The cell enters the cell cycle, and each daughter cell later moves into a new cell cycle of activity, growth, and division, and in the S phase, new DNA is synthesized as the chromosomes are replicated, which is present in option C.
The cell cycle has different phases, and each phase is specific for a particular function, such as the G1 phase, which is the first growth phase. In the G1 phase, the growth of the cell takes place, such as the new protein synthesis, and then the cell enters the S phase, in which the DNA replicates and a copy is made.
Hence, the cell enters the cell cycle, and each daughter cell later moves into a new cell cycle of activity, growth, and division, and in the S phase, new DNA is synthesized as the chromosomes are replicated, which is present in option C.
Learn more about the S phase here.
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Answer:
C
Explanation:
I think it’s C because starts to replicate and yea
B) taking in carbon dioxide and making sugars (carbohydrates)
C) synthesizing carbon dioxide and making cellulose
D) converting sugar to oxygen and water
Photosynthesis contributes to plant growth by taking in carbon dioxide and making sugars (carbohydrates). Option B is correct.
In photosynthesis, carbon dioxide and water are converted to oxygen and glucose. The glucose is consumed by the plant as food. Oxygen is produced as a by-product of photosynthesis.
In cellular respiration, oxygen, and glucose are converted to water and carbon dioxide, with water and carbon dioxide being by-products. ATP is the energy that is converted from the process.
Photosynthesis is the process of converting sunlight or solar energy to chemical energy. The productivity of agricultural crops is directly dependent on the photosynthesis rate.
Therefore the correct option is option B.
To learn more about sugars, refer to the link:
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Answer: B) taking in carbon dioxide and making sugars (carbohydrates)
Input: Photosynthesis contributes to plant growth by taking in carbon dioxide and making sugars (carbohydrates).
Explanation: It contributes to the growth of plants.
The correct answer is B. Sometimes true.
Sometimes it is true that by proposing a solution to a problem you increase the likelihood of achieving the desired outcome.
B. atmosphere; geosphere; cryosphere
C. hydrosphere; cryosphere; geosphere
D. hydrosphere; geosphere; atmosphere
Answer:
The HYDROSPHERE, GEOSPHERE, AND ATMOSPHERE are involved when sedimentary rocks are weathered by wind and waves on the ocean coasts.xplanation:
B dimples
C Ff
D upturned nose
phenotype is observable so A
I think it has to be D definitely because an upturned nose may be a result of a genetic mutation threw the years do to a dry environment,
Hope this helps!
Assaying the samples in triplicate is a way of control.
Using triplicates will allow you to account for variation within the assay (intra-assay variation). This means that if you do not get the same result in all triplicate wells, you probably have a problem with experimental technique or you have made a pipetting error, so the experiment should have be repeated.
Running an ELISA assay in triplicate increases the reliability and accuracy of results by providing a means of calculating the average from three measurements and mitigating the impact of random errors or procedural inconsistencies. Replicating the assay helps to ensure that results are robust and that variations in individual steps of an experiment do not significantly skew the data.
Completing an ELISA assay in triplicate helps to improve the accuracy of results by addressing statistical variability and potential procedural errors. Testing in triplicate ensures repeated measurements of the same sample, reducing the effect of random errors across the tests and thereby enhancing the reliability and consistency of the data collected.
In a situation where a scientist is measuring the amount of a specific protein in a blood sample, even slight inconsistencies in procedures could impact the results. For example, if the secondary antibody is not washed off thoroughly in one test, it might lead to a false increase in signal strength indicating a higher protein level than actually present. Running the assay in triplicates can mitigate this, as the outlier value can be spotted by comparing it against the other two measurements. It also allows the scientist to calculate the mean value of the three tests, providing a more robust estimation of the protein level. Thus, doing ELISA in triplicate better ensures that your results are reproducible and accurate.
Additionally, each ELISA reaction is a complex process involving a series of binding, washing, and coloring steps. Variations can creep in such as pipetting errors, uneven incubation temperatures, or variation in color development times. Hence reliable and repeatable results in scientific experiments often involve running multiple replicates, including in ELISA assays.
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