RNA polymerase
The region of DNA where RNA synthesis begins is the promoter. DNA contains a number of upstream regulatory and promoter sequences but the region of DNA where RNA synthesis begins is the start codon. This is the first codon that translates into an RNA nucleotide.
Chromosomes contain genes, regulatory portions, the centromere, the telomere and "junk DNA".
of course its a type of RNA it has RNA in its name
RNA polymerases
RNA polymerase
DNA
The region of DNA where RNA synthesis begins is the promoter. DNA contains a number of upstream regulatory and promoter sequences but the region of DNA where RNA synthesis begins is the start codon. This is the first codon that translates into an RNA nucleotide.
Chromosomes contain genes, regulatory portions, the centromere, the telomere and "junk DNA".
regulatory promoter oerator
The difference between a structural gene and a nonstructural gene can be explained that structural gene is a gene encoding the amino acid sequence of a protein. Non-regulatory gene. A structural gene is a gene that codes for any RNA or protein product other than a regulatory element (i.e. regulatory protein)and then it makes proteins in the cell. However, the nonstructural gene is different from structure gene, for example (nonstructural gene)NS1 Influenza Protein is created by the internal protein encoding, linear negative-sense, single stranded RNA, NS gene segment; which found in Influenzavirus A, Influenzavirus B and Influenzavirus C;
There are several types of RNA, they are as follows: mRNA (messanger RNA), tRNA (transfer RNA), rRNA (ribosomal RNA), SRP RNA (signal recognition particle RNA), snRNA (small nuclear RNA), RNase P (ribonuclease P), and aRNA (antisense RNA)
The 3 types of RNA are; Transfer RNA (t-RNA), messenger RNA(m-RNA), and ribosomal RNA(r-RNA).
I beleive that the Nuclear Regulatory Commission (NRC) is a Regulatory Commission.
Regulatory
The prefix for regulatory is "regul-".
of course its a type of RNA it has RNA in its name