Gene Therapy Preserves Retinal Structure and Function in a Mouse Model of NMNAT1-Associated Retinal Degeneration
Greenwald, Scott H., Brown, Emily E., Scandura, Michael J., Hennessey, Erin, Farmer, Raymond, Pawlyk, Basil S., Xiao, Ru, Vandenberghe, Luk H., Pierce, Eric A.
Published in Molecular therapy. Methods & clinical development (11.09.2020)
Published in Molecular therapy. Methods & clinical development (11.09.2020)
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Journal Article
Role of Nuclear NAD + in Retinal Homeostasis
Brown, Emily E, Scandura, Michael J, Pierce, Eric
Published in Advances in experimental medicine and biology (2023)
Published in Advances in experimental medicine and biology (2023)
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Journal Article
Reduced nuclear NAD+ drives DNA damage and subsequent immune activation in the retina
Brown, Emily E, Scandura, Michael J, Mehrotra, Sudeep, Wang, Yekai, Du, Jianhai, Pierce, Eric A
Published in Human molecular genetics (04.05.2022)
Published in Human molecular genetics (04.05.2022)
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Mutant Nmnat1 leads to a retina-specific decrease of NAD+ accompanied by increased poly(ADP-ribose) in a mouse model of NMNAT1-associated retinal degeneration
Greenwald, Scott H, Brown, Emily E, Scandura, Michael J, Hennessey, Erin, Farmer, Raymond, Du, Jianhai, Wang, Yekai, Pierce, Eric A
Published in Human molecular genetics (17.05.2021)
Published in Human molecular genetics (17.05.2021)
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