96 Publications (Page 3 of 4)
2006
Phosphorylation of ErbB4 on Tyr1056 is critical for inhibition of colony formation by prostate tumor cell lines.
Gallo, Richard M⋅Bryant, Ianthe⋅Fry, Rachael⋅Williams, Eric E and Riese, David J
Biochemical and biophysical research communications, vol. 349, (no. 1), pp. 372-82, 2006/Oct/13. | Journal Article
Phosphorylation of ErbB4 on tyrosine 1056 is critical for ErbB4 coupling to inhibition of colony formation by human mammary cell linesPitfield, S.E.⋅Bryant, I.⋅Penington, D.J.⋅Park, G. and Riese II, D.J.(pp. 179-193)
Phosphorylation of ErbB4 on tyrosine 1056 is critical for ErbB4 coupling to inhibition of colony formation by human mammary cell lines.
Pitfield, Sarah E⋅Bryant, Ianthe⋅Penington, Desi J⋅Park, Gar and Riese, David J
Oncology research, vol. 16, (no. 4), pp. 179-93, 2006. | Journal Article
The epidermal growth factor receptor (EGFR)-S442F mutant displays increased affinity for neuregulin-2? and agonist-independent coupling with downstream signalling eventsGilmore, J.L.⋅Gallo, R.M. and Riese II, D.J.(pp. 79-88)
The epidermal growth factor receptor (EGFR)-S442F mutant displays increased affinity for neuregulin-2beta and agonist-independent coupling with downstream signalling events.
Gilmore, Jennifer L⋅Gallo, Richard M and Riese, David J
The Biochemical journal, vol. 396, (no. 1), pp. 79-88, 2006/May/15. | Journal Article
2005
Anilinodialkoxyquinazolines: Screening Epidermal Growth Factor Receptor Tyrosine Kinase Inhibitors for Potential Tumor Imaging ProbesVan Brocklin, Henry F⋅Lim, JK⋅Coffing, SL⋅Hom, DL⋅Negash, K.⋅Ono, MY⋅Gilmore, JL⋅Bryant, I. and Riese, David JJournal of Medicinal Chemistry, vol. 48, (no. 23), pp. 7445-7456, 2005.
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Phe45 of NRG2beta is critical for the affinity of NRG2beta for ErbB4 and for potent stimulation of ErbB4 signaling by NRG2beta*.
Hobbs, Stuart S⋅Gallo, Richard M and Riese, David J
Growth factors (Chur, Switzerland), vol. 23, (no. 4), pp. 273-83, 2005/Dec. | Journal Article
Phe45 of NRG2 is critical for the affinity of NRG2 for ErbB4 and for potent stimulation of ErbB4 signaling by NRG2
Hobbs, Stuart⋅Gallo, Richard and Riese, David
Growth Factors, vol. 23, (no. 4), pp. 283, December 2005. | Journal Article
2004
Five carboxyl-terminal residues of neuregulin2 are critical for stimulation of signaling by the ErbB4 receptor tyrosine kinase
Hobbs, SS⋅Cameron, EM⋅Hammer, RP⋅Le, ATD⋅Gallo, RM⋅Blommel, EN⋅Coffing, SL⋅Chang, H. and Riese, David J
Oncogene, vol. 23, (no. 4), pp. 883-893, 2004. | Journal Article
secErbB4-26/549 antagonizes ligand-induced ErbB4 tyrosine phosphorylationGilmore, J.L. and Riese II, D.J.(pp. 589-602)
secErbB4-26/549 antagonizes ligand-induced ErbB4 tyrosine phosphorylation.
Gilmore, Jennifer L and Riese, David J
Oncology research, vol. 14, (no. 11-12), pp. 589-602, 2004. | Journal Article
2003
A constitutively active ErbB4 mutant inhibits drug-resistant colony formation by the DU-145 and PC-3 human prostate tumor cell lines.
Williams, Eric E⋅Trout, Laurie J⋅Gallo, Richard M⋅Pitfield, Sarah E⋅Bryant, Ianthe⋅Penington, Desi J and Riese, David J
Cancer letters, vol. 192, (no. 1), pp. 67-74, 2003/Mar/20. | Journal Article
2002
c-Cbl-dependent EphA2 protein degradation is induced by ligand bindingWalker-Daniels, J.⋅Walker-Daniels, J.⋅Riese II, D.J.⋅Riese II, D.J.⋅Kinch, M.S. and Kinch, M.S.(pp. 79-87)
c-Cbl-dependent EphA2 protein degradation is induced by ligand binding.WALKER-DANIELS, Jennifer⋅Walker Daniels, Jennifer⋅Riese II, D.J.⋅Riese, David J⋅RIESE, David J⋅Kinch, Michael S and Kinch, Michael SMolecular cancer research : MCR, vol. 1, (no. 1), pp. 79-87, 2002/Nov.
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c-Cbl-Dependent EphA2 Protein Degradation Is Induced by Ligand Binding11 American Cancer Society (CSM) Grant RPG-97-105-01 and the NIH Grant CA91318-01Walker-Daniels, Jennifer⋅Walker-Daniels, Jennifer⋅Riese, David⋅Riese, David⋅Kinch, Michael and Kinch, MichaelMolecular Cancer Research, vol. 1, (no. 1), pp. 79, 20021101.
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Constitutively active ErbB4 and ErbB2 mutants exhibit distinct biological activitiesPenington, D.J.⋅Bryant, I. and Riese II, D.J.(pp. 247-256)
Constitutively active ErbB4 and ErbB2 mutants exhibit distinct biological activities.
Penington, Desi J⋅Bryant, Ianthe and Riese, David J
Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research, vol. 13, (no. 6), pp. 247-56, 2002/Jun. | Journal Article
ErbB2 and ErbB3 do not quantitatively modulate ligand-induced ErbB4 tyrosine phosphorylation.
Feroz, Kudsia⋅Williams, Eric and Riese, David J
Cellular signalling, vol. 14, (no. 9), pp. 793-8, 2002/Sep. | Journal Article
Functional Analysis of the ErbB4 Receptor Tyrosine Kinase
Riese, David J
2002. | Journal Article
Neuregulin isoforms exhibit distinct patterns of ErbB family receptor activation
Hobbs, Stuart S⋅Coffing, Stephanie L⋅Le, Ann T⋅Cameron, Elizabeth M⋅Williams, Eric E⋅Andrew, Michelle⋅Blommel, Erika N⋅Hammer, Robert P⋅Chang, Han and Riese, David J
Oncogene, vol. 21, (no. 55), pp. 8442-52, Dec 5, 2002. | Journal Article
2001
Design, Synthesis, and Biological Evaluation of a Series of Lavendustin A Analogues That Inhibit EGFR and Syk Tyrosine Kinases, as Well as Tubulin PolymerizationMu, Fanrong⋅Mu, Fanrong⋅Mu, F⋅Coffing, S L⋅Coffing, Stephanie L⋅Coffing, Stephanie L⋅Riese, David J⋅Riese, David J⋅Riese, D J⋅Geahlen, Robert L⋅Geahlen, R L⋅Geahlen, Robert L⋅Verdier-Pinard, P⋅Verdier-Pinard, Pascal⋅Verdier-Pinard, Pascal⋅Hamel, T E⋅Hamel, Ernest⋅Hamel, Ernest⋅Johnson, Jill⋅Johnson, Jill⋅Johnson, J⋅Cushman, Mark⋅Cushman, Mark and Cushman, Mark SJournal of Medicinal Chemistry, vol. 44, (no. 3), pp. 452, 20010201.
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Functional Analysis of the ErbB4 Receptor Tyrosine Kinase
Riese, David J
2001. | Journal Article
Functional Analysis of the ErbB4 Receptor Tyrosine Kinase
Riese, David J
2001. | Journal Article
2000
Ligand discrimination in signaling through an ErbB4 receptor homodimer.Sweeney, Colleen⋅Sweeney, Colleen⋅Lai, Cary⋅Lai, C⋅Riese, David J⋅Riese, David⋅Diamonti, A J⋅Diamonti, A.⋅Cantley, Lewis⋅Cantley, Lewis C⋅Carraway, K L and Carraway, KermitThe Journal of biological chemistry, vol. 275, (no. 26), pp. 19803-7, 2000/Jun/30.
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1998
Activation of ErbB4 by the bifunctional epidermal growth factor family hormone epiregulin is regulated by ErbB2.Riese, David J⋅Komurasaki, T⋅Plowman, G D and Stern, David FThe Journal of biological chemistry, vol. 273, (no. 18), pp. 11288-94, 1998/May/1.
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