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Bacterial transcription is the process in which a segment of bacterial DNA is copied into a newly synthesized strand of messenger RNA (mRNA) with use of the enzyme RNA polymerase. The process occurs in three main steps: initiation, elongation, and termination; and the result is a strand of mRNA that is complementary to a single strand of DNA.
This also removes the need for an RNA primer to initiate RNA synthesis, as is the case in DNA replication. The non -template (sense) strand of DNA is called the coding strand , because its sequence is the same as the newly created RNA transcript (except for the substitution of uracil for thymine).
In biotechnology applications, T7 RNA polymerase is commonly used to transcribe DNA that has been cloned into vectors that have two (different) phage promoters (e.g., T7 and T3, or T7 and SP6) in opposite orientation.
There are also a number of RNA-dependent RNA polymerases that use RNA as their template for synthesis of a new strand of RNA. For instance, a number of RNA viruses (such as poliovirus) use this type of enzyme to replicate their genetic material. [58] Also, RNA-dependent RNA polymerase is part of the RNA interference pathway in many organisms. [59]
In bacteria, the same enzyme catalyzes the synthesis of mRNA and non-coding RNA (ncRNA). RNAP is a large molecule. The core enzyme has five subunits (~400 kDa ): [ 26 ]
Archaeal transcription is the process in which a segment of archaeal DNA is copied into a newly synthesized strand of RNA using the sole Pol II-like RNA polymerase (RNAP). The process occurs in three main steps: initiation, elongation, and termination; and the end result is a strand of RNA that is complementary to a single strand of DNA.
DNA and RNA are made from “right-handed” molecules while proteins are made from “left-handed” amino acids. This chirality or handedness of life molecules dictates their chemical reactivity ...
Transfer-messenger RNA (abbreviated tmRNA, also known as 10Sa RNA and by its genetic name SsrA) is a bacterial RNA molecule with dual tRNA-like and messenger RNA-like properties. The tmRNA forms a ribonucleoprotein complex ( tmRNP ) together with Small Protein B ( SmpB ), Elongation Factor Tu ( EF-Tu ), and ribosomal protein S1.