No RNA would be produced since the RNApolymerase would be unable to detect and bind the DNA.
No RNA would be produced since the RNApolymerase would be unable to detect and bind the DNA. The RNA sequence would be altered as a result of the DNAmutation. The RNA would not be produced because the DNA helicase would not be able to identify and bind the DNA. The protein's secondary and tertiary structures would alter as a result of changes to the fundamental structure.
A promoter, in the field of genetics, is a segment of DNA that proteins bind to to start the transcription of a single RNA transcript from the DNA downstream of the promoter.
For transcription to take place, RNA polymerase must bind to DNA close to a gene. A location for an enzyme to bind is provided by promoter DNA sequences. TATAAT is the -10 sequence. On average, 35 sequences are conserved, however most promoters do not.
