MRC National Institute for Medical Research, London
Science for Health
Siew-Lan Ang Publications
- Mavromatakis, YE; Lin, W; Metzakopian, E; Ferri, ALM; Yan, CH; Sasaki, H; Whisett, J and Ang, S-L (2011)
Foxa1 and Foxa2 positively and negatively regulate Shh signalling to specify ventral midbrain progenitor identity.
Mechanisms of Development 128, 90-103 PubMed abstract - Pelling, M; Anthwal, N; McNay, D; Gradwohl, G; Leiter, AB; Guillemot, F and Ang, SL (2011)
Differential requirements for neurogenin 3 in the development of POMC and NPY neurons in the hypothalamus.
Developmental Biology 349, 406-416 PubMed abstract - Yan, CH; Levesque, M; Claxton, S; Johnson, RL and Ang, S-L (2011)
Lmx1a and Lmx1b function cooperatively to regulate proliferation, specification, and differentiation of midbrain dopaminergic progenitors.
Journal of Neuroscience 31, 12413-12425 PubMed abstract - Ang, S-L (2009)
Foxa1 and Foxa2 transcription factors regulate differentiation of midbrain dopaminergic neurons.
Advances in Experimental Medicine and Biology 651, 58-65 PubMed abstract - Lin, W; Metzakopian, E; Mavromatakis, YE; Gao, N; Balaskas, N; Sasaki, H; Briscoe, J; Whitsett, JA; Goulding, M; Kaestner, KH and Ang, SL (2009)
Foxa1 and Foxa2 function both upstream of and cooperatively with Lmx1a and Lmx1b in a feedforward loop promoting mesodiencephalic dopaminergic neuron development.
Developmental Biology 333, 386-396 PubMed abstract - Yin, M; Liu, S; Yin, Y; Li, S; Li, Z; Wu, X; Zhang, B; Ang, S-L; Ding, Y and Zhou, J (2009)
Ventral mesencephalon-enriched genes that regulate the development of dopaminergic neurons in vivo.
Journal of Neuroscience 29, 5170-5182 PubMed abstract - Ferri, ALM; Lin, W; Mavromatakis, YE; Wang, JC; Sasaki, H; Whitsett, JA and Ang, S-L (2007)
Foxa1 and Foxa2 regulate multiple phases of midbrain dopaminergic neuron development in a dosage-dependent manner.
Development 134, 2761-2769 PubMed abstract - Jacob, J; Ferri, AL; Milton, C; Prin, F; Pla, P; Lin, W; Gavalas, A; Ang, S-L and Briscoe, J (2007)
Transcriptional repression coordinates the temporal switch from motor to serotonergic neurogenesis.
Nature Neuroscience 10, 1433-1439 PubMed abstract - Ang, SL (2006)
Transcriptional control of midbrain dopaminergic neuron development.
Development 133, 3499-3506 PubMed abstract - Borgkvist, A; Puelles, E; Carta, M; Acampora, D; Ang, SL; Wurst, W; Goiny, M; Fisone, G; Simeone, A and Usiello, A (2006)
Altered dopaminergic innervation and amphetamine response in adult Otx2 conditional mutant mice.
Molecular and Cellular Neurosciences 31, 293-302 PubMed abstract - Glaser, S; Schaft, J; Lubitz, S; Vintersten, K; van der Hoeven, F; Tufteland, KR; Aasland, R; Anastassiadis, K; Ang, SL and Stewart, AF (2006)
Multiple epigenetic maintenance factors implicated by the loss of Mll2 in mouse development.
Development 133, 1423-1432 PubMed abstract - Kele, J; Simplicio, N; Ferri, ALM; Mira, H; Guillemot, F; Arenas, E and Ang, SL (2006)
Neurogenin 2 is required for the development of ventral midbrain dopaminergic neurons.
Development 133, 495-505 PubMed abstract - McNay, DEG; Pelling, M; Claxton, S; Guillemot, F and Ang, SL (2006)
Mash1 is required for generic and subtype differentiation of hypothalamic neuroendocrine cells.
Molecular Endocrinology 20, 1623-1632 PubMed abstract - Puelles, E; Acampora, D; Gogoi, R; Tuorto, F; Papalia, A; Guillemot, F; Ang, SL and Simeone, A (2006)
Otx2 controls identity and fate of glutamatergic progenitors of the thalamus by repressing GABAergic differentiation.
Journal of Neuroscience 26, 5955-5964 PubMed abstract - Wang, C; Xia, C; Bian, W; Liu, L; Lin, W; Chen, YG; Ang, SL and Jing, N (2006)
Cell aggregation-induced FGF8 elevation is essential for P19 cell neural differentiation.
Molecular Biology of the Cell 17, 3075-3084 PubMed abstract
[Page last updated 1 May 2012]
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