Given what we know, we can confirm that the aspect of nucleic acids and transcription that can help explain this discrepancy is that of alternative splicing.
<h3>Alternative Splicing.</h3>
- This process allowed the cells to use a single gene for the creation of various proteins.
- This process includes the separation of RNA at splicing sites to create new versions of the mRNA strand.
- This helps to increase the diversity of mRNA's available and create more proteins.
Therefore, given that alternative splicing allows the cells to create multiple forms of distinct proteins from a single gene, this allowed our organisms to develop the vast number of proteins we use, without the need for a much larger genome.
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1) Muscle Cell*myosin filament: changes shape and pulls on and releases actin filament allowing movement*If the myosin filament was missing or injured, it would be cause difficulty in movement2) Flagellum*Dynein arms: uses energy from ATP to "grab" the attached droplet allowing a wave like movement when pulling the droplets together* If the dynein arms was missing or injured the flagellum would have no possible way of moving causing it to stuck in mid-air
Answer:
Its cells have thick, hard walls.
Explanation:
The answer would be A. Because hemophilia is recessive and the Leopold carries the recessive trait
A gamma ray consist of gamma radiation.
