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Podisma pedestris grasshopper

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Personnel and collaborators
I develop Bayesian methods to draw inferences from genetic data about the action of selection and population history and gene flow in shaping the distribution of genetic variants.

In particular I am investigating methods to take into account the patterns of spatial autocorrelation in allele frequencies, and in using systems-biology networks to construct prior probability distributions on genetic co-variances.

Approximate Bayesian computation (ABC) is proving very effective in many areas of genetics in dealing with the wide variety of parameters that affect genetic variation. However, I am also interested in the merits an alternative approach: of making explicit simplifying assumptions, which are computationally convenient, but (arguably) no less realistic than those implicit in alternative methods.



HumanChimpGorilla
I work on a joint project with Bill Sherwin at UNSW Sydney,  Clare Holleley & Gianluca Maio on a project on the effcts of gene flow in lab Drosophila populations. The results suggest that genetic divergence throughout the genome is constrained, to an unanticipated degree, by the action of selection a adjacent loci.

James Cotton and I are working with PhD student Vernonica Comper on phylogeographic inference and problems of calibrating the molecular clock, particularly the long times to common ancestry between two lineages in common ancestor of two species (E.g. the figure illustrates the way that gene trees in Human Chimp Gorilla ancestry may not reflect the species tree).

A further PhD student, Bob Verity, is working on Bayesian methods for characterising the isolation-by-distance in the distribution of genetic variation in natural populations.

The methods we have used to study gene flow between populations can also be used to investigate the movement of DNA sequences from one part of the genome to another, to study the propagation of viruses within the human body,  their spread from one individual to another, and even the transmission of viruses from species to species.


Epidemiology

I collaborate with Judy Breuer at UCL on the evolution of varicella zoster virus, including the evolution of the live vaccine within the body of vacinees. 

Our latest project uses a Bayesian analysis of the DNA sequence obtained from virus in different patients to work out transmission routes (who infected whom).

The figure shows an abrupt decline in infection rate coinciding with the date of the school holidays.

These theoretical approaches enable the use of genetic data to guide the management of wild populations.

I am working on two main areas: the role of introduced disease in European frog populations and the conservation of endangered species on Mauritius.

In both cases I am lucky to be able to collaborate with, and be guided by, experts working directly on the biology of the species in question.
Ranavirus
Trent Garner  at the Institute of Zoology is interested in genetic diversity and its importance for a species' response to pathogens. We have two  PhD students  Stephen Price and Amanda Duffus working on the decline in frog populations.

We are using historical records and genetic data to characterize the spatial pattern of genetic diversity in a virus affecting frogs (Figure) that recently invated the UK and to infer the dynamics of transmission between populations.




Petrel


Carl Jones (pictured) of the Mauritian Wildlife Foundation has been instrumental in several successful conservation projects on the island. We have had PhD students working on the works on the origins and hybridization of different petrel taxa on one of the outlying islands.  She is a CASE student with the Institute of Zoology.
The hybrid zone in the alpine grasshopper Podisma pedestris has  intrigued me since it was the focus of my PhD with Godfrey Hewitt at UEA Norwich.  Two taxa (sub-species) apear to have met and interbreed where they met after climbing the Alps from different directions at the end of the last ice age (although ex PhD student Paris disagrees, see here).  Despite successful hybridization since then, they  remain genetically distinct.  The evidence of genetic incompatibility is strong but confusing: e.g. direct estimates suggest selection is strong, yet the width of the mixing between the two taxa is wide.  Recent discoveries may at last be getting to the heart of the matter
Zone
Paris Veltsos  obtained extraordinary data showing that the populations in and around the zone show dramatic differences in the number and location of rDNA  tandem arrays.  More at his site.


Andrew Leitch and his team work on plant polyploidy at QMUL.  We share insights from our studies of different types of hybrization.  In particular the hybridization that initiates allopolyploidy and that occurring in the hybrid zone.  One common theme is the highly unusual evolution of rDNA in both cases.


Ex posdocs Ioana Marquier and Irene Keller continue to collaborate on the project.  Irene has  discovered ancient rDNA pseudogenes, dated by Ioana at several million years old.  Irene has also shown that the sequence composition of the rDNA appears just as dynamic as the variation in location found by Paris, but with no obvious correlation between the two.


Recent research                                  Return to the main menu

Genetic evidence and demography. Our analysis colonization patterns in seals (Gaggiotti et al.), exemplifies a major theme of my research. We developed a Bayesian analysis of genetic data to draw inferences about the demography of natural populations.  The method allowed us to characterize the origin of colonists from genetic data, even though there was minimal genetic differentiation between the potential source populations.  This was achieved by combining the small amounts of information from each pup, over a large number of pups.

Seal Image

Genetic evidence and viral evolution. Similar techniques have found application in a wide range of problems in the evolution of Varicella Zoster virus (VZV) in joint projects with Prof Judy Breuer.   VZV is responsible for chicken pox and shingles.  This work may help reveal how viruses respond to selection as they move within their host, and may have implications for the understanding of the evolution of  virulence in this and related viruses.

Phylogeny

Genetic evidence and history. Our papers on the Mauritius Kestrel (Jim Groombidge et al) used Markov chain Monte Carlo methods  to overcome the computational problems of simultaneously estimating multiple parameters of biological interest.  This approach has been extended, in a paper on endangered skinks,  to estimate both relative population size and gene flow simultaneously (Nichols and Freeman); it improves on most existing methods for interpreting genetic data, which cannot distinguish these two effects.

Kestrel

Genetic Evidence in Forensic Science.  A controversial line of research was a project to quantify the differentiation between human populations at the genetic markers used in forensic science. These values are required to evaluate forensic evidence in court. David Balding and I developed the method currently used to deal with population differentiation in UK courts, and this has led to extensive consulting work.

Scales

Range expansion and inbreeding. The forensic strand of research has developed into diverse projects. They include the analysis of the human genetic patterns generated by the colonization of Europe and by the movements triggered by the development of agriculture (in a project with Mark Beaumont, Lounès Chikhi et al.). More recent human history and current practice have been studied in a project with Andy Overall on the effects of inbreeding in the UK Asian population (Overall et al.). 

Neolithic

Phylogeography. The analysis of geographic patterns is, in fact, a long-standing interest dating back to my PhD work with Godfrey Hewitt. A series of  publications on Iberian lizards with Octavio Paulo (Paulo et al) have a wider relevance, because they reveal major features of Iberian biogeography.  The theoretical tools for this sort of work is being extended by a current project.

lizard



 

Recent publications 




Email Links to Past students, PDRAs & Visitors. Return to the main menu


Lab member
Institute

Guido Barbujani

Ferrara

Mark Beaumont

Reading

Kate Byrne

Edinburgh

Steve Casey

Cardiff

Lounes Chikhi

Sabatier, Toulouse

Pete Clarke

Nottingham

Trevor Coote

Conservation research

Karen Freeman
Conservation manager
Oscar Gaggiotti

Grenoble

Jim Groombridge

DICE Canterbury

Kamal Ibrahim

Southern Illinois

Irene Keller
Eawag, Switzerland
Ioana Marquier
Grenoble

Andy Overall

Brighton

Octavio Paulo

Lisbon

Ilik Saccheri

Liverpool

Amber Teacher
RHBNC London
Paris Veltsos
St Andrews
Mike Weale

UCL London

Helen Wilcock

(Deceased)

Ian Wilson Newcastle


            

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