Which two body systems were most actively involved in this experiment?


(1) respiratory and immune (3) respiratory and circulatory


(2) digestive and endocrine (4) immune and circulatory

The region of the chromosomes where the two duplicated copies of DNA are held together after the DNA is replicated but before mitosis is called the centromere.

The centromere is the specialized DNA sequence in the middle of a replicated chromosome where the kinetochore forms, and it plays a crucial role in chromosome segregation during cell division. It is the site where the spindle fibers attach and pull the sister chromatids apart during mitosis and meiosis. A typical human chromosome has one centromere, but some have two or more, and the location and structure of the centromere can vary between different species.

To know more about DNA, click here
https://brainly.com/question/264225

#SPJ11

When the seesaw is balanced, Marcia is twice as far from the pivot as her father due to the conservation of energy.

The conservation of energy principle states that energy cannot be created or destroyed but can only be transferred or transformed from one form to another. In the case of the seesaw, the potential energy and the torque of the system are balanced to maintain equilibrium. As Marcia's father is heavier, he possesses more potential energy when sitting on the seesaw. To balance the seesaw, Marcia needs to sit at a position that allows the system to have equal potential energy on both sides of the pivot.

To achieve this balance, Marcia must sit farther away from the pivot compared to her father. By doing so, she increases her distance from the pivot and subsequently increases her lever arm, which compensates for her lower weight. This arrangement ensures that the total potential energy on both sides of the seesaw is equal. In summary, to maintain balance on the seesaw, Marcia is positioned twice as far from the pivot as her father. This positioning allows for the conservation of energy and equalizes the potential energy of the system on both sides of the pivot.

Learn more about energy here: https://brainly.com/question/29763772

#SPJ11

The skeletal and cardiac muscle slides have notable differences in nuclei and cell shape. In skeletal muscle, the nuclei are elongated and located at the periphery of the cell. This allows for more space in the cytoplasm for the myofibrils to contract. Additionally, skeletal muscle cells are cylindrical and have multiple nuclei due to the fusion of myoblasts during development.

On the other hand, cardiac muscle has a different cell shape and nuclei arrangement. The nuclei in cardiac muscle cells are centrally located, and the cells are branched, forming intercalated discs that connect adjacent cells. These discs allow for coordinated contractions, ensuring efficient pumping of blood throughout the heart.

In summary, the differences in nuclei and cell shape between skeletal and cardiac muscle slides reflect the unique functions of each muscle type. Skeletal muscle is responsible for movement and requires a cylindrical shape with elongated nuclei, while cardiac muscle needs a branched shape and central nuclei to ensure coordinated contractions.

To know more about cardiac muscle refer here

https://brainly.com/question/14855534#

#SPJ11

The blood cells that attach to types of tumor cells and cells infected with viruses are known as (b) cytotoxic T cells.

These cells play a crucial role in our immune response, as they are specifically designed to identify and target cells that have become abnormal or infected. Once they attach to the abnormal cells, they release chemicals that help to destroy them and prevent the spread of the infection or cancerous growth. Cytotoxic T cells are a type of white blood cell and are produced in the thymus gland. They are an important part of our immune system, as they help to keep us healthy and protected from harmful pathogens and abnormal cells. In summary, cytotoxic T cells are the blood cells responsible for targeting and destroying abnormal cells in the body.

To know more about blood cells visit:

https://brainly.com/question/29587914

#SPJ11

Bacterial cells protect their own DNA from restriction enzymes by adding methyl groups to adenines and cytosines in a process called DNA methylation.

The correct answer is C. This modification prevents the restriction enzymes from recognizing and cutting the DNA at specific sites, thereby protecting the bacterial DNA from damage. DNA methylation is an essential process for the survival of bacteria, as it allows them to distinguish their own DNA from that of foreign invaders. In addition to protecting the bacterial DNA, methylation also plays a role in regulating gene expression and DNA replication. Answering in more than 100 words, DNA methylation is a critical mechanism that bacterial cells use to protect their own DNA from damage. This modification is carried out by the addition of methyl groups to specific bases in the DNA sequence, which prevents restriction enzymes from recognizing and cutting the DNA at specific sites. DNA methylation is an essential process for bacterial survival, as it allows them to distinguish their own DNA from that of foreign invaders. The modification also plays a role in regulating gene expression and DNA replication. In summary, bacterial cells protect their DNA from restriction enzymes by adding methyl groups to their DNA.

To know more about DNA visit:

brainly.com/question/264225

#SPJ11

A) 4*10^2 molecules/second we divide the energy used by the energy released per ATP molecule: (2*10^-17 J/s) / (5*10^-20 J/molecule) = 4*10^2 molecules/second

To calculate the number of ATP molecules broken down and reassembled each second, we divide the energy used by the energy released per ATP molecule: (2*10^-17 J/s) / (5*10^-20 J/molecule) = 4*10^2 molecules/second.

B) 3.456*10^7 times/day

To determine the number of ATP recycling occurrences per day, we multiply the number of molecules broken down and reassembled per second by the number of seconds in a day: (4*10^2 molecules/second) * (60 seconds/minute) * (60 minutes/hour) * (24 hours/day) = 3.456*10^7 times/day.

Learn more about molecules here:

https://brainly.com/question/28931982

#SPJ11

The presence of leukocytes in the urine, also known as leukocyturia, can be caused by various factors. One of these factors is a urinary tract infection (UTI),

which occurs when bacteria enter the urinary system and multiply, causing inflammation and irritation. As a result, white blood cells are produced to fight off the infection,

and these cells are released into the urine. A kidney infection, which is a type of UTI that affects the kidneys, can also cause leukocyturia.

Another possible cause of leukocyturia is fasting or starvation. When the body is deprived of nutrients for an extended period, the immune system may become weakened,

making it easier for infections to develop. As a result, leukocytes may be present in the urine.

Uncontrolled diabetes mellitus can also lead to leukocyturia. When blood sugar levels are consistently high, it can weaken the immune system and increase the risk of infections.

In addition, high levels of sugar in the urine can create a favorable environment for bacteria to grow, leading to an increased risk of UTIs.

Finally, menstrual blood can also cause leukocyturia. During menstruation, small amounts of blood may enter the urinary tract, leading to inflammation and the production of white blood cells.

In conclusion, there are various situations that can cause the presence of leukocytes in the urine, including UTIs, kidney infections, fasting or starvation, uncontrolled diabetes mellitus,

and menstrual blood. If you are experiencing symptoms such as painful urination, frequent urination, or blood in the urine,

it is important to seek medical attention to determine the underlying cause of your symptoms and receive appropriate treatment.

To know more about urinary tract infection (UTI) refer here

https://brainly.com/question/30506638#

#SPJ11

The two expressions that are equal are C) 3ab(ab + 4a2b2 + a2b) and D) ab(3a2b −12ab2 + 3b2).Hence, the correct option is C and D.

To determine which two expressions are equal among the given options: A) ab2(3ab2 + 4ab + 3), B) 3ab2(a2 −4ab + b), C) 3ab(ab + 4a2b2 + a2b), D) ab(3a2b −12ab2 + 3b2), and E) 3a2b(ab + 4ab2 + a2b2).

We shall factor each of them as shown below:A) ab2(3ab2 + 4ab + 3)This expression cannot be further factored.B) 3ab2(a2 −4ab + b)This expression cannot be further factored.C) 3ab(ab + 4a2b2 + a2b)Factor out the GCF which is ab from the terms ab, 4a2b2, and a2b to get ab(ab + 4ab + a2b). Hence, 3ab(ab + 4a2b2 + a2b) = ab(3ab + 12ab + 3a2b)D) ab(3a2b −12ab2 + 3b2)Factor out the GCF which is 3ab from the terms 3a2b, -12ab2 and 3b2 to get 3ab(3ab - 4b + b). Hence, ab(3a2b −12ab2 + 3b2) = 3ab(3ab - 4b + b)E) 3a2b(ab + 4ab2 + a2b2)Factor out the GCF which is ab from the terms ab, 4ab2 and a2b2 to get ab(ab + 4b + a2b). Hence, 3a2b(ab + 4ab2 + a2b2) = ab(3a2b + 12ab2 + 3a2b)Comparing the obtained expressions, we can see that expression C) 3ab(ab + 4a2b2 + a2b) is equal to expression D) ab(3a2b −12ab2 + 3b2).

Learn more about expressions here:

brainly.com/question/32274037

#SPJ11

In African lions, infanticide seems to be adaptive for males because of the combination of reproductive competition and shorter tenure.

Reproductive competition plays a significant role in infanticide among African lions. Male lions compete for access to females within a pride, and by killing the cubs sired by rival males, the infanticidal male eliminates potential competitors and increases his own reproductive success.

By removing the offspring of other males, the infanticidal male reduces the future competition his own offspring would face for resources and mating opportunities.

Additionally, the shorter tenure of male lions within a pride contributes to the adaptive nature of infanticide. Male lions typically have limited control over a pride for a relatively short period of time before being ousted by other males.

By killing the cubs, the new male entering the pride can bring the females back into estrus sooner, allowing him to sire his own offspring and pass on his genes before potentially being overthrown by another male.

This strategy maximizes the male's chances of leaving a genetic legacy in the population, even if his tenure as the dominant male is short-lived.

To learn more about strategy, refer below:

https://brainly.com/question/15860574

#SPJ11

Answer:

confirm that the change in gene expression is passed from cell to cell but does not involve a change in the DNA sequence.

Explanation:

Hope this helped!

A joint in which articulating bones are joined by long strands of dense regular connective tissue is a fibrous joint, also known as a synarthrosis.

Fibrous joints are characterized by their minimal movement and high stability. The bones in fibrous joints are connected by collagen fibers or other dense connective tissue, which provides strength and resistance to tension or twisting. Examples of fibrous joints include sutures between the bones of the skull, which are connected by dense regular connective tissue, and syndesmoses, such as the joint between the tibia and fibula in the lower leg, which are connected by interosseous membranes made of fibrous connective tissue. Fibrous joints are important for maintaining the structural integrity of the skeleton and protecting vital organs from injury.

Learn more about Fibrous joints here;

https://brainly.com/question/2946078

#SPJ11

Acetals do not react with nucleophiles because they lack a carbonyl group, which is a characteristic feature of aldehydes and ketones that make them susceptible to nucleophilic attack.

Acetals are formed when an aldehyde or ketone reacts with an alcohol in the presence of an acid catalyst. The resulting acetal molecule has two ether linkages (R-O-R') instead of a carbonyl group (C=O). These ether linkages are relatively stable and do not undergo nucleophilic addition or substitution reactions.

In addition, the oxygen atom in an acetal is electron-deficient due to the electron-withdrawing effect of the two alkyl groups attached to it. This makes the oxygen less nucleophilic and less likely to undergo nucleophilic attack. Therefore, acetals are generally inert towards nucleophiles and can be used as protective groups for carbonyl compounds in organic synthesis, as they can be easily removed under mild acidic conditions.

To know more about nucleophilic attack, click here:

https://brainly.com/question/31565738

#SPJ11

The correct answer to the question is a) Nucleosome remodeling.

Eukaryotic DNA is packaged into nucleosomes, which consist of DNA wrapped around histone proteins. The compact nature of nucleosomes can make it difficult for the transcription machinery to access the DNA and carry out transcription. Transcription activators are proteins that bind to specific DNA sequences and recruit other proteins to modify the chromatin structure in order to make the DNA more accessible for transcription. Nucleosome remodeling is the process by which the position or composition of nucleosomes is altered, allowing for easier access to the DNA by transcription factors and RNA polymerase. This can involve the movement, sliding, or removal of nucleosomes, as well as the addition of histone variants that can alter chromatin structure. Histone modifications and replacement can also play a role in regulating gene expression, but in the context of the question, the correct answer is nucleosome remodeling.

To know more about Eukaryotic DNA visit:

https://brainly.com/question/15396356

#SPJ11

1. Anatomical Location and Neural Connections of the Cerebellum:

- The cerebellum is located at the posterior part of the brain, behind the brainstem.

- It is situated below the occipital lobes of the cerebral cortex and above the brainstem.

- The cerebellum is connected to the brainstem by three pairs of cerebellar peduncles: the superior cerebellar peduncles, middle cerebellar peduncles, and inferior cerebellar peduncles.

- The cerebellum receives inputs from various parts of the brain, including the cerebral cortex, spinal cord, and sensory organs, through these peduncles.

- It also sends outputs to the brainstem, thalamus, and cerebral cortex, allowing it to modulate motor function and coordination.

2. Dural Sinuses Draining the Cerebellum:

- The dural sinuses responsible for draining the cerebellum include the superior sagittal sinus, straight sinus, and transverse sinuses.

- The superior sagittal sinus is located in the superior midline of the brain, running along the top of the falx cerebri.

- The straight sinus lies at the junction of the falx cerebri and tentorium cerebelli.

- The transverse sinuses are located laterally and drain into the sigmoid sinuses.

3. Veins Carrying Blood Out of the Cranial Vault:

- The veins responsible for carrying blood out of the cranial vault and back towards the heart include the internal jugular veins.

- These veins receive blood from various cerebral veins and dural sinuses, including the superior sagittal sinus, transverse sinuses, and sigmoid sinuses.

- The internal jugular veins exit the cranial vault through the jugular foramen and merge with the subclavian veins to form the brachiocephalic veins, which ultimately return blood to the heart.

4. Explanation of Incoordination in Cerebellar Ataxia:

- The cerebellum plays a crucial role in coordinating and fine-tuning motor movements.

- It receives inputs from the cerebral cortex, spinal cord, and sensory organs, allowing it to integrate sensory information with motor commands.

- The cerebellum compares the intended movement with the actual movement and makes adjustments to ensure smooth and coordinated motion.

- In cerebellar ataxia, the dysfunction or damage to the cerebellum disrupts this coordination process.

- As a result, individuals with cerebellar ataxia display signs of incoordination, such as difficulty in maintaining balance, unsteady gait, and impaired eye movements.

- The lack of coordination arises due to the cerebellum's role in regulating the timing, force, and direction of muscle contractions, which are necessary for precise and coordinated movements.

- The disruption of these processes in cerebellar ataxia leads to the characteristic lack of coordination observed in affected individuals.

To know more about cerebellum refer here

https://brainly.com/question/11219813#

#SPJ11

The 'lac' operon of 'Escherichia coli' is composed of three genes and two control sequences, the operator and the promoter.

The 'lac' operon in E. coli is responsible for the metabolism of lactose. It consists of three genes - lacZ, lacY, and lacA - which are transcribed together as a single mRNA molecule under the control of the promoter and operator. The operator is a DNA sequence that controls the access of RNA polymerase to the promoter, while the promoter is a DNA sequence that initiates transcription by RNA polymerase. When lactose is present, it binds to the repressor protein and causes a conformational change that makes it unable to bind to the operator. This allows RNA polymerase to bind to the promoter and transcribe the genes, leading to the metabolism of lactose.

To know more about 'Escherichia coli', click here:

https://brainly.com/question/10581009

#SPJ11

The fact that nitrogenase is found in anaerobic bacteria provides information about its evolutionary history.Option B is the correct answer as it suggests that the genes encoding nitrogenase evolved prior to those for aerobic metabolism. This indicates that nitrogenase was present in the earliest forms of life on Earth, which were likely anaerobic bacteria.

As oxygen levels increased, aerobic metabolism evolved, but nitrogenase remained an important tool for anaerobic bacteria to fix atmospheric nitrogen.Chemistry informs evolution in this instance because the reactants and products available for metabolism guide the evolution of genes. Nitrogenase is an enzyme that allows bacteria to convert atmospheric nitrogen into a form that can be used by cells.

The evolution of nitrogenase likely occurred in response to the availability of atmospheric nitrogen and the need for bacteria to survive in an anaerobic environment. As oxygen levels increased, the need for nitrogenase decreased, and aerobic metabolism became more prevalent. Thus, the availability of reactants and products in the environment plays a key role in the evolution of metabolic pathways.
To know more about metabolism  visit

https://brainly.com/question/31384460

#SPJ11

The statement  that best describes the theory put forth by Charles Darwin in "On the Origin of Species" is All living species, including humans, see the strong survive through evolution.

Option D is correct.

Evolution is described as the change in heritable characteristics of biological populations over successive generations.

Three basic ideas made up Charles Darwin's theory of evolution:

Learn more about evolution at:

https://brainly.com/question/28978890

#SPJ1

Physical activity decreases the risk of CVD by stimulating the development of new coronary arteries to nourish the heart.

Physical activity has several beneficial effects on cardiovascular health, including the promotion of angiogenesis, or the growth of new blood vessels. This helps to improve blood flow to the heart and reduce the risk of CVD. In addition, physical activity helps to improve lipid profiles by reducing the concentration of VLDLs and increasing the concentration of HDLs. Physical activity also enhances glucose storage in muscle, liver, and adipose tissue, which helps to reduce the risk of type 2 diabetes, a major risk factor for CVD.
Finally, physical activity helps to reduce body fat, especially visceral fat, which is associated with inflammation and insulin resistance, both of which increase the risk of CVD.

To learn more about Heart click here

https://brainly.com/question/880889

#SPJ11

The value of GDP in this small economy is $61,700. This is calculated by adding up consumer spending, investment, government spending, and net exports (exports minus imports).

To calculate GDP in this small economy, we need to add up all the spending on goods and services within the economy. This includes consumer spending, investment, government spending, and net exports.

Consumer spending is given as $47,000. Investment is $10,000 and government spending is $4,500. Net exports are calculated by subtracting imports ($300) from exports ($500), giving us a net export value of $200.

To find the GDP, we add up all of these values:

$47,000 (consumer spending)

+ $10,000 (investment)

+ $4,500 (government spending)

+ $200 (net exports)

This gives us a total GDP of $61,700 for this small economy.

Learn more about GDP here:

https://brainly.com/question/30737857

#SPJ11

The statements which points to the endosymbiotic event yielding intercellular mitochondria is  Mitochondria contain their circular DNA, have a double membrane, contain specific transcription and translation machinery. Hence the correct answer is d, All of the above.

know more about endosymbiotic event here: https://brainly.com/question/1698852

#SPJ11

The chronological order of steps required for all DNA-repair mechanisms are as follows:

1. Recognize the damaged base(s)
2. Remove the damaged base(s)
3. Facilitate strand invasion
4. Perform DNA recombination
5. Repair the gap with DNA polymerase and DNA ligase

The first step in any DNA-repair mechanism is to recognize the damaged base(s) in the DNA strand. This is done through a series of protein interactions that scan the DNA for abnormalities. Once the damage is recognized, the damaged base(s) must be removed from the DNA strand. This process can involve different proteins depending on the type of damage, but the goal is to ensure that the DNA strand is free from any abnormalities that could interfere with proper replication or transcription.

After the damaged base(s) have been removed, the repair mechanism may facilitate strand invasion, which involves pairing the damaged DNA strand with a complementary sequence from the intact strand. This allows the repair mechanism to use the undamaged DNA as a template for repair.DNA recombination may also be used to repair the damaged strand. This involves exchanging genetic material between the damaged strand and the intact strand, which can be a more efficient way of repairing complex damage.

Finally, once the damage has been repaired, any gaps in the DNA strand must be filled in. This is done using DNA polymerase and DNA ligase to add new nucleotides to the damaged strand and seal any breaks in the DNA backbone.

To know more about DNA-repair visit

https://brainly.com/question/29642026

#SPJ11

A frameshift mutation occurs in a transposase gene a non-functional transposase protein exists. The correct option is A.

A frameshift mutation occurs when one or more nucleotides are either added or deleted from a gene sequence, which alters the reading frame of the codons and changes the amino acid sequence of the protein.

In this case, the frameshift mutation occurs in a transposase gene, which encodes for a protein that catalyzes the movement of transposable elements or transposons within the genome.

The frameshift mutation would result in a non-functional transposase protein, which would hinder the transposition process. Thus, only Class 1 transpositions can happen, as they do not require transposase enzymes.

Class 1 transposition involves the movement of transposons by a "copy and paste" mechanism, where a copy of the transposon is made and inserted into a new location in the genome.

This process is independent of the transposase protein and can occur in the absence of an active transposase. In contrast, Class 2 transpositions require the presence of an active transposase protein and involve the excision and insertion of the transposon.

However, since the frameshift mutation would result in a non-functional transposase protein, only Class 1 transpositions can occur. The transposon would not be stuck and can still be cut from the DNA strands during Class 1 transpositions.

Therefore, the correct answer is "A non-functional transposase protein exists" option A.

For more such answers on frameshift mutation

https://brainly.com/question/15090279

#SPJ11

Question

A frameshift mutation occurs in a transposase gene. Select all that occurs

A) Only Class 2 transpositions can happen

B) A non-functional transposase protein exists

C) Only Class 1 transpositions can happen

D) The transposon is stuck and cannot be cut from the DNA strands

Those rattlesnake that are the most adapted will pass their traits on to the next generation.

The answer to the question is: "Those rattlesnake that are the most adapted will pass their traits on to the next generation."The theory of natural selection helps us understand how species adapt to their environments over time. When living beings thrive and reproduce, they pass their traits on to their offspring. It's not about winning at all costs. It's about surviving in a way that allows a population to thrive over time.

When the environment changes, those who adapt the best will be the most successful in reproducing. This means that the traits that are most important for survival in any given environment will be passed on to future generations. For instance, let's say you have a population of rattlesnakes that live in a desert environment. Rattlesnakes that are the most adapted to the desert environment will have the best chances of survival. They will be the ones who can find food and water in a desert environment, and who can tolerate the heat and lack of shade. Over time, these rattlesnakes will reproduce and pass their traits on to the next generation. Eventually, the entire population will have traits that make them well-adapted to living in the desert.

Learn more about rattlesnake here:

https://brainly.com/question/29571642

#SPJ11

The cell type that experiences germinal mutations is Gametes.

Germinal mutations occur in the gametes (sperm and egg cells) and can be passed down to offspring. Squamous epithelial, chondrocytes, cuboidal epithelial, and columnar epithelial cells are not typically involved in gamete production and therefore do not experience germinal mutations. These mutations can be passed down to the next generation, potentially causing genetic disorders or changes in the offspring's traits.

Gametes are the cell type where germinal mutations take place, allowing for the possibility of these mutations being inherited by future generations.

To know more about germinal mutations, click here

https://brainly.com/question/1695551

#SPJ11

The fight between two opposing forces within a play is referred to as the conflict. The conflict in a play is best described by Option A. The plot and character development are driven by conflict, which is a key component of dramatic storytelling.

Conflicting aims, aspirations, or ideas amongst various individuals, groups, or even inside oneself are a part of it. Internal conflicts within a character's thoughts or exterior conflicts between persons or organisations are just two examples of how the conflict could appear. These conflicts heighten the stakes, build suspense, and advance the plot, resulting in dramatic turns of events and endings that reshape the play's general plot.

learn more about conflict here:

https://brainly.com/question/29102167

#SPJ11

Answer:

swampy environment

Explanation:

when you go to a pond or lake you will usually see green on top of the water which is mosses and lichens . Ferns are a type of short grass and you will usually see these ner water as well.

Answer: As she digs down through layers of soil, she finds clues about the plants, animals and people that lived in and around the bog back in time Bog soils are oxygen- and nutrient -poor, and are much more acidic than other soils. Eventually, watery bogs become choked with living and decaying over time

Explanation: PLEASE GIVE ME BRAINLIEST

The important molecule conserved by the Glyoxylate Cycle but not the Krebs Cycle is Acetyl-CoA.(A)

The Glyoxylate Cycle and Krebs Cycle share several intermediate molecules and enzymes. However, the Glyoxylate Cycle has two unique enzymes, isocitrate lyase and malate synthase, that allow it to bypass two decarboxylation steps found in the Krebs Cycle.

This bypass conserves Acetyl-CoA, which can be used for gluconeogenesis in organisms such as plants and bacteria.

By conserving Acetyl-CoA, the Glyoxylate Cycle allows these organisms to convert fatty acids into glucose for energy, a process not possible in the Krebs Cycle. In contrast, the Krebs Cycle generates more ATP and reduces equivalents (NADH, FADH2) but does not conserve Acetyl-CoA.(A)

To know more about Krebs Cycle click on below link:

https://brainly.com/question/13153590#

#SPJ11

Endochondral bone formation of the long bones due to hypoplastic chondrodystrophy during fetal development results in Option e. Dwarfism.

Endochondral bone formation is the process by which most bones in the body are formed, including the long bones. It involves the transformation of a cartilaginous model into a bony structure.

Hypoplastic chondrodystrophy is a genetic disorder that affects the development of cartilage in the fetus, leading to abnormalities in bone growth and resulting in a type of dwarfism known as achondroplasia.

Cretinism is a form of hypothyroidism that occurs during fetal development or infancy and leads to impaired growth and intellectual disability.

Acromegaly is a condition caused by excessive production of growth hormone in adulthood, leading to enlargement of bones, organs, and tissues. Amelia is a birth defect characterized by the complete absence of one or more limbs. Gigantism is a rare condition caused by excessive growth hormone production during childhood, leading to abnormally tall stature.

learn more about achondroplasia here:

https://brainly.com/question/29185711

#SPJ11