Image of Andrew Renault

Andrew Renault

Assistant Professor, Faculty of Medicine & Health Sciences

Personal Details
Research
Publications

Contact

workRoom D134 Medical School School of Life Sciences
Queen's Medical Centre
Nottingham
NG7 2UH
UK
work0115 95 13227
Andrew.Renault@nottingham.ac.uk
http://germcell.co.uk

Biography

BSc (Biochemistry and Molecular Biology), University of Durham, 1992-1996 with industrial placement at Glaxo Wellcome

DPhil (Genetics), University of Oxford, 1996-2001

Postdoctoral researcher, NYU School of Medicine, 2001-2007 under Dr Ruth Lehmann

Group leader, Max Planck Institute for Developmental Biology, Tübingen, 2007-2013

Lecturer, School of Life Sciences, University of Nottingham, 2013 - present

Expertise Summary

Our lab is focused on understanding development, the change from a simple egg to a complex multicellular organism. We use the fruit fly as our model system and focus on the formation of specific organs including the embryonic gonad, as well as the development of the airway (tracheal) system. These are linked by the requirement for a particular type of lipid modification enzyme and we are interested in understanding how lipid modifications are important for these processes

Teaching Summary

I am the exams officer for the biology, zoology and genetics BSc and MSci degrees.

Convenor:

Year 2: Higher Skills in the biological sciences: Bioinformatics

Year 2: Building brains

Year 4: Research Presentation Skills

Contributor:

Year 2: Developmental Biology

Year 3: Advanced Developmental Biology

Research Summary

Our lab is interested in understanding how cellular behaviour is regulated during embryonic development. We use the fruit fly Drosophila melanogaster as our model system and combine genetics,… read more

Recent Publications

RENAULT, ANDREW D, 2024. Optogenetic control of Drosophila neurons: a laboratory practical for undergraduates and outreach Journal of Microbiology and Biology Education. e00086-24
MUKHERJEE, AMRITA, SCHUPPE, MICHAELA and RENAULT, ANDREW D, 2023. The Lipid Phosphate Phosphatase Wunen Promotes Eggshell Formation and Is Essential for Fertility in Drosophila Biology. 12(7), 1003
KENWRICK, KIM, MUKHERJEE, AMRITA and RENAULT, ANDREW D., 2019. Hmgcr promotes a long-range signal to attract Drosophila germ cells independently of Hedgehog JOURNAL OF CELL SCIENCE. 132(23),
HAACK T, SCHNEIDER M, SCHWENDELE B and RENAULT AD, 2014. Drosophila heart cell movement to the midline occurs through both cell autonomous migration and dorsal closure. Developmental biology. 396(2), 169-82

View all publications

Current Research

Our lab is interested in understanding how cellular behaviour is regulated during embryonic development. We use the fruit fly Drosophila melanogaster as our model system and combine genetics, immunohistochemistry, confocal microscopy and live imaging.

Our focus is understanding how germ cells (the cells that give rise to sperm and eggs in the adult), the tracheal system (the airway of flies) and heart cells are influenced by lipid signals. We pursue an additional strand of research into the interaction of germ cells with the somatic cells of the embryonic gonad.

We are always interested in recruiting motivated new team members who have a fascination for research and are interested in tackling fundamental questions in cell behaviour and signalling.

RENAULT, ANDREW D, 2024. Optogenetic control of Drosophila neurons: a laboratory practical for undergraduates and outreach Journal of Microbiology and Biology Education. e00086-24
MUKHERJEE, AMRITA, SCHUPPE, MICHAELA and RENAULT, ANDREW D, 2023. The Lipid Phosphate Phosphatase Wunen Promotes Eggshell Formation and Is Essential for Fertility in Drosophila Biology. 12(7), 1003
KENWRICK, KIM, MUKHERJEE, AMRITA and RENAULT, ANDREW D., 2019. Hmgcr promotes a long-range signal to attract Drosophila germ cells independently of Hedgehog JOURNAL OF CELL SCIENCE. 132(23),
HAACK T, SCHNEIDER M, SCHWENDELE B and RENAULT AD, 2014. Drosophila heart cell movement to the midline occurs through both cell autonomous migration and dorsal closure. Developmental biology. 396(2), 169-82
TRIPATHY R, KUNWAR PS, SANO H and RENAULT AD, 2014. Transcriptional regulation of Drosophila gonad formation. Developmental biology. 392(2), 193-208
ILE, K. E. and RENAULT, A. D., 2013. Compartmentalizing the embryo: lipids and septate junction mediated barrier function Fly. 7(1), 18-22
MUKHERJEE, A., NEHER, R.A. and RENAULT, A.D., 2013. Quantifying the range of a lipid phosphate signal in vivo Journal of Cell Science. n/a(n/a), n/a
ANDREW J. MORRIS, SUSAN S. SMYTH, ABDEL K. SALOUS and ANDREW D. RENAULT, 2013. Lipid Phosphate Phosphatases: Recent Progress and Assay Methods. In: JEROLD CHUN, TIMOTHY HLA, SARA SPIEGEL and WOUTER MOOLENAAR, eds., Lysophospholipid Receptors: Signaling and Biochemistry 1. John Wiley & Sons. 229-263
RENAULT, A. D., 2012. vasa is expressed in somatic cells of the embryonic gonad in a sex-specific manner in Drosophila melanogaster Biology Open. 1(10), 1043-8
ILE, K.E., TRIPATHY, R., GOLDFINGER, V. and RENAULT, A.D., 2012. Wunen, a Drosophila lipid phosphate phosphatase, is required for septate junction-mediated barrier function Development. 139(14), 2535-2546
SANO, H., KUNWAR, P. S., RENAULT, A. D., BARBOSA, V., CLARK, I. B., ISHIHARA, S., SUGIMURA, K. and LEHMANN, R., 2012. The Drosophila actin regulator ENABLED regulates cell shape and orientation during gonad morphogenesis PloS One. 7(12), e52649
RENAULT, A.D., KUNWAR, P.S. and LEHMANN, R., 2010. Lipid phosphate phosphatase activity regulates dispersal and bilateral sorting of embryonic germ cells in Drosophila Development. 137(11), 1815-1823
RENAULT, A. D., RICARDO, S., KUNWAR, P. S., SANTOS, A., STARZ-GAIANO, M., STEIN, J. A. and LEHMANN, R., 2009. Hedgehog does not guide migrating Drosophila germ cells Developmental Biology. 328(2), 355-62
KUNWAR, P.S., SANO, H., RENAULT, A.D., BARBOSA, V., FUSE, N. and LEHMANN, R., 2008. Tre1 GPCR initiates germ cell transepithelial migration by regulating Drosophila melanogaster E-cadherin Journal of Cell Biology. 183(1), 157-168
RENAULT, A. D. and LEHMANN, R., 2006. Follow the fatty brick road: lipid signaling in cell migration Current opinion in genetics & development. 16(4), 348-54
SANO, H., RENAULT, A. D. and LEHMANN, R., 2005. Control of lateral migration and germ cell elimination by the Drosophila melanogaster lipid phosphate phosphatases Wunen and Wunen 2 The Journal of Cell Biology. 171(4), 675-83
RENAULT, A. D., SIGAL, Y. J., MORRIS, A. J. and LEHMANN, R., 2004. Soma-germ line competition for lipid phosphate uptake regulates germ cell migration and survival Science. 305(5692), 1963-6
ZHANG, X. H., AXTON, J. M., DRINJAKOVIC, J., LORENZ, L., WHITE-COOPER, H. and RENAULT, A. D., 2004. Spatial and temporal control of mitotic cyclins by the Gnu regulator of embryonic mitosis in Drosophila: Journal of cell science 117(Pt 16), 3571-8
RENAULT, A. D. and AXTON, J. M., 2003. Identification of plu genes and cis-acting elements of PCNA in the Drosophila genus using conservation of gene order: Gene 307, 77-86
RENAULT, A. D., ZHANG, X. H., ALPHEY, L. S., FRENZ, L. M., GLOVER, D. M., SAUNDERS, R. D. and AXTON, J. M., 2003. giant nuclei is essential in the cell cycle transition from meiosis to mitosis: Development 130(13), 2997-3005
RENAULT, A, STARZ-GAIANO, M and LEHMANN, R, 2003. Erratum: Metabolism of sphingosine 1-phosphate and lysophosphatidic acid: A genome wide analysis of gene expression in Drosophila (Gene Expression Patterns (2002) vol. 2 (337-345)) Gene Expression Patterns. 3(4), 546
RENAULT, A. D., STARZ-GAIANO, M. and LEHMANN, R., 2002. Metabolism of sphingosine 1-phosphate and lysophosphatidic acid: a genome wide analysis of gene expression in Drosophila: Mechanisms of development 119 Suppl 1, S293-301