doesnt have all materials
When RNA is produced from DNA strand it is called transcription and when another DNA molecule comes out from the previous one it is called replication
In the replication part, replication ensures that each new cell will have one complete set of genetic instructions. it does this by making identical strands of chromosomes. transcription enables to adjust to changing demands. it changes certain types of strands on the DNA
DNA replication produces a complimentary DNA strand. Transcription produces a complimentary mRNA strand. The major enzyme that carries out DNA replication is DNA Polymerase III (in prokaryotes). The major enzyme that carries out transcription is RNA Polymerase. DNA replication results in two copies of the DNA. Transciption does not affect the DNA - it simply re-anneals (re-joins) after the process. In DNA replication the complementary base to A is T. In transcription the complementary base to A is U.
No! They have similar function
1. In eukaryotic cells replication forks make several start sites along the DNA strand which forms replication "bubbles" which get larger the more DNA is copied, and stop when DNA replication is complete. In prokaryotic cell's DNA is formed in a loop, two replication forks start along one part of the loop (origin replication) and the replication forks copy DNA in opposite directions until they meet at the other side of the loop, making an exact copy of DNA.
Mutation means to change an aspect of something in a copy. Replication copies it identically.
When RNA is produced from DNA strand it is called transcription and when another DNA molecule comes out from the previous one it is called replication
How does product advertising differ from institutional advertising under what conditions will they be used?How does product advertising differ from institutional advertising under what conditions will they be used?
In the replication part, replication ensures that each new cell will have one complete set of genetic instructions. it does this by making identical strands of chromosomes. transcription enables to adjust to changing demands. it changes certain types of strands on the DNA
they are not similar or contradictory
They are Eukaryotes
They are similar in origin but may differ from structure.
In the replication part, replication ensures that each new cell will have one complete set of genetic instructions. it does this by making identical strands of chromosomes. transcription enables to adjust to changing demands. it changes certain types of strands on the DNA
They differ in wavelength. This is equivalent to saying that they differ in frequency, because the product of (wavelength) x (frequency) is always the same number ... the speed of the wave.
the renetic genes are similar
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