Did you know that your body is composed of approximately 37.2 trillion cells? That's a whole lot! After reading that fact, you're probably wondering why we consist of so many cells, and that's because each cell has a specific function. While some cells work to send signals to your brain, others help digest food, filter urine, pump blood, and much more!
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A cell is composed of multiple membrane-bound structures called organelles, which each have specific structures and functions to allow the cell to carry out its daily processes. For a brief overview of organelles and what they do, check out
this guide!
So, you might be wondering, what are the different types of organelles in our cells? How do they look? More importantly, how do they help our cells? In the table below, we'll summarize each cell part, along with its structure and function. In order to make the memorization process easier for you, the table also relates each organelle to different parts of a restaurant that help it function!
Cell Part | What Type of Cell is it Found in? | Structure | Function | Analogy to a Restaurant |
Nucleus | Animal and plant cells | Double membrane; contains small pores to allow mRNA to pass-through | Control center of the cell- stores DNA ๐งฌ | Manager ๐ย |
Mitochondria | Animal and plant cells | Double membrane; the inner membrane is folded into cristae | Powerhouse of the cell- produces ATP โก | Stove ๐ณ |
Endoplasmic Reticulum | Animal and plant cells | Membrane studded with ribosomes (rough) or without ribosomes (smooth) | Produces proteins (rough) or lipids (smooth) ๐จ | Kitchen ๐ด |
Golgi Apparatus | Animal and plant cells | Combination of vesicles and membranes; found near the cell membrane | Sorts, stores, and prepares products ๐ฆ | Waiters ๐ |
Vacuole | Plant cells | Fluid-filled sac surrounded by a membrane | Stores water and other excess fluids ๐ฐ | Fridge ๐ง |
Chloroplast | Plant cells | Double membrane; contains stacked discs called thylakoids | Photosynthesis occurs here ๐ฑ | Solar Panels on Roof ๐ค |
Cell Wall | Plant cells | Outer membrane; made of cellulose | Provides additional structure and support โ | Walls of the Restaurant ๐ง |
Cell Membrane | Prokaryotes and eukaryotes | Phospholipid bilayer with amphipathic proteins | Regulates what goes in ๐ and out ๐of the cell | Front Door ๐ช |
Lysosome | Animal cells | Membrane sac full of enzymes; break down molecules using water | Facilitates the breaking of bigger molecules ๐ | Janitor ๐งผ |
Ribosomes | Prokaryotes and eukaryotes | Subunit made of RNA and protein | Site of protein synthesis and translation ๐๏ธ | Chefs ๐จโ๐ณ |
Cytoplasm | Prokaryotes and eukaryotes | Gel-like fluid; fills entire cell | Stores all of the organelles in a cell ๐ช | Dining Room ๐ |
Cytoskeleton | Prokaryotes and eukaryotes | Composed of microtubules and various filaments | Provides structure and helps in transport ๐ | Building ๐จ |
Be sure to check out
this video if you need a more in-depth refresher on the structures and functions of cellular components.
Now that we've briefly discussed cellular components and what they do, let's get into more detail. While all organelles play essential roles in the cell, you must remember more information about some specific ones covered below.
The nucleus contains a cell's deoxyribonucleic acid, or DNA, in a double helix structure. DNA contains the blueprints for all the proteins that allow our body to function; however, the processes of transcription and translation must occur for our bodies to use this DNA later. Transcription occurs within the nucleus, while translation occurs outside of it. The nucleus involves itself in these processes by providing a barrier between DNA and the rest of the cell. When this DNA moves outside of the nucleus, it must translate into mRNA and then leave through the nuclear membrane's pores.
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The endoplasmic reticulum (ER) is a membrane found inside the cell, which has multiple folds called lumen. There are two different types of endoplasmic reticulum: the smooth ER and the rough ER.
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Smooth ER is referred to as โsmoothโ because nothing covers its surface. The smooth endoplasmic reticulum makes lipids and steroids, and these molecules are vital in storing energy and upholding the membrane of a cell. The smooth ER also aids the cell and body in getting rid of toxins.
Unlike smooth ER, rough ER is described as โroughโ because ribosomes stud its surface. Because of this particular feature, the rough endoplasmic reticulum is in charge of creating proteins. These proteins have different signals attached to them, telling them whether they will stay part of the cell membrane or be expelled.
The Golgi apparatus helps pack and prepare membranes for transport.
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There are four different paths that a protein can take when it reaches the Golgi apparatus:
The protein can go back to the cytosol. Typically, this path is for proteins sent to the Golgi apparatus by the endoplasmic reticulum accidentally.
The protein can go to the cell membrane. This path causes the vesicle to form and fuse with the cell membrane.
The protein can be secreted. There has to be a specific amount of vesicles for this secretion to occur, and a signal must be sent.ย
The protein can go to the lysosome. When this path occurs, the vesicle will use its enzymes to break down the lysosome using water.
The lysosome is spherical in shape, and it is full of enzymes that break down molecules that cross the membrane using water. Lysosomes only function at a pH of 5, meaning that the area they occupy outside the cell is more acidic than its optimal pH of 7.
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Mitochondria produce adenosine triphosphate or ATP, which is the cell's primary energy source. The cell goes through cellular respiration, which first begins in the cytoplasm and then takes place in the mitochondria, to create ATP. Therefore, mitochondria are vital in creating and providing energy to all of the cells within our body.
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In this article, we discussed cells and the specific functions of their organelles. To review this material, check out
this fantastic study guide! Good luck studying! ๐
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