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Structure and function in mitochondria essay
Essay on functions of mitochondria
Structure and function in mitochondria essay
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Mitochondria are the sites of cellular respiration. By the process of diffusion oxygen enters the cells from the blood or from the surroundings. Mitochondria that are present inside the cell use this oxygen for respiration and energy production. Mitochondria are therefore called the powerhouses of a cell. Mitochondria are absent in prokaryotes. In these organisms cell membranes take care of energy reduction in similar reactions due to the extremely small size mitochondria cannot be seen with an ordinary microscope. However, they can be viewed under an electron microscope, a microscope with high magnification and resolution, employing electron beams in place of light and using electron lenses. Mitochondria are fat like structures present in
Exploring the Ways in Which Organisms Use ATP The major energy currency molecule of the cell, ATP, is evaluated in the context of creationism. This complex molecule is critical for all life from the simplest to the most complex. It is only one of millions of enormously intricate nanomachines that needs to have been designed in order for life to exist on earth. This molecule is an excellent example of irreducible complexity because it is necessary in its entirety in order for even the simplest form of life to survive.
Hello everyone. Today for my speaking assignment, I will be speaking to you all about the mitochondrion because I don’t know what else to talk about. For the first part, I am just going to summarize what I know and won’t be going in depth with it as much. Anyways, as most people know, the mitochondrion is the powerhouse of the cell. Mitochondrion is singular while the plural version is mitochondria, which is the one people tend to say and it’s not wrong either way. It is an organelle found in most eukaryotic cells. In 1890, it was discovered by German pathologist Richard Altmann and was called “bioblast” at the time. People also were very skeptical at the time about his findings of the granules and even harshly criticized Altmann until the
The mitochondria has an eggshape structure. The mitochondria consists of an inner and outer membrane. The outer membrane is what shapes the organelle to its egglike shape. The inner membrane which folds inward makes a set of "shelves" or cristae that allow the reactions of the mitochondria to take place. The more the mitochondria makes these reactions the more the inner membrane folds.
Do you know how you are able to run long distances or lift heavy things? One of the reasons is cellular respiration. Cellular respiration is how your body breaks down the food you’ve eaten into adenosine triphosphate also known as ATP. ATP is the bodies energy its in every cell in the human body. We don’t always need cellular respiration so it is sometimes anaerobic. For example, when we are sleeping or just watching television. When you are doing activities that are intense like lifting weights or running, your cellular respiration becomes aerobic which means you are also using more ATP. Cellular respiration is important in modern science because if we did not know about it, we wouldn’t know how we are able to make ATP when we are doing simple task like that are aerobic or anaerobic.
Overview of Cellular Respiration and Photosynthesis Written by Cheril Tague South University Online Cellular Respiration and Photosynthesis are both cellular processes in which organisms use energy. However, photosynthesis converts the light obtained from the sun and turns it into a chemical energy of sugar and oxygen. Cellular respiration is a biochemical process in which the energy is obtained from chemical bonds from food. They both seem the same since they are essential to life, but they are very different processes and not all living things use both to survive ("Difference Between Photosynthesis and Cellular Respiration", 2017). In this paper I will go over the different processes for photosynthesis and the processes for cellular respiration and how they are like each other and how they are essential to our everyday life.
Humans, and all animals, use adenosine triphosphate (ATP) as the main energy source in cells. The authors of Biological Science 5th edition said that “In general, a cell contains only enough ATP [adenosine triphosphate] to last from 30 seconds to a few minutes”. It is that way “Because it has such high potential energy, ATP is unstable and is not stored”. They also state that “In an average second, a typical cell in your body uses an average of 10 million ATP molecules and synthesizes [makes] just as many”. In the human body trillions of cells exist. The average human body uses and makes 10,000,000,000,000,000 molecules of ATP every second. In one minute the human body uses 600,000,000,000,000,000 molecules of ATP. In one day the human body uses 864,000,000,000,000,000,000 molecules of ATP. In one year, this is equivalent to 365.25 days; the average human body uses and makes a huge amount, 315,576,000,000,000,000,000,000 molecules of ATP. For this example one mile is equal to one molecule of ATP. Light travels at approximately 186,000 mi/sec. It would take light roughly 53,763,440,860 years to travel that many miles. The sheer amount of ATP made in the cells of people is amazing! This essay will explain somewhat the main way of making all of those ATP molecules in aerobic organisms, aerobic cellular respiration. There are four steps that take place in aerobic cellular respiration, and they are: 1.Glycolysis; 2. Pyruvate Processing; 3. Citric Acid Cycle; 4. Electron Transport and Oxidative Phosphorylation (Allison, L. A. , Black, M. , Podgoroski, G. , Quillin, K. , Monroe, J. , Taylor E. 2014).
They have no nuclei or mitochondria in human cells, which means their small size can fit through very small capillaries. They are produced in the bone marrow (since they cannot reproduce as they have no DNA from mitochondria and nucleus). They contain hemoglobin, an iron-rich protein, which attracts oxygen. This makes it easy for red blood cells to obtain oxygen, and then transport it to the tissue in the body through the bloodstream. They also pull out carbon dioxide from the blood stream, and transport it to the lungs to be breathed out.
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
Cellular respiration is the ability of a cell in an organism to metabolize chemicals in the production of adenosine triphosphate (ATP), the main energy molecule of the cell. There are two forms of cellular respiration. Chemotrophic respiration, which is used by animals and phototrophic respiration (a.k.a. photosynthesis) used by plants and fungi. Chemotrophic respiration requires oxygen to efficiently make ATP and gives off carbon dioxide as a waste product. Photosynthesis requires carbon dioxide and gives off oxygen as a waste product. Further analysis of these two types of respiration will show why these processes are related and how they differ.
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.
Mitochondria are small granular or filamentous bodies which are called the power house of the cell. They are associated with cellular respiration and are the sources of energy. In 1850, the German biologist Rudolph Kolliker first observed mitochondria as granular structures in striated muscle [Powar, C.B. 2010; Albert et al. 2010]. In 1898, the scientist Benda developed the crystal violet staining technique and called the structures mitochondria. The average length of the mitochondrion is 3-4 microns and the average diameter 0.5 to 1.0 micron. In muscles, most of the mitochondria are 2-3 microns long. Mitochondria have different shapes. The number of mitochondria is different in different types of cells of different organs. They are distributed evenly in the cytoplasm. In sperms they are present in tail, in muscles they lie between the myofibrils. Mitochondria may move freely in some cells. Where ever ATP required. Movement is less in animals than plants. In plants they change their shape and volume [Powar, C.B. 2010; Albert et al. 2010].
From my reading I learned that cellular respiration is a multi-step metabolic reaction type process that takes place in each living organism 's cell rather it be plant or animal. It’s my understanding that there are two types of cellular respiration, one called aerobic cellular respiration which required oxygen and anaerobic cellular respiration that does not require oxygen. In the anaerobic cellular respiration process, unlike the aerobic process oxygen is not required nor is it the last electron acceptor there by producing fewer ATP molecules and releasing byproducts of alcohol or lactic acid. The anaerobic cellular respiration process starts out exactly the same as anaerobic respiration, but stops part way through due to oxygen not being
In many cells there is a the nucleus, which was first described by Robert Brown. If a cell does or does not have a nucleus has been used by scientists to divide cells into two general categories. The two categories are Eukaryotics, which are cells with a nucleus, and Prokaryotic, which are cells without a nucleus. The nucleus has been found to be the information center of the cell and contains DNA. It also directs all activities that occur in a living cell. It’s like a mini me of the heart and brain of a human body.
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
A second key part of a cell is called the cell nucleus. It’s known as the commanding cell. It is the brain of the cell. It controls the eating, movement and reproduction throughout the cell. Not all cells have a nucleus. There’s the eukaryotic that does have a nucleus and the prokaryotic that doesn’t have a nucleus. Its dark spot in the middle of the cell, it doesn’t get placed on the sides of the cell because it can harm the nucleus.