Transportation is the movement of substances from one place to another, including water, nutrients, waste material, and excretory products.
What is transportation in biology?In biology, the term "transport" describes the action of moving a particle or ion across a cell barrier or through the circulation. In this respect, there are two different kinds of transportation: passive transportation and active transportation. An area of greater concentration is moved to an area of lower concentration through the process of passive transport, which involves the movement of ions or molecules along a concentration gradient.
Passive movement can be divided into four main categories: diffusion, assisted diffusion, filtration, and osmosis. Ions or molecules travel in opposition to a concentration gradient during active transport.
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The nerves in our spinal cord contain the necessary equipment to process our sympathetic and parasympathetic reflexes. What are these, and what do they do?
Answer: Your welcome!
Explanation:
Sympathetic reflexes are those that help to prepare the body for a “fight or flight” response, such as increased heart rate, increased respiration, and the release of adrenaline. Parasympathetic reflexes are those that help the body to relax and return to a resting state, such as decreased heart rate, decreased respiration, and the release of calming hormones. The nerves in our spinal cord are responsible for sending messages to the body in order to trigger these reflexes.
How many micrometers is a pith cell?
Answer:180 microns
Explanation:
The pith has a uniform parenchyma, has a diameter of 3.700 mm, and its cells have a mean diameter
HELP EMERGCNY ILL MARK U BRAINLIST
Answer:
fish kills by industrial Waste
Explanation:
bc of all the trash on shores
which path will a carbon atom most likely travel from co2 in the atmosphere to glucose in the cell of a secondary consumer? air > bacteria > plant > secondary consumer air > primary consumer > secondary consumer air > plant > primary consumer > secondary c
A carbon atom will most likely take the following path from [tex]CO_{2}[/tex] in the atmosphere to glucose in the cell of a secondary consumer: air > plant > primary consumer > secondary consumer.
[tex]CO_{2}[/tex] from the atmosphere is taken up by plants during photosynthesis and converted into glucose, which is then consumed by primary consumers and then secondary consumers.
The most likely path for a carbon atom from [tex]CO_{2}[/tex] in the atmosphere to glucose in the cell of a secondary consumer is:
air > plant > primary consumer > secondary consumer
This is because plants are primary producers that convert [tex]CO_{2}[/tex] from the atmosphere into organic compounds, such as glucose, through the process of photosynthesis. Primary consumers, such as herbivores, then eat the plants and obtain the organic compounds, including glucose. Secondary consumers, such as carnivores, then eat the primary consumers and obtain the organic compounds, including the glucose that was originally produced by the plants.
While bacteria can also play a role in the cycling of carbon in ecosystems, they are not always involved in the transfer of carbon from [tex]CO_{2}[/tex] in the atmosphere to glucose in the cell of a secondary consumer. Therefore, the first option (air > bacteria > plant > secondary consumer) is less likely. The second option (air > primary consumer > secondary consumer) skips the plant stage, which is necessary for the initial conversion of [tex]CO_{2}[/tex] into organic compounds. Therefore, the third option (air > plant > primary consumer > secondary consumer) is the most likely path.
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What does a phenotype refer too?
O Genetic combination of alleles
A karyotype
Physical trait
A person's geneotype
phenotype refers to a person's physical characteristics /traits.
In domestic swine there is a dominant allele that produces a white belt around the body. Suppose a heterozygous belted pig and solid pig mate. What is the probability they will produce a solid pig? (7 pts) 1. What is the dominant trait? What is the recessive trait? Dom: Rec: 2. What letter is assigned to the dominant and recessive trait? Dom: Rec: 3. In order to be belted, what 2 GENOTYPES could the offspring have? 4. In order to be solid, what GENOTYPE must the offspring have? 5. What are the parent genotypes you are crossing? 6. What is the ratio of probability of getting a solid pig from this cross?
1. Dominant trait: white belt around the body. Recessive trait: solid color without a white belt.
2. Dom: W (for white belt). Rec: w (for solid color).
3. Offspring could have the genotypes Ww or ww to be belted.
4. Offspring must have the genotype ww to be solid.
5. Heterozygous belted pig: Ww. Solid pig: ww.
6. The parent genotypes are Ww (bB) and ww (bb).
The Punnett square for this cross would be:
The probability of getting a solid pig with genotype ww from this cross is 1/2 or 50%. The ratio of probability is 1:1.
A black cow and white cow mate and make a gray cow, what type of inheritance pattern is this?
A gray cow and a white cow mate, what are the genotype and phenotype probabilities and what are
the ratios?
Answer:
50/
Explanation:
What do you notice when the ripples reach the edge of the large container? What landform is this like? How does the small container change what the ripples do? Explain how the “barrier island” in your model protects the section of large container behind it.
The beach may extend over the mouth of a shoreline depression, such as a bay or estuary, away from the mainland due to landform longshore drift.
How do barrier islands develop?As waves regularly deposit silt parallel to the shoreline, barrier islands are formed. These islands constantly move, erode, and grow as wind and waves change in response to local weather patterns and physical factors. They may perhaps totally vanish.
What are the fundamental components of a barrier island?who proposed that a barrier island be viewed as the focal point of a much broader barrier island system made up of six major components: mainland, back-barrier lagoon, inlet and inlet deltas, barrier island, barrier, and barrier
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the so-called piltdown man was once considered an unusual and perplexing human ancestor, but it turned out to be the jaw of a young orangutan attached to a homo sapiens skull. what dating technique exposed the piltdown fraud?
The dating technique that exposed the Piltdown fraud was fluorine absorption dating. Flourine absorption dating is a relative dating technique used to determine the relative age of bones from ancient humans or animals.
The technique compares the levels of fluorine in bone from the same site, determining relative age based on these comparisons. This dating technique was used to expose the Piltdown fraud.According to a study published in Nature on November 21, 1953, the Piltdown man was discovered to be a forgery due to fluorine dating techniques. They used fluorine dating, a method of analyzing how much fluorine has penetrated fossil bones since burial. They found that the Piltdown remains contained less fluorine than any of the other materials they examined. This evidence showed that the skull and jaw could not have been buried together and indicated that the pieces of the skull had been artificially stained to match the colour of the jaw.The Piltdown man is one of the most prominent hoaxes in the history of science. The skull had been discovered in the early 20th century in Sussex, England, and had been presented as a crucial missing link between humans and apes. The scientific community was fooled for more than 40 years, until it was discovered that the skull was actually a forgery, made up of the jaw of a young orangutan and a human skull that was less than 1,000 years old.Learn more about skull: https://brainly.com/question/1491477
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Shortly explain the science behind gene therapy.
Explanation:
Gene therapy is a medical field that aims to treat genetic disorders by introducing or modifying genetic material within an individual's cells. The goal is to replace a missing or defective gene or to introduce a new gene to improve the function of a specific cell or tissue.
There are two main approaches to gene therapy: ex vivo and in vivo. Ex vivo gene therapy involves the removal of cells from a patient, modifying the cells outside of the body, and then re-implanting them back into the patient. In contrast, in vivo gene therapy directly delivers the genetic material to the targeted cells within the body.
Gene therapy can be achieved using various methods, such as viral vectors, which are modified viruses that can deliver the genetic material to cells. Other methods include using nanoparticles or directly injecting the genetic material into cells.
Although gene therapy has the potential to cure genetic disorders, there are still some challenges and risks associated with it, including the risk of immune reactions, unintended mutations, and the difficulty of delivering the genetic material to the appropriate cells. However, with ongoing research and development, gene therapy is becoming increasingly promising as a viable treatment option for a variety of genetic disorders.
If heart rate increases 4-fold, and stroke volume increases 1.5-fold, how many fold does
cardiac output increase?*Type a number to one decimal place*
Cardiac output is equal to the product of heart rate and stroke volume. Therefore, in this case, cardiac output would increase 6-fold (4 x 1.5).
What is cardiac?Cardiac is a term used to refer to anything related to the heart. Specifically, it is used to describe the structure, function, and diseases of the heart. Cardiac diseases include coronary artery disease, heart failure, arrhythmia, and congenital heart defects. Cardiac structure and function are determined by the anatomy of the heart, which includes the four chambers, valves, and complex network of blood vessels. The electrical system of the heart controls the heartbeat and is responsible for the coordination of the contraction and relaxation of the heart muscle. Cardiac care is a type of medical care that focuses on the diagnosis,
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true or false mutations sometimes result in a non -adaptive trait?
true mutations sometimes result in a non -adaptive trait
How can a mutation give rise to a new trait?Genetic variations can be caused by gene variants (also known as mutations) or by a natural process in which genetic information is reorganized when a cell prepares to divide (known as genetic recombination). Different phenotypes can be introduced into an organism via genetic changes that modify gene activity or protein function.
Certain mutations, known as silent mutations, do not result in changes to the amino acid sequence of the encoded protein. Some mutations produce erroneous protein products. Mutations can add new alleles into an organism population, increasing genetic variety.
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Major division and partsof the nervous system?
The nervous system can be broadly divided into two major divisions: the central nervous system (CNS) and the peripheral nervous system (PNS).
The brain and spinal cord make up the central nervous system (CNS), which is in charge of receiving and processing information from the body and producing reactions. The skull-based brain is where activities like consciousness, feeling, perception, emotion, thinking, memory, and voluntary movement are controlled.
The CNS communicates with the rest of the body through the peripheral nervous system (PNS), which is made up of all the nerves and ganglia outside of the CNS. The somatic nervous system (SNS) and the autonomic nervous system are two more subdivisions of the PNS (ANS).
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The classification system developed by Linnaeus in the early 1700s divided living organisms into plant and animal kingdoms. Today, that has been expanded into five kingdoms. Which of the following inventions was most responsible for creating the need for the additional three kingdoms and why?
The internet allowed scientists to easily discuss differences between organisms.
Genetic engineering created new species, which then needed new kingdoms.
Fossil fuel-based transportation made it easier to explore and discover new species.
Microscopes made it possible to learn more about single-celled organisms.
The invention of microscopes made it possible to learn more about single-celled organisms, which led to the need for additional kingdoms beyond the traditional plant and animal kingdoms. As microscopes improved, scientists were able to see the complexity and diversity of single-celled organisms, which they realized could not be adequately classified as either plants or animals. This led to the creation of the kingdom Protista, which includes a wide range of unicellular eukaryotic organisms such as algae, protozoa, and slime molds. The development of other kingdoms, such as Fungi and Monera, followed as scientists continued to study and learn about different types of organisms. Therefore, the invention of microscopes was most responsible for creating the need for the additional three kingdoms.
individuals with peanut allergies can exhibit a variety of symptoms following exposure to the peanut allergen. these symptoms can include a runny nose, skin reactions such as hives, itching in the mouth and throat, digestive problems such as cramps, diarrhea or vomiting, and shortness of breath or wheezing. this variety of symptoms is a result of: group of answer choices the presence of high concentrations of monomeric ige in the circulation the presence of mast cells with pre-bound ige in all mucosal tissues the high concentrations of histamine present in pre-stored mast cell granules the simultaneous exposure of skin, oral mucosa, throat, and gastrointestinal tract to an ingested allergen systemic production of inflammatory mediators causing responses in many tissues
The process of peanut allergy is known as a type I hypersensitivity reaction, or an immediate allergic reaction.
The variety of symptoms experienced by individuals with peanut allergies is a result of the simultaneous exposure of multiple tissues (skin, oral mucosa, throat, and gastrointestinal tract) to an ingested allergen, which leads to systemic production of inflammatory mediators causing responses in many tissues. Peanut allergies are a type of food allergy that affects many people. Peanut allergies are caused by the immune system's reaction to proteins present in peanuts. This allergic reaction can be serious, and it can cause a wide range of symptoms, including life-threatening anaphylaxis. People who are allergic to peanuts should avoid them at all costs, as even a small amount of peanut protein can cause an allergic reaction. Individuals with peanut allergies can exhibit a variety of symptoms following exposure to the peanut allergen.During this reaction, the allergen triggers the production of immunoglobulin E (IgE) antibodies, which bind to mast cells and basophils in tissues throughout the body. When the allergen is encountered again, it binds to the IgE antibodies on these cells, causing the release of various inflammatory mediators such as histamine, which then produce the characteristic symptoms of an allergic reaction.The symptoms of peanut allergies include: Skin reactions such as hives, Itching in the mouth and throat Digestive problems such as cramps, diarrhea, or vomiting Shortness of breath or wheezing Runny nose The variety of symptoms that individuals with peanut allergies can exhibit following exposure to the peanut allergen is due to the simultaneous exposure of the skin, oral mucosa, throat, and gastrointestinal tract to an ingested allergen. When peanuts enter the body, they can cause reactions in many tissues, which can result in a variety of symptoms.Learn more about peanut allergies:
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A positive (+) strand of RNA
a.) cannot function directly as mRNA.
b.) must be converted back to DNA for gene expression.
c.) must be double-stranded.
d.) makes a minus (-) strand of RNA, which can then act as mRNA.
e.) can directly act as mRNA.
A positive strand of RNA can directly act as mRNA. Option E.
Strand of RNAA positive strand of RNA has the same base sequence as mRNA, which means it can directly act as mRNA without the need for any further processing or conversion.
The ribosome can recognize and translate the RNA molecule into a protein without any additional steps. This is in contrast to negative (-) strand RNA, which must first be converted to a positive strand before it can be used as mRNA.
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What are the processes water moves through, in order, as it moves from the surface of a lake to a cloud in the sky?
A) evaporation then condensation
B) condensation then evaporation
C) precipitation then condensation
D) condensation then precipitation
The processes that water moves through, in order, as it moves from the surface of a lake to a cloud in the sky are evaporation then condensation. Here option A is the correct answer.
Evaporation is the process by which water changes from its liquid state to its gaseous state, and it occurs when water is heated or when air passes over the surface of the water. As water evaporates from the surface of the lake, it forms water vapor, which rises into the atmosphere.
Condensation is the process by which water vapor changes from its gaseous state to its liquid state, and it occurs when the air containing the water vapor cools down. As the water vapor rises into the atmosphere, it cools down and condenses into tiny water droplets, forming a cloud.
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What molecules are necessary for endocytosis to occur?
Endocytosis is the process by which molecules are actively transported into the cell by enveloping them in its membrane. All cells use endocytosis and exocytosis to move molecules that cannot travel through the membrane passively. Exocytosis, on the other hand, forces substances out of the cell.
Endocytosis is classified into four kinds or pathways: caveolae, macropinocytosis, receptor-mediated endocytosis, and phagocytosis. Each route has a unique method for getting encapsulated molecules in. Caveolae are non-clathrin covered branches that develop and are found on the plasma membrane. They are made up of caveolin, an integral membrane protein. Caveolin activates, shapes, and maintains the creation of "caves" or caveolae on the cell membrane. They function as "collection" pits, gathering particular chemicals for cell communication.
They function as "collection" holes for particular molecules involved in cell communication and metabolic processes. Endocytosis is used for receptor signaling, nutrient absorption, membrane modification, pathogen entrance, neurotransmission, and cell signaling response modulation. Endocytosis has been discovered to assist in cell migration in developing organs. Toxins, pathogens, and foreign debris have also been discovered to use the various endocytic routes to obtain entrance into the cell.
Clathrin - Proteins with three "legs" that create a cage or coat around membrane vesicles for movement and are required for vesicle structure and formation.
Exocytosis is the mechanism by which substances are transported out of the cell.
Phagosomes are vesicles that develop around molecules during the phagocytosis process.
Which demonstrates an insertion mutation of the sequence GGGCCCAAA?
a. GGGGCCAAA
b. GGGCCAAA
c. GGGAAACCC
d. GGGCCCAAAAAA
=
7. Which is not a similarity between how
plants and animals use energy?
O Both plants and animals change food into
energy in the mitochondria.
O Both plants and animals require energy to
survive.
O Both plants and animals eat food and turn
it into energy.
O Both plants and animals break down food
into energy.
Answer:
Both plants and animals eat food and turn it into energy.
Explanation:
Plants cannot eat food because they use photosynthesis to make it, and they use the sun as one of the ways to get energy and not eating food.
when muscles contract against a heavy load, what happens to the length of time it takes for a cross bridge cycle to occur
When muscles contract against a heavy load, the length of time it takes for a cross-bridge cycle to occur increases.
A cross-bridge cycle is a series of chemical reactions that occurs during muscle contraction, resulting in the shortening of the sarcomere. The contraction process begins with an action potential that travels down a motor neuron and into a muscle fiber.
Calcium ions are then released from the sarcoplasmic reticulum, which causes the myosin head to attach to the actin filament. This attachment creates a cross-bridge, and the myosin head changes shape, pulling the actin filament along with it.
The myosin head then releases from the actin filament and repeats the process if enough ATP and calcium are present. During muscle contraction against a heavy load, the amount of force required to move the load increases.
This requires more cross-bridge cycles to occur, which in turn lengthens the time it takes for each cycle to complete.
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Human body cells each have 46 chromosomes in their nuclei. Meiosis is necessary in order to ensure that each gamete produced has-
Answer: 23 chromosomes
Explanation: Therefore, meiosis results in four haploid genetically unique daughter cells, each with half the DNA of the parent cell (Figure below). In human cells, the parent cell has 46 chromosomes (23 pairs), so the cells produced by meiosis have 23 chromosomes.
Answer:
23 chromosomes due to the fact that they are to come in pairs and 46 divided by 2 is 23
What is a difference between systemic and pulmonary circulation?
A.
Systemic circulation carries deoxygenated blood to the body and pulmonary circulation carries oxygenated blood to the lungs.
B.
Systemic circulation carries oxygenated blood to the body and pulmonary circulation carries deoxygenated blood to the lungs.
C.
Systemic circulation carries oxygenated blood to the lungs and pulmonary circulation carries deoxygenated blood to the body.
D.
Systemic circulation carries deoxygenated blood to the lungs and pulmonary circulation carries oxygenated blood to the body.
Answer:
It's B!
Explanation:
Systemic circulation carries oxygenated blood to the body and pulmonary circulation carries deoxygenated blood to the lungs. This is the main difference between the two types of circulation. Systemic circulation is responsible for delivering oxygen-rich blood from the heart to the rest of the body, while pulmonary circulation is responsible for carrying oxygen-poor blood from the heart to the lungs, where it can be oxygenated and then returned to the heart.
It is not option C because systemic circulation carries oxygenated blood to the body, not the lungs. It is not option A because systemic circulation carries oxygenated blood to the body, not deoxygenated blood. It is not option D because pulmonary circulation carries deoxygenated blood to the lungs, not oxygenated blood.
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Study the two statements labelled Assertion (A) and Reason (R) and choose the correct answer.
Assertion (A): Increasing pollution affects animals that survive on plants.
Reason (R): Increasing pollution causes early and excessive shedding of leaves.
a) A is true but R is false.
b) A is true and R is the correct explanation of A.
c) Both A and R are true.
d) A is true but R is not the correct explanation of A.
Damage to foliage can emerge quickly as ulcerations (dead tissue) or it can take longer to occur and manifest as a wilting or bronzing of the leaf.
The correct answer is :A.
Which kind of pollution prevents the stomata on leaves from opening?Localized dust pollution is a problem around highways, quarries, cement plants, and other industrial regions. Dust on leaves inhibits stomata and reduces their resistance to CO2, interfering with photosystem II while also blocking sunlight.
What consequences does air pollution have?Heart disease, cancer, and respiratory conditions like emphysema are some of the long-term health repercussions of air pollution. Moreover, long-term exposure to air pollution can harm a person's neurons, brain, lungs, spleen, and other organs. Several scientists think that birth abnormalities are caused by air pollution.
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describe the main differences between bacterial and eukaryotic transcripts. drag the appropriate items to their respective bins.
Bacterial transcripts are single-stranded and produced by the polymerase enzyme. They are relatively simple, consisting of just the coding strand of DNA.
Eukaryotic transcripts are double-stranded and produced by the polymerase enzyme. They contain both the coding and non-coding strands of DNA and are much more complex than bacterial transcripts.
Bacterial transcripts - single-stranded, produced by polymerase enzyme, consists of just coding strand of DNA
Eukaryotic transcripts - double-stranded, produced by polymerase enzyme, contains coding and non-coding strands of DNA
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Can y’all help me with number one please……
7. A. The possible genotypes and phenotype of offsprings produced would be : BB=blue,Bb= blue and bb= green.
B. The chances of a child having light blue skin would be = 75%.
C. The chances of a child with light green skin would be = 25%.
8. A. The possible genotypes and phenotypes for Mr. Krabbs children would be TT= tall eyes, Tt = tall eyes.
B. Yes, the hospital has made a mistake as it is not possible for children to have small eyes(tt).
What is a genotype?A genotype refers to the genetic makeup of an organism, which includes the particular combination of alleles (variant forms of genes) that an organism inherits from its parents. Genotype determines the traits and characteristics of an organism, such as its physical appearance, behavior, and susceptibility to certain diseases. The alleles that an organism inherits can be either dominant or recessive, with dominant alleles typically exerting a stronger influence on the phenotype (physical appearance) of the organism than recessive alleles. The genotype of an organism can be represented using letters to indicate the alleles present at a particular gene locus. For example, the genotype of an individual with two copies of the dominant allele for a gene might be represented as "AA," while an individual with one copy of each allele (one dominant and one recessive) might be represented as "Aa."
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Pls state the jst the answers
Protein synthesis is the process of making proteins in two stages: transcription and translation.
What is protein synthesis and why is it important?The method by which proteins are created in biological organisms is known as protein synthesis. All of a cell's vital processes, including movement, structural support, chemical reactions, cell communication, and defense against pathogenic microbes and viruses, are carried out by proteins. Amino acids make up the molecules of every protein.
First, transcription uses initiation, elongation, and termination to move genetic material from DNA to mRNA. The freshly formed string of mRNA then exits the nucleus and joins a ribosome in the cytoplasm. This is the starting point of translation.
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One of each pair of chromosomes comes from each
Answer:
One of each pair of chromosomes comes from each parent.
Explanation:
Chromosomes are any of several threadlike bodies, consisting of chromatin, that carry the genes in a linear order: the human species has 23 pairs, designated 1 to 22 in order of decreasing size and X and Y for the female and male sex chromosomes respectively.
In a diploid organism (like humans) a chromosome pair is 2 chromosomes. Although we say there are two “copies” of a chromosome, they are non-identical. Each comes from a different parent (father and mother.) These come from the gametes (which are haploid, having half the number of chromosomes). Those chromosomes are not identical to the parents, but consist of a blending of the grandparent's genetic material.
What type of hemoglobin has the highest affinity for oxygen?
The type of hemoglobin that has the highest affinity for oxygen is fetal hemoglobin (HbF).
Fetal hemoglobin consists of two alpha and two gamma subunits, whereas adult hemoglobin (HbA) consists of two alpha and two beta subunits. The gamma subunits in fetal hemoglobin have a higher affinity for oxygen than the beta subunits in adult hemoglobin. This higher affinity allows fetal hemoglobin to more readily pick up oxygen from the mother's bloodstream through the placenta. After birth, the production of fetal hemoglobin declines and adult hemoglobin production increases.
However, some individuals may have genetic mutations that cause them to continue producing fetal hemoglobin, which can provide some protection against certain blood disorders, such as sickle cell anemia.
Fetal haemoglobin is the form of haemoglobin that has the greatest affinity for oxygen (HbF).
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The transport of glucose into the cell occurs by facilitated diffusion. Once glucose enters the cellit is rapidly converted into another molecule such as glucose-6-phosphate or glycogen. Discuss what effect does this converstion have on the cell's ability to acquire more glucose via facilitated transport
The conversion of glucose into glucose-6-phosphate or glycogen has a significant effect on the cell's ability to acquire more glucose via facilitated transport.
Facilitated diffusion is a passive process, which means it does not require energy to transport molecules across the cell membrane. However, facilitated diffusion relies on the availability of carrier proteins on the cell membrane that transport specific molecules, such as glucose, into the cell. These carrier proteins become saturated with glucose molecules at high glucose concentrations, limiting the rate at which glucose can enter the cell.
When glucose enters the cell and is converted into glucose-6-phosphate or glycogen, it reduces the concentration of free glucose inside the cell. This reduction in the concentration of free glucose increases the concentration gradient of glucose across the cell membrane, which allows for more glucose molecules to be transported into the cell via facilitated diffusion. This is known as the glucose concentration gradient effect, and it allows the cell to continue acquiring glucose even when the concentration of glucose outside the cell is low.
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