Research group

BiOmics

Bar coded DNA sample

Technological advances have allowed scientists to gather large amounts of data about a vast array of species, organisms and single cells. Our researchers are using mathematical modelling, machine learning and other algorithms to extract information and patterns from large data sets to further our understanding of disease.

About

Contemporary scientific research benefits from rapid technological developments that enable the characterisation and quantification of biological molecules at unprecedented scale. Scientists can generate vast data that provide insight into the complex interplay of molecules within organisms. Interrogation and interpretation of these data inform the structure, function and interaction of molecules over time. 

We use ‘Omic technologies comprehensively to evaluate DNA (genomics), RNA (transcriptomics) and proteins (proteomics). We study small molecules using metabolomics. Microorganisms are investigated in a targeted manner using microbiomics or more broadly to characterise mixed samples using metagenomics.

At the University of Southampton, we generate vast datasets using these approaches across a wide range of environments and species. We work closely with NHS partners to use these capabilities to understand human disease and inform its clinical management. We bring together medical and biological scientists with mathematicians, computer and data scientists to develop and apply methods that exploit these data to their fullest potential.

From analysing patient genomes, to carrying out metagenomic analysis of water samples to using mass spectrometry metabolic profiling techniques, our scientists are studying the unique processes that take place within cells that can lead to disease or poor health outcomes in humans and help track changes in the environment.   

We are using data to answer clinical questions in areas such as cancer, autoimmune and respiratory diseases with the help of clinical colleagues we are translating our findings into novel techniques for clinicians to treat their patients, make predictions about prognosis and drug responsiveness.

Our researchers collaborate with partners at:

People, projects and publications

People

Professor Peter Shaw

Professor
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Professor Peter Smith BSc, PhD, MA, FRSB

Professor of Life Sciences
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Professor Phil Williamson

Head of School

Research interests

  • Molecular processes underpinning neurodegenerative disease
  • Structure and function of cell membranes
  • Development and application of solid-state NMR and other biophysical techniques for the analysis of biological systems

Accepting applications from PhD students

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Professor Philip Bartlett

Professor of Chemistry

Research interests

  • Electrochemistry
  • Bioelectrochemistry
  • Templated electrodeposition of nanomaterials
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Professor Philip Calder

Head of School

Accepting applications from PhD students

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Dr Philip Goodwin

Associate Professor

Research interests

  • Philip has a number of research interests spanning climate and the carbon cycle:
  • (1) Earth’s coupled physical climate and biogeochemical system;
  • (2) The Anthropocene (including surface warming, sea level rise and ocean acidification);

Accepting applications from PhD students

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Dr Philip Greulich

Associate Professor

Research interests

  • Mathematical modelling of stem cell fate choices
  • Universal features of cell lineages
  • Cell population dynamics

Accepting applications from PhD students

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Dr Phillip Fenberg

Associate Professor

Accepting applications from PhD students

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Professor Phyllis Lam

Professor

Research interests

  • Dr. Lam's research interest lies in the functional roles of microorganisms in biogeochemical cycling, particularly the nitrogen and carbon cycles, in diverse marine and aquatic systems. In collaboration with researchers inside and outside the university, her work integrates state-of-the-art molecular ecological techniques, stable isotopic analyses, process rate measurements, hypothesis-driven experimentation and modelling, to disentangle complex microbial interactions and their impacts on biogeochemical environments especially in the context of global change.
  • Current research topics include:
  • Shortcuts in the nitrogen cycle – novel pathways and microbial players for nitrogen remineralisation in the ocean’s twilight zoneMicrobial carbon remineralisation pathways and fluxes in the mesopelagic oceanUsing proteomics tools to disentangle active microbial nitrogen and carbon cycling processes in oceanic oxygen minimum zonesImportance of particle-associated microeukaryotes on the efficiency of oceanic biological carbon pumpMicrobial production and consumption pathways of greenhouse gases
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Mrs Rachel Dadswell

Principal Teaching Fellow
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We are at a very exciting time in Life Science Research. The potential for novel discovery using ‘omics technologies combined with the computer science methodologies is immense.
Professor of Genomics

Related research institutes, centres and groups

Related research institutes, centres and groups

Contact us

Contact us

Contact the Institute for Life Sciences team by emailing: