Author(s) |
(Date) |
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Citation |
Model Type |
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| Akamatsu N, et al. Mouse over for full list Akamatsu N, Nakajima H, Ono M, Miura Y |
(1975) | Increase in acetyl CoA synthetase activity after phenobarbital treatment. | Biochem. Pharmacol. 24(18):1725-7 | |||
| Mata NL, et al. Mouse over for full list Mata NL, Weng J, Travis GH |
(2000) | Biosynthesis of a major lipofuscin fluorophore in mice and humans with ABCR-mediated retinal and macular degeneration. | Proc. Natl. Acad. Sci. U.S.A. 97(13):7154-9 | |||
| Weng J, et al. Mouse over for full list Weng J, Mata NL, Azarian SM, Tzekov RT, Birch DG, Travis GH |
(1999) | Insights into the function of Rim protein in photoreceptors and etiology of Stargardt's disease from the phenotype in abcr knockout mice. | Cell 98(1):13-23 | |||
| Azarian SM, et al. Mouse over for full list Azarian SM, Travis GH |
(1997) | The photoreceptor rim protein is an ABC transporter encoded by the gene for recessive Stargardt's disease (ABCR). | FEBS Lett. 409(2):247-52 | |||
| Allikmets R, et al. Mouse over for full list Allikmets R, Singh N, Sun H, Shroyer NF, Hutchinson A, Chidambaram A, Gerrard B, Baird L, Stauffer D, Peiffer A, Rattner A, Smallwood P, Li Y, Anderson KL, Lewis RA, Nathans J, Leppert M, Dean M, Lupski JR |
(1997) | A photoreceptor cell-specific ATP-binding transporter gene (ABCR) is mutated in recessive Stargardt macular dystrophy. | Nat. Genet. 15(3):236-46 | |||
| Okazaki Y, et al. Mouse over for full list Okazaki Y, Furuno M, Kasukawa T, Adachi J, Bono H, Kondo S, Nikaido I, Osato N, Saito R, Suzuki H, Yamanaka I, Kiyosawa H, Yagi K, Tomaru Y, Hasegawa Y, Nogami A, Schönbach C, Gojobori T, Baldarelli R, Hill DP, Bult C, Hume DA, Quackenbush J, Schriml LM, Kanapin A, Matsuda H, Batalov S, Beisel KW, Blake JA, Bradt D, Brusic V, Chothia C, Corbani LE, Cousins S, Dalla E, Dragani TA, Fletcher CF, Forrest A, Frazer KS, Gaasterland T, Gariboldi M, Gissi C, Godzik A, Gough J, Grimmond S, Gustincich S, Hirokawa N, Jackson IJ, Jarvis ED, Kanai A, Kawaji H, Kawasawa Y, Kedzierski RM, King BL, Konagaya A, Kurochkin IV, Lee Y, Lenhard B, Lyons PA, Maglott DR, Maltais L, Marchionni L, McKenzie L, Miki H, Nagashima T, Numata K, Okido T, Pavan WJ, Pertea G, Pesole G, Petrovsky N, Pillai R, Pontius JU, Qi D, Ramachandran S, Ravasi T, Reed JC, Reed DJ, Reid J, Ring BZ, Ringwald M, Sandelin A, Schneider C, Semple CA, Setou M, Shimada K, Sultana R, Takenaka Y, Taylor MS, Teasdale RD, Tomita M, Verardo R, Wagner L, Wahlestedt C, Wang Y, Watanabe Y, Wells C, Wilming LG, Wynshaw-Boris A, Yanagisawa M, Yang I, Yang L, Yuan Z, Zavolan M, Zhu Y, Zimmer A, Carninci P, Hayatsu N, Hirozane-Kishikawa T, Konno H, Nakamura M, Sakazume N, Sato K, Shiraki T, Waki K, Kawai J, Aizawa K, Arakawa T, Fukuda S, Hara A, Hashizume W, Imotani K, Ishii Y, Itoh M, Kagawa I, Miyazaki A, Sakai K, Sasaki D, Shibata K, Shinagawa A, Yasunishi A, Yoshino M, Waterston R, Lander ES, Rogers J, Birney E, Hayashizaki Y, , |
(2002) | Analysis of the mouse transcriptome based on functional annotation of 60, 770 full-length cDNAs. | Nature 420(6915):563-73 | NAFLD/NASH |
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