The statement is True, Molecules are long strands of RNA nucleotides that are formed complementary to one strand of DNA.
DNA, or deoxyribonucleic acid, is a molecule that carries genetic information in all living organisms. It is composed of four nitrogenous bases - adenine (A), thymine (T), guanine (G), and cytosine (C) - that form pairs through hydrogen bonds. Pairs with T, and G pairs with C, creating a double helix structure.
The sequence of these base pairs along the DNA strand determines the genetic information that is passed on from one generation to the next. DNA is replicated during cell division, ensuring that each new cell has an exact copy of the genetic information. DNA is also responsible for the production of proteins, which are essential for the structure, function, and regulation of cells. The sequence of the nitrogenous bases in DNA determines the sequence of amino acids in a protein, which in turn determines the protein's structure and function.
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*(b) Enzyme technology can be used in the production of foods including sweets, vegetarian
cheese and lactose-free milk.
Describe how enzyme technology can be used to produce these food products.
(6)
Answer:
Enzyme technology is a process that involves using specific enzymes to modify the chemical and physical properties of food ingredients. This technology can be used in the production of various food products, including sweets, vegetarian cheese, and lactose-free milk.
In the production of sweets, enzymes such as amylase and invertase can be used to break down complex sugars into simpler ones. This results in a sweeter taste and smoother texture. Additionally, enzymes like pectinase and cellulase can be used to break down fruit and vegetable fibers, making them more easily digestible and enhancing the flavor and texture of the sweets.
For vegetarian cheese production, rennet is traditionally used to coagulate milk protein and form cheese curds. However, enzymes such as microbial proteases and lipases can also be used to coagulate the milk proteins and form the cheese curds. This allows for the production of vegetarian cheese without the use of animal-based rennet.
In the production of lactose-free milk, lactase enzyme is used to break down lactose, which is the main sugar in milk. This enzyme is added to milk to hydrolyze lactose into glucose and galactose, which are more easily digested by people with lactose intolerance. The result is lactose-free milk that has the same taste and nutritional value as regular milk.
In summary, enzyme technology can be used in the production of food products by modifying the properties of food ingredients to achieve desired characteristics, such as taste, texture, and nutritional value. The use of enzymes in food production is a safe and effective way to improve food quality and meet consumer needs.
in the sense-integrate-act loop, the brain is always where signals are integrated. (True or False)
Answer:
True.
Explanation:
:)
Which statement is true about the genetic code?
a. There is only one amino acid for each codon.
b. The amino acids are randomly arranged.
c. There is an initial codon.
d. The genetic code is very different for different organisms.
The true statement about the genetic code is c. There is an initial codon. The initial codon is called the start codon, and it signals the beginning of the translation process in protein synthesis. The start codon is typically AUG, which codes for the amino acid methionine.
What is the genetic code?
The genetic code is a set of rules that convert a nucleotide sequence into an amino acid sequence. This genetic code helps in the synthesis of proteins in living cells. In the code, a specific sequence of nucleotides specifies a specific amino acid. The amino acids are linked by a peptide bond, forming a protein. The genetic code is an essential part of the central dogma of biology. The process of converting DNA to RNA to protein is known as gene expression.
What is a codon?
A codon is a group of three nucleotides that code for a specific amino acid. The genetic code is degenerate, which means that there is more than one codon that codes for a single amino acid. There is an initial codon in the genetic code, which is AUG, which codes for the amino acid methionine. It is also known as the start codon. A) There is only one amino acid for each codon is incorrect. B) The amino acids are randomly arranged incorrectly. D) The genetic code is very different for different organisms is also incorrect.
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What stage does chromosomes align in center of cell?a. prophaseb. metaphasec. anaphased. telophase
The stage in which chromosomes align in the center of the cell is called metaphase.
Cell division is the procedure in which a single cell is divided into two or more cells. Eukaryotic cells duplicate their chromosomes before dividing, whereas prokaryotic cells divide their chromosomes between two daughter cells.Cell division has two forms: mitosis and meiosis.
In the cell cycle, the second stage is metaphase. During this stage, the chromosomes line up in the middle of the cell. The spindle fibers emanating from the opposite poles are linked to the kinetochore, a complex protein structure that develops on the centromere.
The centromere is a specific area on the chromosome that connects the chromosome's two chromatids.The metaphase plate is the location where the chromosomes are aligned. The cell division process can only continue if each pair of sister chromatids is connected to spindle fibers from opposing poles through its kinetochore.
Therefore, once a checkpoint confirms this, the cell is ready to start anaphase, the next stage in cell division.
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The diagram shows the water table during two different seasons.
well surface
groundwater
level
well surface
groundwer
level
Impermeable rock
impermeable rock
dry season
wet season
Which change is most likely to be observed for the groundwater level?
O The groundwater level decreases as the depth of wells increases.
O The groundwater level increases as the depth of wells increases.
O The groundwater level decreases as the amount of surface water increases.
O The groundwater level increases as the amount of surface water increases.
The groundwater level change that is most likely to be seen is: The groundwater level increases as the amount of surface water increases.
What is groundwater?Water that is found underground in the voids and fissures between soil, rock, and sediment is known as groundwater. It is one of the most priceless resources on the planet and is necessary for drinking, irrigation, and industrial uses.
There is less water available for wells to pump during the dry season since the water table is lower. In contrast, the water table rises during the rainy season, making it easier for wells to pump out more water.
Due to elements like precipitation or snowmelt, which can recharge the groundwater system, there may be an increase in surface water during the wet season. The outcome is a rise in the water table and more groundwater becoming accessible for wells.
As a result, as surface water volume grows, so does the groundwater level.
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Need asap
Look at the diagram. Explain the effects or actions of acid precipitation in the areas of
the diagram labeled 1, 2, and 3.
Answer:
Gases with impurities of sulfur and other acids in the form of gas rise into clouds, and accumulate there, after when it rains, these acid deposits in the clouds turn into acid rain.
Explanation:
(1)- gases from factories rise into the clouds
(2)- these gases are deposited in clouds
(3)- acid rain falls to the ground.
the study of the relationships among organisms and the environment is called
The study of the relationships among organisms and their environment is called ecology.
It is a branch of biology that examines the interactions between living organisms, including humans, and the physical and biological factors that shape their habitats. Ecology encompasses a range of topics, including the distribution and abundance of organisms, the dynamics of populations, the flow of energy and materials through ecosystems, and the structure and functioning of ecosystems.
Ecologists use a variety of tools and techniques to investigate these phenomena, including experiments, mathematical modeling, and field observations. The insights gained from ecological research are used to inform conservation efforts, resource management, and environmental policy.
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prokaryotes and eukaryotes show differences in posttranscriptional modifications of mrna. what are these differences?
Prokaryotic mRNAs generally lack post-transcriptional modifications, such as the addition of a 5' cap or 3' poly(A) tail. These modifications are found in eukaryotes and are essential for efficient translation, nuclear export and stable mRNA storage.
The addition of a 5' cap and 3' poly(A) tail to eukaryotic mRNAs is known as mRNA capping and polyadenylation, respectively. A 5' cap is added by enzymes to form a 7-methylguanosine (m7G) linked to the 5' end of the mRNA. This cap is necessary for efficient translation, as it helps ribosomes to recognize the start codon, and also helps protect the mRNA from degradation. The 3' poly(A) tail is added to the 3' end of the mRNA and helps protect it from degradation, as well as promoting nuclear export and stable mRNA storage.
In contrast to eukaryotic , prokaryotes lack these post-transcriptional modifications, and instead rely on other mechanisms to protect mRNAs, such as the formation of transcriptionally coupled mRNA-protein complexes.
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a female elephant may spend 20 months pregnant and 18 months nursing a single calf, making her unavailable to mate for approximately 3-4 years. in elephants, a population would be expected to have a(n):
A female elephant may spend 20 months pregnant and 18 months nursing a single calf, making her unavailable to mate for approximately 3-4 years. In elephants, a population would be expected to have a low reproductive rate.
Reproductive rate is the number of young produced per unit of time by the population of adult females. In elephants, a female elephant may spend 20 months pregnant and 18 months nursing a single calf, making her unavailable to mate for about three to four years. This leads to a low reproductive rate. Elephants take a long time to mature sexually and are vulnerable to poaching, habitat loss, and human-wildlife conflicts. Due to this, a female elephant's low reproductive rate is exacerbated.
The reproductive rate varies depending on various factors, including amount of food and resources available, age of first reproduction, survival and longevity of parents and offspring, nature and duration of sexual maturation. This data highlights the significance of conserving the elephant population by ensuring that they have access to their habitats and are not exploited for any illegal purposes.
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true or false: you can create a whole sheep from the nucleus of one of its skin cells by combining that nucleus with an egg cell without a nucleus.
True. The process of creating a whole sheep from the nucleus of one of its skin cells by combining that nucleus with an egg cell without a nucleus is called somatic cell nuclear transfer or cloning.
This technique involves taking an egg cell and removing its nucleus, then taking a somatic cell (such as a skin cell) from the animal to be cloned and removing its nucleus as well. The nucleus from the somatic cell is then inserted into the enucleated egg cell, which is stimulated to start dividing and eventually implanted into a surrogate mother.
The resulting offspring will be genetically identical to the animal from which the somatic cell was taken. This technique has been successfully used to clone many different types of animals, including sheep, cows, cats, and even monkeys.
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what is the role of hydrogen bonds in maintaining the overall structure of dna?
Hydrogen bonds play a critical role in maintaining the overall structure of DNA. DNA is a double-stranded molecule consisting of two complementary strands that are held together by hydrogen bonds between their nitrogenous bases.
Specifically, adenine pairs with thymine, and guanine pairs with cytosine, through hydrogen bonding. These hydrogen bonds are weak, but collectively, they provide the stability necessary to maintain the overall shape of the DNA molecule. The hydrogen bonds also allow for the separation of the two strands of DNA during replication and transcription. Therefore, the ability of hydrogen bonds to form and break easily is essential for the dynamic functioning of DNA as the genetic material of living organisms.
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adaptive features of a tilapia
Answer:
1)It has fins that help it swim in water.
2)It has gills that help it breath in water.
3)It has specialized eyes for viewing objects in water.
4)It has scales to make its body surface slippery for easy movement in water.
5)It has a streamlined body shape to enable it move easily in water.
Record the data from each trial in the data chart below. Be sure to fill in the chart completely.
Test One
Parent 1: FF
Parent 2: Ff
Phenotype ratio:
____4____ : ___0_____
short fur : long fur
Test Two
Parent 1: Ff
Parent 2: Ff
Phenotype ratio:
__1______ : ___3_____
short fur : long fur
Test Three
Parent 1: ff
Parent 2: ff
Phenotype ratio:
____4____ : ____0____
short fur : long fur
Explanation:
Test One
Parent 1: FF
Parent 2: Ff
Phenotype ratio:
4 : 0
short fur : long fur
Test Two
Parent 1: Ff
Parent 2: Ff
Phenotype ratio:
1 : 3
short fur : long fur
Test Three
Parent 1: ff
Parent 2: ff
Phenotype ratio:
4 : 0
short fur : long fur
mutation that shifts the reading frame of the genetic message by inserting or deleting a nucleotide is called ?
The mutation that shifts the reading frame of the genetic message by inserting or deleting a nucleotide is called Frameshift mutation
Frameshift mutations are mutations that occur when a nucleotide is inserted into or deleted from the DNA sequence. This can lead to a shift in the reading frame of the genetic message, resulting in a completely different amino acid sequence being produced during translation.
A nucleotide is the basic building block of nucleic acids, which include DNA and RNA. It is composed of three parts: a nitrogenous base, a pentose sugar, and a phosphate group.
There are five nitrogenous bases found in nucleotides: adenine (A), guanine (G), cytosine (C), thymine (T), and uracil (U). Adenine and guanine are purines, while cytosine, thymine, and uracil are pyrimidines.
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The mutation that shifts the reading frame of the genetic message by inserting or deleting a nucleotide is called Frameshift mutation
Frameshift mutations are mutations that occur when a nucleotide is inserted into or deleted from the DNA sequence. This can lead to a shift in the reading frame of the genetic message, resulting in a completely different amino acid sequence being produced during translation.
A nucleotide is the basic building block of nucleic acids, which include DNA and RNA. It is composed of three parts: a nitrogenous base, a pentose sugar, and a phosphate group.
There are five nitrogenous bases found in nucleotides: adenine (A), guanine (G), cytosine (C), thymine (T), and uracil (U). Adenine and guanine are purines, while cytosine, thymine, and uracil are pyrimidines.
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which of the following is not a function of low-density-lipoproteins (ldls)? which of the following is not a function of low-density-lipoproteins (ldls)? make cholesterol available to tissue cells for membrane formation transport cholesterol from the peripheral tissues to the liver make cholesterol available to tissue cells for hormone synthesis assist in the storage of cholesterol when supply exceeds demand
Transporting cholesterol from the peripheral tissues to the liver is not a function of low-density-lipoproteins (LDLs).
LDLs are responsible for delivering cholesterol from the liver to peripheral tissues where it is utilized for membrane formation and hormone synthesis. However, high levels of LDLs in the blood can lead to the accumulation of cholesterol in the peripheral tissues, which can increase the risk of cardiovascular diseases.
When the supply of cholesterol exceeds the demand, it is stored in the liver as very-low-density lipoproteins (VLDLs) or high-density lipoproteins (HDLs), not in the form of LDLs.
So, the correct answer is "Transport cholesterol from the peripheral tissues to the liver".
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your lab partner swabs the side of her face and uses the swab to inoculate a nutrient agar plate. the next day, she performs a gram stain on the colonies; she finds that they are gram-positive cocci. to narrow down the identification, what should she look for next? group of answer choices conidiospores pseudopods pseudohyphae an acid-fast reaction a coagulase reaction
After a lab partner has swabbed the side of her face and used the swab to inoculate a nutrient agar plate, she performs a gram stain on the colonies; she finds that they are gram-positive cocci. To narrow down the identification, she should look for the: Coagulase reaction.
What is the coagulase reaction?The coagulase reaction is a biochemical test that can be used to identify staphylococcal organisms. Coagulase is an enzyme that promotes the conversion of fibrinogen to fibrin, resulting in clotting. Staphylococcus aureus is the only species of staphylococcus that produces coagulase, which is used to differentiate it from other species of staphylococcus.
In the coagulase test, plasma is added to the colony on the nutrient agar plate. If coagulase is present, the plasma will be converted to a clot in a few minutes. The coagulase reaction is a useful diagnostic test for S. aureus infections.
A nutrient agar plate is a general-purpose agar that can support the growth of various microorganisms. Nutrient agar plates can grow both gram-negative and gram-positive bacteria. The medium is not selective for any particular organism since it does not contain any inhibitory substances. Nutrient agar plates are typically used in the laboratory for routine diagnostic testing and to grow bacteria for research.
What are gram-positive cocci?Gram-positive cocci are a group of bacteria that are stained purple by the Gram-staining process. Gram-positive bacteria have a thick cell wall made of peptidoglycan, which makes them retain the purple crystal violet stain in the Gram stain procedure. Examples of gram-positive cocci include staphylococci, streptococci, and pneumococci.
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after telophase ii of meiosis, the chromosomal makeup of each daughter cell is
After telophase II of meiosis, the chromosomal makeup of each daughter cell is half of the parent cell. The cells produced during meiosis are genetically distinct from each other and from the parent cell.
The chromosomes in each of the daughter cells contain half the genetic information of the parent cell. The daughter cells created after telophase II of meiosis, also known as haploid cells, possess one set of chromosomes that contains half the number of chromosomes in the parent cell.
That is, if the parent cell is diploid, with two sets of chromosomes, each daughter cell has only one set of chromosomes. The chromosomes in each of the daughter cells are also randomly arranged, ensuring that each daughter cell is genetically distinct.
This is one of the fundamental differences between meiosis and mitosis: meiosis produces four unique, genetically diverse cells, while mitosis produces two genetically identical cells with the same number of chromosomes as the parent cell.
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Which animal is a vertebrate
Responses
octopus
fish
shrimp
crab
Answer:
Fish
Hope this helps!
Explanation:
Vertebrates have spines / backbones. Octopuses, shrimps, and crabs don't have spines. Fish do.
( Invertebrates have no spines; Octopuses, shrimps, and crabs )
in which process of genetic exchange in bacteria is one strand of dna degraded as it enters the recipient cell?
Transformation process of genetic exchange in bacteria is one strand of dna degraded as it enters the recipient cell.
The process of genetic exchange in bacteria where one strand of DNA is degraded as it enters the recipient cell is called transformation. In transformation, a bacterium takes up free DNA from the environment and incorporates it into its own genome.
One of the strands of the double-stranded DNA molecule is then degraded as it enters the recipient cell, while the other strand is incorporated into the recipient cell's genome through recombination with the existing DNA. This process is an important mechanism for bacterial evolution and adaptation to changing environments.
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except for the collarbones, all bones of the body inferior to the skull from by the process of ossification. a. visceral b. osteoblast c. striatum d. endochondral e. parietal
Except for the collarbones, all bones of the body inferior to the skull form by the process of endochondral ossification. Therefore, the correct answer is d. endochondral.
What is Endochondral ossification?
Endochondral ossification is a mechanism in which bone tissue is created by converting cartilage to bone tissue. It starts with mesenchymal cells that produce cartilage, which is then remodeled into bone tissue by osteoblasts. This process generates long bones of the limbs, vertebrae, and the posterior of the skull.
This type of bone formation begins at the center of the cartilage template, progresses toward the ends, and then progresses to the surface until the bone has completely substituted the cartilage. Endochondral ossification is critical for the growth and development of the skeletal system.
It produces new cartilage, which gradually calcifies to form bone in the absence of cartilage. It is also necessary for fracture recovery, where osteoblasts and chondrocytes produce new bone and cartilage, respectively.
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The ability to curl your tongue up on the sides is dominant to not being able to roll your tongue. A woman who can roll her tongue marries a man who cannot. Their first child has his father's phenotype.
What are the genotypes of the mother, father, and child? Draw a Punnett square to explain your answer.
B. What is the probability that a second child won't be a tongue roller?
Answer:
so that is how it goes hope this helps
Explanation:
assuming 2 atps are produced per fadh2, how many atps will be produced in oxidative phosphorylation from a glucose molecule that is fully oxidized during aerobic respiration in a eukaryote? group of answer choices 6 8 2 4 0
During aerobic respiration in a eukaryote, a glucose molecule that is completely oxidized during oxidative phosphorylation will produce a total of 28 ATPs.
Oxidative phosphorylation is an aerobic process that takes place in the presence of oxygen. The process occurs in the mitochondria and results in the production of ATP. ATP is generated by the transfer of electrons along the electron transport chain and coupled with the production of a proton gradient.
A single glucose molecule produces a total of 38 ATPs during cellular respiration, with 2 ATPs produced through glycolysis, 2 ATPs produced by the Krebs cycle, and 34 ATPs produced through oxidative phosphorylation. In oxidative phosphorylation, 28 ATPs are generated from the energy released by the transfer of electrons from NADH and FADH2 to oxygen.
Each NADH molecule produces 3 ATP molecules and each FADH2 molecule produces 2 ATP molecules. Thus, assuming 2 ATPs are produced per FADH2, a glucose molecule that is fully oxidized during aerobic respiration in a eukaryote will produce 28 ATPs. Therefore, the correct option is 28.
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Explain why alveolar air pressure decreases and then increases during inhalation
Answer:
Please make me brainalist and keep smiling dude I hope you will be satisfied with my answer
Explanation:
During inspiration, the diaphragm contracts and the thoracic cavity increases in volume. This decreases the intraalveolar pressure so that air flows into the lungs.
If during cellular respiration, 5 molecules of glucose undergo aerobic respiration, how many Carbon Dioxide molecule is produced? Explain how did you get your answer by citing the equation above as your evidence.
Answer:
During aerobic respiration, each molecule of glucose produces 6 molecules of carbon dioxide. Therefore, if 5 molecules of glucose undergo aerobic respiration, the total number of carbon dioxide molecules produced can be calculated as:
5 molecules of glucose x 6 molecules of CO2 per glucose = 30 molecules of CO2
The equation for aerobic respiration is:
C6H12O6 + 6O2 → 6CO2 + 6H2O + ATP
In this equation, each molecule of glucose (C6H12O6) reacts with 6 molecules of oxygen (O2) to produce 6 molecules of carbon dioxide (CO2) and 6 molecules of water (H2O), along with energy in the form of ATP. Since there are 6 CO2 molecules produced for each glucose molecule, we can use this ratio to calculate the total number of CO2 molecules produced when given the number of glucose molecules that undergo aerobic respiration.
what is likely to be true in a population that is growing?
In a population that is growing, there are likely to be a number of demographic and genetic changes occurring over time. Demographically, a growing population is characterized by an increase in the total number of individuals.
This increase may be due to factors such as high birth rates, low death rates, and immigration. As the population grows, there may be an increase in competition for resources, which can lead to changes in behavior and adaptations in individuals.
Genetically, a growing population may experience an increase in genetic diversity over time. As new mutations arise and are passed on to offspring, the population's gene pool becomes more diverse. This can be beneficial for the population as a whole, as it increases the potential for adaptation to changing environmental conditions.
However, a growing population may also experience challenges, such as overcrowding and resource depletion. In some cases, these challenges may lead to negative impacts on the population, such as increased disease transmission or reduced reproductive success. Overall, a growing population is likely to experience both opportunities and challenges as it continues to expand.
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two genes, a and b, are closely linked. two other genes, c and d, are linked, but are not as close together as a and b. for which pair of genes would more recombinant gametes be observed, assuming that recombination occurs randomly throughout the genome?
Two genes, a and b, are closely linked. Two other genes, c and d, are linked but are not as close together as a and b. More recombinant gametes would be observed in the pair of genes c and d, assuming that recombination occurs randomly throughout the genome.
What are recombinant gametes?A gamete that carries a new combination of alleles as a result of crossing over during meiosis is known as a recombinant gamete. Recombination, also known as crossing over, is the process by which homologous chromosomes exchange genetic material, resulting in offspring with unique combinations of alleles.
Therefore, the more distant the two genes are, the more likely they are to be separated during crossing over, resulting in more recombinant gametes. The genes c and d are less tightly linked than a and b, so more recombinant gametes would be seen in this pair if recombination occurs randomly throughout the genome.
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Type the correct answer in the box. Spell all words correctly.
Which option can John use for transferring materials between machining centers and inspection centers in his factory?
John needs to implement a flexible manufacturing system. He plans to do away with the foxed mechanisms in his factory that are used to
transfer parts and materials and employ various
to navigate without human drivers. They will be used to
transfer materials between machining centers and inspection stations.
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John can move materials between cutting centres and infection stations using automated guided vehicles (AGVs).
What qualities make something flexible?Flexibility is a personality trait that describes a person's capacity to adjust to changing conditions and approach challenges and tasks in fresh, original ways. When stresses or unanticipated occurrences force a person to alter their position, viewpoint, or commitment, they use this attribute.
What benefits do flexible cell membranes offer?Because of the cell membrane's flexibility, the cell can take in nutrients and other substances from its surrounding environment. Endocytosis is the name for such a process. In Amoeba, it is seen.
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which of the following is an irregular, gram-positive rod? group of answer choices corynebacterium diphtheriae bordetella pertussis pneumocystis jirovecii streptococcus pyogenes burkholderia pseudomallei
The following is an irregular, gram-positive rod is a. Corynebacterium diphtheriae
Corynebacterium diphtheriae is a Gram-positive, irregular rod-shaped bacterium that causes diphtheria, a severe infection that can affect the body's respiratory system, heart, and nerves. This bacterium is the causative agent of diphtheria.
Corynebacterium diphtheriae is commonly found in soil, water, and on humans as commensals. It may, however, become pathogenic and cause diphtheria when the body's immune system is compromised, such as when an individual is malnourished or has a weakened immune system. Diphtheria, which is caused by Corynebacterium diphtheriae, was once a major cause of death in children. However, the introduction of the diphtheria vaccine has significantly reduced the incidence of diphtheria.
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Which type of RNA is ready to made into protein?
Answer: mRNA
Explanation: Messenger RNA
All BUT one is a method of passive transport in cells. Osmosis Sodium/Potassium pump Facilitated transport 2. During _____________, molecules like glucose, use a protein channel to enter or leave the cell. Active transport facilitated transport ionic pump mechanisms 3. The diffusion of water through a semipermeable membrane is an example of _________ and __________.
a. Osmosis;
b. Passive transport osmosis;
c. Active transport hydrolysis;
d. Passive transport
Sodium/Potassium pump - This is not a method of passive transport, as it involves the movement of ions against their concentration gradient and requires energy from ATP hydrolysis.
Facilitated transport - This is a method of passive transport, as it involves the movement of molecules down their concentration gradient, with the help of a protein channel or carrier protein. a. Osmosis; b. Passive transport - Correct, the diffusion of water through a semipermeable membrane is an example of osmosis, which is a type of passive transport.
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