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Publications

Hif-2α programmes oxygen chemosensitivity in chromaffin cells

Prange-Barczynska M. et al, (2024), Journal of Clinical Investigation

Deficiency of factor-inhibiting HIF creates a tumor-promoting immune microenvironment

Ma J. et al, (2024), Proceedings of the National Academy of Sciences, 121

Corrigendum: MEF2 transcription factors are key regulators of sprouting angiogenesis

Sacilotto N. et al, (2022), Genes & Development, 36, 1096 - 1096

Regulatory pathways governing murine coronary vessel formation are dysregulated in the injured adult heart

Payne S. et al, (2019), Nature Communications, 10

Venous identity requires BMP signalling through ALK3

Neal A. et al, (2019), Nature Communications, 10

PHD2 inactivation in Type I cells drives HIF‐2α‐dependent multilineage hyperplasia and the formation of paraganglioma‐like carotid bodies

Fielding JW. et al, (2018), The Journal of Physiology, 596, 4393 - 4412

Correction: SoxF factors induce Notch1 expression via direct transcriptional regulation during early arterial development. Development doi: 10.1242/dev.146241

Chiang IK-N. et al, (2017), Development, 144, 3847 - 3848

SoxF factors induce Notch1 expression via direct transcriptional regulation during early arterial development

Chiang IK-N. et al, (2017), Development, 144, 2629 - 2639

Restoring p53 Function in Human Melanoma Cells by Inhibiting MDM2 and Cyclin B1/CDK1-Phosphorylated Nuclear iASPP

Lu M. et al, (2016), Cancer Cell, 30, 822 - 823

MEF2 transcription factors are key regulators of sprouting angiogenesis

Sacilotto N. et al, (2016), Genes & Development, 30, 2297 - 2309

An Intronic Flk1 Enhancer Directs Arterial-Specific Expression via RBPJ-Mediated Venous Repression

Becker PW. et al, (2016), Arteriosclerosis, Thrombosis, and Vascular Biology, 36, 1209 - 1219

Regulation of ventilatory sensitivity and carotid body proliferation in hypoxia by the PHD2/HIF‐2 pathway

Hodson EJ. et al, (2016), The Journal of Physiology, 594, 1179 - 1195

Altered expression of epithelial-to-mesenchymal transition proteins in extraprostatic prostate cancer

Verrill C. et al, (2016), Oncotarget, 7, 1107 - 1119

ASPP2 Links the Apical Lateral Polarity Complex to the Regulation of YAP Activity in Epithelial Cells

Royer C. et al, (2014), PLoS ONE, 9, e111384 - e111384

Nuclear iASPP may facilitate prostate cancer progression

Morris EV. et al, (2014), Cell Death & Disease, 5, e1492 - e1492

ASPP2 suppresses squamous cell carcinoma via RelA/p65–mediated repression of p63

Tordella L. et al, (2013), Proceedings of the National Academy of Sciences, 110, 17969 - 17974

Analysis of Dll4 regulation reveals a combinatorial role for Sox and Notch in arterial development

Sacilotto N. et al, (2013), Proceedings of the National Academy of Sciences, 110, 11893 - 11898

Restoring p53 Function in Human Melanoma Cells by Inhibiting MDM2 and Cyclin B1/CDK1-Phosphorylated Nuclear iASPP

Lu M. et al, (2013), Cancer Cell, 23, 618 - 633

Autophagic activity dictates the cellular response to oncogenic RAS

Wang Y. et al, (2012), Proceedings of the National Academy of Sciences, 109, 13325 - 13330

Inhibitor of apoptosis-stimulating protein of p53 (iASPP) prevents senescence and is required for epithelial stratification

Notari M. et al, (2011), Proceedings of the National Academy of Sciences, 108, 16645 - 16650

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