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607285
Actin & Cell Motility and Muscle Contraction
Description
biosci 201 (lecture 3) Mind Map on Actin & Cell Motility and Muscle Contraction, created by nfnabilah_14 on 06/03/2014.
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biosci 201
lecture 3
Mind Map by
nfnabilah_14
, updated more than 1 year ago
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nfnabilah_14
almost 11 years ago
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Resource summary
Actin & Cell Motility and Muscle Contraction
Cytoskeleton
Microtubules
Microfilaments
Intermediate filaments
Actin
Globular actin
Filament actin
The structure of actin and actin filaments
form bundles & network
Bundles
Networks
both B&N maintained by proteins that link them together
other proteins bind them to membranes
play in movement within cell
assembly/disassembly of filaments
trades for movement of motor protein
Branching of actin filaments and cell movement
Polymerisation of G-actin
Nucleation
Elongation
Steady state
preferential polymerisation at the (+) end
depolymerisation at the (-) end
Role of accessory protein in actin assembly
Profilin
recharge ADP-G-actin to ATP-G-actin to ATP-F-actin
Actin-related protein
Branching of actin daughter filaments
Gelsolin/cofilin
actin-severing proteins 'breaking' the actin filaments & capping the (+) end
Cell movement
Chemotaxis
Extension of lamellipodia
Adhesion of lamellipodia
Flow of cytosol
Retraction of the rear of the cell
happens because of actin polymerisation & depolymerisation
Motility of myosin motor proteins on actin filaments
Myosin head properties
ATP hydrolysis --> movement of myosin along an actin filament
hydrolysis of ATP generates 'power stroke' --> moves myosin
The contractile apparatus of muscle
Interaction of myosin and actin --> contraction of muscle
muscle cells has repeating arrays of filament bundles (sarcomere)
Actin filaments (thin)
Myosin filaments (thick)
The sliding filament model shows myosin pulls actin filaments towards the centre of sarcomere
Regulation of striated and smooth muscle contraction
Media attachments
lec_3.PNG (image/PNG)
lec_3_1.PNG (image/PNG)
lec_3_2.PNG (image/PNG)
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