2.1: Motor Proteins

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Many proteins act as molecular motors using an energy source to move themselves or cargo in space. They create directed motion by coupling energy use to conformational change.

Motor Classes

Translational

Cytoskeletal motors that step along filaments (actin, microtubules)
Helicase translation along DNA

Rotary

ATP synthase
Flagellar motors

Polymerization

Cell motility

Translocation

DNA packaging in viral capsids
Transport of polypeptides across membranes

Translational Motors

Processivity

Some motors stay on fixed track for numerous cycles
Others bind/unbind often—mixing stepping and diffusion

Cytoskeletal motors

Used to move vesicles and displace one filament relative to another
Move along filaments—tracks have polarity (±)
Steps of fixed size

Classes

Dynein moves on Microtubules (+ → ‒)
Kinesin Microtubules (mostly ‒ → +)
Myosin Actin

Molecular Motors

We can make a number of observations about common properties of translational and rotational motor proteins.

Molecular motors are cyclical

They are “processive” involving discrete stepping motion
Multiple cycles lead to directional linear or rotary motion

Molecular motors require an external energy source

Commonly this energy comes from ATP hydrolysis
- ~50 kJ/mol or ~20 kBT or ~80 pN/nm
- ATP consumption correlated with stepping
Or from proton transfer across a transmembrane proton gradient

Protein motion is strongly influenced by thermal fluctuations and Brownian motion

Molecular motors work at energies close to kBT
Short range motions are diffusive—dominated by collisions
Inertial motion does not apply

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