DNA fingerprinting
You can see the nucleotide sequences in the DNA. It is called as DNA finger printing. It has got many applications in molecular biology.
it is the product of sample's nucleotide concentration(moles of nucleotides per liter) and reassociation time in seconds. it is used to study DNA renaturation kinetics to separate out the REPETITIVE DNA SEQUENCES from single low copy sequences.Repetitive DNA sequences renature at lowe Cot values than single copy sequences.
Telomeres
3! = 6 different sequences =================
exons
You can see the nucleotide sequences in the DNA. It is called as DNA finger printing. It has got many applications in molecular biology.
These nucleotide sequences are called anticodons.
it is the product of sample's nucleotide concentration(moles of nucleotides per liter) and reassociation time in seconds. it is used to study DNA renaturation kinetics to separate out the REPETITIVE DNA SEQUENCES from single low copy sequences.Repetitive DNA sequences renature at lowe Cot values than single copy sequences.
Primer sequences
Telomeres
punk
3! = 6 different sequences =================
When comparing nucleotide sequences in organisms, we find that the organisms that have less differences in their nucleotide sequences are closer related in the evolutionary tree. By this we mean that the common ancestor from which these two organisms evolved is more modern than the ancestor they might share with an organism that shows more difference in the DNA sequencing. Example: the chimps and humans share a common ancestor that is relatively modern because the difference in their nucleotide sequences is just about 1% but the differences between the nucleotide sequence of humans and fish shows lots of differences which shows their common ancestor y much older than the one with chimps.
exons
complementary nucleotide sequences labeled with radioactive isotypes
The nucleotide sites that are polymorphic within a set of sequences
Keyword 'active Dna' - Answer = Genes.