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3 years ago

1 point

Biology

1 answer:

Alekssandra [29.7K]3 years ago

6 0

<h2>Option (B) is Right Answer</h2>

Explanation:

(B) bacteria that make insulin for is right answer

The human insulin gene and embedded into the bacterium Escherichia coli to deliver manufactured "human" insulin
The develop insulin modestly, the quality that produces human insulin was added to the qualities in an normal E. coli microscopic organisms.An example of microbes is then "infected" with the plasmid, and some of them take up the plasmid and fuse the new quality into their DNA
A plasmid is a little, round, twofold stranded DNA atom that is particular from a cell's chromosomal DNA

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A student runs 5 kilometers (km) each afternoon at a slow, leisurely pace. One day, she runs 2 km as fast as she can. Afterward,

serg [7]

Answer:

The correct answer is that our student accumulated lactic acid.

Explanation:

What is acid lactic and where it comes from? It comes from the breakdown of glucose when there is no oxygen present (glycolytic metabolism), that is, in an anaerobic exercise such as running or cycling at high speed, like the case of our student, where there is a high intensity and a very short duration.

What happen then? When we keep doing exercise with high intensity an exercise, lactic acid will begin to accumulate by not giving the body time to remove it.

How can we avoid lactic acid? With training, there is no more. Based on training, the body deploys adaptive mechanism that causes lactic acid not to accumulate so quickly and if it begins to do so, the muscle supports it more effectively.

6 0

3 years ago

Read 2 more answers

Compare and contrast DNA and RNA

Ierofanga [76]

Compare: both RNA and DNA have 3 nitrogenous bases: Adenine Cytosine and Guanine. Also both have a phosphate groups in their nucleotides

Contrast: RNA is a polymer with a ribose AND a phosphate backbone. It has four different nitrogenous bases: adenine, guanine, cytosine, and uracil.

DNA is a long polymer with deoxyriboses AND phosphate backbone. It also has four different nitrogenous bases: adenine, guanine, cytosine and thymine.

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6 0

3 years ago

2. Use the terms: technology and scientific theory in a complete sentence.

mamaluj [8]

Answer: Andrew's scientific theory was that technology would someday be the world's main resource.

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3 years ago

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Explain why it is an advantage for plants to store carbohydrates as starch rather than as sugars

Darina [25.2K]

Answer:

More energy are packed into less space by starch molecules far more than glucose or sucrose yet they are able to release this energy easily, hence maximizing both storage and mobilization.

Explanation:

When plants have a period of dormancy to survive, they store their food as starch. They store enough of this energy so as to be able to restart with and to be able to maintain metabolism for the entire period of dormancy.

In addition, we know that starch is not water soluble, hence, lacks the ability to pull water into storage cells or cause irregularity in water balance. More energy are packed into less space by starch molecules far more than glucose or sucrose yet they are able to release this energy easily, hence maximizing both storage and mobilization.

Glucose is not directly transported by plants to storage. Rather, in a plant stem, the form of carbohydrate being transported is sucrose and this is because it is a non-reducing and does not react with oxygen during transport in the stem to specialized storage plastids.

4 0

3 years ago

(04.04 LC)

podryga [215]

Answer:

A) The production of energy without the presence of oxygen - Anaerobic respiration

B) The chemical breakdown of a substance - Fermentation

C) The breakdown of food to create energy in the presence of oxygen - Aerobic respiration

D) An organic molecule that occurs as an intermediate in many metabolic processes - Pyruvate

Explanation:

A) Anaerobic respiration is a type of cellular energy production that occurs in the absence of oxygen. it is much less efficient than aerobic respiration (see question C). In cellular respiration, cells produce ATP, which is the "currency" of energy in the cell, by breaking down glucose. ATP is required to carry out the normal functions of a cell.

As it is much less efficient than aerobic respiration, it produces much less ATP. However, when there is no oxygen, it is the only choice. An example is when muscle cells are working very hard and use up all the oxygen in the tissue. To keep producing some energy, they undergo anaerobic respiration, which only produces 2 molecules of ATP for every molecule of glucose.

B) In respiration, Fermentation is a pathway of breaking down glucose into chemical energy that occurs in the absence of oxygen. Anaerobic respiration can lead to two types of fermentation, lactic acid fermentation (described above) and ethanol fermentation which is another type of anaerobic respiration in which fungi (such as yeast) break down glucose into ethanol, producing 2 molecules of ATP carbon dioxide as a by-product. This is how we make bread and beer!

C) Aerobic respiration is cellular respiration in the presence of oxygen. It creates a net gain of 36 molecules of ATP, compared to the 2 ATPs created without oxygen. This is because in aerobic respiration, the oxygen acts as a final electron acceptor for the electron transport chain. In its absence the electron transport chain cannot proceed. The electron transport chain is how cells generate most of their chemical energy.

D) Pyruvate is an important molecule in the process of respiration. Both aerobic and anaerobic respiration begin with the same process, glycolysis. Glycolysis is the process by which 1 molecule of glucose is broken down into two molecules of pyruvate - a metabolic intermediate. This releases 2 molecules of ATP. In the presence of oxygen, pyruvate is oxidised and enters the Krebs cycle, which makes a series of compounds that donate electrons to the electron transport chain, which produces extra ATPs through oxidative phosphorylation.

In the absence of oxygen, pyruvate is converted either to lactic acid or ethanol by fermentation

5 0

3 years ago