What is the function of helicase in dna replication? what is the function of helicase in dna replication? it checks for errors in the newly synthesized dna strand. it relieves strain from twisting of the double helix as it is unwound. it adds nucleotides to the new strand in the 5' to 3' direction. it untwists the double helix and separates the two dna strands. it joins together okazaki fragments?
The function of helicase in DNA replication is to separate the two DNA strands of the double helix. It works at the origin of replication, initiating the process by unwinding the DNA, forming a structure known as the 'replication fork'. If mutated, it inhibits the separation of DNA strands, affecting the entire replication process.
Explanation:The function of helicase in DNA replication is to separate the two DNA strands of the double helix. It achieves this by unwinding the DNA at the origin of replication, thus resulting in a structure referred to as the 'replication fork'. The opening of the double helix causes over-winding, or supercoiling, in the DNA ahead of the replication fork. This is resolved with the action of an enzyme known as topoisomerase. Primase then synthesizes a RNA primer which helps DNA polymerase form a daughter strand.
If helicase is mutated, the DNA strands will not be separated at the beginning of replication, affecting the entire DNA replication process. While helicase separates the DNA strands, other proteins like single-strand binding proteins, primase, DNA polymerase, and DNA ligase carry out other crucial functions in DNA replication, ensuring the right sequence and integrity of the newly synthesized DNA strand.
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How does the central dogma of molecular genetics serve as the basis of modern genetics?
What does the presence of homologous structures in different organisms suggest? A.) similar movement B.) common ancestry C.) similar habitat D.) common distribution
The presence of homologous structures in different organisms suggests common ancestry. Therefore option B is correct.
Homologous structures are anatomical features found in different species that share a similar underlying structure but may have different functions.
These similarities are best explained by evolutionary theory, which proposes that all life on Earth shares a common ancestor.
Over time, as species diverged through the process of evolution, modifications occurred in their shared ancestral structures to suit their respective environments and functions.
The presence of homologous structures provides compelling evidence for the relatedness of organisms and their evolutionary history, supporting the idea that they have descended from a common ancestor.
Therefore option B is correct.
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Final answer:
Homologous structures indicate a common ancestry (option B) among organisms, as they are similar anatomical features that have evolved from the same embryonic origin, highlighting an evolutionary relationship despite potential differences in function.
Explanation:
The presence of homologous structures in different organisms suggests a common ancestry (option B). These structures are similar anatomical features found in different species that have developed from the same embryonic origin due to evolutionary history, despite potentially serving different functions in each species. For example, the bones in the forelimbs of mammals, such as wings in bats, fins in whales, or arms in humans, are considered homologous because they share a common structural pattern that has been adapted for various functions like flying, swimming, or grasping. This supports the idea that these species share a common ancestor. An important distinction is that homologous structures differ from analogous structures, which are features in different species that have similar functions but did not originate from a common ancestor, usually evolving independently in response to similar environmental challenges.
How many known species of vertebrates are there?
Answer:
About 59,811 ,if you break that up it would look like this...
6,199 Amphibians
30,000 Fish
9,956 Birds
8,240 Reptiles
and 5,416 Mammals.
Explanation:
The study of how organisms interact with their environment and with other organisms is called: biogeography conservation biology ecology environmentalism
_____ receive stimuli from nerve cells.
A. Axons
B. Dendrites
C. Glial cells
D. Perikaryons
Which of the following is an example of how a scientist might use a model?
Question 5 options:
Stopwatches measure the amount of time it takes for a swimmer to go one lap in the pool.
A saw is used to cut a board in half.
Marbles placed inside a hollow sphere are used to describe protons in a nucleus.
A telescope is used to see the moons orbiting Jupiter.
Defensive proteins are manufactured by the _____ system.
Defensive proteins are manufactured by the system referred to as the immune system. The correct option is C.
What are defensive proteins?Defensive proteins or monoclonal antibody, also known as immunoglobulins, comprise the most crucial component of the immune system.
These proteins aid in preventing disease by sustaining various types of restrictions and elimination mechanisms in the body.
Saliva contains a large number of defense proteins. Salivary immunoglobulins and the salivary chaperone HSP70/HSPA, for example, are implicated including both innate and acquired immune activation.
The immune system defends one's body against external invading forces. Toxins and pathogens such as bacteria, viruses, and fungi are examples of these.
Thus, the correct option is C.
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Your question seems incomplete. The missing options probably are:
A. Digestive B. Cardiovascular C. Immune D. Nervous E. IntegumentaryHow does biodiversity depend on a species ability to reproduce
N the process of fertilization, the _______ and _______ unite, resulting in a single cell.
Fertilization is the process in which a sperm and an egg unite to form a single cell called a zygote. This process occurs in a fallopian tube.
Explanation:Fertilization is the process in which a sperm and an egg unite to form a single cell called a zygote. This process occurs in a fallopian tube. The zygote then undergoes multiple cell divisions before it implants in the lining of the uterus.
During the fourth stage of labor, the nurse assesses the client’s fundal height and tone. when completing this assessment, the nurse performs which action to prevent prolapse or inversion of the uterus?
How do different populations maintain community stability and diversity?
How does the water inside plants return to the atmosphere?
Runoff
Evaporation
Precipitation
Transpiration
The right answer is transpiration.
Leaves transpirate by their stomata, small pores that connect the inside of the leaf with the external environment. The plant thus uses phenomena of variations of the opening of the stomata.
Transpiration plays a major role in the water absorption of the plant. It is in fact largely thanks to it that the sap rises in the xylem.
Nervous tissue forms nerves that vary in length. The flexibility of nerve length allows communication to occur between regions of the body that are very close to each other, or very far away from each other. One example of a very long nerve is the sciatic nerve, which runs from the spinal cord to the toes and is approximately one meter long. Which of the following is supported by the passage?
A. Only distant regions would communicate using nervous tissue
B. Only nearby regions would communicate using nervous tissue
C.Both distant and nearby regions would communicate using nervous tissue
D. Neither distant nor nearby body regions would communicate using nervous tissue
at what depth would organism that rely on infrared light most likely be found in the ocean
at the top I think but I could wrong
Answer:
The correct answer is epipelagic zone of the ocean.
Explanation:
The species that depend upon infrared light would most probably be witnessed in the epipelagic zone of the ocean, that is, at the depth of 10 to 15 meters. The epipelagic zone is the first and the foremost zone, and it is more shallow in comparison to the other zones. As it is near to the surface, thus, it obtains more light.
describe and draw the structure of an amino acid
Migrating subtropical pressure zones generally produce dry summer conditions on the west side of continents because of
the people in a location in florida dug wells to reach the underground water source which of these is a correct conclusion about the location
A. It has several lakes
B. It has excess run off
C. It has excess precipitation
D. It has a high rate of evaporation
Answer: B. It has excess run off.
Explanation:
Surface run off is a condition in which water flows over the surface of land. The water comes from rain, snowmelt, and other sources. This water because of fast flow rate does not get absorbed inside the soil.
Hence, florida people should dug well so that the water from runoff may enter the well and water erosion can be prevented.
Answer:
the answer is
Explanation:
B. It has excess run off
Hearing loss that occurs as a function of age is called _____.
a. aural ataxiac
b. presbycusis
c. anosmia
d. presbyopia
Final answer:
Hearing loss that occurs as a function of age is called presbycusis, a gradual bilateral condition caused by changes in the inner ear or auditory nerve. Presbycusis may go unnoticed initially and can often be treated with hearing aids.
Explanation:
Hearing loss that occurs as a function of age is called presbycusis. This condition is an age-related sensorineural hearing loss that results from degeneration of the cochlea or associated structures of the inner ear or auditory nerves. Presbycusis is gradual, often affects both ears, and tends to run in families. Individuals may not immediately realize that they have lost some hearing ability.
Options such as aural ataxia, anosmia, and presbyopia refer to other conditions and are not related to age-related hearing loss. Presbyopia, for instance, references age-related farsightedness and not hearing loss.
When addressing age-related hearing loss, hearing aids might be effective for treating sensorineural hearing loss, which includes presbycusis. Conductive hearing loss, on the other hand, results from issues with the vibration of the eardrum or movement of the bones in the middle ear, which differs from the inner ear and nerve issues associated with presbycusis.
Oddly shaped red blood cells and severe pain are characteristics of a human genetic disorder known as
A normal systolic blood pressure for a 30-year-old is between:
Messages inside neurons are transmitted in electrical form. however, messages traveling between neurons utilize chemicals called
16. Explain how you would calculate the ecological footprint of the state that you live in if you knew the average ecological footprint of a resident in your state?
The minimal amount of nutrients needed every day by healthy people to prevent nutrient deficiencies is called the
The result of binding a signal molecule to its receptor is
Final answer:
The binding of a signal molecule to its receptor triggers a sequence of cellular events, known as signal transduction, leading to changes such as alterations in metabolic pathways or gene expression. This process involves the specific recognition of signal molecules by receptors, followed by intracellular signaling pathways that amplify the signal and produce a cellular response.
Explanation:
How Binding of a Signal Molecule to Its Receptor Leads to Cellular Changes
The result of binding a signal molecule to its receptor initiates a complex chain of events within the cell, leading to various forms of cellular responses. This fundamental biological process is crucial for the regulation of cellular activities and is known as signal transduction. Signal transduction pathways can lead to diverse changes in the cell, such as alterations in metabolic pathways, changes in gene expression, or activation of specific cell functions.
Receptors are highly specific proteins that can recognize and bind to particular signal molecules. Upon binding, receptors undergo conformational changes that trigger intracellular signaling pathways. These pathways often involve the generation of second messengers, activation of enzymes, and the phosphorylation of proteins, which can further amplify the initial signal. One example is the G-protein-coupled receptor (GPCR) pathway, where the binding of a signal to GPCR leads to a conformation change in the receptor and the subsequent activation of an intracellular G-protein. This, in turn, exchanges a GDP bound to its alpha subunit for a GTP, initiating a signaling cascade that results in cellular response.
These signaling pathways are meticulously regulated and can lead to specific cellular outcomes based on the type of receptor and the nature of the signal molecule. The pathway includes upstream events that activate the receptor and downstream events, which are the cellular responses to the initial signal. This sequence of events ensures that cells can respond accurately to a wide array of signals from their environment.
An all-or-none response pattern is characteristic of the
Which type of substance is an environmental contaminant that causes harm to living organisms?
______ are a symbiosis between a photosynthetic organism and a fungus.
______ are produced in growing areas, such as meristems at the tip of the shoot.
1.Auxins
2.Gibberellins
3.Cytokinins
4.None Of The Above
How is light used in photosynthesis reddit?
Been searching but most sources say it uses 'sunlight' or 'light energy'. I want to know exactly which kind of light it is. Can you technically shine a UV lamp onto a plant and promote photosynthesis?
Answer:
Light provides energy for the synthesis of glucose from carbon dioxide and water during photosynthesis. ... During light reaction, the chlorophyll entraps light and the solar energy is converted into chemical energy in the form of ATP molecules.
Explanation: