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BioFlix Animations Tour Of An Animal Cell Slide Show
Copyright © 2007 Pearson Education, Inc., publishing as Pearson Benjamin Cummings
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Narration script: INTRODUCTION Even if you're just studying, a lot of work is going on in your cells.
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Skin cells Let’s zoom down and check it out.
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Membranes
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Extracellular matrix Plasma membrane MEMBRANES
We’ve arrived in the space between two cells. A sticky coat called the extracellular matrix holds the cells together. Each cell is surrounded by a flexible plasma membrane with an incredible number of projections, docking stations, and channels. Let’s dive into one of these channels to enter a cell. Plasma membrane
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Cytoskeleton
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Intermediate filament Cytoskeleton
Microfilament Microtubule Intermediate filament Cytoskeleton CYTOSKELETON Whoa—Look at this place! These girders and cables make up the cytoskeleton, the structural framework of the cell. They also serve as tracks for transporting cargo from one place to another.
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Mitochondria
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Inner membrane Mitochondrion Outer membrane ATP MITOCHONDRIA
All this activity in the cell requires energy in the form of ATP molecules, which are made here in the mitochondrion. Notice the outer membrane and the inner membrane with its numerous infoldings. Many of the molecules involved in making ATP are built into the inner membrane. All those folds increase the inner surface area, enabling more ATP to be made. ATP
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Nucleus and Ribosomes
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Nuclear envelope Nucleus Nuclear pore NUCLEUS AND RIBOSOMES
Moving towards the nucleus, we pass by layers of internal membranes. The nucleus is enclosed by a double membrane called the nuclear envelope. Let’s enter the nucleus through a pore.
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Protein DNA The nucleus houses the genetic material of the cell—DNA, which carries the blueprints for making the cell’s proteins. Almost two meters of DNA is crammed inside the nucleus. How does it all fit? The DNA is wrapped around proteins, like thread wrapped around spools.
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Protein (enzyme) involved in making mRNA
Look--This section of the DNA has unwound and a different protein has attached to the DNA. DNA is being used as a template to make mRNA. DNA mRNA
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Cytoplasm mRNA Nuclear pore Nuclear envelope
mRNA molecules travel from the nucleus to the cytoplasm, carrying the instructions for making specific proteins. Nuclear envelope
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mRNA Protein Ribosome In the cytoplasm, a ribosome clamps onto a strand of mRNA. The ribosome ratchets along the mRNA, building a new protein. Some proteins stay in the cytoplasm.
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Protein inside compartment
Others, like this one, are processed in special compartments within the cell.
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Endomembrane System
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Smooth ER Rough ER Ribosomes ENDOMEMBRANE SYSTEM
Protein processing and certain other metabolic activities occur in the endomembrane system, the cell’s network of internal membranes. The endoplasmic reticulum, or ER, is part of the endomembrane system. There are two types of ER: rough and smooth. Rough ER is covered with ribosomes. Smooth ER lacks ribosomes. Lipids are made in the smooth ER. Rough ER Ribosomes
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Protein being made inside ER
mRNA outside ER Ribosome outside ER Let’s go inside the rough ER. Note that you can still see the ribosome on the outside surface. The ribosome is manufacturing a new protein, which continues to grow inside the ER. Interior of rough ER
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Vesicle Completed proteins move to the edge of the rough ER and depart in a vesicle that buds off from the ER membrane. Rough ER
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Golgi apparatus Vesicle
Some vesicles fuse with the Golgi apparatus, another component of the endomembrane system. Golgi apparatus Vesicle
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Protein inside Golgi apparatus
In the Golgi, proteins undergo further processing.
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Vesicle Cytoskeleton Golgi apparatus
Finished proteins are then packaged in vesicles that pinch off from the Golgi and are transported along cytoskeleton tracks. Golgi apparatus
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Vesicle Plasma membrane Proteins
Some vesicles bind with the plasma membrane, secreting their contents outside the cell.
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Damaged mitochondrion
Lysosome Other vesicles, called lysosomes, contain digestive enzymes. Here, a lysosome fuses with a worn-out mitochondrion and breaks it down.
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ATPs Each of the trillions of cells in your body is a dynamo of activity, requiring millions of ATPs every minute.
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But most people are unaware of all this activity in their cells.
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