This has to be a strand of DNA because RNA does not have Thymine (T), instead it has Uracil (U).
Thus, if this strand were RNA it would read:
5' augcuaucauugaccuugaguuauuaa 3'
gaucgaucacucaggacuaug
As long as the DNA strand sequence "CTAGGTTAC" is in the 5' to 3' position, the correct RNA sequence would be "CUAGGUUAC". RNA is identical to the coding strand, which is always read 5' to 3'. The only difference is U replaces T.
During transcription, RNA polymerase uses the template strand of DNA to create a complementary RNA strand.
The messenger RNA (or mRNA) compliment to a DNA strand of CCAGTT would be GGUCAA.
No. All strands can be replicated, just depends on where the enzyme decides to land and unzip it. Anyways, all DNA molecules would be adequate templates since they are all identical copies of each other.
The correct answer is: RNA is synthesized by RNA polymerase that reads one strand of DNA. RNA polymerase reads DNA 3' to 5'. When RNA is made, it is made 5' to 3'. Most polymerases have the 3' to 5' "reading" activity. The created RNA strand is identical to the coding strand of DNA, which is also in the orientation of 5' to 3'.
No, because "U," or Uracil, is found in RNA and not DNA.
Yes, that's correct. Transcription is the process by which the genetic information in a segment of DNA is used to create a complementary RNA strand. This RNA molecule can then be used to direct the synthesis of proteins in a cell.
The enzyme responsible for decoding the DNA strand into an mRNA is called RNA polymerase. It catalyzes the synthesis of mRNA during transcription by matching complementary RNA nucleotides with the DNA template strand.
Normally DNA and RNA are the same length. However RNA has only one half of the two usually duplicate genetic strands of DNA
RNA polymerase builds the new strand of RNA during transcription. It catalyzes the formation of phosphodiester bonds between nucleotides to create the complementary RNA strand based on the DNA template strand.
AAC CT would produce TTG GA The coding strand is the DNA strand that has the same base sequence as the RNA transcript. It contains codons, and the non-coding strand has anti-codons instead.