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2. T7 RNA polymerase - Wikipedia

   en.wikipedia.org/wiki/T7_RNA_polymerase

   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. RNA can be selectively synthesized from either strand of the insert DNA with the different polymerases.

3. T7 expression system - Wikipedia

   en.wikipedia.org/wiki/T7_expression_system

   (This polymerase originates from the T7 phage, a bacteriophage virus which infects E. coli bacterial cells and is capable of integrating its DNA into the host DNA, as well as overriding its cellular machinery to produce more copies of itself.) T7 RNA polymerase is responsible for beginning transcription at the T7 promoter of the transformed vector.

4. Escherichia coli BL21(DE3) - Wikipedia

   en.wikipedia.org/wiki/Escherichia_coli_BL21(DE3)

   DE3 carries a T7 RNA polymerase (RNAP) gene under the control of a lacUV5 promoter (lacUV5-T7 gene 1). T7-RNAP is highly specific to the T7 promoter and orthogonal to native E. coli promoters. Therefore the T7-RNAP only transcribes (exogenously introduced) genes that are regulated by a T7 promoter. [6]

5. RNA polymerase - Wikipedia

   en.wikipedia.org/wiki/RNA_polymerase

   T7 RNA polymerase producing a mRNA (green) from a DNA template. The protein is shown as a purple ribbon (Orthopoxviruses and some other nucleocytoplasmic large DNA viruses synthesize RNA using a virally encoded multi-subunit RNAP. They are most similar to eukaryotic RNAPs, with some subunits minified or removed. [45]

6. T7 phage - Wikipedia

   en.wikipedia.org/wiki/T7_phage

   The T7 promoter sequence is used extensively in molecular biology due to its extremely high affinity for T7 RNA polymerase and thus high level of expression. [3] [2] T7 has been used as a model in synthetic biology. Chan et al. (2005) "refactored" the genome of T7, replacing approximately 12 kbp of its genome with engineered DNA. [15]

7. NASBA (molecular biology) - Wikipedia

   en.wikipedia.org/wiki/NASBA_(molecular_biology)

   T7 RNA polymerase binds to the promoter region on the double strand. Since T7 RNA polymerase can only transcribe in the 3' to 5' direction [15] the sense DNA is transcribed and an anti-sense RNA is produced. This is repeated, and the polymerase continuously produces complementary RNA strands of this template which results in amplification.

8. Aging ‘hotspot’ found in brain, researchers say: ‘Major changes’

   www.aol.com/aging-hotspot-found-brain...

   The researchers used RNA sequencing and brain-mapping tools to analyze more than 1.2 million brain cells from young mice (2 months old) and older mice (18 months old).

9. Abortive initiation - Wikipedia

   en.wikipedia.org/wiki/Abortive_initiation

   Abortive cycling by T7 RNA polymerase. Abortive initiation, also known as abortive transcription, is an early process of genetic transcription in which RNA polymerase binds to a DNA promoter and enters into cycles of synthesis of short mRNA transcripts which are released before the transcription complex leaves the promoter.