Person

Hargrave, Murray

Person ID
ZDB-PERS-050429-1
Email
murray.hargrave@googlemail.com
URL
http://www.sheffield.ac.uk/devgen/
Affiliation
Address
Department of Physiology, Development and Neuroscience University of Cambridge Anatomy Building Downing Street Cambridge, CB2 3DY United Kingdom
Country
Phone
+44 (0)1223 339543
Fax
+44 (0)114 276 5413
ORCID ID
Biography and Research Interest
I completed by Bachelor of Science in 1991 at the University of Queensland in Brisbane, Australia. In 1992 I gained an Honours Degree in Biochemistry at the same university by undertaking a short project analysing the expression of the cystic fibrosis transmembrane conductance regulator (CFTR) gene in mouse development. This project was carried out in Prof. Brandon Wainwright’s laboratory at the Centre for Molecular and Cellular Biology (CMCB). I then joined Prof. Peter Koopman’s laboratory at the CMCB and focussed on the cloning of mouse Sox transcription factor genes and characterisation of their expression during organogenesis. I was awarded my PhD in 1999. Because of the expression of many Sox genes in the central nervous system (CNS), I became interested in the molecular genetics of CNS development and took up a post-Doctoral position in the laboratory of Dr. Toshiya Yamada at the Institute for Molecular Bioscience (IMB), University of Queensland. We were investigating the patterning and differentiation of embryonic CNS neurons in mouse and chicken embryos by examining the expression of subclass-specific transcription factors and through manipulation hedgehog signalling. In 2001, Dr Yamada died and I continued in his laboratory as acting principal investigator. In 2003, I joined Prof. Philip Ingham’s as a Post-Doc and I’m currently working on muscle patterning and differentiation and the hedgehog signalling pathway in zebrafish.
Publications
Non-Zebrafish Publications
Karunaratne, A., Hargrave, M., Poh A. and Yamada T. (2002) GATA proteins identify a novel ventral interneuron subclass in the developing chick spinal cord. Dev. Biol. 249:30-43

Poh, A., Karunaratne, A., Kolle, G., Huang, N., Smith, E., Starkey, J., Wen, D., Wilson, I., Yamada, T. and Hargrave, M. (2002) Patterning of the vertebrate ventral spinal cord. Int J. Dev. Biol. 46:597-608

Smith, E., Hargrave, M., Yamada, T., Begley, C., G. and Little, M (2002) Co-expression of SCL and GATA3 in the V2 interneurons of the developing mouse spinal cord. Dev. Dyn. 224:231-237

Hargrave, M., James, K., Nield K., Toomes, C., Georgas, K., Sullivan T., Verzijl, H.T.F.M., Oley, C.A., Little M., De Jonghe, P., Kwon, J.M., Kremer, H., Dixon, M.J. Timmerman, V., Yamada, T., and Koopman P. (2000) Fine mapping of the neurally-expressed gene SOX14 to human 3q23, relative to three congenital diseases. Hum. Genet. 106:432-439

Hargrave, M., James, K., Yamada T., and Koopman, P. (2000) Sox14 maps to mouse chromosome 9 and shows no mutations in the neurological mouse mutants ducky and tippy. Mamm. Genome 11:231-233

Hargrave, M., Karunaratne, A., Cox, L., Wood, S., Koopman, P. and Yamada, T. (2000) The HMG box transcription factor gene Sox14 marks a novel subset of ventral interneurons and is regulated by sonic hedgehog. Dev. Biol. 219:142-153

Hargrave, M. and Koopman, P. (2000) In situ hybridisation of whole mount embryos. In: In Situ Hybridization Protocols, 2nd ed. Methods in Molecular Biology, Vol 123; IA Darby, ed. Humana Press, Totowa, NJ. pp. 279-89

Yamada, T., Karunaratne, A. and Hargrave, M. (1999) Molecular control of cell type diversity in the developing spinal cord. Clin. Exp. Pharmacol. P. 26:741-745

Hargrave, M.R., Wright, E., Kun, J., Emery, J., Cooper, L. and Koopman, P. (1997) Expression of the Sox11 gene in mouse embryos suggests roles in neuronal maturation and epithelio-mesenchymal induction. Dev. Dyn. 210:79-86

Wright, E., Hargrave, M.R., Christiansen, J., Cooper, L., Kun, J., Evans, T., Gangadharan, U., Greenfield, A. and Koopman, P. (1995) The Sry-related gene Sox-9 is expressed during chondrogenesis in mouse embryos. Nat. Genet. 9:15-20.

Delaney, S.J., Rich, D.P., Thomson, S.A., Hargrave, M.R., Lovelock, P.K., Welsh, M.J. and Wainwright, B.J. (1993) Cystic fibrosis transmembrane conductance regulator splice variants are not conserved and fail to produce chloride channels. Nat. Genet. 4:426-431.