Actually it doesn't.
There are lots of proteins in the nucleus that do all the work. The beauty of DNA is that it acts as its own decoder (it forms a mirror image, but since a DNA strand consists of two mirror images the result is two copies).
they break apart and they find other DNA strands and form more DNA strands.
interphase
True. Before DNA can replicate itself, it must condense and coil up on itself to form more compact structures called chromosomes. This compactness helps to organize the genetic material and ensure that it is efficiently replicated during cell division.
DNA replication
DNA can compact itself through a process called DNA condensation, where it wraps around proteins called histones to form structures called nucleosomes. These nucleosomes then coil and fold into higher-order structures, ultimately leading to the highly compacted form known as chromatin. This compaction allows the long strands of DNA to fit within the nucleus of a cell.
The universal DNA code can make a copy of itself.
Acetylation is the compacting of a DNA molecule, making it more compact and reduces its ability to be transcribed.
they break apart and they find other DNA strands and form more DNA strands.
Since viruses are nonliving they have to invade and hijack a living cells DNA to make more copies of itself. If it cannot do this it cannot make more copies of itself.
DNA Transcriptase's proofreading ability.
meosis
during interphase
Meiosis
interphase
DNA can make a copy of itself through a process called DNA replication, where the DNA molecule unwinds and each strand serves as a template for the synthesis of a new complementary strand. The specific DNA code that enables this replication process to occur is the base pairing rule, where adenine (A) pairs with thymine (T) and cytosine (C) pairs with guanine (G).
Cells make a copy of itself and splits up, after they split they both contain all the DNA from the original
interphase