On its own, nothing. It has no start codon (TAC).
Even assuming that this is just a section in the middle of a codon, the first is a stop. It says;
stop-alanine-glycine-cysteine
This sequence is total nonsense.
If one side is TAGGTAACT the opposite will be ATCCATTGA. A and T match up while G and C match.
TAAGCCTTACCTTAGGGC
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
dna replication. can be summarised as the two helical strands of dna unravelling through the action of enzymes and the corresponding nitrogenous bases of each being matched up (A-T, C-G) to form two identical strands
RNA molecules produced by transcription are much shorter in length than DNA molecules produced by replication. Also in DNA replication the compliment of Adenine is Thymine. In transcription the compliment of Adenine is Uracil.
After DNA replication, each new molecule has one strand of the original DNA molecule and the other strand is composed of new nucleic acids. This is due to the semi-conservative replication of DNA.
False: DNA replication starts at origins of replication which can be anywhere on the DNA molecule. Replication is taking place at multiple origins at the same time.
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
dna replication. can be summarised as the two helical strands of dna unravelling through the action of enzymes and the corresponding nitrogenous bases of each being matched up (A-T, C-G) to form two identical strands
replication
through replication, if u have to be specific, its DNA replication
It becomes duplicated.
DNA replication
RNA molecules produced by transcription are much shorter in length than DNA molecules produced by replication. Also in DNA replication the compliment of Adenine is Thymine. In transcription the compliment of Adenine is Uracil.
A nice simple answer for you: Replication.
Four.
Four.
Transcription.
In the replication of DNA Thymine bonds with cytosine.