After mRNA is transcribed, (C.), It enters the cytoplasm and moves toward ribosomes.
The types of RNA carries genetic instructions for building a specific protein is (D.), mRNA only
For a cell lacking in its supply of amino acids, (C.), tRNA may not be able to fulfill its job.
After mRNA is transcribed, it leaves the nucleus and enters the cytoplasm. It then moves towards ribosomes, where it will be translated into protein.
mRNA is the only type of RNA that carries genetic instructions for building a specific protein. rRNA is involved in the process of protein synthesis, but it does not carry genetic instructions. tRNA is also involved in protein synthesis, but it does not carry genetic instructions.
If a cell is lacking in its supply of amino acids, then tRNA may not be able to fulfill its job. tRNA is responsible for carrying amino acids to the ribosomes, where they are assembled into proteins. If there are not enough amino acids available, then tRNA will not be able to do its job and proteins will not be synthesized.
Find out more on RNA here: brainly.com/question/28073947
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i just took the quiz the answers are
1 c, it enters the cytoplasm and moves toward ribosomes
2 d, mRNA only
3 d, all of the above
cellulose.
glycogen.
wax.
lipids.
Answer:
Animals, including humans, store glucose in the form of glycogen.(option 2)
Hope it helps :)
Animals, specifically humans, store glucose in the form of glycogen. Glycogen serves as an energy storage molecule which can be broken down into glucose when needed. Cellulose, wax, and lipids have different roles in the organism.
Animals, including humans, store glucose in the form of glycogen. Glycogen is a polysaccharide, or a complex carbohydrate, that our bodies use for energy storage. It is stored primarily in the liver and muscle cells. When our bodies need a quick boost of energy, glycogen is broken down into glucose molecules that can be utilized by the cells. It's unlike cellulose which is a structural component for plants, whereas wax and lipids play a different role in the organism.
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b. . Lipids
c. . Nucleic Acid
d. . Starches I attempted question once, so answer is not lipids.
Answer:
The answer is Cytoplasm of the cells
Explanation:
Glycolysis is the process by which the cell obtains energy through the degradation of glucose, in order to serve the metabolism of the cell. Glycolysis is made up of a phase that generates energy and another phase that releases it. Glycolysis occurs in the cytoplasm of cells.
Glycolysis occurs in the cytoplasm of a cell and is the first step in both aerobic and anaerobic respiration. It breaks down glucose into two pyruvate molecules, releasing energy.
Glycolysis is a metabolic pathway that is part of cellular respiration, which is a process that cells go through to break down glucose and derive energy. This process occurs in the cytoplasm of the cell.
Glycolysis represents the cell's universal energy-yielding process, and it's the first step in both aerobic and anaerobic respiration. In essence, glycolysis involves the breaking down of a glucose molecule into two molecules of pyruvate, releasing energy in the process.
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The price of cotton is very high, because it is a natural fiber that must be cultivated and then harvested in certain months of the year, which in itself is a disadvantage because it interrupts the continued production of textile merchandise.
The above generates a very strong economic impact, in addition the environmental impacts are what most concern since to keep this crop in good condition, the use of pesticides, fertilizers and other minerals is constantly used that greatly pollute rivers and lakes, affecting Biodiversity. Cotton is the largest consumer of water among agricultural products, which also generates a great depletion of this valuable water resource.
For the above reasons, the use of artificial polymers emerged as a more economical and environmentally friendly alternative, since sports garments are cheaper and more resistant, they can also be kept longer, they are also more resistant to wrinkles, moths and mold.
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Answer:
Synthetic clothes are economically less expensive and lightweight compared to common traditional clothes; however, they pose difficulties for recycling
Explanation:
Polymers are compounds made of long repeating molecules, which can be classified according to their origin into natural and synthetic. Synthetic polymers include, among others, nylon (household products), polyvinyl chloride, also known as PVC (clothing), polypropylene (packaging), etc. As compared to traditional clothes made up of cotton, synthetic clothes offer significant advantages related to production costs, i.e., they can be produced in high-scale processes, and automated production is less expensive than traditional processes. However, synthetic polymers consist of long repeat chains of molecules that have very strong atomic bonds, which make difficult their degradation by decomposers (i.e., non-biodegradable in nature). The process of degradation of synthetic clothes can take up many years to break down these compounds. In addition, synthetic clothes are also pollutants because they are lost in the water when they are laundered, remaining for many years in water ecosystems.