Cellular Respiration Essay
Cellular Respiration Research Paper
Photosynthesis And Cellular Respiration Essay
What Is Cellular Respiration?
Conclusion Of Cellular Respiration
Cellular Respiration
Cellular Respiration Paper
What´s Cellular Respiration?
Cellular Respiration
A Research Study On Cellular Respiration Essay
Cellular Respiration Essay
How Cellular Respiration Is Important? Essay
Biology: Cellular Respiration
Cellular Respiration
We All Need Some Cellular Respiration Essay
Biology: Cellular Respiration
Essay on Aerobic Cellular Respiration
Synthesis Of Cellular Respiration
Cellular Respiration
When Quality Assurance Meets Innovation in Higher Education - Report launch w...
Cellular Respiration Essay
1. Cellular Respiration Essay
Cellular respiration is a sequence of three metabolic stages. Stage one is glycolysis and occurs in
the cytoplasm. Stages two and three occur in the mitochondria and are respectively called the Krebs
cycle and the electron transport chain. Both autotrophs and heterotrophs use these metabolic stages
to produce the energy required to grow, reproduce and undertake maintenance, in the form of ATP
(Flinders University , 2018). A step in the Krebs cycle can see an enzyme catalysed conversion of
succinate to fumarate where an electron is transferred from one complex to another, a redox reaction
(Knox, et al., n.d.). Substrate concentration is a variable used to increase the rate of a reaction. It is
a limiting factor however, up until a certain point,...show more content...
Flinders University , 2018. Biology Molecular Basis of Life: General Information and Laboratory
Manual. Adelaide : College of Science and Engineering.
Hancock, C. N., Wei Liu, W., Alvord, G. & Phang, J. M., 2016. Amino Acids. Co
–regulation of
mitochondrial respiration by proline dehydrogenase/oxidase and succinate, 48(3), pp. 859–872.
Jones, A. E. & H., G., 1963. Oxidation of succinate and the control of the citric acid cycle in the
mitochondria of guinea–pig liver, mammary gland and kidney. Biochemical Journal, 87(3), p.
639–648.
Knox, B., Ladiges, P., Evans, B. & Saint, R., n.d. Biology: An Australian Focus. 5th Edition ed.
North Ryde(New South Wales): McGraw Hill Australia PTY LTD.
Qquagliariello, E. & Palmieri, F., 1968. Control of Succinate Oxidation by Succinate‐Uptake by
Rat‐Liver Mitochondria. European Journal of Biochemistry, Volume 4(1), pp. 20
–27.
Uddin, N., 2012. Enzyme Concentration, Substrate Concentration and Temperature based Formulas
for obtaining intermediate values of the rate of enzymatic reaction using Lagrangian polynomial.
International Journal of Basic and Applied Sciences, 1(3), pp.
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2. Cellular Respiration Research Paper
Cellular Respiration Essay
Lia Valner
New Community Jewish High School
Biology Period B
Mrs. Tarle
February 9, 2015
The three main phases that are involved in the cellular respiration process are glycolysis, the
Krebs cycle and the electron transport chain. First, glucose enters a chemical pathway, known as
glycolysis and it occurs in the cytoplasm of the cell. Only a small amount of energy is captured to
produce ATP in this stage. Glycolysis has two benefits to it; it can produce ATP quickly and it
doesn't require oxygen. Glycolysis is known as "sugar breaking." The difference between aerobic and
anaerobic is that anaerobic does not require oxygen and aerobic does. Glycolysis is known to be
anaerobic which...show more content...
In order to convert ADP into ATP the electron transport chain must use the high
–energy electrons
from glycolysis and the Krebs cycle. Oxygen is the last electron acceptor of the electron transport
chain and is crucial for getting rid of low energy electrons and hydrogen ions, which are the wastes
left from cellular respiration. With out oxygen, the electron transport chain would be unable to
function. In the process of the electron transport, H+ ions build up in the inter membrane which
creates a positively charged similar to the matrix. The cell uses a process, chemiosmosis that
produces ATP, similar to photosynthesis. Each time a combination of high
–energy electrons move
down the electron transport chain, that energy is used to move H+ ions to the other side of the
membrane. In total, glycolysis, the Krebs cycle, and the electron transport chain release around 36
molecules of ATP per molecule
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3. Photosynthesis And Cellular Respiration Essay
Photosynthesis and Respiration
Photosynthesis and Cellular respiration are essential for life on earth. They are connected;
Photosynthesis makes glucose and oxygen which are then used in cellular respiration to produce
ATP. The wastes of one process are the reactants for the other. Photosynthesis is the process of
converting light energy into chemical energy. It takes place in the chloroplast of a plant. Pigments
have the ability to absorb specific wavelengths of light. Different species perform photosynthesis
differently, but only light absorbed by the photopigments can be used for photosynthesis.
Chlorophyll a is the most abundant photosynthetic pigment in a plant; best absorbs wavelengths of
430 nm which is blue and 662 nm which is red ("Pigments," n.d.). Elodea Canadensis is a water plant
that can perform photosynthesis. Elodea is green, meaning that chlorophyll did not absorb the green
portion of the light spectrum. The color green...show more content...
Some cells use aerobic respiration in the presence of oxygen while others use anaerobic respiration,
also known as fermentation, in the absence of oxygen. Anaerobic respiration produces fewer ATP
molecules than aerobic respiration. Saccharomyces cerevisiae is a type of yeast that can use either
aerobic or anaerobic respiration depending on their oxygen availability. Saccharomyces cerevisiae
has been essential to baking and wine production. Since carbon dioxide is one of the products of
respiration, it can be used to investigate how different kinds of sugar can affect the rate of
respiration in Saccharomyces cerevisiae. The rate of respiration in Saccharomyces will be faster in
glucose than sucrose because sucrose is a disaccharide and glucose is a monosaccharide.
Monosaccharide can produce more carbon dioxide at a more rapid rate than disaccharide (Angustia,
Chan, Dinneen, Hortamani, & Mutabaruka
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4. What Is Cellular Respiration?
Cellular respiration is the process and series of metabolic reactions that turns chemical energy into
the useable energy source, ATP. Since it depends on a variety of factors, there are also many things
that can inhibit its completion, like nitric oxide, an endogenously produced substance that can be
toxic, particularly affecting the cytochrome C complex in cellular respiration. Haem oxygenase, an
enzyme, "catalyse[s] the oxidative degradation of haem to biliverdin and carbon monoxide (CO),
accompanied by the release of ferrous iron" (D'Amico et.al, 2006). The carbon monoxide released
was viewed as "toxic," but it has actually been found to "significantly increase cellular cGMP
concentrations," and "increase the activity of calcium–activated potassium channels," which can
reverse the "hypoxia–induced inhibition" of these channels (D'Amico et.al). Nitric oxide's binding to
cytochrome C oxidase in the electron transport chain can inhibit mitochondrial respiration, but it is
unclear if endogenous CO's binding to the CCO can also do so.
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5. Conclusion Of Cellular Respiration
Introduction Cellular respiration is an essential part of metabolic pathways for eukaryotic
organisms. Within cellular respiration there was several steps, glycolysis, pyruvate oxidation, the
Citric Acid Cycle, and Oxidative Phosphorylation, in order to create energy for the cells. Within
glycolysis, a glucose molecule is broken down into two pyruvates and water, and also creates a
three carbon molecule. Glycolysis is performed within the cytosol of a cell. Also, within glycolysis,
two adenosine triphosphate molecules were needed, and glycolysis netted four adenosine
triphosphate molecules. In pyruvate oxidation, the two pyruvate molecules move to the inner
membranes of the mitochondria, and the molecules are converted into two carbon molecules, known
as acetyl coenzyme A. In this step, carbon dioxide is released and NADH is created. In the Citric
Acid Cycle, acetyl coA couples with a four carbon molecule, and begins a cycle of reactions. In
oxidative phosphorylation, NADH and FADH2 move the electrons down the chain, and the electrons
lose their energy when going through oxidation and reduction down the electron transport chain.
With that, H+ ions is released into proton pumps. The electrons then flow back down an ATP
synthase carrier, which nets about thirty adenosine triphosphate molecules, (Steps). In the succinate
dehydrogenase (SDH) lab, bovine liver was used in order to obtain mitochondria fractions. This
study's aim was to test the effects acetolactate has on the
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6. Cellular Respiration
Chapter 9
Cellular Respiration
–Objectives
–Equation for Cellular Respiration
–Electron Carriers and Redox Reactions
–Process of Cell Respiration –Glycolysis –Prep Reaction –Krebs Cycle (Citric Acid Cycle)
–Electron Transport Chain
–Fermentation
–The Ingredients
–You already know what is needed for Cellular Respiration
Food + Oxygen Carbon Dioxide+ Water +ENERGY!
C6H12O6 + O2 CO2 +H2O + ATP
–Redox Reactions (the shuffling of electrons)
Most of the reactions involved in the process are possible because of the redox reaction of NAD, an
electron carrier
Oxidation – a reaction in which a substance loses electrons C6H1206 CO2
Reduction – a...show more content...
No that's not all!
2 Molecules of ATP(e)
2 Molecules of NADH
Pryuvates move to the mitochondria
And go through some conversions
They transform to acetyl CoA
And that's the alteration
We get out one NADH
Now on to a rotation
The Krebs cycle goes round and round
Every turn yields one Tri–Phosphate
We also get one FADH2
Which is used in the final formation
With 3 NADHs Now
Electron Translocation
That's the end of the current phase
The next has oxidation
Now let's move to the final stage
Of Cellular Respiration
7. Just get a clue
As we move to
Oxidative Phosphorylation
Oxidative Phosphorylation
Oxidative Phosphorylation
Oxidative Phosphorylation
FADH2 is the silver in the cell
NADH
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8. Cellular Respiration Paper
Cellular respiration is used for the production of energy and the removal of waste products. The
two types of cellular respiration are aerobic respiration, in which oxygen is used and anaerobic
respiration, in which oxygen is not needed. (Jasuja et al, 2013). Aerobic respiration is used in every
cell but anaerobic respiration is usually used in prokaryotic cells. Both take place in the
mitochondria and cytoplasm and have 3 stages of respiration; glycolysis, Krebs cycle and electron
transport chain. In the end of the reaction, there is a "production of carbon dioxide, water, and ATP
for aerobic respiration whereas anaerobic respiration produces carbon dioxide, reduced species and
ATP" (Jasuja et al, 2013). The production of alcohol is present...show more content...
The overall end products of alcohol fermentation are carbon dioxide and ethanol (alcohol) (Morton,
1980). "This is achieved by the breakdown of glucose into lactic acid and then the enzymes
pyruvate decarboxylase and alcoholic dehydrogenase replace the lactate dehydrogenase enzyme.
These newly formed enzymes finally cause pyruvic acid to convert into the end products that are
ethanol and carbon dioxide" (Morton, 1980). The factors that might affect changes in the end
products that may be produced can be the temperature of the glucose solution and sugar
concentration. The rate of reaction increases as temperatures increase but only till a certain optimal
point and then it is starting to decrease the rate of the reaction. If there is an increase in the
concentration of sugar then there will be an increase in the reaction
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9. Both photosynthesis and cellular respiration are the main pathways of energy transportation in
organisms. However, the reactants and the products are exact opposites in photosynthesis and in
cellular respiration. In photosynthesis, cells take in carbon dioxide (CO2) and water (H2O) by
absorbing energy from the sun, and then the cells release oxygen (O2) and store glucose
(C6H12O6). The formula of photosynthesis is:
Light energy
6CO2+6H2O в†’ C6H12O6+6O2
In cellular respiration, glucose and oxygen are taken into the cells, then they are converted to carbon
dioxide, water and ATP energy and some other energy. Some of the ATP energy is used in
photosynthesis; a large amount of...show more content...
The light reactions also generate ATP by using chemiosmosis through a process called
photosphorylation. The light energy is converted into chemical energy in the form of two
compounds, which are NADPH and ATP. The Calvin cycle occurs with the incorporation of
carbon dioxide into organic molecules in carbon fixation. In this process, the fixed carbon is
reduced with electrons provided by NADPH. The Calvin cycle takes place during daylight hours,
in which the NADPH and ATP can be provided. The Calvin cycle occurs in the stroma, while the
light reactions occur in the thylakoids. In contrast, there are four metabolic stages happened in
cellular respiration, which are the glycolysis, the citric acid cycle, and the oxidative
phosphorylation. Glycolysis occurs in the cytoplasm, in which catabolism is begun by breaking
down glucose into two molecules of pyruvate. Two molecules of ATP are produced too. Some of
they either enter the citric acid cycle (Krebs cycle) or the electron transport chain, or go into lactic
acid cycle if there is not enough oxygen, which produces lactic acid. The citric acid cycle occurs in
the mitochondrial matrix, which completes the breakdown of glucose by oxidizing a derivative of
pyruvate into carbon dioxide. The citric acid cycle produced some more ATPs and other molecules
called NADPH and FADPH. After this, electrons are passed to the electron transport chain through
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10. WhatВґs Cellular Respiration?
Cellular respiration is when cells break down simple food molecules like glucose and release the
energy they contain. This is a 2 stage. The first stage starts in the in cytoplasm when glucose
molecules are broken down. The second stage starts in the mitochondria which is when small
molecules of glucose molecules are broken down. The chemical reactions require oxygen and lots of
energy released. Heterotrophic is when animals can't make their own food. We are heterotrophic
because we can not make food by our self. Respiration is when we take in oxygen. When we breath
we let out carbon dioxide. Chemical energy is when the chemical goes through a chemical reaction
which turns into a chemical substances.
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11. Cellular Respiration
ANAEROBIC AND AEROBIC CAPACITY TESTING THROUGH PYSICAL ACTIVITY
PERFORMED BY SYDNEY UNIVERSITY BIOLOGY STUDENTS
INTRODUCTION
The human body thrives on energy in order to work. This energy is provided to the body in the
form of chemical potential energy stored in adenosine triphosphate (ATP). In order for the body to
fuel more cellular activity, ATP needs to be regenerated and this can be done aerobically (in the
presence of oxygen) or anaerobically (in the absence of oxygen) (AМЉstrand 1956). In doing so,
ATP is produced more aerobically rather than anaerobically, which takes a lengthier period to
produce.
The aerobic energy system primarily fuels certain physical activities of moderate intensity, which
allows the body to supply oxygen to the...show more content...
However more testing is required to evaluate further whether the individual's level of fitness to
carry out anaerobic exercises is influenced by their aerobic capacity. The scientific data
investigated by Schwarz M. et al. (2001) compared the metabolic and cardio circulatory strain
during physical activity of walking and jogging. This emphasized the relationship between the
calculations of the change in pulse rate measured against the physical activity performed. It was
concluded from the study that the heart rate at the individual anaerobic threshold was also 19 to
17% lower during aerobic if compared to anaerobic exercises. However, this illustrated the
importance of individual differences. The variances to one another, factors of age, weight, diet and
other lifestyle factors inhibit the extent of how the data can be measured and interpreted. This
further justifies that with the absence of these limiting factors, the calculations used in the study are
deemed to be as accurate as possible although individual discrepancies have to be considered which
may alter the results of the
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12. A Research Study On Cellular Respiration Essay
A cellular poison is considered as a metabolic poison that inhibits cellular respiration, electron
transport chain and mitochondrial membrane. Cyanide poison is the poison that block the last
enzyme from entering the electron transport chain and mitochondrial membrane. This poison also
inhibits the formation of producing ATP. Without the formation ATP, ATP has to be formed through
the steps of glycolysis. During glycolysis, the process in cell respiration. It produces four ATP but it
uses two ATP and form two net ATP. Cyanide poison is the main reason why the formation ATP in
not complete. Research will show why that is.
The most effective method of ATP production iscellular respiration. Cellular respiration is the
breakdown of glucose into carbon dioxide, water, and producing molecules of ATP( The Free
Resource). There are three steps that involve cellular respiration: glycolyis, the Kreb cycle and
electron transport chain. Glycolysis is the breakdown of glucose. It mostly occur in the cytosol of
the cell. During the process of glycolysis, a phosphate group from the ATP is transferred to glucose
to produce glucose 6 phosphate. Glucose 6 phosphate is converted into fructose 6 phosphate with the
help of an enzyme called isomerase. The enzyme phosphofructokinase change fructose 6 phosphate
to fructose 1,6 biophosphate. Fructose 1,6 biophosphate is split into two sugar. Those sugars are
dihydroxyacetone phosphate and glyceradehyde 3 phosphate. The enzyme triophosphate
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13. Cellular Respiration Essay
Name________Darrien Bolding_____________ Date________________
Cellular Respiration Webquest Worksheet (from: http://zunal.com/webquest.php?user=19049)
Directions: Answer in your own words behind or under the questions. Do not copy and paste unless
told to do so and then use quotes.
Part I. Process Overview
http://staff.jccc.net/PDECELL/cellresp/respintro.html Read the entire page! These questions are not
in order! How is cellular respiration like combustion (burning)? [2nd paragraph] Its releasing energy.
How is cellular respiration unlike combustion? The molecules from which we harvest energy give
up their energy in a controlled fashion rather than all at once as...show more content...
Find a labeled diagram of the mitochondria, attach it to this page, and place the web address next
to the picture. [pic] http://staff.jccc.net/PDECELL/cellresp/krebs.html What molecule must be
produced from pyruvate in order to enter the Krebs' cycle? [Hint: look at the word under pyruvate.]
Glyloysis. What gas is given off during the above reaction? Carbon. What molecule is reduced by
removing an electron? Succinyl. How many steps are involved in the entire cycle? 10. How many
CO2 molecules are produced per pyruvate? 3 How many CO2 molecules are produced per glucose?
1 How many NADH2 molecules are produced per pyruvate? 3 How many FADH2 molecules are
produced per glucose? 1 How many ATP are produced per glucose molecule in the Krebs' cycle? 4
Show where CO2, ATP, NADH2 and FADH are produced in the cycle below by arrows coming off
the cycle or find a simplified picture to copy and paste just be sure to paste the web site address next
to it.
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14. How Cellular Respiration Is Important? Essay
Introduction: Organisms use a variety of methods in order to produce the necessary energy
molecules that drive cellular processes. This energy molecule is commonly Adenosine
Triphosphate, or ATP. In the absence of oxygen, some organisms revert to a process known as
fermentation, which breaks down the chemical bonds in glucose in order to produce ATP. One of
the organism that undergo this process is yeast, a common bacteria used in the production of
alcoholic beverages and bred. In this experiment we are going to look at cellular respiration, process
in which cells produce the energy they need to survive. In cellular respiration, cells use oxygen to
break down the sugar glucose and store its energy in molecules of Adenosine Triphosphate. Cellular
respiration is a critical for the survival of most organisms because cells cannot use the energy in
glucose until it is stored in ATP to power virtually all their activities. Cellular respiration is
important because all cells use oxygen to convert raw food products into energy they can use for
health. In the process they make a bi–product, which is carbon dioxide and waste material. If there
were no cellular respiration the cell would die due to lack of oxygen needed for food conversion.
Cellular respiration occurs in three main steps. The first step takes place in the cytoplasm of the
cell. The final two steps take place in the mitochondria of the cell. Specifically, the second step
occurs in the matrix of the mitochondria
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15. Biology: Cellular Respiration
Cellular respiration, also known as aerobic respiration, occurs in the mitochondria and is what
gives us energy so we can eat, move, and breathe. It starts in the digestive system, where food is
broken down into glucose, a simple sugar. The glucose goes into your bloodstream alongside your
blood cells carrying oxygen to your cells, for example, the oxygen and glucose will go to your
muscles. Within the cells, the mitochondria take the oxygen and the glucose and cause a large
reaction turning the glucose and oxygen and glucose into carbon dioxide, water, and large amounts of
adenosine triphosphate, or ATP, which is used for anything your cells need to work on. (Aerobic
respiration: C6H12O6 + 6O2 в†’ 6CO2 + 6H2O +ATP ) The carbon dioxide is carried
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16. Cellular Respiration
Respiration is defined as the process of taking air into the body. Cellular respiration is much more
complex. An organism consists of a single cell and even while a humans body contain trillions, all
cells undergo cellular respiration. It also is by this process of breaking down food molecules which
are simple sugars that produces the energy currency of the cell, also known as Adenosine
Triphosphate (ATP).
The way that photosynthesis works is by capturing light energy. This energy is captured in chemical
bonds, and meaning that plants use radiant energy to fix molecules together. This is how plants
provide their own nutrition from carbondioxide, water, and minerals. Also as part of this process,
oxygen is released in the atmosphere which
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17. We All Need Some Cellular Respiration Essay
Every living thing needs cellular respiration to survive. Cellular respiration is the process that
releases energy by breaking down glucose and other food molecules in the presence of oxygen. This
process happens through three distinct operations which are glycolysis, the Krebs cycle, and the
electron transport chain. Throughout these cycles, our bodies turn oxygen and glucose into carbon
dioxide, water, and energy. Although this system seems simple enough,cellular respiration can not
take place in just one step because all of the energy from glucose would be released at once, most
of it being lost in the form of light and heat. All this plays a very important role in our lives and
without it, organisms would cease to exist. The first...show more content...
The overall process of glycolysis is so fast that cells can produce thousands of ATP molecules in just
a few milliseconds. Glycolysis is followed by the Krebs cycle, however, this stage does require
oxygen and takes place in the mitochondria. During the Krebs cycle, pyuvic acid is broken down
into carbon dioxide in a series of energy–extracting reactions. This begins when pyruvic acid
produced by glycolysis enters the mitochondria. As the cycle continues, citric acid is broken down
into a 4–carbon molecule and more carbon dioxide is released. Then, high–energy electrons are
passed to electron carriers and taken to the electron transport chain. All this produces 2 ATP, 6
NADH, 2 FADH, and 4 CO2 molecules. The third and final step in cellular respiration is the electron
transport chain which takes place in the inner mitochondrion membrane. This process uses the
high–energy electrons from the Krebs cycle to convert ADP into ATP. These high
–energy electrons
are first passed along the electron transport chain. Every time 2 electrons travel down this chain,
their energy is used to transport hydrogen ions (H+) across the membrane. These H+ ions escape
through channels into an ATP synthase. This causes it to spin, transforming the ADP into ATP. On
average, each pair of high–energy electrons that moves down the electron
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18. Biology: Cellular Respiration
Cellular Respiration
Cellular respiration is the oxidation of organic compounds that occurs within cells, producing
energy for cellular processes. Cellular respiration is very significant because without it humans and
other animals couldn't generate energy for basic functions. "Sir Hans Adolf Krebs received the
Nobel prize for medicine in 1953 for his discovery of the Krebs cycle in 1937"(Share). Long before
Krebs discovered the Krebs cycle (which is one of three stages of cellular respiration), cellular
respiration was taking place. Cellular respiration is an exothermic redox reaction which releases
heat (energy). The energy produced in cellular respiration is in the form of ATP molecules. The most
common form of cellular respiration is
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19. Essay on Aerobic Cellular Respiration
Aerobic Cellular Respiration 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...show more content...
The second reaction uses a different enzyme called phosphoglucose isomerase, which converts
glucose–6–phosphate (C6H1305PO4) to fructose–6–phosphate (C6H13O5PO4). The structure
changes but the chemical formula does not. Then in the next reaction, (#3), which is catalyzed by
the protein phosphofructokinase, the fructose–6–phosphate (C6H13O5PO4), gains another
phosphate group to become fructose–1,6–biphosphate. Instead of having just one inorganic
phosphate group (HPO42–), now it has two. This increases the potential energy of the molecule. This
step did cost another ATP molecule. The fourth reaction is catalyzed by the protein,
fructose–bis–phosphate aldolase, that protein splits fructose–1,6–biphosphate, to form two separate
3–carbon sugars one of which is dihydroxyacetone phosphate (DAP). The fifth reaction, which is
catalyzed by a protein called triose phosphate isomerase, changes two molecules of DAP into two
molecules of G3P (glyceraldehyde–3–phosphate). The next reaction, number six, is catalyzed by the
protein glyceraldehyde–3–phosphate dehydrogenase, "A two–step reaction . . . that first oxidizes
G3P [by] using the [Nicotinamide adenine dinucleotide] NAD+ coenzyme [chemical formula is
C21H27N7O14P2] to produce . . . [NADH, NADH is a coenzyme, whose chemical formula is
C21H28N7O14P2]. Energy from this reaction is used to attach . . . [2] Pi [HPO4– groups] to the
oxidized product to form [2]
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20. Synthesis Of Cellular Respiration
Introduction
Cellular respiration is a vital process that breaks down glucose to create energy. It takes place in
aerobic organisms, meaning they require oxygen. The first step in this process is glycolysis
where the breakdown of glucose occurs. After this oxidation of the glucose molecule, it becomes
a pyruvate, generating 2 ATP and gives away two electrons that convert NADs to NADHs. The
pyruvate then enters the mitochondria where it is transformed into acetyl CoA by oxidizing one
of the carbons in the pyruvate to co2 (Freeman, 2017). If oxygen is present, this molecule will
continue to the citric cycle where it will undergo a series of eight mediated steps where the energy
from the acetyl CoA is released to produce FADH and ATP (Freeman, 2017). In the 6th step of the
citric acid cycle, succinate is oxidized to fumarate, giving away its electrons which reduces FAD to
FADH2. These electrons are then transported to the electron transport chain where ATP, the main
goal of cellular respiration, is produced. In this experiment, by substituting with an alternate electron
acceptor, we can see and monitor just how quickly the reaction occurs in the presence of more
succinate. Because DCPIP turns from blue to colorless as it becomes reduced, by measuring the
transmittance of different samples, it will show the amount of DCPIP that has been reduced. If
different amounts of succinate are added to the mitochondrial suspension, then the solution
containing the most amount of succinate
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21. Cellular Respiration
t
The purpose of this lab is to observe carbon dioxide being produced during an anaerobic respiration.
Students will understand the effects of inhibitors. During the experiment for Mitosis, students should
understand the different stages of mitosis and the cell cycle. They should be able to observe the
stages of mitosis in the experiment.
Cellular respiration releases energy as organic molecules are oxidized. ATP orAdenosine
triphosphate is where this energy is stored. Cells need ATP to metabolize and use it to transport,
reproduce, and various other important activities. Through a process called glycolysis, glucose
breaks down to pyruvate as glucose is oxidized. In ATP, energy released from glucose is stored.
Cells can perform glycolysis with or without the presence of oxygen. With oxygen, cells go through
the Krebs cycle, in which the cells can oxidize pyruvate to carbon dioxide. The organisms that use
this aerobic respiration after glycolysis are called aerobes....show more content...
Yeast and fungi are examples. Even without oxygen, they can perform the oxidation of glucose and
release of ethanol and carbon dioxide is possible. A downside of this respiration is that it will
produce 18–fold fewer ATP per glucose molecule than aerobic respiration does. This is because it
does not go through the Kreb's cycle or electron transport chain. During procedure 12.1, students
will observe anaerobic fermentation by yeast and the effects of pyruvate, Magnesium sulfate,
Sodium fluoride and glucose on the anaerobic respiration of yeast. Pyruvate is produced from
glycolysis. It can be reduced to ethanol or lactic acid during the
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