Papers associated with smad3

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	Bone morphogenetic protein-4-induced activation of Xretpos is mediated by Smads and Olf-1/EBF associated zinc finger (OAZ)., Shim S, Bae N, Han JK., Nucleic Acids Res. July 15, 2002; 30 (14): 3107-17.
	Phosphorylation regulation of the interaction between Smad7 and activin type I receptor., Liu X, Nagarajan RP, Vale W, Chen Y., FEBS Lett. May 22, 2002; 519 (1-3): 93-8.
	The role of a Williams-Beuren syndrome-associated helix-loop-helix domain-containing transcription factor in activin/nodal signaling., Ring C, Ogata S, Meek L, Song J, Ohta T, Miyazono K, Cho KW., Genes Dev. April 1, 2002; 16 (7): 820-35.
	The anaphase-promoting complex mediates TGF-beta signaling by targeting SnoN for destruction., Wan Y, Liu X, Kirschner MW., Mol Cell. November 1, 2001; 8 (5): 1027-39.
	TGF-beta signalling pathways in early Xenopus development., Hill CS., Curr Opin Genet Dev. October 1, 2001; 11 (5): 533-40.
	Xenopus Smad3 is specifically expressed in the chordoneural hinge, notochord and in the endocardium of the developing heart., Howell M, Mohun TJ, Hill CS., Mech Dev. June 1, 2001; 104 (1-2): 147-50.
	Regulation of Smad degradation and activity by Smurf2, an E3 ubiquitin ligase., Zhang Y, Zhang Y, Chang C, Gehling DJ, Hemmati-Brivanlou A, Derynck R., Proc Natl Acad Sci U S A. January 30, 2001; 98 (3): 974-9.
	Nodal signaling uses activin and transforming growth factor-beta receptor-regulated Smads., Kumar A, Novoselov V, Celeste AJ, Wolfman NM, ten Dijke P, Kuehn MR., J Biol Chem. January 5, 2001; 276 (1): 656-61.
	Transforming growth factor beta-independent shuttling of Smad4 between the cytoplasm and nucleus., Pierreux CE, Nicolás FJ, Hill CS., Mol Cell Biol. December 1, 2000; 20 (23): 9041-54.
	Identification and characterization of constitutively active Smad2 mutants: evaluation of formation of Smad complex and subcellular distribution., Funaba M, Mathews LS., Mol Endocrinol. October 1, 2000; 14 (10): 1583-91.
	Expression regulation of hyaluronan synthase in corneal endothelial cells., Usui T, Amano S, Oshika T, Suzuki K, Miyata K, Araie M, Heldin P, Yamashita H., Invest Ophthalmol Vis Sci. October 1, 2000; 41 (11): 3261-7.
	Structural basis for the functional difference between Smad2 and Smad3 in FAST-2 (forkhead activin signal transducer-2)-mediated transcription., Nagarajan RP, Chen Y., Biochem J. August 15, 2000; 350 Pt 1 253-9.
	Association of Smads with lymphoid enhancer binding factor 1/T cell-specific factor mediates cooperative signaling by the transforming growth factor-beta and wnt pathways., Labbé E, Letamendia A, Attisano L., Proc Natl Acad Sci U S A. July 18, 2000; 97 (15): 8358-63.
	Repression of transforming-growth-factor-beta-mediated transcription by nuclear factor kappaB., Nagarajan RP, Chen F, Li W, Vig E, Harrington MA, Nakshatri H, Chen Y., Biochem J. June 15, 2000; 348 Pt 3 591-6.
	Cloning and characterization of zebrafish smad2, smad3 and smad4., Dick A, Mayr T, Bauer H, Meier A, Hammerschmidt M., Gene. April 4, 2000; 246 (1-2): 69-80.
	Smad3 inhibits transforming growth factor-beta and activin signaling by competing with Smad4 for FAST-2 binding., Nagarajan RP, Liu J, Chen Y., J Biol Chem. October 29, 1999; 274 (44): 31229-35.
	The role of FAST-1 and Smads in transcriptional regulation by activin during early Xenopus embryogenesis., Yeo CY, Chen X, Whitman M., J Biol Chem. September 10, 1999; 274 (37): 26584-90.
	Can't get no SMADisfaction: Smad proteins as positive and negative regulators of TGF-beta family signals., Christian JL, Nakayama T., Bioessays. May 1, 1999; 21 (5): 382-90.
	Drosophila dSmad2 and Atr-I transmit activin/TGFbeta signals., Das P, Inoue H, Baker JC, Beppu H, Kawabata M, Harland RM, Miyazono K, Padgett RW., Genes Cells. February 1, 1999; 4 (2): 123-34.
	Alternatively spliced variant of Smad2 lacking exon 3. Comparison with wild-type Smad2 and Smad3., Yagi K, Goto D, Hamamoto T, Takenoshita S, Kato M, Miyazono K., J Biol Chem. January 8, 1999; 274 (2): 703-9.
	SARA, a FYVE domain protein that recruits Smad2 to the TGFbeta receptor., Tsukazaki T, Chiang TA, Davison AF, Attisano L, Wrana JL., Cell. December 11, 1998; 95 (6): 779-91.
	Smad3 mutant mice develop metastatic colorectal cancer., Zhu Y, Richardson JA, Parada LF, Graff JM., Cell. September 18, 1998; 94 (6): 703-14.
	Smad2 and Smad3 positively and negatively regulate TGF beta-dependent transcription through the forkhead DNA-binding protein FAST2., Labbé E, Silvestri C, Hoodless PA, Wrana JL, Attisano L., Mol Cell. July 1, 1998; 2 (1): 109-20.
	Identification of receptors and Smad proteins involved in activin signalling in a human epidermal keratinocyte cell line., Shimizu A, Kato M, Nakao A, Imamura T, ten Dijke P, Heldin CH, Kawabata M, Shimada S, Miyazono K., Genes Cells. February 1, 1998; 3 (2): 125-34.
	Identification of Smad7, a TGFbeta-inducible antagonist of TGF-beta signalling., Nakao A, Afrakhte M, Morén A, Nakayama T, Christian JL, Heuchel R, Itoh S, Kawabata M, Heldin NE, Heldin CH, ten Dijke P., Nature. October 9, 1997; 389 (6651): 631-5.
	TGF-beta receptor-mediated signalling through Smad2, Smad3 and Smad4., Nakao A, Imamura T, Souchelnytskyi S, Kawabata M, Ishisaki A, Oeda E, Tamaki K, Hanai J, Heldin CH, Miyazono K, ten Dijke P., EMBO J. September 1, 1997; 16 (17): 5353-62.
	The tumor suppressor Smad4/DPC 4 as a central mediator of Smad function., Zhang Y, Musci T, Derynck R., Curr Biol. April 1, 1997; 7 (4): 270-6.
	The C-terminal domain of Mad-like signal transducers is sufficient for biological activity in the Xenopus embryo and transcriptional activation., Meersseman G, Verschueren K, Nelles L, Blumenstock C, Kraft H, Wuytens G, Remacle J, Kozak CA, Tylzanowski P, Niehrs C, Huylebroeck D., Mech Dev. January 1, 1997; 61 (1-2): 127-40.
	Partnership between DPC4 and SMAD proteins in TGF-beta signalling pathways., Lagna G, Hata A, Hemmati-Brivanlou A, Massagué J., Nature. October 31, 1996; 383 (6603): 832-6.

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