Answer:
b
Explanation:
A natural disaster occurred that separated squirrels.
The answer that best matches the fertilizer component with the molecule in which it will be incorporated by organisms in the area isNitrogen (N) - Amino acids (proteins).
Here's how the components of fertilizer are typically associated with the molecules they are incorporated into by plants:
1. Nitrogen (N): Nitrogen is often incorporated into amino acids, which are the building blocks of proteins. Proteins are essential for plant growth, development, and various biochemical processes.
2. Phosphorus (P): Phosphorus is typically incorporated into molecules like adenosine triphosphate (ATP) and nucleic acids (DNA and RNA). ATP is a molecule that stores and transfers energy within cells, while nucleic acids are critical for genetic information and cellular processes.
3. Potassium (K): Potassium is primarily involved in maintaining cellular water balance and ionic balance. It is not typically incorporated into specific molecules but rather plays a crucial role in overall plant function.
4. Magnesium (Mg): Magnesium is an essential component of the chlorophyll molecule, which is responsible for photosynthesis. Chlorophyll captures light energy and converts it into chemical energy.
5. Calcium (Ca): Calcium is not incorporated into a specific molecule like the others but serves as a structural component, providing rigidity to cell walls and contributing to overall plant structure and growth.
Therefore, the answer that best matches the fertilizer component with the molecule in which it will be incorporated by organisms in the area is:
Nitrogen (N) - Amino acids (proteins)
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Fertilizer components such as nitrogen, phosphorus, and potassium can be incorporated by organisms through molecules like urea, ammonium ions, nitrates, phosphate ions, and phospholipids.
Biology: Fertilizer Components and Incorporation by Organisms
When it comes to fertilizers and the molecules they are incorporated into by organisms, it is important to consider the three main macronutrients: nitrogen, phosphorus, and potassium.
Nitrogen (N) is a key component of amino acids, proteins, and nucleic acids. It is commonly incorporated into molecules like urea, ammonium ions (NH4+), and nitrates (NO3-).Phosphorus (P) is an essential element for energy transfer and synthesis of nucleic acids and ATP. It is typically incorporated into molecules like phosphate ions (PO43-) and phospholipids.Potassium (K) is involved in osmoregulation and activation of enzymes. It is commonly incorporated into ions like potassium ions (K+).
The best matches for the fertilizer components are:
For nitrogen-based fertilizers, it could be urea, ammonium ions, or nitrates.For phosphorus-based fertilizers, it could be phosphate ions or phospholipids.For potassium-based fertilizers, it could be potassium ions.
The appropriate fertilizer components to be incorporated by organisms in an area would depend on the specific macronutrients needed by the organisms and the composition of the soil.
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(2) synthesize hormones such as insulin and human growth hormone
(3) increase the frequency of fertilization
(4) eliminate sexual reproduction
Genetic engineering is used in the biotechnology industry to synthesize hormones such as insulin and human growth hormone. Thus, the correct option for this question is B.
Genetic engineering may be characterized as a type of methodology through which recombinant DNA technology is used in order to change the genetic makeup of any living organism. It induces manipulations in the sequences of genes.
The fundamental principle of genetic engineering is to manipulate and modify the genetic material of an organism to incorporate desirable traits. Recombinant DNA technology is the main process or method of genetic engineering.
In recent times, the principle of genetic engineering is used widely in the biotechnology industry for synthesizing numerous hormones such as insulin and human growth hormone.
Therefore, genetic engineering is used in the biotechnology industry to synthesize hormones such as insulin and human growth hormone. Thus, the correct option for this question is B.
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-study their genetic make-up
-study their shape and arrangement
-conduct Gram staining
-study how they gain energy and nutrients
-study how they move
If you wanted to try and identify or classify archaea or eubacteria, you would study their habitat, study their genetic make-up, study their shape and arrangement, conduct Gram staining, study how they gain energy and nutrients and study how they move. Archaea and eubacteria are genetically different; Archaea have more complex RNA polymerases that contain multiple polypeptides while eubacteria have simple RNA polymerases that contain four polypeptides. Archaea cell walls do not contain peptidoglycan while almost all bacteria cell walls contain peptidoglycan.
B. Lithosphere
C. Outer core
D. Inner core
E. Crust
i think it is inner core.