Answer:
tRNA molecules bring a specific <u>amino acid</u> to the ribosome, according to the <u>mRNA codon</u>.
Explanation:
In the context of protein synthesis, an mRNA molecule contains the specific codons that encode the amino acids that will be part of the protein. The tRNA is in charge of bringing the amino acids to the ribosome, according to the specific information of the mRNA codons.
The function of tRNA depends on the complementarity that exists between the mRNA codon and the anti-codon tRNA, in such a way that
:
- <em>The pattern in the amino acid sequence of a protein is indicated by mRNA
</em>
- <em>tRNA has a complementary anticodon, so it will only bring the specific amino acid that the codon encodes.</em>
In general terms, each mRNA molecule possesses the genetic code that indicates the amino acid sequence of a protein, and tRNA helps bring those amino acids to the ribosome for synthesis to occur.
Answer:
The correct answer is: Clostridium Tetani.
Explanation:
Clostridium tetani is a Gram-positive bacteria found in soil.
<u>C. tetani may grow and generate </u><u>tetanospasmin</u><u>, a powerful toxin that interferes with </u><u>motor neurons</u><u>, producing </u><u>tetanus</u><u>, if introduced into a </u><u>wound</u>.
Tetanospasmin travels throughout the body via the lymphatic and bloodstream, where it is taken up by different sections of the nervous system. Tetanospasmin inhibits the release of the inhibitory neurotransmitters glycine and gamma-aminobutyric acid at motor nerve terminals in the nervous system. <u>This blockage causes </u><u>extensive motor neuron activation and muscular spasming</u>. These muscle spasms usually start at the top of the body and work their way down, starting about 8 days after infection with lockjaw and progressing to spasms of the stomach muscles and extremities. The muscle spasms last several weeks.
Tetanus toxoid vaccinations, which are often given to children around the world, can inhibit the toxin's activity.
The answer is B. in the soil
<h2>Answer</h2>
We are two little chromatids
We live for many days
We always keep together
And call it our prophase
We congregate with others
We're not in separate bays
Our daughter chromosomes develop
And that's our metaphase
And then we start to break away
And go our separate ways
We're pulled out at the centromeres
That's during Anaphase
And now our function's almost done
We've used up all our days
Our daughters presently are separate
So that's our telophase
Our whole mitosis is now done
The complete interphase
Cytokinesis where are you?
For you're the one that pays.
<u>Explanation </u>
It is a biological process in many organisms where a parent cell splits giving rise to two or more daughter cells. This process is used by multicellular organisms in order to grow, repair and reproduce. Indirect cell division, nucleus, and cytoplasm of the cell divide directly into two parts which are referred to as amitosis and in indirect cell division, complicated changes are involved within the cell like the formation of chromosomes. This is referred to as mitosis.
