The synthesis of mRNA from DNA is called transcription.
This is known as reverse transcription and occurs frequently among viruses.
The synthesis of mRNA from a DNA template is DNA transcription.
transcription
Transcription
Guanine
template strand
DNA replication requires the opening of the 'zipped up' DNA strand. This is so a 'new' strand of DNA can be inserted and have a template strand to 'read' off. DNA polymerase analyses the bases on the template strand and adds each complementary base to synthesise the 'new' strand. In order for DNA polymerase to be able to do this the DNA has to be opened up by helicase to reveal the bases of the template strand. The unzipping of the DNA by helicase forms the replication fork. Thus the function of the replication fork is to reveal template strands for DNA replication to actually occur.
one strand of the DNA molecule
A complementary strand of DNA contains the template information for the creation of a new copy of the other strand. How is it determined?
The complementary DNA strand template of ATGCCATGG is the basic design structure. It determines how the DNA strand will be constructed and the process in which it is formed.
Transcription--making an RNA template from the DNA strand copy site
semiconservative replication - original DNA double strand will unwind into 2 strands, so one original strand will serve as a template for synthesizing a new complementary strand , thus forming a new DNA (one with old strand and one with a new strand)
The template strand, if reffering to DNA, is the strand of the DNA that is copied to make more DNA.
This is typically called the template DNA, which is the anti-sense strand of DNA. The strand that is not transcribed is called the sense strand.
Guanine
template strand
separates the DNA strand and making a complimentary strand
transcription
The strand is called the parental strand. the gene being copied would depend on which protein is needed.
replicated DNA is made of one old strand and one new strand.
A strand of DNA