no because they cant
The structure of chromatin during interphase is optimized to allow easy access of transcription and DNA repair factors to the DNA while compacting the DNA into the nucleus. The structure varies depending on the access required to the DNA. Genes that require regular access by RNA polymerase require the looser structure provided by euchromatin
Technically, it should be identical. The DNA should be exactally the same. This is what makes it a clone.
During interphase the DNA is in loose form. It makes the chromatin inside the nucleus. The chromatin allow access to RNA and DNA polymerases that transcribe and replicate DNA.During interphase the DNA is in loose form. It makes the chromatin inside the nucleus. The chromatin allow access to RNA and DNA polymerases that transcribe and replicate DNA.
You have DNA in your cell because you need DNA to be some one and you should have DNA in your nucleus
A DNA helicase is an enzyme that unwinds the double-stranded DNA molecule during DNA replication. It separates the two strands of DNA, allowing other enzymes to access and copy the genetic information.
3'OH end 3'OH end
dna files can be kept indefinately even if you are a convicted criminal or if you have been proven innocent dna is kept even when the person(s) in question are deceased.some dna files are kept for research and further investigation,a lot of the time it is kept to help determine family blood lines and point of origin
the bacterium should be able to transcribe the recombinant DNA and express the traits that the genes on the recombinant DNA code for.
No, vigorous vortexing can damage the DNA
DNA helicase is responsible for unwinding the double-stranded DNA during DNA replication. It separates the two strands of DNA by breaking the hydrogen bonds between the base pairs, allowing DNA polymerase to access the template strand and synthesize a new complementary strand.
The enzyme responsible for unwinding DNA from around histone proteins is called DNA helicase. It catalyzes the separation of the two strands of the DNA double helix, allowing access for other enzymes and proteins to interact with the DNA.
DNA helicase is an enzyme that breaks hydrogen bonds between base pairs in a DNA double helix during processes such as DNA replication or DNA repair. This action helps to separate the two DNA strands and allows access for other enzymes to work on the DNA molecule.