1 - 25 of 33 results for author:"Glass D.J." in Literature citations
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| An HMGA2-IGF2BP2 axis regulates myoblast proliferation and myogenesis. Li Z., Gilbert J.A., Zhang Y., Zhang M., Qiu Q., Ramanujan K., Shavlakadze T., Eash J.K., Scaramozza A., Goddeeris M.M. et al. Dev. Cell 23:1176-1188(2012) · Mapped (3) |
| Blockade of the activin receptor IIb activates functional brown adipogenesis and thermogenesis by inducing mitochondrial oxidative metabolism. Fournier B., Murray B., Gutzwiller S., Marcaletti S., Marcellin D., Bergling S., Brachat S., Persohn E., Pierrel E., Bombard F. et al. Mol. Cell. Biol. 32:2871-2879(2012) · Mapped (1) |
| MNK2 inhibits eIF4G activation through a pathway involving serine-arginine-rich protein kinase in skeletal muscle. Hu S.I., Katz M., Chin S., Qi X., Cruz J., Ibebunjo C., Zhao S., Chen A., Glass D.J. Sci Signal 5:ra14-ra14(2012) · Mapped (18) |
| Galphai2 signaling promotes skeletal muscle hypertrophy, myoblast differentiation, and muscle regeneration. Minetti G.C., Feige J.N., Rosenstiel A., Bombard F., Meier V., Werner A., Bassilana F., Sailer A.W., Kahle P., Lambert C. et al. Sci Signal 4:ra80-ra80(2011) · Mapped (6) |
| The SCF-Fbxo40 complex induces IRS1 ubiquitination in skeletal muscle, limiting IGF1 signaling. Shi J., Luo L., Eash J., Ibebunjo C., Glass D.J. Dev. Cell 21:835-847(2011) · Mapped (14) |
| Endogenous muscle atrophy F-box mediates pressure overload-induced cardiac hypertrophy through regulation of nuclear factor-kappaB. Usui S., Maejima Y., Pain J., Hong C., Cho J., Park J.Y., Zablocki D., Tian B., Glass D.J., Sadoshima J. Circ. Res. 109:161-171(2011) · Mapped (2) |
| The TWEAK-Fn14 system is a critical regulator of denervation-induced skeletal muscle atrophy in mice. Mittal A., Bhatnagar S., Kumar A., Lach-Trifilieff E., Wauters S., Li H., Makonchuk D.Y., Glass D.J., Kumar A. J. Cell Biol. 188:833-849(2010) · Mapped (5) |
| During muscle atrophy, thick, but not thin, filament components are degraded by MuRF1-dependent ubiquitylation. Cohen S., Brault J.J., Gygi S.P., Glass D.J., Valenzuela D.M., Gartner C., Latres E., Goldberg A.L. J. Cell Biol. 185:1083-1095(2009) · Mapped (5) |
| Myostatin reduces Akt/TORC1/p70S6K signaling, inhibiting myoblast differentiation and myotube size. Trendelenburg A.U., Meyer A., Rohner D., Boyle J., Hatakeyama S., Glass D.J. Am. J. Physiol., Cell Physiol. 296:C1258-70(2009) · Mapped (5) |
| Muscle ring finger 1 mediates cardiac atrophy in vivo. Willis M.S., Rojas M., Li L., Selzman C.H., Tang R.H., Stansfield W.E., Rodriguez J.E., Glass D.J., Patterson C. Am. J. Physiol. Heart Circ. Physiol. 296:H997-H1006(2009) · Mapped (5) |
| The E3 Ligase MuRF1 degrades myosin heavy chain protein in dexamethasone-treated skeletal muscle. Clarke B.A., Drujan D., Willis M.S., Murphy L.O., Corpina R.A., Burova E., Rakhilin S.V., Stitt T.N., Patterson C., Latres E. et al. Cell Metab. 6:376-385(2007) · Mapped (5) |
| Atrogin-1 inhibits Akt-dependent cardiac hypertrophy in mice via ubiquitin-dependent coactivation of Forkhead proteins. Li H.H., Willis M.S., Lockyer P., Miller N., McDonough H., Glass D.J., Patterson C. J. Clin. Invest. 117:3211-3223(2007) · Mapped (4) |
| Myosin accumulation and striated muscle myopathy result from the loss of muscle RING finger 1 and 3. Fielitz J., Kim M.S., Shelton J.M., Latif S., Spencer J.A., Glass D.J., Richardson J.A., Bassel-Duby R., Olson E.N. J. Clin. Invest. 117:2486-2495(2007) · Mapped (11) |
| Genetic deletion of Trb3, the mammalian Drosophila tribbles homolog, displays normal hepatic insulin signaling and glucose homeostasis. Okamoto H., Latres E., Liu R., Thabet K., Murphy A., Valenzeula D., Yancopoulos G.D., Stitt T.N., Glass D.J., Sleeman M.W. Diabetes 56:1350-1356(2007) · Mapped (2) |
| Muscle ring finger 1, but not muscle ring finger 2, regulates cardiac hypertrophy in vivo. Willis M.S., Ike C., Li L., Wang D.Z., Glass D.J., Patterson C. Circ. Res. 100:456-459(2007) · Mapped (7) |
| Conditional activation of MET in differentiated skeletal muscle induces atrophy. Crepaldi T., Bersani F., Scuoppo C., Accornero P., Prunotto C., Taulli R., Forni P.E., Leo C., Chiarle R., Griffiths J. et al. J. Biol. Chem. 282:6812-6822(2007) · Mapped (13) |
| A signaling role for dystrophin: inhibiting skeletal muscle atrophy pathways. Glass D.J. Cancer Cell 8:351-352(2005) · Mapped (69) |
| Absence of the lipid phosphatase SHIP2 confers resistance to dietary obesity. Sleeman M.W., Wortley K.E., Lai K.-M.V., Gowen L.C., Kintner J., Kline W.O., Garcia K., Stitt T.N., Yancopoulos G.D., Wiegand S.J. et al. Nat. Med. 11:199-205(2005) · UniProtKB (1) |
| Insulin-like growth factor-1 (IGF-1) inversely regulates atrophy-induced genes via the phosphatidylinositol 3-kinase/Akt/mammalian target of rapamycin (PI3K/Akt/mTOR) pathway. Latres E., Amini A.R., Amini A.A., Griffiths J., Martin F.J., Wei Y., Lin H.C., Yancopoulos G.D., Glass D.J. J. Biol. Chem. 280:2737-2744(2005) · Mapped (8) |
| IKKbeta/NF-kappaB activation causes severe muscle wasting in mice. Cai D., Frantz J.D., Tawa N.E. Jr., Melendez P.A., Oh B.C., Lidov H.G., Hasselgren P.O., Frontera W.R., Lee J., Glass D.J. et al. Cell 119:285-298(2004) · Mapped (9) |
| The IGF-1/PI3K/Akt pathway prevents expression of muscle atrophy-induced ubiquitin ligases by inhibiting FOXO transcription factors. Stitt T.N., Drujan D., Clarke B.A., Panaro F., Timofeyva Y., Kline W.O., Gonzalez M., Yancopoulos G.D., Glass D.J. Mol. Cell 14:395-403(2004) · Mapped (13) |
| Identification of ubiquitin ligases required for skeletal muscle atrophy. Bodine S.C., Latres E., Baumhueter S., Lai V.K.-M., Nunez L., Clarke B.A., Poueymirou W.T., Panaro F.J., Na E., Dharmarajan K. et al. |
| Distinct phenotypes of mutant mice lacking agrin, MuSK, or rapsyn. Gautam M., DeChiara T.M., Glass D.J., Yancopoulos G.D., Sanes J.R. Brain Res. Dev. Brain Res. 114:171-178(1999) · Mapped (24) |
| Localization and regulation of MuSK at the neuromuscular junction. Bowen D.C., Park J.S., Bodine S., Stark J.L., Valenzuela D.M., Stitt T.N., Yancopoulos G.D., Lindsay R.M., Glass D.J., DiStefano P.S. Dev. Biol. 199:309-319(1998) · Mapped (17) |
| Rapsyn is required for MuSK signaling and recruits synaptic components to a MuSK-containing scaffold. Apel E.D., Glass D.J., Moscoso L.M., Yancopoulos G.D., Sanes J.R. Neuron 18:623-635(1997) · Mapped (15) |