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You have now created your individual project page.

--Mark Hill 09:15, 16 April 2009 (EST) You have not yet selected your individual project protein/method topic and still missing some homework items. 2009_Student#Individual_Projects Individual Projects

--Mark Hill 09:17, 19 March 2009 (EST) Thanks for the feedback! Just a minor correction, the inner nuclear cytoskeleton consists of the intermediate filament protein lamin not laminas.

--Mark Hill 08:24, 8 April 2009 (EST)All your homework is now up to date. Though "What I didn't understand is the significance of the overall process of exocytosis." is not really a concept. Lets see if it is still a problem for you after the ECM lecture.

Lecture 5

What I learnt in today's cell biology lecture on the nucleus is that the nucleus consists of both an internal and external cytoskeleton which help support and give the nuclear membrane its shape. The outer nuclear cytoskeleton is more random and less dense than the inner nuclear cytoskeleton, and involved in the translocation of the nucleus, while the the inner nuclear cytoskeleton is uniquely made up of intermediate filament protein lamins (type A's ,including A and C, and type B's, including B1 and B2), and is involved in the disassembly of the nuclear envelop whenever mitosis or meiosis occurs.

Lecture 4

What I didn't understand is the significance of the overall process of exocytosis.

Lecture 7

Energy is required when electrical conduction occurs in unmyelinated axons for either muscle contraction or neuronal synapses.

Sperm tail motility in spermatozoon and flagella motility in bacteria require copious amounts of energy to power up their mini motors.

Fibroblasts which play a continuous role in the growth and repair of stroma (extracellular matrix and collagen) also require infinite amounts of energy produced by near by mitochondria.

One last mention where mitochondrial energy is needed is at the plasma membrane, for import and export of substances, through various processes including that of active transport and reverse osmosis.

Lecture 8

Cell Adhesion Molecules (CAMs) family:

N-CAM = Neural Cell Adhesion Molecule

Ng-CAM = Neuron-glia Cell Adhesion Molecule

L-CAM = Liver Cell Adhesion Molecule

I-CAM = Intercellular Adhesion Molecule

Lecture 14

The two methods which bring about the use of confocal microscopy are laser scanning and spinning disc techniques.