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RLC ELC Myopathy Loop Actin-Binding Loop Helix- Loop- Helix Motor Domain Lever-Arm 50 kD Cleft Active Site Crystal Structure of Myosin S1 Lever Arm.

Published byKory Armstrong Modified over 8 years ago

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Presentation on theme: "RLC ELC Myopathy Loop Actin-Binding Loop Helix- Loop- Helix Motor Domain Lever-Arm 50 kD Cleft Active Site Crystal Structure of Myosin S1 Lever Arm."— Presentation transcript:

1 RLC ELC Myopathy Loop Actin-Binding Loop Helix- Loop- Helix Motor Domain Lever-Arm 50 kD Cleft Active Site Crystal Structure of Myosin S1 Lever Arm

2 Pi, ADP ATP Hydrolysis Structure/Function Relationships in Myosin Hydrolyze ATP Bind Actin Generate Powerstroke Coordinate Functions

3 Myosin: “A Whale of a Protein” Mouth Tail Blow Hole

4 Active Site - Actin-binding Cleft - Rigid Relay Loop - Lever-arm - along with converter domain coordinates active site and lever arm. generates powerstroke. Structure/Function Relationships in Myosin hydrolyzes ATP. mediates affinity for actin.

5 How Can the Details of Changes Be Established? Crystallograhy can provide some information about changes since myosin can be crystallized in different nucleotide states. However, to address DYNAMIC changes in the protein other methods are required which are 1) compatible with biological reaction conditions, 2) sensitive to structural changes, and3) have excellent temporal resolution. Fluorescence Spectroscopy

6 29 36 441 512 Skel. YLRKSPFDAKSSVFVVHPKES / EKM.FLWMVIRIN / KKEGIEWEFID Card. EAQTRPFDLKKDVFVPDDKQE / ERM.FNWMVTRIN / KKEGIEWTFID Dcty KLTVSDKRYIWYNPDPKERDS / GRL.FLWLVKKIN / LKEKINWTFID Smooth LAQA.DWSAKKLVWVPSEKHG / ERL.FRWILTRVN / QREGIEWNFID     F F F F 546 597 625 Skel. / ILEEECMFPKATD / DYNISGWLEKNK / KTLALLFATY... Card. / ILEEECMFPKATD / DYNIIGWLQKNK / KLLSTLFANY... Dicty / LLDEQSVFPNATD / MYEIQDWLEKNK / NVVTKLFND.... Smooth / LLDEECWFPKATD / TYNASAWLTKNM / KFVADLWKDVDRI    M F W

7

8 W546M V413W ELC Upper 50 kDa Subdomain Actin-Binding Cleft Lower 50 kDa Subdomain F425W

9 FHC – Familial Hypertrophic Cardiomyopathy Normal R413Q mutation

10 MAX (nm)  333 0.36 344 0.20 351 0.14 Steady-State Fluorescence Properties

11 K SV (M -1 ) k q (M -1 ·ns -1 ) 11.5 6.4 5.3 1.7 Acrylamide Quenching F 0 /F = 1 + K SV [Q]

12 Relative Fluorescence of 625 MDE Bound to Actin

13 Actin-Induced Conformational Changes 334 344 MAX (nm) 333 Trp625 - UnchangedTrp546 -adopts a more buried conformation

14 Actin Bound Fluorescence: ADP-Bound vs. Rigor 336 337 347 341 338 MAX

15 DHNBS Quenching: ADP-Bound vs. Rigor

16 Fluorescence from F425W-MDE in the absence of actin

17 Steady-State Fluorescence of F425W-MDE Nucleotide Bound Peak Intensity MAX K SV (M -1 ·ns -1 ) None 100% 338 4.1 ± 0.02 MgADP 97% 339 4.1 ± 0.02 MgATP 80% 345 5.7 ± 0.06

18 Cleft Conformational Changes A:M-ATP A:M-ADP A:M Weak Binding Cleft Closure Motor Domain Rotation Structural Model of Acto-Myosin Interactions W546 V413W F425W Actin

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