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Malcolm Whitman
Malcolm Whitman
Verified email at hms.harvard.edu
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Cited by
Cited by
Year
Type I phosphatidylinositol kinase makes a novel inositol phospholipid, phosphatidylinositol-3-phosphate
M Whitman, CP Downes, M Keeler, T Keller, L Cantley
Nature 332 (6165), 644-646, 1988
13571988
Association of phosphatidylinositol kinase activity with polyoma middle-T competent for transformation
M Whitman, DR Kaplan, B Schaffhausen, L Cantley, TM Roberts
Nature 315 (6016), 239-242, 1985
9731985
A transcriptional partner for MAD proteins in TGF-β signalling
X Chen, MJ Rubock, M Whitman
Nature 383 (6602), 691-696, 1996
8871996
Common elements in growth factor stimulation and oncogenic transformation: 85 kd phosphoprotein and phosphatidylinositol kinase activity
DR Kaplan, M Whitman, B Schaffhausen, DC Pallas, M White, L Cantley, ...
Cell 50 (7), 1021-1029, 1987
7801987
Smad4 and FAST-1 in the assembly of activin-responsive factor
X Chen, E Weisberg, V Fridmacher, M Watanabe, G Naco, M Whitman
Nature 389 (6646), 85-89, 1997
7371997
Activins are expressed early in Xenopus embryogenesis and can induce axial mesoderm and anterior structures
G Thomsen, T Woolf, M Whitman, S Sokol, J Vaughan, W Vale, DA Melton
Cell 63 (3), 485-493, 1990
6991990
Smads and early developmental signaling by the TGFβ superfamily
M Whitman
Genes & development 12 (16), 2445-2462, 1998
6951998
Evidence that the Rous sarcoma virus transforming gene product phosphorylates phosphatidylinositol and diacylglycerol.
Y Sugimoto, M Whitman, LC Cantley, RL Erikson
Proceedings of the National Academy of Sciences 81 (7), 2117-2121, 1984
6341984
Halofuginone inhibits TH17 cell differentiation by activating the amino acid starvation response
MS Sundrud, SB Koralov, M Feuerer, DP Calado, AEH Kozhaya, ...
Science 324 (5932), 1334-1338, 2009
4632009
Nodal signals to Smads through Cripto-dependent and Cripto-independent mechanisms
CY Yeo, M Whitman
Molecular cell 7 (5), 949-957, 2001
4562001
Halofuginone and other febrifugine derivatives inhibit prolyl-tRNA synthetase
TL Keller, D Zocco, MS Sundrud, M Hendrick, M Edenius, J Yum, YJ Kim, ...
Nature chemical biology 8 (3), 311-317, 2012
3872012
Evidence for two distinct phosphatidylinositol kinases in fibroblasts. Implications for cellular regulation
M Whitman, D Kaplan, T Roberts, L Cantley
Biochemical Journal 247 (1), 165-174, 1987
3491987
Activin type IIA and IIB receptors mediate Gdf11 signaling in axial vertebral patterning
SP Oh, CY Yeo, Y Lee, H Schrewe, M Whitman, E Li
Genes & development 16 (21), 2749-2754, 2002
3132002
Nodal signaling in early vertebrate embryos: themes and variations
M Whitman
Developmental cell 1 (5), 605-617, 2001
3082001
Endogenous patterns of TGFβ superfamily signaling during early Xenopus development
S Faure, MA Lee, T Keller, P Dijke, M Whitman
Development 127 (13), 2917-2931, 2000
3032000
Mesoderm induction by activin requires FGF-mediated intracellular signals
C LaBonne, M Whitman
Development 120 (2), 463-472, 1994
2941994
Left–right asymmetric expression of lefty2 and nodal is induced by a signaling pathway that includes the transcription factor FAST2
Y Saijoh, H Adachi, R Sakuma, CY Yeo, K Yashiro, M Watanabe, ...
Molecular cell 5 (1), 35-47, 2000
2852000
Phosphatidylinositol metabolism and polyoma-mediated transformation.
DR Kaplan, M Whitman, B Schaffhausen, L Raptis, RL Garcea, D Pallas, ...
Proceedings of the National Academy of Sciences 83 (11), 3624-3628, 1986
2791986
Two-step regulation of left–right asymmetric expression of Pitx2: initiation by nodal signaling and maintenance by Nkx2
H Shiratori, R Sakuma, M Watanabe, H Hashiguchi, K Mochida, Y Sakai, ...
Molecular cell 7 (1), 137-149, 2001
2732001
Involvement of p21ras in Xenopus mesoderm induction
M Whitman, DA Melton
Nature 357 (6375), 252-254, 1992
2491992
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