A fridge is like a Ribosome. A fridge has 1-5 doors, sometimes has a freezer attached to the fridge, on the inside it has shelves that you can put food on or drinks on and it will keep it cool. A fridge keeps the food cold and is a site of protein because you can put meat in it. In the cell Ribosomes has three round dots that is the site of protein production. A Ribosome is the site of protein production, it repairs damage, directs chemical processes, and is needed for many cell structures. The two Ribosome and fridge have similar functions and structures because they both have protein in them, they both are needed for many cells, and have direct chemical processes.
A door is like a cell membrane. A door has two knobs, a bunch of hinges,
…show more content…
A generator is like a Mitochondria. A generator is a large box that keeps the power running. A generator keeps the power running, creates energy, and is the powerhouse of something. In a cell the Mitochondria is round and peanut size and has the shape of a peanut. A mitochondria breaks down sugar, molecules into energy; Powerhouse of cell, creates energy, and it’s like a digestive system.The two generator and mitochondria have similar functions and structures because they have similar function and structures because they powerhouse of ,creates energy and power.
A pantry is like a vacuole. A pantry can be big or small any shape or size, it has shelves to hold all the food and bars to support the shelves and the weight of the food. A pantry stores food and protein,like cereal,and food that doesn't need to be refrigerated. A vacuole is round and oval shaped,it also stores food and protein it supports, protects, waste disposal, and helps growth. They are both very similar in many ways like that they both store food and protein and they both have storage and support.
A control room is like a
…show more content…
A control room is like a nucleus because it controls and monitors activities, brain of the cell, and sends “messages”. In a cell the nucleus is round and cylinder and has a smaller circle in the middle. The nucleus controls most cell activities and is the brain of the cell. The two control room and nucleus have similar functions and structures because they both control and monitors activities, sends “message”, brain of cell, monitors everything.
A Column is like a cytoplasm. A Column are cylinder and can be decorated however. Columns support the building and are sometimes used as a decoration. Cytoplasms is a jelly like material that in the inside of the cell.The cytoplasm fills a cell and is made of water and salt. The cytoplasm contains cell parts. The job of the cytoplasm is that it supports and protects cell organelles, and it suspends organelles. A wall is like a centriole. A wall is tall and wide and divides different sections, like a room. In a cell the centriole is a round structure and it helps with cell divides, helps the formation, just like a wall. Centriole also separate the chromosomes and helps the formation of spindle fibers.The Centriole and wall both divide, protect, separate, and support. The way they protect is that they block the wind from coming inside a house or any building for humans. The way they support is that the walls help keep up the next floor in a
The building of the grocery store is like the cell membrane, because it gives it structure and keeps everything inside safe. The security guard of the front door in the grocery store is like the cell membrane, because it says what can come in and out of the cell. The boss of the store is like the nucleus, because they tell the employes what to do and what needs to be done. The floors of the grocery store is like the cytoplasm, because it hold everything in it place, where it need to be. The illes in the store is
Cytoplasm is a jelly-like fluid inside the cell in which the organelles are suspended. All life activities except reproduction happen here. In a basketball stadium the fans are like cytoplasm in a plant cell. The fans are like cytoplasm because they are all over the stadium like cytoplasm is all over the plant cell. This is how cytoplasm is like the fans because they both are all around the
Cell Wall-Shell of Sub.The cell wall is alike to the outer shell of the submarine. The cell wall is a rigid wall found only in plant cells that protects the cell while being unregulated or inactive with allowing things in and out where the cell membrane is active. It is made up of cellulose and protects the cell from implosion during osmosis. The cell wall works with the vacuole to help support the plant. In the submarine the cell wall acts as the outer shell. It protects the cell from outside dangers such as other missiles, radar and ships while allowing supplies or divers to come in. The cell wall and outer shell are similar because they both offer a layer of protection from other elements outside of the cell but they still allow, inactively products to come inside of their walls.
parts, and each part has its own job. The nucleus of a cell is very similar
The nucleus contains genetic material that controls all the activities within a cell. A nucleus is made up of D...
The mitochondria produces food for the cell by converting energy the cell needs. The mitochondria and the nucleus are two organelles within a cell that have many of the same similarities. Both organelles are made of two membranes. These layers isolate within the organelle all things considered, yet have protein channels that permit things to go in and out. Both contain DNA material that conveys qualities that encode for proteins. Both have qualities that make ribosomes, the machines that read the guidelines in RNA to make
This article intends to educate the reader on how exactly proteins function and their structure and how the various components of proteins work together to create one cohesive unit. This passage focuses on the spatial arrangement of proteins emphasizing its importance as key to understanding how exactly proteins work.
The Nucleus and The Supreme Court The use of an analogy is a unique way to articulate how an object's or a system's structure relates to its functions. Explaining the structure and function of a nucleus, a membrane bound structure that contains the cell's hereditary information and controls the cell's growth and reproduction, can be a bit complex (Bailey, 2018). However, replacing your original learning objective with analogy provides a simplistic way of learning complex information. For example, if someone compares the nucleus, an organelle of a cell, to the Supreme Court it can cause him to grasp and understanding of its importance he may not have realized.
Cells are able to grow and reproduce. Cells reproduce by splitting and passing on their genes (hereditary information) to Daughter cells. The nucleus always divides before the rest of the cell divides. Therefore each daughter cell contains their own nucleus. The nucleus controls the cells activities through the genetic material DNA. The cells in a body are all the same except the gametes they were all made from one cell, the Zygote. This is the cell that was formed when two gametes from your parents fused.
Cells can get energy from the environment but a lot of energy they obtain is not in working form. Cellular organelles, for instance mitochondria, take energy from the environment and change them into a useable energy source. Mechanical and organic functions can be carried out in animals because of the energy that the cells create. The major structures of Specimen A’s eukaryotic cell are the plasma membrane, the Golgi complex, the nucleus, which usually holds the nucleolus, nuclear envelope, nuclear pores, the endoplasmic reticulum (rough and smooth), lysosomes, mitochondria, peroxisomes, microfilaments, microtubules, cilia, and the
Lysosome contains chemicals that breakdown food particles and worn out cell parts like a recycling bin contains waste.
The mitochondria is an organelle which is generally an oval shape and is found inside the cytoplasm and is again apart of the eukaryotic cells. The main function of the mitochondria is to complete cellular respiration; in simple terms it acts like a digestive system to break down essential nutrients and to convert it into energy. This energy is usually found to in ATP which is a rich molecule taken from the energy stored in food. Furthermore, mitochondria stores calcium for signalling activities; such as heat, growth and death. They have two unique membranes and mitochondria isn’t found in human cells like the red blood cells yet liver and muscle cells are filled entirely with mitochondria.
The amount of information encoded by the genes within a cell is enormous, although some will never be expressed while others occasionally during its life cycle. For example some genes that encode for ribosomal RNA are being expressed continuously because they are responsible with the formation of proteins in the cell’s cytoplasm. Specific RNA molecules and proteins are expressed in all cells at all times, their genes going under the name of housekeeping genes. They are responsible with the maintenance of the cells and can aid geneticists recognize their function (Brown, 2011).
The Animal Cell is a little bit different than the Plant Cell for only a couple of reasons. One is how the Plant Cell has a cell wall and the Animal Cell doesn’t. The cell wall protects and gives structure to the cell. Then there is the Nucleus, which serves as a control center for the cell. Inside the Nucleus there are one or more Nucleoli. They are dense, granular bodies that disappear at the beginning of cell division and reappear at the end. Then you have the Cytoplasm. This is the watery material lying within the cell between the cell membrane and the nucleus. The Cytoplasm also contains organelles, which have specific functions in the cell metabolism. Then there are the Golgi Bodies, which serve as processing, packaging, and storage for the cell. These organelles package and ship things out. Another parts of the cell, a very important one in fact, are the Lysosomes. These organelles are used to break things down and contain enzymes.
This report provides an insight into the differences in the structure of cells and the way that they carry out their internal mechanisms. Cells form the basis of all living things and they are the smallest single unit of life. Cell biology is the study of cells and how they function, from the subcellular processes which keep them functioning, to the