Boc Publications

Boc Model Page

Filter publications by application: All
Filter publications by model type: All

Author(s)

(Date)

Paper Title

Citation

Model Type

Applications

Full Text

Okada A, et al.
Mouse over for full list
Okada A, Charron F, Morin S, Shin DS, Wong K, Fabre PJ, Tessier-Lavigne M, McConnell SK
(2006) Boc is a receptor for sonic hedgehog in the guidance of commissural axons. Nature 444(7117):369-73
Chen B, et al.
Mouse over for full list
Chen B, Schaevitz LR, McConnell SK
(2005) Fezl regulates the differentiation and axon targeting of layer 5 subcortical projection neurons in cerebral cortex. Proc. Natl. Acad. Sci. U.S.A. 102(47):17184-9
Kang JS, et al.
Mouse over for full list
Kang JS, Yi MJ, Zhang W, Feinleib JL, Cole F, Krauss RS
(2004) Netrins and neogenin promote myotube formation. J. Cell Biol. 167(3):493-504
Mulieri PJ, et al.
Mouse over for full list
Mulieri PJ, Kang JS, Sassoon DA, Krauss RS
(2002) Expression of the boc gene during murine embryogenesis. Dev. Dyn. 223(3):379-88
Tenzen T, et al.
Mouse over for full list
Tenzen T, Allen BL, Cole F, Kang JS, Krauss RS, McMahon AP
(2006) The cell surface membrane proteins Cdo and Boc are components and targets of the Hedgehog signaling pathway and feedback network in mice. Dev. Cell 10(5):647-56
Zhang W, et al.
Mouse over for full list
Zhang W, Kang JS, Cole F, Yi MJ, Krauss RS
(2006) Cdo functions at multiple points in the Sonic Hedgehog pathway, and Cdo-deficient mice accurately model human holoprosencephaly. Dev. Cell 10(5):657-65
Kang JS, et al.
Mouse over for full list
Kang JS, Mulieri PJ, Hu Y, Taliana L, Krauss RS
(2002) BOC, an Ig superfamily member, associates with CDO to positively regulate myogenic differentiation. EMBO J. 21(1-2):114-24
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