MYH11 mutations result in a distinct vascular pathology driven by insulin-like growth factor1 and angiotensin II

Human Molecular Genetics, Jan 2008

Hariyadarshi Pannu, Van Tran-Fadulu, Christina L. Papke, Steve Scherer, Yaozhong Liu, Caroline Presley, Dongchuan Guo, Anthony L. Estrera, Hazim J. Safi, Allan R. Brasier, et al.

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MYH11 mutations result in a distinct vascular pathology driven by insulin-like growth factor1 and angiotensin II

Hariyadarshi Pannu Van Tran-Fadulu Christina L. Papke Steve Scherer Yaozhong Liu Caroline Presley Dongchuan Guo Anthony L. Estrera Hazim J. Safi Allan R. Brasier G. Wesley Vick A.J. Marian C.S. Raman L. Maximilian Buja Dianna M. Milewicz The authors would like to apologise for an error in the Acknowledgements. The text reads 'S.R. is a few scholar' but should read 'C.S.R is a Pew Scholar'. The corrected Acknowledgements section is reproduced below. - ACKNOWLEDGEMENTS Duke Distinguished Clinical Scientist. (...truncated)


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Hariyadarshi Pannu, Van Tran-Fadulu, Christina L. Papke, Steve Scherer, Yaozhong Liu, Caroline Presley, Dongchuan Guo, Anthony L. Estrera, Hazim J. Safi, Allan R. Brasier, G. Wesley Vick, A.J. Marian, C.S. Raman, L. Maximilian Buja, Dianna M. Milewicz. MYH11 mutations result in a distinct vascular pathology driven by insulin-like growth factor1 and angiotensin II, Human Molecular Genetics, 2008, pp. 158-158, 17/1, DOI: 10.1093/hmg/ddm313