Transcription

Created by

Imogen Stevens

Cards (9)

Gene 
A sequence of nucleotide bases in a DNA molecule that codes for the production of a specific sequence of amino acids, that in turn make up a specific polypeptide (protein)
Protein synthesis 
1. Transcription
2. Translation
Transcription 
DNA is transcribed and an mRNA molecule is produced
Transcription 
Occurs in the nucleus of the cell
Part of a DNA molecule unwinds
The exposed gene can then be transcribed
A complimentary copy of the code from the gene is made by building a single-stranded nucleic acid molecule known as mRNA (messenger RNA)
Free RNA nucleotides pair up (via hydrogen bonds) with their complementary (now exposed) bases on one strand (the template strand) of the 'unzipped' DNA molecule
The sugar-phosphate groups of these RNA nucleotides are then bonded together (by phosphodiester bonds) by the enzyme RNA polymerase to form the sugar-phosphate backbone of the mRNA molecule
When the gene has been transcribed (when the mRNA molecule is complete), the hydrogen bonds between the mRNA and DNA strands break and the double-stranded DNA molecule re-forms
The mRNA molecule then leaves the nucleus via a pore in the nuclear envelope
Coding strand 
The other strand of the DNA molecule (not the template strand), the base sequence of this strand will be the same as the base sequence of the mRNA transcript, but with uracil replacing thymine
Template strand 
The strand of the DNA molecule that is used to produce the mRNA molecule
RNA polymerase moves along the template strand in the 3' to 5' direction
The mRNA molecule grows in the 5' to 3' direction
The mRNA molecule contains the exact same sequence of nucleotides as the DNA coding strand (although the mRNA will contain uracil instead of thymine)