Final answer:
Water-soluble hormones, deriving mostly from amino acids or peptides, cannot diffuse through cell membranes due to their hydrophilic nature and therefore bind to external cell receptors, unlike lipid-soluble hormones which can traverse cell membranes and bind to internal receptors.
Explanation:
Characteristics of Water-Soluble Hormones
The main characteristic of water-soluble hormones is that they are not able to diffuse through the lipid bilayer of the cell membrane due to their hydrophilic nature. These hormones typically derive from amino acids (such as epinephrine and norepinephrine) or are peptides (like oxytocin and growth hormone). They must bind to receptors on the surface of target cells because they cannot traverse the cell membrane on their own. Once bound, these hormones trigger a signal cascade inside the cell, often involving second messengers such as cAMP (cyclic Adenosine Monophosphate).
In contrast, lipid-soluble hormones, which are derived from lipids like cholesterol, can diffuse directly through the cell membrane and interact with receptors inside the cell. These include steroid hormones such as estrogen and testosterone. These lipid-soluble hormones also tend to transport in the bloodstream bound to specific proteins that maintain their solubility.
In summary, water-soluble hormones are usually amino acid-derived or peptide hormones that are hydrophilic and require cell surface receptors to exert their effects, cannot directly pass through the cell membrane, and circulate the bloodstream in a free form rather than bound to transport proteins.
Final answer:
Water-soluble hormones are hydrophilic, amino acid-derived or peptides that bind to cell surface receptors, triggering actions through second messengers since they cannot directly enter cells. They circulate freely in the bloodstream.
Explanation:
Characteristics of Water-Soluble Hormones
The characteristics of water-soluble hormones pertain to their molecular structure, transport in the bloodstream, and mechanism of action within the target cells. Unlike lipid-soluble hormones such as steroid hormones, water-soluble hormones are generally amino acid-derived or peptides and are not able to diffuse directly across the lipid bilayer of cell membranes.
Since these hormones are hydrophilic, they cannot penetrate the cell membrane. Thus, they bind to specific membrane-bound receptor molecules on the surface of the target cells. This binding triggers a series of biochemical events within the cell, often involving so-called second messenger molecules, which then leads to the desired response.
Water-soluble hormones circulate in the bloodstream in a free form, without the need for transport proteins. This is in contrast to steroid and thyroid hormones that circulate in the blood bound to specific transport proteins like Thyroxine Binding Globulin (TBG).
Which types of claims on food labels are strictly regulated by the Food and Drug Administration (FDA)? A. Nutrient claims and structure/function claims. B. Nutrient claims and health claims. C. Nutrient claims, health claims, and structure/function claims. D. Structure/function claims and health claims.
Answer:
Option-C
Explanation:
FDA or U.S Food and Drug Administration is a government agency which aims at protecting the public health by ensuring the efficacy, safety and security of food products, drugs and other medical devices, cosmetics.
The FDA regulations suggest that a food product must have three types of claims on it which are:
1. The health claim in which the relation between the food ingredient and health-related issues are mentioned.
2. The Nutrient claim which mentions the level of a nutrient in a food.
3. Structure/Function Claims which describe the role of nutrients on the human body.
Thus, Option-C is the correct answer.
The FDA is the government agency and the main role of these agency to protecting the health of the people by ensuring and check there will be no adulteration in the food .
As per the information given , the suitable answer will be claim of health , nutrient and structure claims.
Nutrient play very important part in our health as if our intake of nutrient is correct and healthy then our body will function correctly and it is the main duty of FDA to check and take all the precaution fo maintain the high standard of foods.
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This popular drug alters consciousness by blocking the reuptake of dopamine and increases its release, and in the long term, it can cause considerable damage throughout the brain and body.
A. marijuana
B. MDMA
C. meth
D. heroin
Answer: Meth
Explanation:
Meth is a stimulant that affects the "Pleasure Reward Pathway" by altering the reuptake of the neurotransmitter dopamine, consequently leaving an excess dopamine in the synapse. It also increases the activity of the dopamine synthesizing enzyme Tyrosine Hydrolase, thus ensuring continuous release.
The explanation for the fact that radioactive isotopes of an element exhibit the same chemical behavior as the stable isotopes of the element is that each has the same:
a. atomic number.
b. number of neutrons.
c. mass number.
d. atomic weight.
Answer:
a. atomic number
Explanation:
Radioactive isotopes of an element have the same chemical behavior as the stable isotopes of the element due to the fact that they have the same atomic number with that of the stable isotopes of the element. The atomic number determines the electron number and configuration of an element.
Electron number and their arrangement determine the chemical behavior of an element, as they determine how the element interacts and form bonds.
A bunionectomy is a hallux ____ correction.A needle biopsy is a way of obtaining a piece of tissue out of the body by excision of the tissue. It can be examined under a microscope by a pathologist. Because this biopsy is performed through the skin, it is called a percutaneous biopsy.
Answer:
Valgus.
Explanation:
Bunion may be defined as the joint enlargement at the big toe. The bunionectomy may be defined as the surgical procedure to remove the bunion.
The hallux valgus is corrected in the bunionectomy. This is a type of deformity involve in the functional disability of the foot and pain in the lower part of the body. This correction is important as it might cause problem in the individual and excess pain in the foot.
Thus, the answer is valgus.
Afterbirth includes all of the following EXCEPT: Question 3 choices Choice A.,fluid from the amniotic sac. Choice B.,the placenta. Choice C.,the umbilical cord. Choice D.,other membranes.
Answer:
A) fluid from the amniotic sac
Explanation:
Afterbirth involves the expulsion of placenta, umbilical cord and fetal membranes from the uterus followed by the birth of child. While the fluid from the amniotic sac is released before or during the labor which is also called water breaking.
The term afterbirth refers to the placenta, umbilical cord, and other membranes that are expelled from the mother's body after the birth of a child. Option A is likely the correct answer
Explanation:The term afterbirth refers to what is expelled from the mother's body after the birth of a child, which is the third stage of childbirth. It typically includes the placenta, the umbilical cord, and other membranes that surrounded the baby in the womb, such as the amnion and chorion.
Regarding the options given in your question, all of them are generally included in the afterbirth EXCEPT for Choice A: Fluid from the amniotic sac. The amniotic fluid, which surrounds and cushions the baby during gestation, is generally expelled during the process of labor and delivery (often referred to as when a mother's 'water breaks') rather than after the birth itself. Hence, option A is likely the correct answer to your question.
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Arrange the events in the stimulation of heart muscle in order from earliest (1) to latest (5). Note that this question does not list every step in the pathway, but the steps presented should be arranged in order.
Answer:
1) Pacemaker impulse generation.
2)AV node impulse conduction
3) AV bundle impulse conduction.
4) Bundle branches conduction.
5) Purkinjie fibres impulse conduction.
Explanation:
The cardiac conduction has following components.
1)SA node is the heart pacemaker in the right upper quadrant of heart. It generates electrical impulses and these impulses then move through atria and AV node to the Purkinjie fibres.
2) The impulses reach AV node. It controls heart rate. It serves as electrical relay station which slows the electrical current sent by SA node before the signals has passed to ventricles.
3) AV bundle is continuation is AV node and it transmits impulse from AV node to the Purkinjie fibres.
4) Electricle impulses from bundle of his passes through bundle branches (right and left ) to Purkinjie fibres.
5)Purkinjie fibres take the impulses from the bundle branches to the myocardium of ventricles.
The mathematical symbol for period is
ОА. Т
ОВ. А
O co v
OD. f
Answer: The mathematical symbol for period is T
Explanation:
Period is the time taken for an object to complete a full cycle or revolution. Period is mathematically represented by the letter T, and is measured in seconds.
Frequently, important DNA regions with specific functions tend to contain short stretches of nucleotides that are conserved across different organisms (e.g., promoter sequence) and are recognized by specific proteins. What are these conserved sequences called?A. InitiatorsB. Critical elementsC. CodonsD. Repetitive sequencesE. Consensus sequences
Answer:
The correct answer is E. Consensus sequences
Explanation:
A consensus sequence are considered in nucleic acid and protein which is recognized by specific protein like RNA polymerase. In nucleic acid, these sequences are short nucleotide stretch which are conserved across different organism and reflects most common bases at each position in a segment alignment.
Example of a consensus sequence is promoter sequence. In bacteria, the promoter region contains two regions of consensus sequence characterized by -10 and -35 sequence. RNA polymerase recognizes this consensus sequence and binds to the promoter region. Therefore the correct answer is E.
Using careful experimental design, Blehert and colleagues proved definitively that the fungus Geomyces destructans is the cause of white nose syndrome.
Answer:
False.
Explanation:
The scientific hypothesis may be defined as the complete explanation of any particular natural phenomena. The scientific hypothesis and theory cannot be used synonymous with each other.
The hypothesis are generally based on the observation of the particular phenomena. The Blehert and colleagues set up the experimental design for the hypothesis. This is incorrect because the hypothesis can be accepted or rejected but cannot be proven.
Thus, the answer is false.
At the base of Maslow's hierarchy of needs, he identifies ______ as including the need for food and shelter.
Answer:
Physiological needs
Explanation:
Maslow’s Hierarchy of needs is a motivational theory in psychology that was propounded by Abraham Maslow. Man’s needs that drive their motivation are depicted on a pyramid shape diagram, with the most basic and fundamental needs placed at the bottom. From the bottom to the top, we have the following needs: physiological, safety, love, esteem, and lastly, self-actualization.
According to Maslow, physiological needs include food and shelter. These make up the fundamental needs that man seeks to satisfy before progressing upwards to meet other needs.
An interneuron may receive multiple stimuli from the same sensory neuron over a very short period of time. The firing rate of the receiving neuron is proportional to the number of signals received from the sensory neuron over time.
Answer:
This is Temporal summation
Explanation:
The basic objective of temporal summation is to merge the amplitudes of individual pre- synaptic potential with the post synaptic potential. so that the sum amplitude of the potential produced can be greater than individual amplitudes. The merged amplitudes will enable the membrane potential to reach the threshold level for generation of post synaptic action potential.
Generally, the post synaptic membrane stores charges.Thus it stores in quick succession the amplitude of the first action potential, and as this is falling, it stores that of the second , third and fourth and merged this together to reach the threshold.
Temporal summation depends on the ''time frame' between the first and second pre-synaptic potential. Because the closer they are(pre-synsptic potential) the higher the chances of storing charges in the post-synaptic membrane for Post-synaptic potential. Thus if the duration is long, membrane potential of the post -synaptic neuron will be reduce, threshold will be be reached and PSP will not be achieved
In summary temporal summation depends on the time frame of the occurrence of post-synaptic potential.
What are the roles of the parasympathetic nervous system and sympathetic nervous system in maintaining everyday homeostasis?
Answer: The parasympathetic nervous system and sympathetic nervous system play opposite roles
Explanation:
To ensure a stable internal environment (homeostasis) is achieved, the parasympathetic nervous system (PNS) and sympathetic nervous system (SNS) play OPPOSITE roles.
The PNS dominate during relaxed periods and stimulates the
- liver to break down glycogen
- constriction of bladder to pass out urine
- increases heartbeat
- dilate pupils etc
The SNS, in contrast dominate in times of emergency or stressful periods and do the EXACT opposite of the processes mentioned above.
Thus homeostasis is maintained
Demetri is a participant in an auditory detection study using the method of constant stimuli. He never detects the 10 unit tone. He detects the 20 unit tone 25% of the trials. He detects the 30 unit tone 50% of the trials. He detects the 40 unit tone 80% of the trials. He detects the 50 unit tone 95% of the trials. His threshold for hearing tones would be taken as the _________.
Answer:
30 unit tone
Explanation:
Based on the information provided within the question it can be said that his threshold for hearing tones would be taken as the 30 unit tone. This is because "threshold" refers to the amount that must be exceeded for a certain result to occur or manifest. Which in this case is indicated by the 50% mark that the 30 unit tone indicates. Making it the minimum for consistency.
The correct functions of your lungs contribute to the normal pH level of between 7.35 and 7.45 in your blood. If your lungs do not exchange and remove carbon dioxide from your blood, the blood pH will change. A reading of pH 6.4 of your blood indicates:A. no health risk, as part of normal pH changes in your body that in this case bring it closer to neutral pH.B. a health problem due to the concentration of hydrogen ions (H+) being 10X higher than normal in your body.C. a health problem due to the concentration of hydroxide ions (OH-) being 2X higher than normal.D. a health problem due to the concentration of hydrogen ions (H+) being 2X higher than normal in your body.E. a health problem due to the concentration of hydroxide ions (OH-) being 10X higher than normal in your body.
Answer:
B
Explanation:
The lung not being not been able to exchange and remove the carbon dioxide created a health problem due to the concentration of hydrogen ions (H+) being 10X being higher than in normal body. Although the difference is just about 1, it will result increase hydrogen ion concentration 10 times, similarly an increase or decrease in pH from 4 to 2 will give rise to 100 times increase in hydrogen ion concentration. It can equally be applied to hydroxyl in concentration.
Excess plasma lipids in the form of cholesterol contribute to the formation of atherosclerotic plaques within blood vessel walls. Which of the following is NOT a likely consequence of such plaques?
The question is incomplete. The multiple options are as follows:
turbulent blood flow around the plaque .
increased pressure due to a loss of elasticity in the vessel wall .
more resistance to flow due to a decrease in blood vessel diameter.
All options are correct.
Answer:
All options are correct.
Explanation:
Blood is composed of the plasma and formed elements in the body. The formed elements consists of the red blood cells, white blood cells and platelets.
The blood plasma consists of the proteins, antibodies and different types of chemicals. The excess level of cholesterol can cause the plaque formation that disrupt the proper blood flow. The plaque may result in the loss of elasticity and excess rigidity in the walls of blood vessels. The blood resistance flow increases and causes the lowering the diameter of blood vessels.
Thus, all given options are correct.
What is the nutritive fluid flowing through the circulatory system? A. Lymph B. Blood C. Pus D. Water
Answer: The answer is blood
Explanation:
The blood is the 'fuel' of the circulatory system in that it carries nutrients ranging from
- gases like oxygen by the help of its respiratory pigment, hemoglobin
- rich food substances like glucose, amino acids to various cells of the body
- antibodies and hormones that provide defence against invaders
Thus, the blood is the nutritive fluid of the circulatory system
The nutritive fluid flowing through the circulatory system is Blood, transporting nutrients and waste materials. Lymph, another body fluid, functions primarily in the lymphatic system.
The nutritive fluid that flows through the circulatory system is B. Blood. Blood, a type of fluid connective tissue, circulates within the body, transporting nutrients, salts, and waste materials. It consists of cells, like red and white blood cells, suspended in a liquid matrix called plasma.
Lymph is another important fluid in the body that functions mainly in the lymphatic system. It is a watery fluid that bathes tissues and organs and contains protective white blood cells. It does not circulate throughout the body in the same way as blood and is not pressurized by the heart. Lymph moves in one direction from extremities towards two drainage points into veins just above the heart.
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You are given a prepared slide and are told that it is a streptobacillus. Without even looking at the slide under the microscope, you know which of the following? 1. The bacteria are linked together in chains. 2. The bacteria are spherical in shape. 3. The bacteria are in grape-like clusters. 4. The bacteria are rod-shaped. 5. The bacteria are Gram-negative.
A) 1,2.
B) 1,4.
C) 2,3.
D) 2,4.
E) 1,4,5.
Answer:
1 and 4
Explanation:
Streptobacilli are linked together in chains, the bacterium is gram positive and the generally rod-shape. The genus could be aerobic ( required oxygen for their growth), falcultative anaerobe (in the absence of oxygen, they can switch to fermentation).
Hox genes are thought to play an important role in the development of different morphologies because _____.
Answer: They provide positional information in the
Robert and Stephanie are married; both have achondroplasia. Each always knew that they would only marry someone with achondroplasia. This type of choice can disturb Hardy-Weinberg equilibrium and is an example of what?
Answer:The gene Y 11 is only partially dominant over y 11 ; thus heterozygote Y 11 y 11 plant has ...
Explanation:they have it i their genes
Sexual selection favors individuals with traits that increase their ability to obtain mates, such as mating calls in crickets. Using this example, propose a scenario where sexual selection could contribute to divergence in sympatric speciation.Drag the terms on the left to the appropriate blanks on the right to complete the sentences.male(s)female(s)cool forest floorwarm forest canopyVariation in ________ calls could occur, such as a lower-pitched call at the _______ and a higher-pitched call in the _______. _______ in the _______ could start to prefer _______ with lower-pitched calls, and ________ in the _________ could start to prefer _________ with higher-pitched calls, creating genetic isolation. Over time, genetic divergence could occur between the two populations.
Answer:
variation in male calls could occur, such as a lower-pitched call at the cool forest floor and a higher-pitched call in the warm forest canopy. Females in the forest floor could start to prefer males with lower-pitched calls, and females in the canopy could start to prefer males with higher-pitched calls, creating genetic isolation. Over time, genetic divergence could occur between the two populations.
In non-regenerating tissues or in extremely severe wounds, what is the main disadvantage of the scar tissue that replaces the lost tissue?
Answer:
It is unable to perform the functions of the lost tissue.
Adaptive radiations on archipelagos (island chains) represent some of the best-understood speciation events. Why is an ancestral species more likely to give rise to multiple descendent species on an archipelago than on an equal-sized area of mainland?A) Favorable mutations are more likely to arise on an archipelago as populations try to adapt to conditions on their specific island.B) By chance, different species will colonize different islands in a chain.C) Populations on nearby islands are more likely to be genetically isolated than populations that are equally close to one another on the mainland.
Answer:
Populations on nearby islands are more likely to be genetically isolated than populations that are equally close to one another on the mainland.
Explanation:
Adaptive radiation may be defined as the process of evolution in which the single ancestral specifies diversify to form the new multiple species. This is a kind of divergent evolution.
The adaptive radiation results in the process of speciation. The archipelago species is genetically isolated from the mainland. These species has similar characteristics that might be due to their closeness of the island to the mainland.
Thus, the correct answer is option (C).
The regulation of blood flow by local mechanisms within a capillary bed is called
Complete question:
The regulation of blood flow by local mechanisms within a capillary bed is called
A) autoregulation.
B) hormonal regulation.
C) hemoregulation.
D) vasoregulation.
E) neuroregulation.
Answer:
A) autoregulation.
Explanation:
Local changes regulate the flow of blood in each capillary bed. This occurs when the vasodilators trigger the local widening of arterioles and relaxation of precapillary sphincters to increase the blood flow into capillary networks. On the other hand, vasoconstrictors reduce blood flow. This ability of a tissue to control blood flow to meet its metabolic demands is called autoregulation.
For example, autoregulation increases the blood flow in the heart and skeletal muscle during physical activities to meet the increased demand for O2 and nutrients.
Autoregulation is the local regulation of blood flow in a capillary bed. This process lets tissues adjust their blood flow based on the body's needs, and involves mechanisms like the opening and closing of precapillary sphincters. Other systems like neural and endocrine mechanisms also help ensure adequate blood flow and perfusion.
Explanation:The regulation of blood flow by local mechanisms within a capillary bed is called autoregulation. This local, self-regulatory mechanism allows each region of tissue to adjust its blood flow, and thus its perfusion, based on the body's needs. These mechanisms are neither stimulated by the nervous system nor controlled by endocrine signals.
For instance, during strenuous exercise when oxygen levels decrease and carbon dioxide, hydrogen ion, and lactic acid levels increase, the capillary beds in skeletal muscle open, allowing more blood flow. This process is controlled by small muscles called precapillary sphincters. If these sphincters are open, the blood will flow into the associated branches of the capillary blood.
There are other homeostatic mechanisms in place to ensure adequate blood flow, blood pressure, and ultimately perfusion. These include neural, endocrine, and autoregulatory mechanisms.
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After suffering an accidental brain injury, Kira has difficulty walking in a smooth, coordinated manner. It is likely that she has suffered damage to her:
Answer: Kira has difficulty in walking in smooth coordinated manner because she has suffered injury to the cerebellum.
Explanation:
Cerebellum is a part of the brain situated inferior to cerbrum and posterior to pons. It receives sensory information and converts it into motor responses. Motor coordination is when subsequent parts of the same movement, or the movements of several limbs or body parts are combined in a manner that is well timed, smooth, and efficient. Cerebellum coordinates voluntary motor movements resulting in smooth coordinated muscular activities. Injury to cerebellum causes its loss of function which in return causes
1) loss of coordinated movements
2) inability to perform alternate rapid movements
3) movement tremors
4) staggering wide based gait
Kira likely damaged her cerebellum, as this part of the brain regulates fine motor control and coordination. Damage can lead to ataxia, characterized by unsteady, uncoordinated movements.
Explanation:After suffering a brain injury and having difficulty walking in a smooth, coordinated manner, it's likely Kira has suffered damage to her cerebellum.
The cerebellum is part of the brain responsible for fine motor control, balance, and coordination. Damage to this area can result in ataxia, a type of movement disorder characterized by a lack of muscle control during voluntary movements, leading to unsteady and uncoordinated walking.
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A trait that confers a greater level of fitness, relative to those who lack it, is called a(n) ________.
Answer: Adaptation
Explanation:
The adaptation is the process by which a species becomes fitted to its environment which is a direct result of natural selection.
The traits that best suits the organism in an extreme conditions and helps in better survival is known as adaptation.
The variation in the species can be favored or rejected based on the condition. If the variation helps in survival of the organism in a better way then it is favored and if it is does not favors its survival then it is not carried further.
The best suited character is adapted and carried forward.
Most eukaryotic cells contain mitochondria, but a few single-celled eukaryotic organisms found in oxygen-free environments do not. Which of the observations led biologists to reject the hypothesis that these mitochondria-free eukaryotes evolved before the endosymbiotic event that established mitochondria in other eukaryotes?
Answer:
Their nuclear genome contained relics of mitochondrial genes
Explanation:
Mitochondrion is a double membrane bound organelle that is found in most eukaryotic organism whose main function is to produce or generate energy. The mitochondria has DNA thus it is passed exclusively from mother to offspring.
It is hypothesized that it exists inside the cell after an endosymbiotic event
Since their nuclear genome contains relics of mitochondrial genes, biologists rejected the hypothesis that they evolved before the endosymbiotic event.
Select the reasons why viruses, prions, and viroids are not classified as living organisms. a. They are not able to reproduce independently. b. They are only motile in the early stages of growth. c. They do not use energy for metabolism of any kind. d. Their virulence is maintained by non-living cultures.
Answer: Viruses, prions, and viroids are not classified as living organisms because they are not able to reproduce independently, and they do not use energy for metabolism of any kind. Option A and C
Explanation:
Viruses, prions and viroids are not classified as living organisms because they are not made out of cells, they are not able to reproduce independently, and they do not use energy for metabolism of any kind.
A 1 ml sample of culture liquid contained 1000 viable bacterial cells. You serially diluted it twice, performing 10-fold or 1/10 dilutions into a final volume of 1 ml each time. As a result you have three tubes with 100, 10-1, or 10-2 of diluted culture. How many total cells are in the 1 ml of your 10-2 dilution tube?
Answer:
there are 10 viable bacterial cells in 1 ml in the 1/100 dilution tube
Explanation:
in 1ml there is 1000 viable bacterial cells → diluted with 9 ml of solvent (10 ml in total)→ 1000 viable bacterial cells in 10 ml (fist tube)
now we take 1 ml of the first tube into the second empty tube → has 1000/10 = 100 viable bacterial cells on 1 ml → diluted with 9 ml of solvent (10 ml in total)→ 100 viable bacterial cells in 10 ml (second tube)
then we take 1 ml of the second tube into the third empty tube → has 100/10 = 10 viable bacterial cells in 1 ml → diluted with 9 ml of solvent (10 ml in total)→ 10 viable bacterial cells in 10 ml (third tube)
therefore there are 10 viable bacterial cells in 1 ml in the 1/100 dilution tube
The liver plays an important role in modulating blood glucose levels by removing glucose from the blood during periods of abundance or secreting it into the blood when blood glucose concentration is low. However, the liver doesn't simply stockpile glucose. Rather, it polymerizes it into glycogen, which it can then hydrolyze back into glucose monomers as needed. Why would storage as glycogen be better than simply storing the glucose.
Answer: glycogen is insoluble in water
Explanation:
Glycogen is a better storage of glucose because Glycogen is insoluble in water thus, because of the glycosidic linkages. Storing glucose as glycogen will not upset the osmotic pressure rather than glucose which is soluble in water and if it is stored as glucose it will disturb the osmotic pressure making the solution hypertonic that will cause the cell to lyse.
The glucose from glycogen is readily mobilized and is therefore a good source of energy when needed rather than free floating glucose
The liver stores glucose as glycogen, allowing for a compact, controlled, and efficient system of glucose storage and release. After a meal, insulin promotes glucose conversion to glycogen for storage, and when blood sugar levels decrease, the liver converts glycogen back into glucose.
Explanation:The liver stores glucose as glycogen, a polymer of glucose, rather than as free glucose for several important reasons. First, glycogen is a more soluble and compact way to store glucose making it more space-efficient than storing individual glucose molecules. Second, the conversion of glucose to glycogen and back, through processes known as glycogenolysis and gluconeogenesis, allows for a more controlled release of glucose when it is needed. Additionally, glycogen stabilizes blood glucose levels by releasing glucose when blood glucose concentration is low and storing it when the concentration is high.
After a meal, blood glucose levels increase, stimulating the pancreas's production of insulin which promotes glucose uptake by liver hepatocytes and other cells. Inside these cells, glucose is converted into glucose-6-phosphate and then stored as glycogen for future energy needs. If blood sugar levels drop, the glycogen is hydrolyzed back into glucose and released back into the blood. This process allows for the maintenance of stable blood glucose levels, providing a steady supply of energy for body cells.
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Three populations of crickets look very similar, but the males have courtship songs that sound different. What function would this difference in song likely serve if the populations came in contact?
A) a behavioral reproductive isolating mechanism
B) a temporal reproductive isolating mechanism
C) a gametic reproductive isolating mechanism
D) a postzygotic isolating mechanism
Answer:
Answer is A. a behavioral reproductive isolating mechanism.
Explanation:
A behavioral isolation mechanism can be described or explained as a mechanism whereby , mating rituals or signals of species of an organism are different from one another , in order to prevent interbreeding or interest in courtship among them.
In this case , the organisms in the population may be similar, and have the tendency of interbreeding, but , because of their different mating or courtship signals, the interbreeding won't be possible.
This difference in song likely serve if the populations came in contact due to function - A) a behavioral reproductive isolating mechanism
Behavioral reproductive isolating mechanism
Species are reproductively isolated by various mechanisms, one of which is due to the behavior. Singing is a mating call if the song is different mating will not happen and it is termed as a behavioral isolating mechanism for reproduction.
Temporal isolation is with respect to the time when different species mate during a different time. Postzygotic, zygotes become infertile after fusion. Gamete isolation two different gametes don't fuse and hence no formation of zygote.
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