The non-coding side of DNA, also known as the non-coding strand or the template strand, serves as a blueprint for producing RNA molecules during the process of transcription. Unlike the coding strand, which has the same sequence as the RNA product, the non-coding strand has a complementary sequence to the RNA molecule, with the nucleotides A, T, G, and C pairing respectively with U, A, C, and G in RNA.
Junk DNA is non-coding DNA it does not code for protein.
Addition in recombinant DNA means to remove non coding or non functional DNA and inserting the functional or coding seuence.
DNA fingerprinting identifies and replicates the non-coding gene sequences.
introns
Exons.
Junk DNA is non-coding DNA it does not code for protein.
Coding DNA or exons are varying among individuals. But non-coding DNA doesn't vary among individuals and they don't carry information about gene expression patterns. Therefore, non-coding DNA is used in forensic analyses.
Addition in recombinant DNA means to remove non coding or non functional DNA and inserting the functional or coding seuence.
DNA fingerprinting identifies and replicates the non-coding gene sequences.
introns
Exons.
Coding DNA is DNA that "codes" for protein creation. DNA is NOT strictly speaking a code however, it's more like a 3D reverse template for the protein. The component chemicals coalesce from the cell's plasma against the coding DNA much like a lot of non-biological catalyzation. When the protein is completed it peels off and does whatever that protein does.By contrast, non-coding DNA functions in ways other than direct protein synthesis. Some of these functions are being learned, but others are currently unknown. And it is likely that some of the non-coding sections of DNA are "Junk" DNA, ie DNA that does literally nothing.Junk DNA and non-coding DNA often mutate much faster than coding DNA for the simple reason that mutations in coding DNA are usually fatal.
AnswerThere is junk DNA or non-coding DNA. This DNA is the segment before the promoter of a different gene.
The result you get from reading the gel from the bottom up is called the anti-coding (or non-coding strand).
First of all a gene by definition codes for something so there is no such thing as a "non coding gene". To your question non-coding DNA is no more prone to mutation. A mutation in a non-coding region is far more likely to passed onto offspring because a mutation has no effect on the organism that gets it. A mutation in a gene is more likely to be bad thing than beneficial. So over time (many generations) there are more differences in non coding regions of DNA between individuals. This why DNA fingerprinting looks at differences in non coding regions between people to find unique profiles.
All living things have DNA -- both coding and non-coding DNA. The percentage of similarity between living things matches up with the preexisting theory of evolution.
According to me,when this strand is transcribed the mRNA formed is not coding for any mino acid that is why this portion of gene is removed from DNA.