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Results: 1-13 |
Results: 13
DIFFERENTIAL ISOTOPE LABELING STRATEGY FOR DETERMINING THE STRUCTURE OF MYRISTOYLATED RECOVERIN BY NMR-SPECTROSCOPY
Authors: TANAKA T AMES JB KAINOSHO M STRYER L IKURA M
Citation: T. Tanaka et al., DIFFERENTIAL ISOTOPE LABELING STRATEGY FOR DETERMINING THE STRUCTURE OF MYRISTOYLATED RECOVERIN BY NMR-SPECTROSCOPY, Journal of biomolecular NMR, 11(2), 1998, pp. 135-152
NMR-STUDIES OF CALCIUM-BOUND RECOVERIN CONTAINING A POLAR MYRISTOYL ANALOG
Authors: AMES JB GORDON JI IKURA M STRYER L
Citation: Jb. Ames et al., NMR-STUDIES OF CALCIUM-BOUND RECOVERIN CONTAINING A POLAR MYRISTOYL ANALOG, The FASEB journal, 11(9), 1997, pp. 621-621
MOLECULAR MECHANICS OF CALCIUM-MYRISTOYL SWITCHES
Authors: AMES JB ISHIMA R TANAKA T GORDON JI STRYER L IKURA M
Citation: Jb. Ames et al., MOLECULAR MECHANICS OF CALCIUM-MYRISTOYL SWITCHES, Nature, 389(6647), 1997, pp. 198-202
LATERAL SELF-ASSEMBLY OF E-CADHERIN DIRECTED BY COOPERATIVE CALCIUM-BINDING
Authors: ALATTIA JR AMES JB PORUMB T TONG KI HENG YM OTTENSMEYER P KAY CM IKURA M
Citation: Jr. Alattia et al., LATERAL SELF-ASSEMBLY OF E-CADHERIN DIRECTED BY COOPERATIVE CALCIUM-BINDING, FEBS letters, 417(3), 1997, pp. 405-408
NMR-STUDIES OF CALCIUM-BOUND RECOVERIN CONTAINING A POLAR MYRISTOYL ANALOG
Authors: AMES JB TANAKA T GORDON JI IKURA M STRYER L
Citation: Jb. Ames et al., NMR-STUDIES OF CALCIUM-BOUND RECOVERIN CONTAINING A POLAR MYRISTOYL ANALOG, Biophysical journal, 72(2), 1997, p.
PORTRAIT OF A MYRISTOYL SWITCH PROTEIN
Authors: AMES JB TANAKA T STRYER L IKURA M
Citation: Jb. Ames et al., PORTRAIT OF A MYRISTOYL SWITCH PROTEIN, Current opinion in structural biology, 6(4), 1996, pp. 432-438
NMR EVIDENCE FOR CALCIUM-INDUCED EXTRUSION OF THE MYRISTOYL GROUP OF RECOVERIN
Authors: AMES JB TANAKA T IKURA M STRYER L
Citation: Jb. Ames et al., NMR EVIDENCE FOR CALCIUM-INDUCED EXTRUSION OF THE MYRISTOYL GROUP OF RECOVERIN, The FASEB journal, 10(6), 1996, pp. 2271-2271
NMR EVIDENCE FOR CALCIUM-INDUCED EXTRUSION OF THE MYRISTOYL GROUP OF RECOVERIN
Authors: AMES JB TANAKA T IKURA M STRYER L
Citation: Jb. Ames et al., NMR EVIDENCE FOR CALCIUM-INDUCED EXTRUSION OF THE MYRISTOYL GROUP OF RECOVERIN, Biophysical journal, 70(2), 1996, p.
3-DIMENSIONAL SOLUTION STRUCTURE OF MYRISTOYLATED RECOVERIN - IMPLICATIONS FOR THE MECHANISM OF THE CALCIUM-MYRISTOYL SWITCH
Authors: AMES JB TANAKA T STRYER L IKURA M
Citation: Jb. Ames et al., 3-DIMENSIONAL SOLUTION STRUCTURE OF MYRISTOYLATED RECOVERIN - IMPLICATIONS FOR THE MECHANISM OF THE CALCIUM-MYRISTOYL SWITCH, The FASEB journal, 9(6), 1995, pp. 1385-1385
SEQUESTRATION OF THE MEMBRANE-TARGETING MYRISTOYL GROUP OF RECOVERIN IN THE CALCIUM-FREE STATE
Authors: TANAKA T AMES JB HARVEY TS STRYER L IKURA M
Citation: T. Tanaka et al., SEQUESTRATION OF THE MEMBRANE-TARGETING MYRISTOYL GROUP OF RECOVERIN IN THE CALCIUM-FREE STATE, Nature, 376(6539), 1995, pp. 444-447
AMINO-TERMINAL MYRISTOYLATION INDUCES COOPERATIVE CALCIUM-BINDING TO RECOVERIN
Authors: AMES JB PORUMB T TANAKA T IKURA M STRYER L
Citation: Jb. Ames et al., AMINO-TERMINAL MYRISTOYLATION INDUCES COOPERATIVE CALCIUM-BINDING TO RECOVERIN, The Journal of biological chemistry, 270(9), 1995, pp. 4526-4533
NUCLEAR-MAGNETIC-RESONANCE EVIDENCE FOR CA2-INDUCED EXTRUSION OF THE MYRISTOYL GROUP OF RECOVERIN()
Authors: AMES JB TANAKA T IKURA M STRYER L
Citation: Jb. Ames et al., NUCLEAR-MAGNETIC-RESONANCE EVIDENCE FOR CA2-INDUCED EXTRUSION OF THE MYRISTOYL GROUP OF RECOVERIN(), The Journal of biological chemistry, 270(52), 1995, pp. 30909-30913
SECONDARY STRUCTURE OF MYRISTOYLATED RECOVERIN DETERMINED BY 3-DIMENSIONAL HETERONUCLEAR NMR - IMPLICATIONS FOR THE CALCIUM MYRISTOYL SWITCH
Authors: AMES JB TANAKA T STRYER L IKURA M
Citation: Jb. Ames et al., SECONDARY STRUCTURE OF MYRISTOYLATED RECOVERIN DETERMINED BY 3-DIMENSIONAL HETERONUCLEAR NMR - IMPLICATIONS FOR THE CALCIUM MYRISTOYL SWITCH, Biochemistry, 33(35), 1994, pp. 10743-10753
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