It is the order of the bases in the DNA chain. Each base can be either C, G, T, or A.
Just as each human has their own unique DNA, each strain of bacteria shares their own DNA sequence.
In case you are talking about Polymerase chain reaction; you melt the double strain from each other by raising the temperature. By lowering the temperature, DNA will melt together again. This would happen with the complement strain or with primers. But due to the length of the primer it will bind the matching sequence a lot faster than the complement strain. this is also balanced by strict temperature regulations during a PCR cycle. * and ofcourse you dont replicate anything if the whole complement strain attaches!
No DNA sequence wont have U (uracil), so it is an RNA sequence!
gene sequence: DNA sequence ( its the same thing)
With the sequence GCAGCGGAT of DNA CGTCGCCTA will form.
Just as each human has their own unique DNA, each strain of bacteria shares their own DNA sequence.
In case you are talking about Polymerase chain reaction; you melt the double strain from each other by raising the temperature. By lowering the temperature, DNA will melt together again. This would happen with the complement strain or with primers. But due to the length of the primer it will bind the matching sequence a lot faster than the complement strain. this is also balanced by strict temperature regulations during a PCR cycle. * and ofcourse you dont replicate anything if the whole complement strain attaches!
No DNA sequence wont have U (uracil), so it is an RNA sequence!
TACA
BBC is the DNA in a MRNA sequence. This is part of the body.
gene sequence: DNA sequence ( its the same thing)
With the sequence GCAGCGGAT of DNA CGTCGCCTA will form.
If the DNA sequence is ACT, the complimentary mRNA sequence would be UGA
DNA sequence
TACA
TACA
TACA