Formation of the human skeleton and proper bone, cartilage, joint and muscle function are determined by complex interactions between developmental signalling pathways. Genetic and acquired disorders affecting these tissues are common. The group’s research is aimed at understanding the molecular basis of these disorders to improve diagnosis and counselling, identify new therapeutic targets and test the effectiveness of new treatments to ultimately improve the quality of life for children with these debilitating conditions
Formation of the human skeleton and proper bone, cartilage, joint and muscle function are determined by complex interactions between developmental signalling pathways. Genetic and acquired disorders affecting these tissues are common. The group’s...
Formation of the human skeleton and proper bone, cartilage, joint and muscle function are determined by complex interactions between developmental signalling pathways. Genetic and acquired disorders affecting these tissues are common. The group’s research is aimed at understanding the molecular basis of these disorders to improve diagnosis and counselling, identify new therapeutic targets and test the effectiveness of new treatments to ultimately improve the quality of life for children with these debilitating conditions
Top Publications
Wilson, R, Belluoccio, D, Little, C, Fosang, A, Bateman, J.
475 PROTEOMIC CHARACTERIZATION OF MOUSE CARTILAGE DEGRADATION IN VITRO.
Osteoarthritis and Cartilage
16:
s205 -s206
2008
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Pace, RA, Peat, RA, Baker, NL, Zamurs, L, Mörgelin, M, Irving, M, Adams, NE, Bateman, JF, Mowat, D, Smith, NJC, et al.
Collagen VI glycine mutations: perturbed assembly and a spectrum of clinical severity..
Ann Neurol
64(3)
:
294 -303
2008
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Belluoccio, D, Bernardo, BC, Rowley, L, Bateman, JF.
A microarray approach for comparative expression profiling of the discrete maturation zones of mouse growth plate cartilage..
Biochim Biophys Acta
1779(5)
:
330 -340
2008
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Allen, JM, Brachvogel, B, Farlie, PG, Fitzgerald, J, Bateman, JF.
The extracellular matrix protein WARP is a novel component of a distinct subset of basement membranes..
Matrix Biol
27(4)
:
295 -305
2008
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