- Main
Identification of a rare coding variant in complement 3 associated with age-related macular degeneration.
- Zhan, Xiaowei;
- Larson, David;
- Wang, Chaolong;
- Koboldt, Daniel;
- Sergeev, Yuri;
- Fulton, Robert;
- Fulton, Lucinda;
- Fronick, Catrina;
- Branham, Kari;
- Bragg-Gresham, Jennifer;
- Jun, Goo;
- Hu, Youna;
- Kang, Hyun;
- Liu, Dajiang;
- Othman, Mohammad;
- Brooks, Matthew;
- Ratnapriya, Rinki;
- Boleda, Alexis;
- Grassmann, Felix;
- von Strachwitz, Claudia;
- Olson, Lana;
- Buitendijk, Gabriëlle;
- Hofman, Albert;
- van Duijn, Cornelia;
- Cipriani, Valentina;
- Shahid, Humma;
- Jiang, Yingda;
- Conley, Yvette;
- Morgan, Denise;
- Kim, Ivana;
- Johnson, Matthew;
- Cantsilieris, Stuart;
- Richardson, Andrea;
- Guymer, Robyn;
- Luo, Hongrong;
- Ouyang, Hong;
- Licht, Christoph;
- Pluthero, Fred;
- Zhang, Mindy;
- Zhang, Kang;
- Baird, Paul;
- Blangero, John;
- Klein, Michael;
- Farrer, Lindsay;
- DeAngelis, Margaret;
- Weeks, Daniel;
- Yates, John;
- Klaver, Caroline;
- Pericak-Vance, Margaret;
- Haines, Jonathan;
- Weber, Bernhard;
- Wilson, Richard;
- Heckenlively, John;
- Chew, Emily;
- Stambolian, Dwight;
- Mardis, Elaine;
- Swaroop, Anand;
- Abecasis, Goncalo;
- Gorin, Michael;
- Moore, Anthony
- et al.
Published Web Location
https://doi.org/10.1038/ng.2758Abstract
Macular degeneration is a common cause of blindness in the elderly. To identify rare coding variants associated with a large increase in risk of age-related macular degeneration (AMD), we sequenced 2,335 cases and 789 controls in 10 candidate loci (57 genes). To increase power, we augmented our control set with ancestry-matched exome-sequenced controls. An analysis of coding variation in 2,268 AMD cases and 2,268 ancestry-matched controls identified 2 large-effect rare variants: previously described p.Arg1210Cys encoded in the CFH gene (case frequency (fcase) = 0.51%; control frequency (fcontrol) = 0.02%; odds ratio (OR) = 23.11) and newly identified p.Lys155Gln encoded in the C3 gene (fcase = 1.06%; fcontrol = 0.39%; OR = 2.68). The variants suggest decreased inhibition of C3 by complement factor H, resulting in increased activation of the alternative complement pathway, as a key component of disease biology.
Many UC-authored scholarly publications are freely available on this site because of the UC's open access policies. Let us know how this access is important for you.
Main Content
Enter the password to open this PDF file:
-
-
-
-
-
-
-
-
-
-
-
-
-
-