-
1
-
-
33847716712
-
Negative regulation of TGF-beta receptor/Smad signal transduction
-
Itoh S, ten Dijke P, (2007) Negative regulation of TGF-beta receptor/Smad signal transduction. Curr Opin Cell Biol 19: 176-184.
-
(2007)
Curr Opin Cell Biol
, vol.19
, pp. 176-184
-
-
Itoh, S.1
ten Dijke, P.2
-
2
-
-
63749105896
-
Mechanism of TGF-beta signaling to growth arrest, apoptosis, and epithelial-mesenchymal transition
-
Heldin CH, Landström M, Moustakas A, (2009) Mechanism of TGF-beta signaling to growth arrest, apoptosis, and epithelial-mesenchymal transition. Curr Opin Cell Biol 21: 166-176.
-
(2009)
Curr Opin Cell Biol
, vol.21
, pp. 166-176
-
-
Heldin, C.H.1
Landström, M.2
Moustakas, A.3
-
3
-
-
84859439644
-
TGF-β signal transduction spreading to a wider field: a broad variety of mechanisms for context-dependent effects of TGF-β
-
Ikushima H, Miyazono K, (2012) TGF-β signal transduction spreading to a wider field: a broad variety of mechanisms for context-dependent effects of TGF-β. Cell Tissue Res 347: 37-49.
-
(2012)
Cell Tissue Res
, vol.347
, pp. 37-49
-
-
Ikushima, H.1
Miyazono, K.2
-
4
-
-
84871948755
-
TGF-β signaling and epithelial-mesenchymal transition in cancer progression
-
Katsuno Y, Lamouille S, Derynck R, (2013) TGF-β signaling and epithelial-mesenchymal transition in cancer progression. Curr Opin Oncol 25: 76-84.
-
(2013)
Curr Opin Oncol
, vol.25
, pp. 76-84
-
-
Katsuno, Y.1
Lamouille, S.2
Derynck, R.3
-
5
-
-
70849107534
-
Transforming Growth Factor type beta and Smad family signaling in stem cell function
-
Seuntjens E, Umans L, Zwijsen A, Sampaolesi M, Verfaillie CM,et al. Transforming Growth Factor type beta and Smad family signaling in stem cell function. Cytokine Growth Factor Rev 20: 449-458.
-
Cytokine Growth Factor Rev
, vol.20
, pp. 449-458
-
-
Seuntjens, E.1
Umans, L.2
Zwijsen, A.3
Sampaolesi, M.4
Verfaillie, C.M.5
-
6
-
-
84862764922
-
TGF-β control of stem cell differentiation genes
-
Massagué J, Xi Q, (2012) TGF-β control of stem cell differentiation genes. FEBS Lett 586: 1953-1958.
-
(2012)
FEBS Lett
, vol.586
, pp. 1953-1958
-
-
Massagué, J.1
Xi, Q.2
-
7
-
-
36448936383
-
TGFbeta-SMAD signal transduction: molecular specificity and functional flexibility
-
Schmierer B, Hill CS, (2007) TGFbeta-SMAD signal transduction: molecular specificity and functional flexibility. Nat Rev Mol Cell Biol 8: 970-982.
-
(2007)
Nat Rev Mol Cell Biol
, vol.8
, pp. 970-982
-
-
Schmierer, B.1
Hill, C.S.2
-
8
-
-
58149264873
-
Nucleocytoplasmic shuttling of Smad proteins
-
Hill CS, (2009) Nucleocytoplasmic shuttling of Smad proteins. Cell Res 19: 36-46.
-
(2009)
Cell Res
, vol.19
, pp. 36-46
-
-
Hill, C.S.1
-
9
-
-
68549123472
-
New regulatory mechanisms of TGF-beta receptor function
-
Kang JS, Liu C, Derynck R, (2009) New regulatory mechanisms of TGF-beta receptor function. Trends Cell Biol 19: 385-394.
-
(2009)
Trends Cell Biol
, vol.19
, pp. 385-394
-
-
Kang, J.S.1
Liu, C.2
Derynck, R.3
-
10
-
-
75749087591
-
Extracellular regulation of BMP signaling
-
Zakin L, de Robertis EM, (2010) Extracellular regulation of BMP signaling. Curr Biol 20: R89-92.
-
(2010)
Curr Biol
, vol.20
-
-
Zakin, L.1
de Robertis, E.M.2
-
11
-
-
70450187617
-
The regulation of TGFbeta signal transduction
-
Moustakas A, Heldin CH, (2009) The regulation of TGFbeta signal transduction. Development 136: 3699-3714.
-
(2009)
Development
, vol.136
, pp. 3699-3714
-
-
Moustakas, A.1
Heldin, C.H.2
-
12
-
-
0033575194
-
SIP1, a novel zinc finger/homeodomain repressor, interacts with Smad proteins and binds to 5′-CACCT sequences in candidate target genes
-
Verschueren K, Remacle JE, Collart C, Kraft H, Baker BS, et al. (1999) SIP1, a novel zinc finger/homeodomain repressor, interacts with Smad proteins and binds to 5′-CACCT sequences in candidate target genes. J Biol Chem 274: 20489-20498.
-
(1999)
J Biol Chem
, vol.274
, pp. 20489-20498
-
-
Verschueren, K.1
Remacle, J.E.2
Collart, C.3
Kraft, H.4
Baker, B.S.5
-
13
-
-
0033568198
-
New mode of DNA binding of multi-zinc finger transcription factors: deltaEF1 family members bind with two hands to two target sites
-
Remacle JE, Kraft H, Lerchner W, Wuytens G, Collart C, et al. (1999) New mode of DNA binding of multi-zinc finger transcription factors: deltaEF1 family members bind with two hands to two target sites. EMBO J 18: 5073-5084.
-
(1999)
EMBO J
, vol.18
, pp. 5073-5084
-
-
Remacle, J.E.1
Kraft, H.2
Lerchner, W.3
Wuytens, G.4
Collart, C.5
-
14
-
-
0034964418
-
The two-handed E box binding zinc finger protein SIP1 downregulates E-cadherin and induces invasion
-
Comijn J, Berx G, Vermassen P, Verschueren K, van Grunsven L, et al. (2001) The two-handed E box binding zinc finger protein SIP1 downregulates E-cadherin and induces invasion. Mol Cell 7: 1267-1278.
-
(2001)
Mol Cell
, vol.7
, pp. 1267-1278
-
-
Comijn, J.1
Berx, G.2
Vermassen, P.3
Verschueren, K.4
van Grunsven, L.5
-
15
-
-
0037492820
-
Interaction between Smad-interacting protein-1 and the corepressor C-terminal binding protein is dispensable for transcriptional repression of E-cadherin
-
van Grunsven LA, Michiels C, Van de Putte T, Nelles L, Wuytens G, et al. (2003) Interaction between Smad-interacting protein-1 and the corepressor C-terminal binding protein is dispensable for transcriptional repression of E-cadherin. J Biol Chem 278: 26135-26145.
-
(2003)
J Biol Chem
, vol.278
, pp. 26135-26145
-
-
van Grunsven, L.A.1
Michiels, C.2
van de Putte, T.3
Nelles, L.4
Wuytens, G.5
-
16
-
-
67650999875
-
The basics of epithelial-mesenchymal transition
-
Erratum in: J Clin Invest (2010)
-
Kalluri R, Weinberg RA, (2009) The basics of epithelial-mesenchymal transition. J Clin Invest 119: 1420-1428. Erratum in: J Clin Invest (2010) 120: 1786.
-
(2009)
J Clin Invest
, vol.119
, pp. 1420-1428
-
-
Kalluri, R.1
Weinberg, R.A.2
-
17
-
-
74549154452
-
Complete reversal of epithelial to mesenchymal transition requires inhibition of both ZEB expression and the Rho pathway
-
Das S, Becker BN, Hoffmann FM, Mertz JE, (2009) Complete reversal of epithelial to mesenchymal transition requires inhibition of both ZEB expression and the Rho pathway. BMC Cell Biol 10: 94.
-
(2009)
BMC Cell Biol
, vol.10
, pp. 94
-
-
Das, S.1
Becker, B.N.2
Hoffmann, F.M.3
Mertz, J.E.4
-
18
-
-
41649091906
-
The miR-200 family determines the epithelial phenotype of cancer cells by targeting the E-cadherin repressors ZEB1 and ZEB2
-
Park SM, Gaur AB, Lengyel E, Peter ME, (2008) The miR-200 family determines the epithelial phenotype of cancer cells by targeting the E-cadherin repressors ZEB1 and ZEB2. Genes Dev 22: 894-907.
-
(2008)
Genes Dev
, vol.22
, pp. 894-907
-
-
Park, S.M.1
Gaur, A.B.2
Lengyel, E.3
Peter, M.E.4
-
19
-
-
33947664420
-
Slug is overexpressed in gastric carcinomas and may act synergistically with SIP1 and Snail in the down-regulation of E-cadherin
-
Castro Alves C, Rosivatz E, Schott C, Hollweck R, Becker I, et al. (2007) Slug is overexpressed in gastric carcinomas and may act synergistically with SIP1 and Snail in the down-regulation of E-cadherin. J Pathol 211: 507-515.
-
(2007)
J Pathol
, vol.211
, pp. 507-515
-
-
Castro Alves, C.1
Rosivatz, E.2
Schott, C.3
Hollweck, R.4
Becker, I.5
-
20
-
-
70349273757
-
SIP1 protein protects cells from DNA damage-induced apoptosis and has independent prognostic value in bladder cancer
-
Sayan AE, Griffiths TR, Pal R, Browne GJ, Ruddick A, et al. (2009) SIP1 protein protects cells from DNA damage-induced apoptosis and has independent prognostic value in bladder cancer. Proc Natl Acad Sci USA 106: 14884-14889.
-
(2009)
Proc Natl Acad Sci USA
, vol.106
, pp. 14884-14889
-
-
Sayan, A.E.1
Griffiths, T.R.2
Pal, R.3
Browne, G.J.4
Ruddick, A.5
-
21
-
-
84860397754
-
Epithelial to mesenchymal transition markers expressed in circulating tumor cells of early and metastatic breast cancer patients
-
Kallergi G, Papadaki MA, Politaki E, Mavroudis D, Georgoulias V, et al. (2011) Epithelial to mesenchymal transition markers expressed in circulating tumor cells of early and metastatic breast cancer patients. Breast Cancer Res 13: R59.
-
(2011)
Breast Cancer Res
, vol.13
-
-
Kallergi, G.1
Papadaki, M.A.2
Politaki, E.3
Mavroudis, D.4
Georgoulias, V.5
-
22
-
-
41849121175
-
Atypical Mowat-Wilson patient confirms the importance of the novel association between ZFHX1B/SIP1 and NuRD corepressor complex
-
Verstappen G, van Grunsven LA, Michiels C, Van de Putte T, Souopgui J, et al. (2008) Atypical Mowat-Wilson patient confirms the importance of the novel association between ZFHX1B/SIP1 and NuRD corepressor complex. Hum Mol Genet 17: 1175-1183.
-
(2008)
Hum Mol Genet
, vol.17
, pp. 1175-1183
-
-
Verstappen, G.1
van Grunsven, L.A.2
Michiels, C.3
van de Putte, T.4
Souopgui, J.5
-
23
-
-
0031853185
-
Hirschsprung disease, microcephaly, mental retardation, and characteristic facial features: delineation of a new syndrome and identification of a locus at chromosome 2q22-q23
-
Mowat DR, Croaker GD, Cass DT, Kerr BA, Chaitow J, et al. (1998) Hirschsprung disease, microcephaly, mental retardation, and characteristic facial features: delineation of a new syndrome and identification of a locus at chromosome 2q22-q23. J Med Genet 35: 617-623.
-
(1998)
J Med Genet
, vol.35
, pp. 617-623
-
-
Mowat, D.R.1
Croaker, G.D.2
Cass, D.T.3
Kerr, B.A.4
Chaitow, J.5
-
24
-
-
0035394107
-
Loss-of-function mutations in SIP1 Smad interacting protein 1 result in a syndromic Hirschsprung disease
-
Cacheux V, Dastot-Le Moal F, Kääriäinen H, Bondurand N, Rintala R, et al. (2001) Loss-of-function mutations in SIP1 Smad interacting protein 1 result in a syndromic Hirschsprung disease. Hum Mol Genet 10: 1503-1510.
-
(2001)
Hum Mol Genet
, vol.10
, pp. 1503-1510
-
-
Cacheux, V.1
Dastot-Le Moal, F.2
Kääriäinen, H.3
Bondurand, N.4
Rintala, R.5
-
25
-
-
0035065576
-
Mutations in SIP1, encoding Smad interacting protein-1, cause a form of Hirschsprung disease
-
Wakamatsu N, Yamada Y, Yamada K, Ono T, Nomura N, et al. (2001) Mutations in SIP1, encoding Smad interacting protein-1, cause a form of Hirschsprung disease. Nat Genet 27: 369-370.
-
(2001)
Nat Genet
, vol.27
, pp. 369-370
-
-
Wakamatsu, N.1
Yamada, Y.2
Yamada, K.3
Ono, T.4
Nomura, N.5
-
26
-
-
0037322308
-
Mice lacking ZFHX1B, the gene that codes for Smad-interacting protein-1, reveal a role for multiple neural crest cell defects in the etiology of Hirschsprung disease-mental retardation syndrome
-
Van de Putte T, Maruhashi M, Francis A, Nelles L, Kondoh H, et al. (2003) Mice lacking ZFHX1B, the gene that codes for Smad-interacting protein-1, reveal a role for multiple neural crest cell defects in the etiology of Hirschsprung disease-mental retardation syndrome. Am J Hum Genet 72: 465-470.
-
(2003)
Am J Hum Genet
, vol.72
, pp. 465-470
-
-
van de Putte, T.1
Maruhashi, M.2
Francis, A.3
Nelles, L.4
Kondoh, H.5
-
27
-
-
80053198635
-
The transcription factor Smad-interacting protein 1 controls pain sensitivity via modulation of DRG neuron excitability
-
Jeub M, Emrich M, Pradier B, Taha O, Gailus-Durner V, et al. (2011) The transcription factor Smad-interacting protein 1 controls pain sensitivity via modulation of DRG neuron excitability. Pain 152: 2384-2398.
-
(2011)
Pain
, vol.152
, pp. 2384-2398
-
-
Jeub, M.1
Emrich, M.2
Pradier, B.3
Taha, O.4
Gailus-Durner, V.5
-
28
-
-
84863412688
-
The behavioral phenotype of Mowat-Wilson syndrome
-
Evans E, Einfeld S, Mowat D, Taffe J, Tonge B, et al. (2012) The behavioral phenotype of Mowat-Wilson syndrome. Am J Med Genet A 158A: 358-366.
-
(2012)
Am J Med Genet A
, vol.158 A
, pp. 358-366
-
-
Evans, E.1
Einfeld, S.2
Mowat, D.3
Taffe, J.4
Tonge, B.5
-
29
-
-
84896774582
-
Smad-interacting protein-1 affects acute and tonic, but not chronic pain
-
July 17, 2013, Epub ahead of print
-
Pradier B, Jeub M, Markert A, Mauer D, Tolksdorf K, et al. (2013) Smad-interacting protein-1 affects acute and tonic, but not chronic pain. Eur J Pain, July 17, 2013, Epub ahead of print.
-
(2013)
Eur J Pain
-
-
Pradier, B.1
Jeub, M.2
Markert, A.3
Mauer, D.4
Tolksdorf, K.5
-
30
-
-
0034728782
-
XSIP1, a member of two-handed zinc finger proteins, induced anterior neural markers in Xenopus laevis animal cap
-
Eisaki A, Kuroda H, Fukui A, Asashima M, (2000) XSIP1, a member of two-handed zinc finger proteins, induced anterior neural markers in Xenopus laevis animal cap. Biochem Biophys Res Commun 271: 151-157.
-
(2000)
Biochem Biophys Res Commun
, vol.271
, pp. 151-157
-
-
Eisaki, A.1
Kuroda, H.2
Fukui, A.3
Asashima, M.4
-
31
-
-
33646894508
-
deltaEF1 and SIP1 are differentially expressed and have overlapping activities during Xenopus embryogenesis
-
van Grunsven LA, Taelman V, Michiels C, Opdecamp K, Huylebroeck D, et al. (2006) deltaEF1 and SIP1 are differentially expressed and have overlapping activities during Xenopus embryogenesis. Dev Dyn 235: 1491-1500.
-
(2006)
Dev Dyn
, vol.235
, pp. 1491-1500
-
-
van Grunsven, L.A.1
Taelman, V.2
Michiels, C.3
Opdecamp, K.4
Huylebroeck, D.5
-
32
-
-
34249700680
-
XSip1 neuralizing activity involves the co-repressor CtBP and occurs through BMP dependent and independent mechanisms
-
van Grunsven LA, Taelman V, Michiels C, Verstappen G, Souopgui J, et al. (2007) XSip1 neuralizing activity involves the co-repressor CtBP and occurs through BMP dependent and independent mechanisms. Dev Biol 306: 34-49.
-
(2007)
Dev Biol
, vol.306
, pp. 34-49
-
-
van Grunsven, L.A.1
Taelman, V.2
Michiels, C.3
Verstappen, G.4
Souopgui, J.5
-
33
-
-
73049085665
-
SIP1 mediates cell-fate decisions between neuroectoderm and mesendoderm in human pluripotent stem cells
-
Chng Z, Teo A, Pedersen RA, Vallier L, (2010) SIP1 mediates cell-fate decisions between neuroectoderm and mesendoderm in human pluripotent stem cells. Cell Stem Cell 6: 59-70.
-
(2010)
Cell Stem Cell
, vol.6
, pp. 59-70
-
-
Chng, Z.1
Teo, A.2
Pedersen, R.A.3
Vallier, L.4
-
34
-
-
77951870415
-
FGF dependent regulation of Zfhx1b gene expression promotes the formation of definitive neural stem cells in the mouse anterior neurectoderm
-
Dang LT, Tropepe V, (2010) FGF dependent regulation of Zfhx1b gene expression promotes the formation of definitive neural stem cells in the mouse anterior neurectoderm. Neural Dev 5: 13.
-
(2010)
Neural Dev
, vol.5
, pp. 13
-
-
Dang, L.T.1
Tropepe, V.2
-
35
-
-
84870428687
-
Zfhx1b induces a definitive neural stem cell fate in mouse embryonic stem cells
-
Dang LT, Wong L, Tropepe V, (2012) Zfhx1b induces a definitive neural stem cell fate in mouse embryonic stem cells. Stem Cells Dev 21: 2838-2851.
-
(2012)
Stem Cells Dev
, vol.21
, pp. 2838-2851
-
-
Dang, L.T.1
Wong, L.2
Tropepe, V.3
-
36
-
-
74949109986
-
Sip1 regulates sequential fate decisions by feedback signaling from postmitotic neurons to progenitors
-
Seuntjens E, Nityanandam A, Miquelajauregui A, Debruyn J, Stryjewska A, et al. (2009) Sip1 regulates sequential fate decisions by feedback signaling from postmitotic neurons to progenitors. Nat Neurosci 12: 1373-1380.
-
(2009)
Nat Neurosci
, vol.12
, pp. 1373-1380
-
-
Seuntjens, E.1
Nityanandam, A.2
Miquelajauregui, A.3
Debruyn, J.4
Stryjewska, A.5
-
37
-
-
84872193366
-
Dlx1&2-dependent expression of Zfhx1b (Sip1, Zeb2) regulates the fate switch between cortical and striatal interneurons
-
McKinsey GL, Lindtner S, Trzcinski B, Visel A, Pennacchio LA, et al. (2013) Dlx1&2-dependent expression of Zfhx1b (Sip1, Zeb2) regulates the fate switch between cortical and striatal interneurons. Neuron 77: 83-98.
-
(2013)
Neuron
, vol.77
, pp. 83-98
-
-
McKinsey, G.L.1
Lindtner, S.2
Trzcinski, B.3
Visel, A.4
Pennacchio, L.A.5
-
38
-
-
84872193597
-
Directed migration of cortical interneurons depends on the cell-autonomous action of Sip1
-
van den Berghe V, Stappers E, Vandesande B, Dimidschstein J, Kroes R, et al. (2013) Directed migration of cortical interneurons depends on the cell-autonomous action of Sip1. Neuron 77: 70-82.
-
(2013)
Neuron
, vol.77
, pp. 70-82
-
-
van den Berghe, V.1
Stappers, E.2
Vandesande, B.3
Dimidschstein, J.4
Kroes, R.5
-
39
-
-
84863128025
-
Dual-mode modulation of Smad signaling by Smad-interacting protein Sip1 is required for myelination in the central nervous system
-
Weng Q, Chen Y, Wang H, Xu X, Yang B, et al. (2012) Dual-mode modulation of Smad signaling by Smad-interacting protein Sip1 is required for myelination in the central nervous system. Neuron 73: 713-728.
-
(2012)
Neuron
, vol.73
, pp. 713-728
-
-
Weng, Q.1
Chen, Y.2
Wang, H.3
Xu, X.4
Yang, B.5
-
40
-
-
82955203433
-
Few Smad proteins and many Smad-interacting proteins yield multiple functions and action modes in TGFβ/BMP signaling in vivo
-
Conidi A, Cazzola S, Beets K, Coddens K, Collart C, et al. (2011) Few Smad proteins and many Smad-interacting proteins yield multiple functions and action modes in TGFβ/BMP signaling in vivo. Cytokine Growth Factor Rev 22: 287-300.
-
(2011)
Cytokine Growth Factor Rev
, vol.22
, pp. 287-300
-
-
Conidi, A.1
Cazzola, S.2
Beets, K.3
Coddens, K.4
Collart, C.5
-
41
-
-
0033982759
-
Combinatorial protein reagents to manipulate protein function
-
Colas P, (2000) Combinatorial protein reagents to manipulate protein function. Curr Opin Chem Biol 4: 54-59.
-
(2000)
Curr Opin Chem Biol
, vol.4
, pp. 54-59
-
-
Colas, P.1
-
42
-
-
51349160681
-
High-throughput screening assays to discover small-molecule inhibitors of protein interactions
-
Colas P, (2008) High-throughput screening assays to discover small-molecule inhibitors of protein interactions. Curr Drug Discov Technol 5: 190-199.
-
(2008)
Curr Drug Discov Technol
, vol.5
, pp. 190-199
-
-
Colas, P.1
-
43
-
-
33645875308
-
Peptide aptamers as guides for small-molecule drug discovery
-
Baines IC, Colas P, (2006) Peptide aptamers as guides for small-molecule drug discovery. Drug Discov Today 11: 334-341.
-
(2006)
Drug Discov Today
, vol.11
, pp. 334-341
-
-
Baines, I.C.1
Colas, P.2
-
44
-
-
20544444943
-
Selective inhibition of TGF-beta responsive genes by Smad-interacting peptide aptamers from FoxH1, Lef1 and CBP
-
Cui Q, Lim SK, Zhao B, Hoffmann FM, (2005) Selective inhibition of TGF-beta responsive genes by Smad-interacting peptide aptamers from FoxH1, Lef1 and CBP. Oncogene 24: 3864-3874.
-
(2005)
Oncogene
, vol.24
, pp. 3864-3874
-
-
Cui, Q.1
Lim, S.K.2
Zhao, B.3
Hoffmann, F.M.4
-
45
-
-
33748305561
-
Inhibition of transforming growth factor-beta1-induced signaling and epithelial-to-mesenchymal transition by the Smad-binding peptide aptamer Trx-SARA
-
Zhao BM, Hoffmann FM, (2006) Inhibition of transforming growth factor-beta1-induced signaling and epithelial-to-mesenchymal transition by the Smad-binding peptide aptamer Trx-SARA. Mol Biol Cell 17: 3819-3831.
-
(2006)
Mol Biol Cell
, vol.17
, pp. 3819-3831
-
-
Zhao, B.M.1
Hoffmann, F.M.2
-
46
-
-
69449088675
-
Smad3 is a key nonredundant mediator of transforming growth factor beta signaling in Nme mouse mammary epithelial cells
-
Dzwonek J, Preobrazhenska O, Cazzola S, Conidi A, Schellens A, et al. (2009) Smad3 is a key nonredundant mediator of transforming growth factor beta signaling in Nme mouse mammary epithelial cells. Mol Cancer Res 7: 1342-1353.
-
(2009)
Mol Cancer Res
, vol.7
, pp. 1342-1353
-
-
Dzwonek, J.1
Preobrazhenska, O.2
Cazzola, S.3
Conidi, A.4
Schellens, A.5
-
47
-
-
63849246525
-
Protein structure prediction on the Web: a case study using the Phyre server
-
Kelley LA, Sternberg MJ, (2009) Protein structure prediction on the Web: a case study using the Phyre server. Nat Protoc 4: 363-371.
-
(2009)
Nat Protoc
, vol.4
, pp. 363-371
-
-
Kelley, L.A.1
Sternberg, M.J.2
-
49
-
-
0035964342
-
Electrostatics of nanosystems: application to microtubules and the ribosome
-
Baker NA, Sept D, Joseph S, Holst MJ, McCammon JA, (2001) Electrostatics of nanosystems: application to microtubules and the ribosome. Proc Natl Acad Sci USA 98: 10037-10041.
-
(2001)
Proc Natl Acad Sci USA
, vol.98
, pp. 10037-10041
-
-
Baker, N.A.1
Sept, D.2
Joseph, S.3
Holst, M.J.4
McCammon, J.A.5
-
50
-
-
0036200050
-
Generation of the floxed allele of the SIP1 (Smad-interacting protein 1) gene for Cre-mediated conditional knockout in the mouse
-
Higashi Y, Maruhashi M, Nelles L, Van de Putte T, Verschueren K, et al. (2002) Generation of the floxed allele of the SIP1 (Smad-interacting protein 1) gene for Cre-mediated conditional knockout in the mouse. Genesis 32: 82-84.
-
(2002)
Genesis
, vol.32
, pp. 82-84
-
-
Higashi, Y.1
Maruhashi, M.2
Nelles, L.3
van de Putte, T.4
Verschueren, K.5
-
51
-
-
65449128179
-
Characterization of Nkx6-2-derived neocortical interneuron lineages
-
Sousa VH, Miyoshi G, Hjerling-Leffler J, Karayannis T, Fishell G, (2009) Characterization of Nkx6-2-derived neocortical interneuron lineages. Cereb Cortex 19Suppl 1: i1-10.
-
(2009)
Cereb Cortex
, vol.19
-
-
Sousa, V.H.1
Miyoshi, G.2
Hjerling-Leffler, J.3
Karayannis, T.4
Fishell, G.5
-
52
-
-
31544442467
-
Competing waves of oligodendrocytes in the forebrain and postnatal elimination of an embryonic lineage
-
Kessaris N, Fogarty M, Iannarelli P, Grist M, Wegner M, et al. (2006) Competing waves of oligodendrocytes in the forebrain and postnatal elimination of an embryonic lineage. Nat Neurosci 9: 173-179.
-
(2006)
Nat Neurosci
, vol.9
, pp. 173-179
-
-
Kessaris, N.1
Fogarty, M.2
Iannarelli, P.3
Grist, M.4
Wegner, M.5
-
53
-
-
0037062769
-
The slice overlay assay: a versatile tool to study the influence of extracellular signals on neuronal development
-
Polleux F, Ghosh A, (2002) The slice overlay assay: a versatile tool to study the influence of extracellular signals on neuronal development. Sci STKE 136: l9.
-
(2002)
Sci STKE
, vol.136
-
-
Polleux, F.1
Ghosh, A.2
-
54
-
-
80052880731
-
Mutations in protein-binding hot-spots on the hub protein Smad3 differentially affect its protein interactions and Smad3-regulated gene expression
-
Schiro MM, Stauber SE, Peterson TL, Krueger C, Darnell SJ, et al. (2011) Mutations in protein-binding hot-spots on the hub protein Smad3 differentially affect its protein interactions and Smad3-regulated gene expression. PLoS One 6: e25021.
-
(2011)
PLoS One
, vol.6
-
-
Schiro, M.M.1
Stauber, S.E.2
Peterson, T.L.3
Krueger, C.4
Darnell, S.J.5
-
55
-
-
0033917985
-
Region-specific activation of the Xenopus brachyury promoter involves active repression in ectoderm and endoderm: a study using transgenic frog embryos
-
Lerchner W, Latinkic BV, Remacle JE, Huylebroeck D, Smith JC, (2000) Region-specific activation of the Xenopus brachyury promoter involves active repression in ectoderm and endoderm: a study using transgenic frog embryos. Development 127: 2729-2739.
-
(2000)
Development
, vol.127
, pp. 2729-2739
-
-
Lerchner, W.1
Latinkic, B.V.2
Remacle, J.E.3
Huylebroeck, D.4
Smith, J.C.5
-
56
-
-
0034212389
-
XSIP1, a Xenopus zinc finger/homeodomain encoding gene highly expressed during early neural development
-
van Grunsven LA, Papin C, Avalosse B, Opdecamp K, Huylebroeck D, et al. (2000) XSIP1, a Xenopus zinc finger/homeodomain encoding gene highly expressed during early neural development. Mech Dev 94: 189-193.
-
(2000)
Mech Dev
, vol.94
, pp. 189-193
-
-
van Grunsven, L.A.1
Papin, C.2
Avalosse, B.3
Opdecamp, K.4
Huylebroeck, D.5
-
57
-
-
0036169703
-
Dynamic regulation of Brachyury expression in the amphibian embryo by XSIP1
-
Papin C, van Grunsven LA, Verschueren K, Huylebroeck D, Smith JC, (2002) Dynamic regulation of Brachyury expression in the amphibian embryo by XSIP1. Mech Dev 111: 37-46.
-
(2002)
Mech Dev
, vol.111
, pp. 37-46
-
-
Papin, C.1
van Grunsven, L.A.2
Verschueren, K.3
Huylebroeck, D.4
Smith, J.C.5
-
58
-
-
0032516862
-
Identification and functional characterization of a Smad binding element (SBE) in the JunB promoter that acts as a transforming growth factor-beta, activin, and bone morphogenetic protein-inducible enhancer
-
Jonk LJ, Itoh S, Heldin CH, ten Dijke P, Kruijer W, (1998) Identification and functional characterization of a Smad binding element (SBE) in the JunB promoter that acts as a transforming growth factor-beta, activin, and bone morphogenetic protein-inducible enhancer. J Biol Chem.14 273(33): 21145-52.
-
(1998)
J Biol Chem.14
, vol.273
, Issue.33
, pp. 21145-21152
-
-
Jonk, L.J.1
Itoh, S.2
Heldin, C.H.3
ten Dijke, P.4
Kruijer, W.5
-
59
-
-
84855999650
-
E/N-cadherin switch mediates cancer progression via TGF-β-induced epithelial-to-mesenchymal transition in extrahepatic cholangiocarcinoma
-
Araki K, Shimura T, Suzuki H, Tsutsumi S, Wada W, et al. (2011) E/N-cadherin switch mediates cancer progression via TGF-β-induced epithelial-to-mesenchymal transition in extrahepatic cholangiocarcinoma. Br J Cancer 105: 1885-1893.
-
(2011)
Br J Cancer
, vol.105
, pp. 1885-1893
-
-
Araki, K.1
Shimura, T.2
Suzuki, H.3
Tsutsumi, S.4
Wada, W.5
-
60
-
-
84862703901
-
Smad3 regulates E-cadherin via miRNA-00 pathway
-
Ahn SM, Cha JY, Kim J, Kim D, Trang HT, et al. (2012) Smad3 regulates E-cadherin via miRNA-00 pathway. Oncogene 31: 3051-3059.
-
(2012)
Oncogene
, vol.31
, pp. 3051-3059
-
-
Ahn, S.M.1
Cha, J.Y.2
Kim, J.3
Kim, D.4
Trang, H.T.5
-
61
-
-
5044248294
-
A role for Id in the regulation of TGF-beta-induced epithelial-mesenchymal transdifferentiation
-
Kondo M, Cubillo E, Tobiume K, Shirakihara T, Fukuda N, et al. (2004) A role for Id in the regulation of TGF-beta-induced epithelial-mesenchymal transdifferentiation. Cell Death Differ 11: 1092-1101.
-
(2004)
Cell Death Differ
, vol.11
, pp. 1092-1101
-
-
Kondo, M.1
Cubillo, E.2
Tobiume, K.3
Shirakihara, T.4
Fukuda, N.5
-
62
-
-
60649089997
-
Cancer metastasis is accelerated through immunosuppression during Snail-induced EMT of cancer cells
-
Kudo-Saito C, Shirako H, Takeuchi T, Kawakami Y, (2009) Cancer metastasis is accelerated through immunosuppression during Snail-induced EMT of cancer cells. Cancer Cell 15: 195-206.
-
(2009)
Cancer Cell
, vol.15
, pp. 195-206
-
-
Kudo-Saito, C.1
Shirako, H.2
Takeuchi, T.3
Kawakami, Y.4
-
63
-
-
84863203049
-
TGF-β drives epithelial-mesenchymal transition through δEF1-mediated downregulation of ESRP
-
Horiguchi K, Sakamoto K, Koinuma D, Semba K, Inoue A, et al. (2012) TGF-β drives epithelial-mesenchymal transition through δEF1-mediated downregulation of ESRP. Oncogene 31: 3190-3201.
-
(2012)
Oncogene
, vol.31
, pp. 3190-3201
-
-
Horiguchi, K.1
Sakamoto, K.2
Koinuma, D.3
Semba, K.4
Inoue, A.5
-
64
-
-
77955854019
-
Role for TGF-beta superfamily signaling in telencephalic GABAergic neuron development
-
Maira M, Long JE, Lee AY, Rubenstein JL, Stifani S, (2010) Role for TGF-beta superfamily signaling in telencephalic GABAergic neuron development. J Neurodev Disord 2: 48-60.
-
(2010)
J Neurodev Disord
, vol.2
, pp. 48-60
-
-
Maira, M.1
Long, J.E.2
Lee, A.Y.3
Rubenstein, J.L.4
Stifani, S.5
-
65
-
-
4644277339
-
Disorder in a target for the Smad2 Mad Homology 2 Domain and its implications for binding and specificity
-
Chong PA, Ozdamar B, Wrana JL, Forman-Kay JD, (2004) Disorder in a target for the Smad2 Mad Homology 2 Domain and its implications for binding and specificity. J Biol Chem 279: 40707-40714.
-
(2004)
J Biol Chem
, vol.279
, pp. 40707-40714
-
-
Chong, P.A.1
Ozdamar, B.2
Wrana, J.L.3
Forman-Kay, J.D.4
-
66
-
-
84860445989
-
R-Smad competition controls Activin receptor output in Drosophila
-
Peterson AJ, Jensen PA, Shimell M, Stefancsik R, Wijayatonge R, et al. (2012) R-Smad competition controls Activin receptor output in Drosophila. PLoS One 7: e36548.
-
(2012)
PLoS One
, vol.7
-
-
Peterson, A.J.1
Jensen, P.A.2
Shimell, M.3
Stefancsik, R.4
Wijayatonge, R.5
-
67
-
-
0032428684
-
SARA, a FYVE domain protein that recruits Smad2 to the TGFβ receptor
-
Tsukazaki T, Chiang TA, Davison AF, Attisano L, Wrana JL, (1998) SARA, a FYVE domain protein that recruits Smad2 to the TGFβ receptor. Cell 95: 779-791.
-
(1998)
Cell
, vol.95
, pp. 779-791
-
-
Tsukazaki, T.1
Chiang, T.A.2
Davison, A.F.3
Attisano, L.4
Wrana, J.L.5
-
68
-
-
68249092353
-
A SNAIL1-SMAD3/4 transcriptional repressor complex promotes TGF-beta mediated epithelial-mesenchymal transition
-
Vincent T, Neve EP, Johnson JR, Kukalev A, Rojo F, Albanell J, et al. (2009) A SNAIL1-SMAD3/4 transcriptional repressor complex promotes TGF-beta mediated epithelial-mesenchymal transition. Nat Cell Biol 11: 943-950.
-
(2009)
Nat Cell Biol
, vol.11
, pp. 943-950
-
-
Vincent, T.1
Neve, E.P.2
Johnson, J.R.3
Kukalev, A.4
Rojo, F.5
Albanell, J.6
-
69
-
-
34548496683
-
Differential regulation of epithelial and mesenchymal markers by deltaEF1 proteins in epithelial mesenchymal transition induced by TGF-beta
-
Shirakihara T, Saitoh M, Miyazono K, (2007) Differential regulation of epithelial and mesenchymal markers by deltaEF1 proteins in epithelial mesenchymal transition induced by TGF-beta. Mol Biol Cell 18: 3533-3544.
-
(2007)
Mol Biol Cell
, vol.18
, pp. 3533-3544
-
-
Shirakihara, T.1
Saitoh, M.2
Miyazono, K.3
|