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Mitochondria Have DNA. Mitochondria and chloroplasts have striking similarities to bacteria cells. They have their own DNA, which is separate from the DNA found in the nucleus of the cell. And both organelles use their DNA to produce many proteins and enzymes required for their function.
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Mitochondria and chloroplasts are two types of organelles present in cells. Mitochondria produce ATP, the cell's main energy source, while chloroplasts in plants and algae conduct photosynthesis.
Mitochondria and chloroplasts are two types of specialised structures, or organelles, found within cells. They each play critical roles in energy( in different forms) provision for the cell.
Mitochondria, often referred to as the 'powerhouses of the cell', generate most of the cell's supply of adenosine triphosphate (ATP), which is used as a source of chemical energy.
On the other hand, chloroplasts are found in plant cells and some algae. They are responsible for photosynthesis, a process by which sunlight, carbon dioxide, and water are converted into food for the plant.
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She is in love with Demetrius.
B.
Lysander does not love her.
C.
Her father does not approve of Lysander.
D.
The Duke of Athens has banished Lysander.
At the start of A Midsummer Night's Dream, Hermia can't marry Lysander because her father does not approve of Lysander. Therefore, option C is correct.
Hermia is loyal to her love and does not wish to wed Demetrius. Her brashness is a touch reminiscent of Rosalind from As You Like It, one of my favorite Shakespearean heroines.
After falling victim to Puck's enchantment, Lysander mistaken for Demetrius falls in love with Helena, but Helena is in love with Demetrius. The enchantment is eventually undone, allowing Lysander to wed Hermia. The Mechanicals perform their play at the conclusion, and Hermia and Lysander are married.
Thus, At the start of A Midsummer Night's Dream, Hermia can't marry Lysander because her father does not approve of Lysander. Therefore, option C is correct.
Learn more about Hermia, here:
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Answer:
Both "D" and "d" allele
Explanation:
As per the principle of segregation proposed by mendel, an allele pair can split in to two during cell division in a way such that it can give both of its allele (with in an allele pair) to its offspring.
Thus by that logic anyone with a genotype Dd, can segregate its allele pair to pass both "D" and "d" allele to its offspring.
Sam (father) DD homozygous dominant
Sally (mother) dd homozygous recessive
:3
Cells need to grow and prepare itself during interphase to make sure that they don't just get smaller and smaller.
Interphase is regarded as the resting phase of the cell cycle because it occurs between two successive celldivisions.
It is the phase where the cell increases in content (growth), replicates its DNA and prepares itself generally for the next celldivision.
The interphase consists of G1, G2, and S phases.
Therefore, cells need to grow and prepare itself during interphase to make sure that they don't just get smaller and smaller.
Learn more about interphase at: brainly.com/question/13764363
A. The Constitution should protect the basic rights of the people and the powers of the states.