Answer:
A larger number of synaptic vesicles releasing neurotransmitter at the neuromuscular junction compared with CNS synapses
Explanation:
A. Sumter
B. Jacksonville
C. Boonesborough
D. Washington
E. Ponce De Leon
Question 3. 3.
The President of the Confederate States was
A. Andrew Jackson
B. Jefferson Davis
C. Tim Duncan
D. all of the above
E. none of the above
Question 4. 4.
Who fought against Secession in the United States of America?
A. President Bush
B. President Madison
C. President Lincoln
D. all of the above
E. none of the above
Question 5. 5. Clara Barton contributed to the Civil War in what way?
A. as a volunteer serving food and water to the troops
B. as a nurse caring for the sick and wounded
C. as a builder
D. all of the above
Question 6. 6. Three States did not take sides during the Civil War.
True
False
Question 7. 7. There were six major battles in the Civil War.
True
False
Question 8. 8. Lincoln fought to prevent secession from the United States of America.
True
False
Question 9. 9. Clara Barton was the first nurse in the United States of America.
True
False
Question 10. 10. Jefferson Davis was the President of the United States of America during the Civil War.
True
False
The Person taskmasters Taskmasters has 2 wrong answers the answer that are wrong are 5 and 6.
the answer for number 5 is is B. as a nurse caring for the sick and wounded
And number 6 is True
I Took The Quiz
Hope this helped:)
Answer:
replacement
Explanation:
mark me as brainliest
hope it helps :P
Cell division in mature animals is mainly restricted to repair and regeneration of old cells.
In mature animals, cell division is mainly restricted to repair and regeneration of old cells.
Once a being is fully grown, cell reproduction is still necessary to repair or regenerate tissues. For example, new blood and skin cells are constantly being produced. All multicellular organisms use cell division for growth, maintenance, and repair of cells and tissues.
Regeneration refers to the process of replacing damaged or lost cells, tissues, or organs, whereas repair involves the restoration of the structure and function of damaged tissues without complete regeneration.
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when populations become separated from one another
B.
when one population becomes extinct
C.
when one population cannot interbreed with the other population
D.
when populations compete for the same resources
(B) introduction of a new parasite
(C) introduction of a new mutation
(D) interspecific competition for limited resources
(E) habitat destruction
Please explain the work behind the solution
C is the correct response to this query: the introduction of a new mutation. Mutations are modifications to an organism's genetic code; while they may result in phenotypic alterations, they seldom result in extinction.
If a new predator is able to hunt down or outcompete an existing species, or if it spreads a disease or parasite, it can lead to extinction. If a novel parasite can spread swiftly and generate significant mortality rates, it may lead to extinction.
If one species is more suited and can outcompete the other species for resources, interspecific rivalry for scarce resources can lead to extinction. Last but not least, extinction may result through habitat damage if it results in a decrease in food, water, or shelter. something an organism requires to survive.
In conclusion, the introduction of a novel mutation is not seen to be a probable cause of extinction since mutations are often too gradual and the changes they bring about are typically too minor to do so.
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DNA is translated to produce tRNA, which assembles proteins.
DNA directs the production of mRNA; mRNA is translated to make tRNA; tRNA assembles the protein.
RNA directs the production of DNA; DNA contains genes that produce tRNA, which builds the protein.
The most probable answer here is the third option from the top, but it not entirely accurate because mRNA is not translated to make tRNA. The latter is already present in the cytoplasm of the cell.
The first step in protein synthesis is Transcription in which a new RNA molecule is synthesized from a DNA template. This process takes place in the nucleus of the cell. The new RNA strand is called messenger RNA or simply mRNA because it carries information from the DNA in the nucleus to the site where this information can be Translated from nucleotide language to amino acid language. This site is actually the ribosome/s usually located in the cell cytoplasm.
The ribosome attaches to the mRNA and begins to read the code on the mRNA.
tRNA which is free in the cytoplasm or attached to the ribosome begins to fetch the correct amino acid coded for by the mRNA from the amino acid pool in the cytoplasm.
These amino acids are linked together in the ribosome with the help of enzymes to make a polypeptide chain which is actually the protein, newly formed.
The statement that is true about Protein synthesis is that DNA directs the production of mRNA; mRNA is translated to make tRNA; tRNA assembles the protein.
The correct statement about protein synthesis is: DNA directs the production of mRNA; mRNA is translated to make tRNA; tRNA assembles the protein.
Protein synthesis involves two main steps: transcription and translation. Transcription occurs in the nucleus and involves the synthesis of mRNA using a DNA template.
The mRNA molecule then moves to the cytoplasm where it is translated by ribosomes and tRNA molecules.
The tRNA molecules bring specific amino acids to the ribosome, which then assembles them into a polypeptide chain to form a protein.
Overall, DNA provides the instructions for the synthesis of mRNA, and mRNA serves as the template for protein synthesis.
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