The Mathematical Institute, University of Oxford, Eprints Archive

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Number of items: 8.

Armitage, J

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

Baker, R

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

Fletcher, A

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

Maini, P

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

Rosser, G

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

Wilkinson, D

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

Yates, C

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

de Beyer, J

Rosser, G and Fletcher, A G and Wilkinson, D A and de Beyer, J A and Yates, C A and Armitage, J P and Maini, P. K. and Baker, R. E. (2013) Novel methods for analysing bacterial tracks reveal persistence in rhodobacter sphaeroides. PLOs Computational Biology, 9 (10). e1003276-(18 pages).

This list was generated on Mon Dec 18 14:15:13 2017 GMT.