Phillips, M. J. Et Al. 2012. Blood-Derived Human iPS Cells Generate Optic Vesicle-Like Structures with the Capacity to Form Retinal Laminae and Develop Synapses. INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE , vol.53 , 2007-2019.

Phillips, M. J., Wallace, K. A., Dickerson, S. J., Miller, M. J., Verhoeven, A. D., Martin, J. M., ... Wright, L. S.(2012). Blood-Derived Human iPS Cells Generate Optic Vesicle-Like Structures with the Capacity to Form Retinal Laminae and Develop Synapses. INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE , vol.53, 2007-2019.

Phillips, M. Et Al. "Blood-Derived Human iPS Cells Generate Optic Vesicle-Like Structures with the Capacity to Form Retinal Laminae and Develop Synapses," INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE , vol.53, 2007-2019, 2012

Phillips, M. J. Et Al. "Blood-Derived Human iPS Cells Generate Optic Vesicle-Like Structures with the Capacity to Form Retinal Laminae and Develop Synapses." INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE , vol.53, pp.2007-2019, 2012

Phillips, M. J. Et Al. (2012) . "Blood-Derived Human iPS Cells Generate Optic Vesicle-Like Structures with the Capacity to Form Retinal Laminae and Develop Synapses." INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE , vol.53, pp.2007-2019.

@article{article, author={M. Joseph Phillips Et Al. }, title={Blood-Derived Human iPS Cells Generate Optic Vesicle-Like Structures with the Capacity to Form Retinal Laminae and Develop Synapses}, journal={INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE}, year=2012, pages={2007-2019} }