Single-celled Paramecium live in pond water (a hypotonic environment relative to the cytosol). They have a structural feature, a contractile vacuole, which enables them to osmoregulate. If sucrose or saline was added to the pond water in different concentrations (in millimolars, mM), under which conditions would you expect the contractile vacuole to be most active?

Answer:

1. Sweat makes the body cool off in the heat

2. Shivering in the cold

Explanation:

sweat is a reflex that the body makes to maintain homeostasis. the purpose is to make the human body cooler as if it was water produced by the body. On the other hand, shivering in the cold produced heat made by body movement.

Reflex reactions, driven by the autonomic nervous system, play a vital role in homeostasis by ensuring balance in bodily functions. These reactions can regulate heart rate and body temperature depending on the body’s needs, maintaining equilibrium and promoting health.

Reflex reactions play a vital role in maintaining homeostasis in the human body, which is the maintenance of equilibrium around a specific set point in the body. Reflex reactions are driven primarily by the autonomic nervous system, which has two divisions, the sympathetic and parasympathetic systems, that often effect change in opposing directions thereby ensuring balance within the body's systems.

One example of this is in the regulation of heart rate. The sympathetic system increases heart rate when the body needs to respond to a stimulus such as emotional stress or physical exertion, whereas the parasympathetic system decreases heart rate when the body is at rest, helping to conserve energy and facilitate recovery. This balance helps maintain a consistent heart rate that is appropriate for the body's current needs and conditions.

Another example is the role these systems play in regulating body temperature, an important aspect of homeostasis. If the body becomes too warm, for instance, the sympathetic system triggers a reflex response to promote heat loss through processes such as sweating and dilation (widening) of blood vessels in the skin. If the body is too cold, the sympathetic system will trigger reflex responses to conserve heat, such as causing goosebumps and reducing blood flow to the skin. These reflexes help maintain a consistent body temperature, even when external conditions change.

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Answer:

d. maintains all reactions in a pathway near the equilibrium of each.

Explanation:

In living organisms, control processes similar to the control processes used in technology take place in a purely formal way, one can look at living beings as cyber machines. Governance and regulation are fundamental principles of the organization of the living. According to the type of signal or transmission of information, four different types of biological control processes are distinguished:

Answer:

In case   mother carries an X-linked recessive disease and father does not, the risk for each offspring is dependable upon the offspring is male or female. In case of male child, there is a 50% chance to be disease free, and a 50% chance to be affected by this disorder.

Explanation:

G6PD deficiency is an X-linked recessive disorder. The coding gene for G6PD is in the distal long-arm of the X chromosome (Xq28). The gene is 18 kb of length. It has 13 exons. The G6PD enzyme consists of  515 amino acids.

There are over 60 mutations detected in the G6PD gene. The majority of them are single-base changes (amino acid substitution). The X-linked disease is a disease caused by mutation of a gene on the X chromosome. In X recessive disorder male children most commonly manifest the abnormality. The female children are carriers and asymptomatic in case of homozygous or if there is an inactivation of their normal X chromosome.

In case   mother carries an X-linked recessive disease and father does not, the risk for each offspring is dependable upon the offspring is male or female. In case of male child, there is a 50% chance to be disease free, and a 50% chance to be affected by this disorder.

In case of a female offspring, there is a 50% chance to be unaffected, and a 50% to be a carrier.

If a father has G6PD deficiency, while the mother is a carrier all male offspring will be healthy. In this case, the female offspring will be carriers.

In case of  G6PD deficiency, reactive oxygen molecules accumulate and lead to the damage of red blood cells. Certain factors (fava beans, certain medicaments, infections etc. ) may lower the reactive oxygen molecules and lead to acute episodic hemolytic anemia.  In that case, red blood cells are damaged faster than they may be replaced in the human body. There are signs of hemolytic anemia in case of G6PD deficiency. Thus, chronic hemolysis may occur with a significantly lower level of enzyme.  In case of symptomatic patients there is a neonatal jaundice and acute hemolytic anemia. Kernicterus may be a neonatal complications in G6PD deficiency.

Answer:

The correct answer will be option-D

Explanation:

In-plant cells, ATP is synthesized during photosynthesis and cellular respiration.  The ATP molecule formed during photosynthesis is utilized during the synthesis of sugar molecule during the Calvin cycle.

The ATP which are synthesised during the cellular respiration is higher in number as compared to photosynthesis. In cellular respiration, the ATP is synthesised during the glycolysis and electron transport chain which accounts for 34 to 36 ATP molecules.

These ATP molecules are utilized to perform other metabolic functions like amino acid synthesis and active transport.

Thus, option-D is the correct answer.

Lymphatic capillaries and blood capillaries differ in fluid flow direction, structure, and permeability. Lymph flows in one direction in lymphatic capillaries and these are dead-end tubes unlike the looped structure in blood capillaries. Also, lymphatic capillaries are more permeable.

Lymphatic capillaries and blood capillaries have several key differences in their structure and function, which is reflected in their roles within the body's circulatory and immune systems.

Firstly, the fluid in lymphatic capillaries, known as lymph, only flows in one direction – from the tissues to the heart, which contrasts with the blood in blood capillaries that flows in two directions. This difference reflects a fundamental difference in their functions: while blood capillaries circulate oxygen and nutrients to tissues and remove waste products, lymphatic capillaries primarily transport immune cells and excess interstitial fluid from tissues back to the bloodstream.

Secondly, lymphatic capillaries start as dead-end tubes which is different from blood capillaries that are part of a loop. This unique structure allows lymphatic capillaries to absorb fluid from tissues.

Thirdly, even though walls of both lymphatic and blood capillaries are composed of endothelium, lymphatic capillaries are more permeable due to the loose junctions between endothelial cells. This high permeability allows lymphatic capillaries to absorb larger molecules, such as proteins, and cellular debris.

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Lymphatic capillaries, unlike blood capillaries, are one-way, dead-end tubes that are highly permeable and collect fluids from tissues. These capillaries have a unique structure with overlapping endothelial cells that function like valves, allowing fluid and larger particles to enter but not exit.

The lymphatic and blood capillary systems are two different plumbing systems in our bodies, each serving its unique set of functions. Lymphatic capillaries differ from blood capillaries in several ways.

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Answer:

Eukaryotic translation.

Explanation:

Translation is the process of the formation of the proteins from the RNA molecules with the help of different enzymes and proteins. Translation is quite different in case of prokaryotes and eukaryotes.

The initiation in case of eukaryotes requires different enzymes and translation factors. eIFs are the initiation factors that contains proteins and required for the initiation of eukaryotes translation. eIF1 and eIF1A are the proteins binds with the 40'S ribosome subunit of eukaryotes.

Thus, the correct answer is option (1).

The electrical charge travel through the neural cell membrane and thus generates a nerve impulse. The nerve impulse travels through membrane of neural cell by the movement of ions across the membrane. The nerve impulse signal will travel through the neuron and reaches at the end of a neuron that is axon terminal. The end (axon) of a neuron connects with the  dendrites of second neuron with the help of molecules known as neurotransmitters. This connection between two neurons that allows the nerve impulse to travel is called synapse.

Learn more: Nerve impulse

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A nerve impulse in a neuron starts at the dendrite and then passively moves to the cell body. A structure in the cell body, called the axon hillock, integrates these signals which are then propagated down the axon. The impulse triggers neurotransmitters at the synapse that stimulate the next neuron or target.

The path of a nerve impulse in a neuron starts with the dendrite, which functions as the contact point for incoming signals from other neurons or sensory cells. The signal then passively travels to the cell body, where specialized structures integrate the signals. This integration of signals occurs at the axon hillock, which serves as a junction between the cell body and the axon.

The axon is a tube-like structure that helps propagate the integrated signal towards the axon terminals. These terminals are further responsible for synapsing on other neurons, muscle, or target organs, which in turn allow communication of signals to these other cells. Some neurons also carry with them insulating layers known as myelin sheaths to speed up signal conduction and minimize dissipation. These insulating sheaths contain gaps known as nodes of Ranvier where the signal is 'recharged' as it travels along the axon.

This conduction ends when enough neurotransmitters are released at the synapse, the gap between neurons, to stimulate the next neuron or target, thereby generating a response.

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Answer:

Amensalism

Explanation:

Amensalism is a form of relationship between organisms living in the same environment in which one is negatively affected, by inhibition or outright destruction, and the other is unaffected in any way.

Amensalism is of two types;

Hence, the relationship between black walnut and nearby shrubs or trees is antibiosis, a form of amensalism.

The black walnut's release of growth-inhibiting chemicals is an example of allelopathy, which is a type of amensalism where one species is negatively affected and the other is unaffected.

The chemical inhibition of growth or death of nearby trees and shrubs by a black walnut (Juglans nigra) through the secretion of chemicals is an example of allelopathy, which is a type of interference interaction. This phenomenon occurs when allelopathic plants like the black walnut exude chemicals from their roots that inhibit the growth of surrounding plants. Given that the black walnut isn't affected by these chemicals, the relationship can be characterized as amensalism, where one species is harmed while the other remains unaffected. It's different from commensalism, where one species benefits and the other is neither harmed nor benefited, and mutualism, where both species benefit.

Final answer:

Labeling nitrogen instead of phosphate in DNA would not work because radioactive nitrogen is not practically detectable like phosphorus-32 used in the Hershey and Chase experiment, and nitrogen does not exclusively mark DNA over proteins.

Explanation:

The idea for the student's science fair project is based on modifying the Hershey and Chase experiment, by labeling the nitrogen atoms in DNA instead of phosphate to provide a stronger signal. However, labeling nitrogen would not provide the desired outcome for several reasons. First and foremost, there is a radioactive isotope of nitrogen (¹⁵N), as demonstrated by Meselson and Stahl's experiment, but it is not used because its radiation is not detectable by the same means used for phosphorus-32. In the Hershey and Chase experiment, radioactive phosphorus (³²P) was used to label DNA because phosphorus is a component of DNA but not protein, and its radioactivity can be easily detected. Secondly, using ¹⁵N would not differentiate between DNA and protein because amino acids also contain nitrogen atoms.

Answer:

The polysaccharides have been broken down.

Explanation:

The polysaccharides have been broken down in to monosaccharides by the process of hydrolysis to make them small particles which can be easily absorbed by the body .

Answer:

The correct answer is e. Postzygotic barrier.

Explanation:

Different species can not mate and produce viable, healthy and fertile descendence, due to certain mechanisms of reproductive isolation.

These mechanisms involve different kinds of barriers that make it difficult for two different species to produce viable and fertile progeny.

One of these is the postzygotic barrier, which avoids the hybrid zygote to develope to adultness. In these situations, there is a mix of chromosomes that can not happen to meet or that they lack information.

There are cases in which the embryo dies, but some times the individual can reach some more advanced develope stages.  If this is the case, in general, they can not survive because the organism is unhealthy. And if they reach adultness in good sate they can not leave descendence, as they are sterile.

Answer:  All of the choices are correct.

Explanation:

Schamberg's disease is the pathological condition that allows lymph to leak from the blood capillaries, it causes no other symptoms beside skin discoloration and itching. The condition is caused by inflammation of capillaries near the surface of skin and subsequent leaking of blood cells into surrounding tissues.

So, the Lymph  found in this patholgical condition is a fluid that circulates the entire body in the lymphatic system. The lymphoid organs include (the spleen, lymph nodes, bone marrow, thymus and lymph tissue) . These lymph nodes are small, bean-shaped structures which produce and store cells, specialized in fighting infections.

In the spleen (an organ in the upper left abdomen, filtration of  these blood and disposal of worn-out blood cells occurs ), Hence, provides a reserve supply of blood.

However, Fluid in the spaces between the tissues are called interstitial fluid (tissue fluid). They provides the cells of the body with nutrients (via the blood supply) and a means of waste removal.

As such, Lymph is formed when the interstitial fluid is collected through tiny lymph capillaries, which are located throughout the body. It is then transported through lymph vessels to lymph nodes, which clean and filter it. Lymph then flows on to the lymphatic ducts, before emptying into the right or the left subclavian vein, where it mixes back with blood.

Answer:

Hypothalamic-hypophyseal portal veins (a network of blood vessels)

Explanation:

The hypothalamus- pituitary secretory complex can be referred to as the "command center" of the endocrine system. This is because the complex regulates the synthesis and secretion of hormones by other glands.

The anterior pituitary secretes a battery of hormones that collectively influence virtually all physiological responses in the body. This function makes the pituitary gland be referred to as the"master gland" of the body. This is true but the hypothalamus is responsible for regulating the synthesis of these hormones by the pituitary. Some neurons in the hypothalamus secrete hormones that controls the secretion of hormones by the anterior pituitary. These hypothalamic hormones are referred to as releasing and inhibiting hormones depending on whether they stimulate or inhibit secretion of hormones by the anterior pituitary.

The hypothalamus releasing/inhibiting hormone are carried directly to the anterior pituitary through a network of blood vessels in the infundibulum called hypothalamic-hypophyseal portal veins.

Specific hypothalamic hormones bind to receptors on specific anterior pituitary cells, thereby regulating the release/inhibition of the hormone they produce.

The mechanism of transportation from the hypothalamus to the anterior pituitary gland is through the hypophyseal portal system, a network of blood vessels.

The transport of hormones from the hypothalamus to the anterior pituitary gland is through the hypophyseal portal system. This system is a network of blood vessels that allows for direct transport between these two glands. The hypothalamus secretes releasing and inhibiting hormones into this portal system which travels down to the anterior pituitary triggering or preventing the release of certain hormones respectively.

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Answer:

Law of independent assortment

Explanation:

The law of independent assortment was given by Gregor Mendel which says that one pair of gene get assorted independent of the other pairs of gene during the time of gametogenesis that means each pair of different character(traits) have no association with other characters.

So this independent assortment gives rise to new character combinations in the offspring. For example, the seed color is one trait and seed shape is another trait so during the time of gamete formation these two traits will assort independently. Therefore the right answer is the law of independent assortment.

Answer:

The correct answer is desert.

Explanation:

If an entomologist wants to look for a good example of an organism that prevents water loss, he must look for organisms in the desert.

A desert is one of the ecosystems that receives less water, the rainwater that falls is less than 150 mm per year.

Despite the heat and lack of water, there is a wide variety of living beings that inhabit this type of ecosystem. But for that they must save water, and they do this through adaptations that they developed when they were living in this place.

They can have two types of adaptations: physical or behavioral adaptations.

In behavioral adaptations, desert animals simply avoid the sun to generate greater water retention. Depending on the species, some choose to go out only during the night, and others prefer to be under the shadow of a cactus.

Some species also get the water they need through the food they eat, which prevents them from having to go in search of water.

One type of physical adaptation is the one that occurs in those animals who accumulate fatty tissue in their body which allows them to stay fresh and thus prevent water from evaporating.

Answer:

The correct option is ' Different temperature-sensitive mutations affect different stages of the transport process.'

Explanation:

Specific genes make mRNA for a protein by the process of transcription. Protein is made from the mRNA by the process of translation in the ribosomes.

After the synthesis of a protein, it travels to the Endoplasmic Reticulum where it is packaged, then to the Golgi complex where they are modified and packaged. From the Golgi complex, they move out of the cell to where they have to function through vesicles. Hence, the mutation due to which the proteins accumulate in ER, Golgi and vesicles show that the mutations have affected the transport process.

Protein accumulation in different areas of the cell, such as the ER, Golgi, or vesicles near the plasma membrane, can indicate defects at different stages of the secretory pathway. This could be due to a failure in trafficking between these compartments or problems in exocytosis.

The differences in where unsecreted proteins accumulate in these yeast mutants is likely a result of defects in the secretory pathway at different stages. Proteins are synthesized and modified in the rough endoplasmic reticulum (RER) before being packaged into vesicles that bud from the RER to fuse with the Golgi apparatus. If there's a defect preventing the proteins from progressing from the RER to the Golgi, they will accumulate in the RER.

For the mutants where proteins accumulate in the Golgi, the defect is probably at the stage of trafficking between the Golgi and the plasma membrane. In other words, the proteins can reach the Golgi but cannot leave.

Lastly, for those mutants where the proteins accumulate in vesicles near the plasma membrane, the defect is likely in the stage of exocytosis, where secretory vesicles fuse with the plasma membrane and release their contents outside the cell.

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Answer:

It is not usually a component of eukaryotic membranes.

Explanation:

Cholesterol is responsible for modulating the fluidity of the cell membranes of eukaryotes.

It is produced in most animal cells, and its formation is substantially active in liver cells, where bile acids are synthesized from cholesterol.

In addition, cholesterol is the precursor of steroid hormones such as progesterone, testosterone, estradiol and cortisol.

Cholesterol (like other lipids) is amphipathic, meaning it has a polar head (hydrophilic) and an apolar tail (hydrophobic).

Given the above, it can be concluded that the false statement is "it is not usually a component of eukaryotic membranes".

Answer: frontal

Explanation:

Frontal lobe or frontal region of the brain in humans is relative to large mass and restricted in movement. It is part of the cerebral system. It supports goal-directed behaviors.

The damage caused to the frontal lobe or frontal region of the brain affects the ability of an individual to make a decision and good choices. The damage to the frontal lobe causes an increase in irritability which may lead to the change in mood and the person is unable to regulate own behavior. The person feels unmotivated and with limited ideas.

Answer:

Answer is C.

Explanation:

For A and B, a base substitution affects one of the three bases that comprise a codon, the DNA/RNA unit that corresponds to a particular amino acid. If one base is substituted, one codon and therefore one amino acid will be affected. Codons have built-in redundancy, so even by changing one base, the new codon sometimes still corresponds to the same amino acid. Therefore, a base substitution at most affects one amino acid, and sometimes doesn't affect it all.

Frameshift mutations cause a lot more trouble. These occur when you have a deletion or insertion that changes the number of bases in your gene. As a result, the "frame" of the codons changes (everything shifts one way or the other by the number of bases added/removed). This affects EVERY codon downstream of the mutation, so you can imagine that such a mutation would have a bigger effect the closer to the start of the gene it occurs. This is why C is correct.

Answer:

The correct answer will be- relationship between facial movements, facial expressions and emotions.

Explanation:

The Facial Action Coding System (FACS) is a comprehensive system used to study the facial expressions and relating them to the emotions.

This coding system was developed by a psychologist named Paul Ekman which is used by the detective agencies to detect lies and the animation industries all over the world.

The system is based on the anatomical facial movement which is broken down into the smaller components called Action Units based on the muscles movements.

Thus, the relationship between facial movements, facial expressions and emotions is the correct answer.

Due to huge effect use of Drought the population of animal get extinct.

Explanation:

Droughts can have a severe impact on the extinction of animal populations, specifically in Arid and Semi environments. Different type of climate changes can accelerate the dying of particular species or animal population.  

For extinction of population and also species Droughts play vital role. Droughts are one of such severe climatic change that leads to the extinction of species. Some life traits of specific Species make it vulnerable to drought.  

Answer:

Individuals could now freely mate, and gene flow would increase

Explanation:

Final answer:

The parasympathetic nervous system response after a stressful event like almost being hit by a bus is to slow down Nina's heart rate and activate her digestion, returning her body to a state of calmness and homeostasis.So,option  a) slowing her heart rate and activating her digestion is correct.

Explanation:

After Nina was almost hit by a bus, her parasympathetic nervous system is responding to calm her body down from the stressful event. The correct response of her parasympathetic nervous system would be a) slowing her heart rate and activating her digestion. This is because the parasympathetic system is responsible for the 'rest and digest' state, which involves lowering the heart rate, reducing blood flow to the skeletal muscles, and stimulating the digestive processes after a fight-or-flight response has occurred. In this instance, it helps Nina to recover by bringing her body functions back to a state of internal homeostasis.

Answer:

4. diseases in which the immune system attacks the body’s own tissues, FALSEly identifying them as invaders

Explanation:

Components of the immune system are able to distinguish between the self and invading substances/proteins and exert their responses towards the invading foreign substances only. An autoimmune disease occurs when the immune system is not able to make such a distinction between the self and foreign substances and attack the body's own tissues/cell/proteins or other molecules.

For example, rheumatoid arthritis is an autoimmune disorder in which the immune system attacks the synovial membranes of the joints of the body.

Answer:

4. diseases in which the immune system attacks the body’s own tissues, FALSELY identifying them as invaders

Explanation:

Answer:

The correct answer is d Bill"s plasma contain B antibodies

Explanation:

As Bill"s plasma contain B antibodies that"s why his blood cells do not aggutinate when mixed with anti B serum.

Bill's blood type is A, so he could donate blood to a person with type B blood, but cannot receive type B blood in a transfusion.

Based on the information provided, Bill's blood agglutinates with the anti-A serum but not with the anti-B serum. This indicates that Bill's blood contains the A antigen and does not contain the B antigen. Therefore, Bill's blood type is A. With blood type A, Bill could receive blood transfusions from individuals with type O or type A blood, but not from individuals with type B or AB blood. Therefore, option a. Bill could receive type B blood in a transfusion is not true. However, Bill could donate blood to an individual with type B blood, making option b. Bill could donate blood to an individual with type B blood true.

Answer:

Polymerase chain reaction (PCR) is a common laboratory technique used to make many copies (millions or billions!) of a particular region of DNA. This DNA region can be anything the experimenter is interested in. For example, it might be a gene whose function a researcher wants to understand, or a genetic marker used by forensic scientists to match crime scene DNA with suspects.

Explanation:

i hope this answers your question

Polymerase Chain Reaction (PCR) can be analogized to a high-speed copy machine. It systematically heats and cools DNA to create strands that are then duplicated by the enzyme Taq polymerase. It's essentially ‘copying’ a specific DNA sequence again and again.

The Polymerase Chain Reaction (PCR) can be compared to a replication machine that quickly duplicates a specific section of DNA. Its three-step cycle (denaturation, annealing, and DNA synthesis) mimics copying a selected text, highlighting it (to mark where copying starts and ends), and then pressing a 'copy' button that replicates the highlighted text each time it is pressed. The result is multiple copies of that specific portion.

At the beginning, the DNA molecule is heated to high temperatures to denature or separate the two strands, like tearing a book into two halves so that the text (information) can be accessed. Next, the temperature is lowered which allows the primers (short pieces of DNA that matches the start and end point of the region to be copied) to attach to each DNA strand, like using highlighters to mark the beginning and end of the text in the book that needs to be copied. Lastly, the Taq polymerase, isolated from the Thermus aquaticus bacteria (akin to a high-temperature resistant copy machine), synthesises new strands of DNA from the original strands, duplicating the 'highlighted text' over and over.

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Answer:

The correct answer is  B. A small substance generated in response to receptor binding that activate or inactivate specific proteins.

Explanation:

An example of second messengers are AMPcyclic, Ca2 + ion. In the case of cAMP, the enzyme adenylate cyclase is synthesized from ATP (this is found within the cell membrane). The AMPC is involved in cell signal transduction pathways before external and / or internal stimuli, (example: adrenaline hormone), being able to activate the enzyme called protein kinase A (PKA), which phosphorylates its target and thus the signal is transmitted.

Answer: D (It involves carrier-mediated transport).

Explanation:

Tubular reabsorption transports nutrients back into the blood. Tubular reabsorption of nutrients such as sodium, glucose, lactate amino acids, and other organic substances occurs via carrier membrane proteins to the proximal tubule.

Most of the substances that are reabsorbed via the proximal tubule require the use of carrier membrane proteins, for facilitated diffusion, active transport and secondary active transport.

Example of secondary active transport is the sodium-dependent glucose cotranspoter.

Out of the provided options, tubular reabsorption mainly involves carrier-mediated transport. This process helps in moving solute and water from the filtrate back to the blood. It does not always use the paracellular route or involve active transport.

The statement 'D) It involves carrier-mediated transport' is the most accurate of the options provided. Tubular reabsorption, a critical component of the nephron's function in our kidneys, is a process by which solutes and water are removed from the tubular fluid and transported back into the blood. Ironically, this process doesn't always occur via the paracellular route or always involve active transport. The process often involves carrier-mediated transport, where specific molecules (the 'carriers') help move substances across cell membranes - this aids the reabsorption of water and various solutes back into the blood from the filtrate.

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Answers & explanation:

I - False

A sympatric speciation can occur commonly in both animals and plants. Sympatric speciation events are very common in plants because it is normal for them to develop multiple sets of chromosomes.

II - False

Sympatric speciation occurs without geographic variation. When two populations of the same species live in the same area but there is no crossing between populations, sympatric speciation occurs.

III - True

Sympatric species may indeed lead to the formation of new species. Sympatric speciation is believed to be responsible, for example, for the large number of cichlid fish species found in Lake Victoria on the African continent. According to research, this lake was colonized by only one ancestral species.

Answer:

Both neurons carry different information

Explanation:

Both spinocerebellar tract neuron and sensory neuron originating in the quadriceps femoris carry different information to the brain.

spinocerebellar tract neuron has a function of transmitting information from Golgi Tendon organ and muscle spindle to brain for coordination in movement.  Whereas  sensory neuron originating in the quadriceps femoris have function sending sensory signals to the brain.  Both neurons have myelin sheathing and both pass through dorsal root ganglion.

Thus, we can say that Both neurons carry different information.