetman D, Sousa CA, Novo MT, Savage HM, Almeida APG, Pinto J and Donnelly MJ (2015). Limited genomic divergence between intraspecific forms of Culex pipiens under different ecological pressures. BMC Evolutionary Biology 15:197
Weetman, D., Mitchell, S. N., Wilding, C. S., Birks, D. P., Yawson, A. E., Essandoh, J., Mawejje, H. D., Djogbenou, L. S., Steen, K., Rippon, E. J., Clarkson, C. S., Field, S. G., Rigden, D. J. and Donnelly, M. J., 2015. Contemporary evolution of resistance at the major insecticide target site gene Ace-1 by mutation and copy number variation in the malaria mosquito Anopheles gambiae. Molecular Ecology. doi>
Neafsey D., Waterhouse R., Abai M., Aganezov S., Alekseyev M., Allen J., Amon J., Arcà B., Arensburger P., Artemov G., Assour L., Basseri H., Berlin A. et al., 2015. Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes. Science 347 (6217) doi>
Wilding C. S., Weetman D., Rippon E. J., Steen K., Mawejje H. D., Barsukov I., Donnelly M. J., 2015.
Parallel evolution or purifying selection, not introgression, explains similarity in the pyrethroid detoxification linked GSTE4 of Anopheles gambiae and An. arabiensis. Molecular Genetics and Genomics 290 (1), 201-215 doi>
Garms R., Badu K., Owusu-Dabo E., Baffour-Awuah S., Adjei O., Debrah A. Y., Nagel M., Biritwum N. K., Gankpala L., Post R. J., Kruppa T. F., 2015. Assessments of the transmission of Onchocerca volvulus by Simulium sanctipauli in the Upper Denkyira District, Ghana, and the intermittent disappearance of the vector. Parasitology Research 114 (3), 1129-1137 doi>
Lamberton P.H.L., Cheke R.A., Winskill P., Tirados I., Walker M., Osei-Atweneboana M.Y., Biritwum N., Tetteh-Kumah A., Boakye D.A., Wilson M.D., Post R.J., Basañez M., 2015. Onchocerciasis Transmission in Ghana: Persistence under Different Control Strategies and the Role of the Simuliid Vectors. PLoS Negl Trop Dis 9 (4): e0003688. doi>
Post R., Cheke R.A., Boakye D.A., Wilson M.D., Osei-Atweneboana M.Y., Tetteh-Kumah A., Lamberton P.H.L., Crainey J. L., Yaméogo L. and Basáñez M., 2013. Stability and change in the distribution of cytospecies of the Simulium damnosum complex (Diptera: Simuliidae) in southern Ghana from 1971 to 2011 Parasites & Vectors, 6 (205) doi>
Staff
Rory Post, Andrias O’Reilly, Craig Wilding, Sally Williamson