Adenosine triphosphate, usually referred to as ATP, is a small, extremely simple molecule. It can be compared to money, which is the primary economic currency of human society.
What does ATP stand for when it refers to the molecule that fuels several cellular processes, triphosphate?Adenosine triphosphate is used and stored as energy at the cellular level (ATP). The nucleoside triphosphate ATP is composed of adenine, ribose, and three serially bonded phosphate groups.
What does class 9 ATP stand for?Adenosine triphosphate is the official name for ATP. Energy is produced as needed by rupturing the phosphate link in ATP.
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Animal agriculturists have a strong commitment to caring for their animals and
ensuring their welfare, not just because of ethical obligations, but also the impact an
improperly cared for animal has on profits.
A. True
B. False
True. Animal welfare is an important concern for animal agriculturists.
What is animal welfare?Animal welfare is an important concern for animal agriculturists not only for ethical reasons, but also because the health and wellbeing of animals can have a significant impact on the productivity and profitability of the operation.
Unhealthy or improperly cared for animals may experience reduced growth rates, decreased milk production, or lower quality products, which can result in financial losses for the producer. As a result, many animal agriculture operations have developed animal welfare protocols and procedures to ensure that their animals receive proper care and are treated with respect and dignity.
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which part of the neuron communicates an electrical signal to target tissue?
Target tissue receives an electrical signal from the neuron's axon.
Which area of the neuron produces electrical signals?In your brain, each neuron has a single, lengthy cable that extends from the cell's core. The axon is a cable that is much thinner than a human hair and is where electrical impulses from a neuron travel in order to be picked up by other neurons.
What does the electrical signal neurons send and receive look like?Axons transmit information in a manner similar to how electrical cables do. A neuron sends an electrical impulse called an action potential down its axon until it reaches the axon terminal, which is at the end of the axon, when it wishes to communicate with another neuron.
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which component of the lymphatic system consists of unencapsulated aggregates of lymphocytes within many organs of the body?
Lymphatic tissues are an organ-specific component of the lymphatic networks made up mainly unencapsulated aggregates of lymphocytes.
Which lymphocyte count is a cancer indicator?There is increase with lymphocytes, a kind of white blood cell, in some types of cancers. Therefore, a count of more exceeding 5,000 Leukocytes for each l of blood indicates the existence of cancer. But other circumstances, such infections and inflammatory conditions, also lead to a rise in lymphocytes.
What impact could a strong lymphocyte count have?The test result may reveal either of the two constraints if your doctor determines that you've a high lymphocyte count: (Bacterial, viral, or other) infections (bacterial, viral, other) cancer of the blood or lymphatic system. an autoimmune disorder that causes ongoing, chronic inflammation.
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What are the 12 mechanical parts of microscope?
The 12 mechanical parts of a microscope include objective lenses, eyepiece, diaphragm,stage etc. Following are the 12 mechanical parts:
1. Eyepiece: This is the part that you look through to see the magnified specimen.
2. Body Tube: This is the tube that connects the eyepiece to the objective lenses.
3. Revolving Nosepiece: This is the part that holds the objective lenses and allows you to switch between them.
4. Objective Lenses: These are the lenses that magnify the specimen.
5. Stage: This is the platform that holds the specimen.
6. Stage Clips: These are the clips that hold the specimen in place on the stage.
7. Diaphragm: This is the part that controls the amount of light that reaches the specimen.
8. Light Source: This is the part that illuminates the specimen.
9. Base: This is the part that supports the entire microscope.
10. Arm: This is the part that connects the base to the body tube.
11. Coarse Adjustment Knob: This is the knob that moves the stage up and down to bring the specimen into focus.
12. Fine Adjustment Knob: This is the knob that makes small adjustments to the focus of the specimen.
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to measure primary productivity in a grassland ecosystem, you should _____.
To measure primary productivity in a grassland ecosystem, you should keep customers out; mow, collect, & weigh the plants on a regular basis; and compute plant biomass production every unit time.
Primary productivity is the process by which organisms make their own food from inorganic sources. The majority of primary producers are terrestrial plants and microbial life, such as algae. Primary producers, or autotrophs, are responsible for this phenomenon. Common examples of primary producers include diatoms, dinoflagellates, and coccolithophores.
Net primary productivity varies among ecosystems and depends on many factors. These include solar energy input, temperature and moisture levels, carbon dioxide levels, nutrient availability, and community interactions.
Primary productivity is the amount of biomass or organic matter produced per unit area over a time period by plants during photosynthesis. Biomass can be measured in kilograms, grams or tonnes and area can be measured in meters, inches, hectares or even in kilometers. Primary production typically occurs through photosynthesis; when green plants convert solar energy, carbon dioxide, and water to glucose, and eventually to plant tissue.
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Identify five adaptations made by animals in a garden.
Answer:
Fur or hair
colors
body parts like claws or bare paws
defenses
diet
Explanation:
Quality Control Staff In A Sterilization Unit Of A Hospital Used A Simple Stain To Determine Whether Bacteria Were Present In Sterilized Materials. A Simple Stain Of Sterile Saline Used For Respiratory Therapy Revealed The Pres- Ence Of Bacteria. Is The Saline Contaminated?
Infectious quality assurance Staff at a hospital's sterilization unit used a simple stain to assess if germs were present in sanitized goods.
The presence of germs was shown by a simple stain of sterile saline used in respiratory treatment. Yes, since the water should be bacteria-free. It is critical that the smear be thick in order for the stain to be preserved on the slide.
The acid-fast staining process would be the first differential stain utilized when identifying an unknown bacteria. Negative staining can be beneficial for identifying cell size precisely.
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What is the smallest unit of life and can grow, reproduce, and perform certain basic functions?
A cell is the smallest unit of life that can grow, reproduce and perform basic life functions.
Cells are known as the basic fundamental and structural unit of life. A single cell is able to perform all the functions of life essential for survival like digestion, absorption, assimilation, respiration, egestion etc.
Cells depending upon their size, structure and metabolic framework divide into a broad range of classes. Some being extremely small like PPLO while other being extremely large i.e an ostrich egg. Cells typically contain honeycomb like structures and first dead cell observation was done by Robert Hooke in 1665 in cork pieces.
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Liver cells have a particular organelle in adundance which contains enzymes that catalyse a series of reactions to detoxify both lipid soluble drugs and various harmful compounds produced by metabolism. Identify the cell organelle.
a.rough endoplasmic reticulum
b.mitochondria
c.golgi apparatus
d.smooth endoplasmic reticulum
Enzymes found in the smooth endoplasmic reticulum catalyse several processes to detoxify both lipid-soluble medicines and different toxic substances produced by metabolism.
Which organelle, which detoxifies medicines and toxins, would be plentiful in liver cells?Vertebrate liver cells include smooth endoplasmic reticulum, which aids in the detoxification of medicines and toxins. It has enzymes that can convert medications and metabolic waste products from lipid-soluble to water-soluble forms, allowing for simple removal from the body.
What are liver cells particularly rich in?The majority of the cells in the liver are hepatocytes. These cells make up an estimated 80% of the liver's bulk. The hepatocytes have a spherical shape, a nucleus, and several cellular organelles that are has both secretory and metabolic capabilities.
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Protein structure is conceptually divided into four levels, from most basic to higher order: Primary structure describes the order of amino acids in the peptide chain. Secondary structure describes the basic three-dimensional structures, αα-helices and ββ-sheets. Tertiary structure describes how the secondary structures come together to form an individual globular protein. Quaternary structure results from individual proteins coming together to form multi-subunit protein complexes.Part AComplete the following vocabulary exercise relating to the level of structure in proteins.Match the words in the left-hand column with the appropriate blank in the sentences in the right-hand column.A. The primary structure of a protein is the order of amino acids in a polypeptide, as coded for in the DNA of a gene.B. 1.Primary structure is the sequence of amino acids in a protein.2. Tertiary structure is achieved when a protein folds into a compact, three-dimensional shape stabilized by interactions between side-chain R groups of amino acids.3. Secondary structure describes the alpha-helices and beta-sheets that are formed by hydrogen bonding between backbone atoms located near each other in the polypeptide chain.4. Quaternary structure is the result of two or more protein subunits assembling to form a larger, biologically active protein complex.C. 1. Adenine-Thymine2. Guanine-CytosineD. Primary, tertiary and quaternary levels of protein structure
The sequence of amino acids in a polypeptide, as encoded in a gene's DNA, makes up a protein's main structure. A bigger, physiologically active protein complex is created when two or more protein subunits come together to form a quaternary structure.
When a protein folds into a small, three-dimensional shape that is stabilized by interactions between side-chain R groups of amino acids, this is known as tertiary structure. The arrangement of amino acids in a protein's primary structure. The alpha-helices and beta-sheets that are created by hydrogen bonding between backbone atoms that are close to one another in the polypeptide chain are referred to as secondary structure.
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The complete question is:
Protein structure is conceptually divided into four levels, from most basic to higher order: Primary structure describes the order of amino acids in the peptide chain. Secondary structure describes the basic three-dimensional structures, α-helices and β-sheets. Tertiary structure describes how the secondary structures come together to form an individual globular protein. Quaternary structure results from individual proteins coming together to form multi-subunit protein complexes.
Part A) Complete the following vocabulary exercise relating to the level of structure in proteins. Match the words in the left-hand column with the appropriate blank in the sentences in the right-hand column.
1. The primary structure of a protein is the order of amino acids in a polypeptide, as coded for in the DNA of a gene. Primary structure is the sequence of amino acids in a protein.
2. Tertiary structure is achieved when a protein folds into a compact, three-dimensional shape stabilized by interactions between side-chain R groups of amino acids.
3. Secondary structure describes the alpha-helices and beta-sheets that are formed by hydrogen bonding between backbone atoms located near each other in the polypeptide chain.
4. Quaternary structure is the result of two or more protein subunits assembling to form a larger, biologically active protein complex.
the fibrous pericardium is attached to both the ______ and the base of the ______ vessels.
The fibrous pericardium is attached to both the diaphragm and the base of the great vessels.
With what is the fibrous pericardium connected?
Your pericardium's fibrous pericardium is its tough, outermost covering. It is formed of connective tissue, which limits excessive cardiac growth. It fastens to the central tendon of your diaphragm and to your great vessels, which are located at the top of your heart (at the bottom of your heart).
The pericardium that covers the surface of the heart is called the fibrous pericardium. The heart is shielded, kept from overflowing with blood, and attached to nearby structures. The fibrous pericardium, which lines the middle mediastinum's boundaries, is made up of dense fibrous connective tissue. The serous pericardium, on the other hand, has a much closer physical relationship with the heart.
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in this organelle, energy in the form of atp is produced from carbohydrates, fats, and proteins. (true or false)
The assertion made is true. Cellular respiration, which happens in the mitochondria, is the term for this process.
The mitochondria break down proteins, lipids, and carbs to release energy that is subsequently used to create ATP, the main energy source for the majority of cellular processes. Eukaryotic cells have organelles called mitochondria. Since they are in charge of generating ATP-based energy, they are the engines of cells. They also participate in other processes like steroid production and calcium signaling. Mitochondria have their own DNA and can multiply on their own. The process by which organisms transform the energy contained in food molecules into energy that can be utilized to power cellular operations is known as cellular respiration.
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What is substance is produced in the liver, but is stored in and secreted by the gallbladder?
A bile is produced by the liver but is stored and secreted by the gallbladder.
Bile is a fluid that flows into the small intestine during meal consumption when produced by the liver. As this primarily functions for emulsification (breakdown of large fat globules into smaller ones), in the absence of fat in consumed food this flows back into the gallbladder where it is concentrated and stored.
Similarly if a diet contains a good amount of fats then stimulation of gallbladder will result in the flow of bile through the digestive tract thus breaking down fats for the energy production.
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Which probability method requires that the probability experiment be performed and uses the results to estimate the probability of a particularâ outcome?Choose the correct answer below.A.Empiricalâ (relative frequency)B.ClassicalC.SubjectiveD.All of the above
The probability method that requires that the probability experiment be performed and uses the results to estimate the probability of a particular outcome is the empirical (relative frequency) method.
What is empirical method?The empirical method is a probability estimation methodology that uses the observed frequencies or relative frequencies of occurrences in a sample or experiment to estimate the likelihood of such events in a population or broader group. In other words, the empirical approach makes probabilistic assumptions from actual facts obtained through observation or testing. This method is frequently employed when theoretical probability computations are difficult or unattainable, or when the underlying distribution is unknown. The empirical method may be applied in a variety of sectors, including social sciences, economics, and engineering, where data-driven techniques are critical for generating accurate predictions and judgements.
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Phagocytosis, pinocytosis, and receptor-mediated endocytosis all involve
A. the intake of large particles.
B. invagination of the plasma membrane.
C. the export of macromolecules.
D. the presence of receptor proteins.
E. the intake of fluids by the cell.
The plasma membrane is invaded during phagocytosis, pinocytosis, and receptor-mediated endocytosis.
In basic terms, what is endocytosis?Define and explain endocytosis. By engulfing foreign chemicals in a vesicle, cells absorb them through the process of endocytosis. These might be substances that give a cell what it needs to survive or infections that immune cells ingest and eradicate.
In biology, what is an endocytosis?Christian deDuve first used the word "endocytosis" in 1963 to describe the process of taking in both big particles (like bacteria) and liquids or macromolecules in the form of tiny vesicles. Both of these processes are known as phagocytosis (eating of cells), and the latter is known as pinocytosis (cell drinking).
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In messenger RNA, each codon specifies a particulara. nucleotide b. enzyme c. amino acid d. promoter
Answer:
amino acid
Explanation:
Energy is stored in fats and proteins. Which organelle produces ATP from these energy sources?
Most cellular oxidations are carried out by the mitochondrion, which also generates most of the ATP in animal cells. Numerous different enzymes, such as those that use pyruvate and fatty acids to make acetyl CoA and those that use the citric acid cycle to oxidize this acetyl CoA to CO2, are found in the mitochondrial matrix.
A mitochondrion is an organelle that may be found in the cells of the majority of eukaryotes, including animals, plants, and fungi. Adenosine triphosphate (ATP), which is produced by aerobic respiration in mitochondria and used as a source of chemical energy throughout the cell, is produced by mitochondria using their double membrane structure.
They were found in the voluntary muscles of insects by Albert von Kölliker in 1857. Carl Benda first used the word "mitochondrion" in 1898. The phrase "powerhouse of the cell" was popularized by Philip Siekevitz in a 1957 essay of the same name and is often used to refer to the mitochondrion. [
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how does the level of genetic variation in humans compare to the level of genetic variation in other species?
The genetic diversity of humans is far smaller than that of many other species, including the chimpanzee, our closest living cousin. A population's "age" (i.e., the length of time during which mutations accumulate to create variety) and size both influence genetic diversity.
There are various ways to identify genetic variation. Observations of phenotypic variation in either quantitative (traits that vary continuously and are coded for by many genes, such as leg length in dogs) or discrete (traits that fall into discrete categories and are coded for by one or a few genes, such as white, pink, or red petal color in particular flowers) traits can be used to determine genetic variation.
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What is an example of parthenogenesis reproduction?
An example of pathogenesis reproduction is bees. In asexual reproduction that occurs naturally, parthenogenesis, embryos develop without fertilization.
Without any fertilization, female gametes develop during parthenogenesis, a sort of asexual reproduction.
Animals without sex chromosomes include ants, bees, and wasps. By parthenogenesis, these organisms reproduce. A few types of fish, reptiles, and plants can also reproduce in this way.
Some organisms, like crayfish, snakes, komodo dragons, and sharks, have the ability to reproduce both sexually and through parthenogenesis. Parthenogenesis that is facultative is what this is.
Recently, an expanding number of vertebrate species have been identified using this reproductive technique, which is most frequently observed in plants and invertebrate creatures.
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In a certain population of mice, the frequency of the brown fur allele is 0.4 and the frequency of the black fur allele is 0.6. In 10 generation, the frequency of the brown fur allele drops to 0.3.What has happened in this population?Select one:a. Natural selection has favored brown fur over black.b. The population is in Hardy-Weinberg equilibrium.c. Gene flow has taken brown fur alleles out of the population.d. The population has evolved.e. Natural selection has favored black fur over brown.f. The population size has decreased.
The frequency of the brown fur allele is 0.4 and the frequency of the black fur allele is 0.6 in a particular population of mice. The frequency of the brown fur allele falls to 0.3 in the following generation.
If the allele frequency varies from one generation to the next, what does that mean?Allele frequencies may change from one generation to the next when people with particular genotypes fare better than those with other genotypes. if alleles mutate at varying rates or if new alleles are created via mutation
How can you determine the frequency of three alleles?The frequencies for a system with three alleles—p, q, and r—can be written as follows: p2 + q2 + r2 + 2pq + 2pr + 2qr = 1.
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a trait whose development requires the action of thousands of genes but whose variation is due to variation at only two loci is
A trait whose development requires the action of thousands of genes but whose variation is due to variation at only two loci is A.) Extranuclear
The transfer of genes that exist outside the nucleus is known as extranuclear inheritance, sometimes known as cytoplasmic inheritance. It is prevalently recognized to occur in cytoplasmic organelles like mitochondria and chloroplasts or from cellular parasites like viruses or bacteria and is present in the majority of eukaryotes.
Additionally feasible is the extranuclear transfer of bacterial symbionts and viral genomes. Perinatal transmission is an illustration of viral genome transfer. During the perinatal period, which starts before delivery and lasts for roughly a month after birth, this happens from the mother to the fetus. Viral particles may transfer from mother to kid at this time via the bloodstream or breastfeeding. This is especially concerning for moms who have HIV or Hepatitis C. Additionally, hereditary symbiotic cytoplasmic bacteria are seen in creatures like flies.
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A trait whose development requires the action of thousands of genes but whose variation is due to variation at only two loci is
A.) Extranuclear
B.) Digenic
C.) Polygenic
D.) Meristic
a collection of amino acids could be used to build?
The building blocks of proteins are chains of amino acids, which fold into distinctive three-dimensional forms. Proteins' ultimate folded forms are well suited for their intended tasks because to the stabilising effects of bonding within protein molecules.
Each of these amino acids is connected to its neighbour through a covalent peptide bond, forming the lengthy chain that makes up a protein molecule.
Consequently, polypeptides is another name for proteins.
Chains of amino acids called proteins are put together by amide bonds, sometimes referred to as peptide connections. The many side-chain groups, or R-groups, are what give each amino acid its own special characteristics. The bulk of chemical processes in cells are catalysed by proteins.
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What are vaccines made of?AntibioticsHealthy Foods"Good" GermsWeakened or dead germs that cause the disease
Antigens, which are very minute levels of disease-causing, weak or dead microbes, are provided by ingredients. By exposing the immune system to disease-causing organisms bacteria or viruses, either dead or weakened, vaccines help lower the chance of contracting specific illnesses.
What components make up vaccines?They are created using the disease-causing germ's components or weakened, dead copies of both the bacterium (called antigens). The antibodies used in some vaccines are created through genetic engineering. Getting vaccinated is significantly safer than contracting the disease it prevents.
Can microorganisms be used to produce vaccines?The toxin is rendered inactive, and sickness is no longer caused. This process is used to create the diphtheria, tetanus, and pertussis vaccines. Using a portion of the texture (or carbohydrate) of the bacterium is another method for creating a bacterial vaccine.
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Which shapes from your tree construction in the Clade Race are synapomorphic?
a. Arrow
b. Circle
c. Moon
d. Triangle
e. Square
f. Cross
g. Star
h. Heart
i. Hexagon
The correct options are d. Triangle, e. Square, h. Heart, c. Moon. In the context of a tree construction in the Clade Race, synapomorphic shapes would refer to characters (such as shapes).
Shapes that are shared and derived by a specific group of organisms, indicate a close evolutionary relationship.
In a phylogenetic tree, synapomorphies are characters that are shared by a specific clade, or group of closely related species. These characters are used to help distinguish one clade from another and to infer evolutionary relationships. In the Clade Race, shapes could be used as characters to represent synapomorphic traits, with each shape representing a different character that is shared among a group of organisms.
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Hello I’m also stuck on this question I don’t know what order it goes in I’m confused please help me please and thank you
The disease and the correct sample or method to diagnose the disease are given below;
blood - Ba_be_siosischest X- ray - Kennel cough feces - SalmonellosisWhat is Ba_be_siosis?Ba_be_siosis is a parasitic infection that infects red blood cells, and a blood test can be used to diagnose it by detecting the presence of the parasite in the blood.
Kennel cough is a respiratory infection, and a chest X- ray can be used to diagnose it by showing inflammation or other abnormalities in the lungs.
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How does the comparison of the stages of embryological development of different species help biologists to classify life?
a.It helps in understanding the similarities between living species and extinct species.
b.It reveals anatomical similarities that are not always evident in fully formed organisms.
c.It reveals differences in the environmental conditions necessary for species survival.
d.it helps in understanding the different behavioral strategies in different individual organisms.
The comparison of the stages of embryological development of different species is a useful tool for biologists to classify life because it helps reveal anatomical similarities that are not always evident in fully formed organisms. Option B is correct.
Biologists use embryological development to study the similarities and differences in the development of various organisms, including their body plans and organ systems.
Embryonic development is the process by which a fertilized egg develops into a fully formed organism, and it is characterized by a series of developmental stages. The comparison of the stages of embryological development between different species can reveal similarities in developmental patterns and structures that are not visible in adult organisms.
For example, during the early stages of embryonic development, all vertebrates have similar-looking structures, such as gill slits and a tail. These similarities suggest that vertebrates share a common ancestry.
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which plant is vital to the survival of monarch butterflies?
It is commonly known that the native milkweed that serves as the monarch butterfly host plant has this association. Monarch butterflies that are adults eat milkweed nectar and deposit their eggs amid its leaves.
How do eggs work?A reproductive organ made by an animal that consists of an ovum and its protective and food-containing envelopes as well as the potential to develop into a new person.
It acts as the primary source of nourishment for the chick's first few days of life and protects and offers a full meal for the developing embryo.
Describe proteins?They serve as the building blocks for several bodily components, including the skin, hair, and enzymes, cytokine, and antibodies.
They perform several different tasks, such as organising, transportation, and defence. Proteins are made.
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How does a non-competitive inhibitor decrease the rate of an enzyme reaction? a.by binding at the active site of the enzyme. b.by changing the structure of the enzyme. c.by decreasing the activation energy of the reaction. d.by changing the free energy change of the reaction. e.by acting as a coenzyme for the reaction
(b) By binding to an allosteric site, thus changing the shape of the active site of the enzyme a non-competitive inhibitor decrease the rate of an enzyme reaction
Noncompetitive inhibitors bind irreversibly to the enzyme and prevent the substrate-enzyme activity. This decreases the efficacy of the enzyme. A noncompetitive inhibitor binds to a different site that is not the active site of the enzyme and changes the structure of the enzyme; therefore, it blocks the enzyme from converting substrate to product, but it still allows the substrate to bind. Remember that non-competitive inhibitors aren't attaching directly to the active site, but elsewhere on the enzyme. The inhibitor attaches to a side group in the protein chain, and affects the way the protein folds into its tertiary structure. That in turn changes the shape of the active site.
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The lineage that leads from the last common ancestor of chimps and humans to living humans contains all the species in the:
a. genus Homo
b. tribe Homininae
c. family Hominidae
d. genus Astralopithecus
e. superfamily Hominoidea
All of the members of the superfamily hominoidea may be found in the lineage that extends during the last related species of chimpanzees and humans to modern humans.
Is a person considered a member of the Hominidae family?This family consists of seven different species, including humans, gorillas, orangutans, and chimpanzees. Previously, this family only included humans, but recent DNA research suggests that chimpanzees as monkeys should also be added.
Why are people classified as Hominidae?The family including humans and other (extinct) near cousins was once referred to as the Hominidae, whereas the other great apes—namely, orangutans, gorillas, and chimpanzees—were all assigned to a different family, the Pongidae.
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What amino acid for MCAT?
In order to pass the MCAT, you must be able to sketch the designs of each of the 20 amino acids. The one-letter and three-letter acronyms should also be familiar to you.
You should also be aware of whether each amino acid is positively or negatively charged. A quick and enjoyable approach to recall the many characteristics of the MCAT amino acids is using mnemonics. For instance, Histidine (H), Lysine (K), and Arginine (A) are three amino acids with basic side chains (R).
Make a memorable statement out of these three using their one-letter codes, such "Harry's Red Kite," to help you remember them. Any pre-med student eventually comes to the conclusion that learning all 20 amino acids by heart is a necessary task. Regardless of whether it's for the MCAT or your biochemistry class.
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