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Molecular Motors Jean V Bellissard Georgia Institute of Technology School of Physics Fall 2015.

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Presentation on theme: "Molecular Motors Jean V Bellissard Georgia Institute of Technology School of Physics Fall 2015."— Presentation transcript:

1 Molecular Motors Jean V Bellissard Georgia Institute of Technology School of Physics Fall 2015

2 Cell Activity

3 Molecular Motors Fuel: Adenosine Triphosphate (ATP) is the cellular source food Engine: proteins using the ATP to move How far do they move? 1.few microns in typical cells 2.about a meter along nerves Efficiency: how come they operate at about 100% efficiency ? (!!!)

4 Myosin-Actin in muscle cells

5 Kinesin-Microtubule in cells

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7 Dynein-Microtubule in cells

8 Kinesin-microtubule experiments P.R. Selvin’s group (U. Illinois, Urbana-Champaign) led a series of experiments between 2002-07 to measure the movement of the kinesin. The protein is walking like a human being. Steps are 8.3 nm long

9 A light microscope cannot discriminate a distance less than 250nm! A new technique called Fluorescence Imaging with One Nanometer Accuracy was developed (FIONA, Ahmet Yildiz). FIONA has a spatial resolution of 1.5nm!! Myosin, kinesin and dynein move in hand-over- hand fashion, namely they walk! Kinesin-microtubule experiments

10 Kinesin-microtubule modeling

11 Adenosine-triphosphate (ATP)

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13 ATP  ADP, AMP hydrolysis (P i =phosphate, Ppi=pyrophosphate) ATP + H 2 O → ADP + P i ΔG˚ = −30.5 kJ/mol (−7.3 kcal/mol) ATP + H 2 O → AMP + PP i ΔG˚ = −45.6 kJ/mol (−10.9 kcal/mol)

14 Adenosine-triphosphate (ATP) Living cells maintain the ratio of ATP to ADP at a point ten orders of magnitude from equilibrium, with ATP concentrations fivefold higher than the concentration of ADP. The hydrolysis of ATP in cells release a large amount of free energy  =  ATP -  ADP -  P is large  10k B T (non-linear regime) [exp(-  /k B T)=e -10 ] f ext =external force (friction, cargo) r = ATP consumption rate, v = velocity of the protein

15 Microtubules are rigid, periodic with period  10nm, polar, asymmetric. Fastest motor characteristic time O(1ms). Return to equilibrium time O(100ns). Local equilibrium approximation applies. Each protein molecule can be in at least 2 states depending upon the presence of ATP. Protein-microtubule modeling

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17 Ratchet model

18 Protein-microtubule modeling

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