Read each question carefully. Write your response in the space provided for each part of each question. Answers must be written out in paragraph form. Outlines, bulleted lists, or diagrams alone are not acceptable and will not be scored. Enolase is an enzyme that catalyzes one reaction in glycolysis in all organisms that carry out this process. The amino acid sequence of enolase is similar but not identical in the organisms. Researchers purified enolase from Saccharomyces cerevisiae, a single-celled eukaryotic yeast that grows best at 37°C, and from Chloroflexus aurantiacus, a bacterium that grows best at the much higher temperature of 55°C. The researchers compared the activity of purified enolase from the two organisms by measuring the rate of the reaction in the presence of varying concentrations of substrate and a constant amount of each enzyme at both 37°C and 55°C. (a) Depending on the organism, the optimal pH for enolase to catalyze its reaction is between 6.5 and 8.0. Describe how a pH below or above this range is likely to affect enolase and its catalytic ability. (b) Identify the appropriate negative control the researchers most likely used when measuring the reaction rate in the presence of each organism’s enolase. (c) The researchers predict that for any particular concentration of substrate, the C. aurantiacus enolase-catalyzed reaction is more rapid at 55°C than at 37°C. Provide reasoning to justify the researchers’ prediction.

The following molecules according to the strength of their dispersion forces Molecules From the largest to smallest dispersion forces:

CH3CH(CH3)C(CH3)2CH2 > CH3C(CH3)2CH3 > CH3CH2CH2CH2CH3 > CH3CH2CH3 > CH4.Note that the larger the molecule or the more electrons it has, the stronger its dispersion forces.

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The factor which does not influence is "whether or not the impulse begins in the CNS." Thus, the correct option will be E.

An action potential is a brief change in electrical potential that occurs when an impulse from a stimulus reaches a nerve cell. When the membrane's electrical potential changes, this causes sodium and potassium channels to open, causing the electrical charge to fluctuate.

There are a number of factors that influence the time it takes for an action potential to travel through a neuron. These factors include the length of the axon, the diameter of the axon, the presence or absence of nodes, and the presence or absence of a myelin sheath. However, the location where the impulse begins has no bearing on the time it takes for an action potential to travel through a neuron.

As a result, the correct option is E, which states that "whether or not the impulse begins in the CNS" does not influence the time required for the transmission of an action potential.

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X-linked recessive conditions affect more males than females because males have only one X chromosome, while females have two X chromosomes.

This means that if a male inherits a defective X chromosome from his mother, he will not have another normal X chromosome to compensate for the defective one. On the other hand, if a female inherits one defective X chromosome from either parent, she will still have a normal X chromosome to compensate, and she will not express the disorder.

The genes that are present on the X chromosome are called X-linked genes. Since males have only one X chromosome, X-linked recessive traits are more common in males. They have no other copy of the X chromosome to mask the defective genes, while females have two X chromosomes, and if the one has the defect, the other can compensate, resulting in a carrier female. Females are less likely to express X-linked recessive diseases because they must inherit two copies of the defective gene, one from each parent, which is very unlikely, whereas males can only inherit one copy of the X chromosome. As a result, males are more likely to develop X-linked recessive diseases than females.

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Chlorophyll a contains 6 oxygen (O) atoms.Chlorophyll b contains 6 oxygen (O) atoms.Beta Carotene contains 0 oxygen (O) atoms. Xanthophyll contains 4 oxygen (O) atoms.

Chlorophyll is the molecule responsible for photosynthesis in plants, algae, and cyanobacteria. It is a vital pigment that helps in converting light energy into chemical energy. Chlorophyll is composed of a porphyrin ring and a phytol chain. The porphyrin ring contains nitrogen, magnesium, and oxygen.

Chlorophyll a has a methyl group at the 3-position of the ring and a formyl group at the 7-position of the ring. Chlorophyll b differs from chlorophyll a in having a formyl group at the 8-position of the ring and a methyl group at the 3-position of the ring.

Beta Carotene is a type of carotenoid that does not contain any oxygen atoms. It is an organic compound that is made up of isoprene units. Beta Carotene is a yellow-orange pigment that is used as a precursor of vitamin A in animals.Xanthophyll is another type of carotenoid that contains four oxygen atoms. It is a yellow pigment that is found in leaves and other plant parts. Xanthophyll is similar to beta-carotene, but it contains oxygen atoms.

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The statement which is true about steroid hormones is that Steroid hormones bind to specific receptor proteins and the complex acts as a gene activator. Thus, option D is correct.

The hormones produced by the gonads, for instance, are steroid hormones (i.e. estrogen, progesterone and testosterone). Steroid hormones first cross the target cell's cell membrane before causing changes inside the cell.

The phospholipid bilayer that makes up cell membranes stops molecules that are not soluble in fat from diffusing into the cell. Because steroid hormones are lipophilic (love fat), they can freely diffuse across a cell's plasma membrane.

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Cell research techniques include microscopy, cell culture, immunostaining, and DNA tagging. Hence, each choice is valid.

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The push-up is an effective bodyweight workout that targets many upper body muscles. When you do a push-up, you use numerous muscles in your upper body. However, the three primary muscles are the chest, triceps, and shoulders.

Chest muscles when you do a push-up, the chest muscles are the main muscle group targeted. The pectoralis major and pectoralis minor muscles are the main muscles involved in the push-up. These muscles aid in shoulder extension and flexion, as well as arm adduction and abduction. Shoulder muscles when you do a push-up, the muscles in your shoulders are also worked. The primary muscles are the deltoid muscles. The deltoid muscle is a three-part muscle located on the shoulder. The front, middle, and rear deltoid muscles all work together to raise and lower your body.

The anterior deltoid muscles are activated when you lower your body, while the posterior deltoid muscles are activated when you push your body back up. Tricep muscles when you do a push-up, the tricep muscles are also engaged. The triceps are located at the back of the upper arm, and they are responsible for extending the elbow joint. When you lower your body during a push-up, the triceps contract eccentrically, which means that the muscle fibers lengthen as they contract. When you push your body back up, the triceps contract concentrically, which means that the muscle fibers shorten as they contract. In conclusion, the primary muscles used during a push-up are the chest, shoulders, and triceps. However, the muscles of the back, core, and legs also play a supporting role in maintaining proper form and stability.

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The affinity or relations between two distinct organisms is guided by symbiosis. The kind of symbiosis that takes place is nailed by whether one or both of the organisms gain something from the relationship.

Symbiosis is a close relationship in which at least one organism of a different species benefits. The other organism may also benefit from the relationship, remain unaffected, or suffer harm as a result.

A close, ongoing relationship between two or more distinct biological species is referred to as symbiosis. This relationship can be mutualistic (symbiotic), in which both parties benefit from one another, or parasitic, in which one party gains while the other suffers.

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Answer:

The Hardy-Weinberg equilibrium is a principle that describes the genetic makeup of a population that is not evolving. When a population is in Hardy-Weinberg equilibrium, the frequencies of alleles and genotypes remain constant over time. This principle is based on five key conditions, which include no mutation, no gene flow, infinite population size, no natural selection, and random mating.

In the case of the PTC tasting and non-tasting alleles in North America, it is reasonable to assume that these conditions are being met. First, there is no evidence to suggest that the mutation rate of the allele for PTC tasting and non-tasting is high, and therefore, we can assume that this condition is met. Second, gene flow, which is the movement of alleles between populations, is not likely to have a significant impact on the frequencies of these alleles, given that North America is a large population and there are no significant barriers to migration within the continent.

Third, the population size of North America is indeed large, and so it can be assumed that the condition of an infinite population size is being met. Fourth, there is no known natural selection that would favor one allele over the other, and therefore, this condition is met as well. Lastly, random mating is expected to occur in North America, as individuals are likely to mate randomly without any preference for the ability to taste PTC.

Based on these five conditions, we can conclude that the frequencies of the allele for PTC tasting and non-tasting should remain constant for North America over the next 200 years, as the population is expected to be in Hardy-Weinberg equilibrium. This means that the proportion of individuals who can taste PTC versus those who cannot taste it is likely to remain constant, barring any unforeseen factors that would disrupt the equilibrium.

P.S Can I get brainliest for making a whole essay? haha

The correct option is C, Viruses that utilize reverse transcriptase belong to the virus families Hepadnaviridae and Retroviridae.

Viruses are tiny infectious agents that can only replicate inside a host cell. They consist of genetic material, either DNA or RNA, surrounded by a protein coat called a capsid. Some viruses also have an outer envelope made of lipids.

Viruses are not considered living organisms because they cannot carry out metabolic processes on their own and rely on host cells for reproduction. Once inside a host cell, the virus hijacks the cell's machinery and uses it to make copies of itself. This can lead to cell damage and the release of new viruses, which can go on to infect other cells.

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Spontaneous mutations are easier to identify in bacteria than in most eukaryotes due to various reasons.

The reasons are listed below:1. Visible as color changes within a bacterial plaqueSpontaneous mutations are easier to detect in bacteria than in eukaryotes since they can be easily identified through color changes within a bacterial plaque.2. They are expressed directly in descendant cells because bacteria are haploid. Bacteria have haploid cells, so spontaneous mutations that occur in one generation can be seen in the next generation. This makes it easier to detect the presence of spontaneous mutations.3. Occur at a much higher frequencyThe frequency of spontaneous mutations in bacteria is relatively higher than in eukaryotes. This means that mutations are more likely to occur and, as a result, easier to detect.4. They can be induced via exposure to the bacteriophage T4Mutations can be induced in bacteria by exposure to bacteriophage T4. The bacteriophage T4 alters the genetic code of bacteria, which leads to mutations.Spontaneous mutations, on the other hand, occur naturally without any outside influence. This makes it easier to identify spontaneous mutations in bacteria than in most eukaryotes. In conclusion, spontaneous mutations are easier to identify in bacteria than in most eukaryotes due to various reasons such as being visible as color changes within a bacterial plaque, occurring at a higher frequency, expressed directly in descendant cells, and can be induced via exposure to the bacteriophage T4.

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Between the maxillae and the pterygoid process of the sphenoid bone is the palatine bone, a pair of bones. It contributes to the construction of the three skull cavities; the orbits, nasal cavity, and oral cavity.

The components of the floor of the nasal cavity are provided by the horizontal plate of the palatine bone and the palatine bone's palatine process. Additionally, facial muscles can attach to the os palatinum.

The palatine cycle (Processus palatinus) of the maxilla is areas of strength for a cutting edge that emerges perpendicularly from the nasal surface of the maxilla, close to its ventral boundary; Through the palatine suture (Sutura palatine), it joins the opposing maxillary palatine process on the median plane.

The main functions of the maxilla include: ensuring the stability of the top teeth. reducing the skull's weight. boosting your voice's volume and pitch.

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Dendrites, Soma, Axon Hillock, Internode, Node of Ranvier, Axon Terminals, and Terminal Arborization are the structures through which an electrical impulse should pass correctly, starting at the post-synaptic membrane.

Dendrites are the starting point for nerve impulses as they travel towards the cell body and down the axon. Electrical and chemical impulses from a nerve impulse pass along the neuron.

The action potential has three stages: depolarization, repolarization, and recovery. At an electrical or chemical synapse, a nerve impulse is sent from one cell to another.

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Eukaryotic mRNAs are modified before leaving the nucleus in several ways:

The following processes occur when eukaryotic mRNA is modified before leaving the nucleus:1. A cap is added to the 5' end.2. Introns are removed by splicing.3. The initiator methionine is added.4. A poly(A) tail is added to the 3' end. An mRNA molecule is called messenger RNA (mRNA), which plays a vital role in gene expression. The mRNA is created in the nucleus, and after that, it travels to the ribosomes located in the cytoplasm. However, before leaving the nucleus, eukaryotic mRNA undergoes some modifications. mRNA is matured and modified by three processes: capping, splicing, and polyadenylation. The cap is added at the 5′ ends of the mRNA. It is a chemical modification that safeguards the mRNA from degradation by ribonucleases. The 5′ cap helps in the initiation of protein synthesis. The splicing process is essential since eukaryotic genes are typically split into coding exons and non-coding introns. As a result, after transcription, introns must be eliminated from mRNA. In contrast, exons are spliced together to make mature mRNA that can be used in protein synthesis. The poly(A) tail is a long tail of adenine nucleotides that is attached to the 3′ ends of the mRNA. The poly(A) tail acts as a signal for the mRNA to exit the nucleus and travel to the ribosomes for protein synthesis.

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The two-word name of the document produced by the IUCN that catalogues all endangered species is the "Red List".

What is Patient controlled analgesia?

Patient controlled analgesia (PCA) is a method of pain management in which patients regulate their pain relief using a pump that injects a pre-determined dose of pain medication.

PCA is typically used to help patients manage their post-operative pain, and it allows for a consistent level of pain relief while minimizing the risk of overdosing or underdosing.

The PCA system is set to provide a minimum period between doses, ensuring that the medication has time to take effect before the patient is allowed to take another dose.

As a result, the statement concerning patient controlled analgesia (PCA) patients can use the PCA pump to get a dose as often as they feel they need is appropriate.

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If the climate in a tropical area suddenly becomes arid, the plants that reproduce ase-xually would be at risk of drying out and dying.

This is because asexual  reduplication doesn't involve the exchange of  inheritable material, and so the  shops aren't  suitable to acclimate to the new  environment  and come more tolerant of the  thirsty climate. Without the exchange of  inheritable material, the  shops can not evolve to come more resistant to extreme conditions.

As a result, the  shops may struggle to survive in the new  environment, and may  ultimately die due to lack of water and nutrients.

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The act of shivering is an example of skeletal muscle performing the function of production of heat and maintenance of posture. Therefore, option D is the answer.

Functions of the skeleton include:

Shivering is a mechanism used by the body to generate heat when the body temperature drops. Skeletal muscles, particularly those in the arms and legs, rapidly contract and relax to produce heat, which helps to increase body temperature. Additionally, shivering can also help to maintain posture as the rapid muscle contractions and relaxations cause the body to shake, which engages core muscles and helps to keep the body stable.

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Transfer RNA. (Also called tRNA). Hope this helps!

Gluconeogenesis and glycolysis are similar processes, but there are seven major differences between them.

The seven steps that differ between gluconeogenesis and glycolysis are:

1. Pyruvate conversion to phosphoenolpyruvate (glycolysis uses pyruvate directly, while gluconeogenesis uses oxaloacetate).

2. Hexokinase/Glucokinase (glycolysis uses hexokinase, gluconeogenesis uses glucokinase).

3. Phosphofructokinase-1/Fructose-1,6-bisphosphatase (glycolysis uses phosphofructokinase-1, gluconeogenesis uses fructose-1,6-bisphosphatase).

4. Aldolase/Triose phosphate isomerase (glycolysis uses aldolase, gluconeogenesis uses triose phosphate isomerase).

5. Glyceraldehyde-3-phosphate dehydrogenase/Phosphoglycerate mutase (glycolysis uses glyceraldehyde-3-phosphate dehydrogenase, gluconeogenesis uses phosphoglycerate mutase).

6. Phosphoglycerate kinase/Phosphoenolpyruvate carboxykinase (glycolysis uses phosphoglycerate kinase, gluconeogenesis uses phosphoenolpyruvate carboxykinase).

7. Pyruvate kinase/Pyruvate carboxylase (glycolysis uses pyruvate kinase, gluconeogenesis uses pyruvate carboxylase).

Thus, there are seven steps in gluconeogenesis and glycolysis that are different.

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Quaternary structure refers to the arrangement of multiple protein subunits (two or more) in a specific spatial organization to form a functional protein complex.

Several intermolecular interactions, such as hydrogen bonds, hydrophobic contacts, ionic bonds, and disulfide bonds, hold a protein's quaternary structure together. The functions or activities of the protein subunits, which may differ or be same, may be coordinated through their interaction.

Many proteins' stability, regulation, and functionality depend on their quaternary structure. Hemoglobin, which has four subunits, and DNA polymerase, which has several subunits that cooperate to copy DNA, are two examples of proteins with quaternary structure. Knowing proteins' quaternary structures can help us better understand how they work and how they are regulated, as well as how they might be used as therapeutic targets.

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The Repressor protein functions as a(n) on the trp operon. Tryptophan acts as a(n) when it binds to the repressor. As a result, the active sites allow it to the RNA polymerase and transcription. This is why the trp operon is called an operon. This statement is TRUE.

An operon is a group of structural genes that work together under the control of a promoter, operator, and regulator gene in prokaryotes. In bacteria, operons are found, and the tryptophan (trp) operon is an example.

Tryptophan operon is a group of genes that are used to create the amino acid tryptophan. Tryptophan regulates the trp operon in E. coli bacteria by functioning as a co-repressor. When it binds to the repressor protein, it triggers a conformational change in the protein that enables it to bind more tightly to the operator region of the trp operon.

The RNA polymerase is unable to bind to the promoter region, preventing transcription of the structural genes. Therefore, tryptophan acts as a repressor. The repressor protein binds to the operator region and obstructs the binding of the RNA polymerase enzyme.

Therefore, repressor proteins function as transcriptional regulators by inhibiting gene expression.

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Ethidium bromide and gel red dyes are commonly used to stain DNA in agarose gel electrophoresis.

These dyes intercalate between the base pairs of DNA, allowing the DNA fragments to be visualized under UV light.

Ethidium bromide is a mutagenic compound and can be hazardous to handle. It is also a potential environmental pollutant. Gel red is a safer alternative that provides comparable staining efficiency to ethidium bromide.

The use of these dyes allows researchers to identify and analyze DNA fragments that have been separated by size using electrophoresis. By staining the DNA fragments, researchers can visualize and quantify the DNA bands, allowing them to identify the presence, absence, or quantity of a specific DNA fragment of interest. This is useful for a wide range of applications, including genotyping, DNA sequencing, and gene expression analysis.

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Peptidoglycan is present in the cell walls of eubacteria. Peptidoglycan is a polymer that forms the major component of bacterial cell walls in eubacteria, as well as in some archaea.

Here, the correct answer is "eubacteria.

Peptidoglycan is a network of polysaccharide chains that are cross-linked by short peptide fragments. It is a polymer that forms the major component of bacterial cell walls in eubacteria and some archaea. These chains are primarily composed of two alternating amino sugars, namely N-acetylglucosamine (GlcNAc) and N-acetylmuramic acid (MurNAc), which are linked by β(1→4) glycosidic bonds.

Peptidoglycan is a major constituent of bacterial cell walls and is responsible for their rigidity. It is critical for the survival of the bacteria because it protects them from changes in osmotic pressure, maintains their shape and structural integrity, and mediates interactions with other microorganisms and their hosts.

Therefore, correct option is eubacteria.

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The most accurate statement about photosynthesis is that "carbon dioxide enters plants through stomata while oxygen and water escape. The carbon dioxide is then converted to glucose through photosynthesis."

Photosynthesis is a process where plants make their own food, glucose, from sunlight, carbon dioxide, and water. This process is very important for life on Earth since plants are the base of the food chain. Without photosynthesis, many animals and humans would die since we depend on plants for food. Photosynthesis takes place in the chloroplasts of the leaves of a plant.

The carbon dioxide enters plants through the stomata, which are small openings on the underside of the leaves. The water enters the plant through the roots and is transported through the stem to the leaves. The sunlight is absorbed by the chlorophyll in the chloroplasts, and this energy is used to convert carbon dioxide and water into glucose and oxygen.

The oxygen produced is released back into the atmosphere through the stomata while the glucose is used by the plant for energy or stored for later use. The water too escapes as water vapor from the stomata in a process called transpiration.

Overall, during photosynthesis, carbon dioxide enters plants through the stomata, photosynthesizes, and gives out oxygen that comes out through the stomata and water also vaporizes as water vapor through the stomata.

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Omega-6 fatty acids are b. Contain a double bond at the third omega carbon.

Omega-6 and omega-3 fatty acids are both polyunsaturated fatty acids that are essential to the human body. However, along with the chemical structures previously discussed, there are additional differences between the two essential fatty acids (EFAs).

Omega-6 fatty acids contain a double bond at the third omega carbon, while omega-3 fatty acids contain a double bond at the second and third omega carbon.
Omega-6 fatty acids are essential fatty acids that contain a double bond at the third omega carbon. The correct option is b.

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The integral membrane protein complex that phosphorylates ADP to make ATP is the letter C.

Phosphorylation is a procedure that changes a protein or any other organic molecule by attaching a phosphate group to it, usually by a reaction with an ATP molecule. The process of adding a phosphate group to an organic molecule, such as ATP, ADP, or glucose, is known as phosphorylation.

To release energy, these processes generate ATP from ADP or phosphate ions. Photophosphorylation, which occurs in the thylakoid membrane of chloroplasts in photosynthetic organisms, is one of the most important types of phosphorylation.

Though thylakoid is very essential for photophosphorylation it itself does not phosphorylate nor does the multiprotein complex between thylakoid and second integral membrane protein. Chlorophyll, the substance inside the thylakoid is only responsible for trapping the sunlight.

The flask-shaped structure called stromal lamellae maintains grana at a distance from one another so that they do not crowd together, they improve the effectiveness of photosynthesis. They make sure that photosynthesis uses the most amount of solar energy possible.

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The layer of the eye that contains both a single-celled pigmented layer and a neural layer is the retina.

The pigmented layer, called the retinal pigment epithelium (RPE), is a single layer of cells that lies closest to the choroid layer of the eye. The RPE is responsible for nourishing and supporting the neural layer, as well as absorbing excess light that enters the eye, preventing it from scattering and causing visual distortion.

The neural layer, also known as the sensory layer, is the layer of the retina that contains the photoreceptor cells that detect light and initiate the process of vision. These photoreceptor cells include the rods, which are responsible for vision in low light conditions, and the cones, which are responsible for color vision and high acuity vision.

Together, the retinal pigment epithelium and the neural layer form the retina, which is the light-sensitive layer of tissue that lines the back of the eye and plays a crucial role in the process of vision.

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The active site of an enzyme changes to conform to the substrate and is the part that binds to the substrate.

Both these statements are true regarding the active site of an enzyme. The active site of an enzyme is the portion of an enzyme molecule that binds substrates, where the chemical reaction occurs. As the substrate approaches the enzyme, the active site changes its conformation to accommodate the substrate's shape.

The substrate molecules are then held in place by various non-covalent interactions such as hydrogen bonding, electrostatic interactions, and van der Waals interactions. The specificity of the active site guarantees that only particular substrates will fit properly into it. This specificity is mainly determined by the enzyme's tertiary structure.

The following statements are false regarding the active site of an enzyme: It is compatible with many different substrates. Depending on the situation, it lasts only long enough to catalyze only one reaction. It is the part that is permanently altered by the reaction.

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Answer:

The seed planted at extreme cold or in the reason of frozen ice don’t germinate, why?

Explanation:

Seeds require certain environmental conditions in order to germinate, including appropriate temperature, moisture, oxygen, and sometimes light. If the temperature is too low, such as in extreme cold or frozen ice, it can prevent germination from occurring for several reasons:

Slow metabolic activity: At extremely low temperatures, the metabolic activity of the seed slows down, and the enzymes necessary for germination become inactive.

Dehydration: When seeds are exposed to cold temperatures, they can become dehydrated, which can damage the cell membranes and prevent the seed from germinating.

Ice crystal formation: When seeds are exposed to extremely cold temperatures, ice crystals can form within the cells of the seed. These ice crystals can damage the cells and prevent germination from occurring.

Therefore, seeds planted in extreme cold or frozen ice do not germinate because the environmental conditions required for seed germination are not met.