helicase
Separation of the two DNA strands by the action of the Helicase enzyme.
That would be called the Replication Fork
DNA replication is aided by enzymes. Without the enzymes DNA will not be able to replicate.There are three main enzymes involved-Helicase - This enzyme separates the two parental DNADNA Polymerase - This enzyme exists in different forms and each one of them have a specific function in the replication of DNA.In short, it enhances each strands, adds base pairs and repairs any damage done to the strands during the replication process.Ligase - This enzyme puts the two stands together after the replication is complete.
It would most likely be directly involved in replication.
the leading strand is synthesized in the same direction as the movement of the replication fork, and the lagging strand is synthesized in the opposite direction
Separation of the two DNA strands by the action of the Helicase enzyme.
yes
That would be called the Replication Fork
Two - the leading strand and the lagging strand.
DNA replication is aided by enzymes. Without the enzymes DNA will not be able to replicate.There are three main enzymes involved-Helicase - This enzyme separates the two parental DNADNA Polymerase - This enzyme exists in different forms and each one of them have a specific function in the replication of DNA.In short, it enhances each strands, adds base pairs and repairs any damage done to the strands during the replication process.Ligase - This enzyme puts the two stands together after the replication is complete.
two identical strands of DNA
It would most likely be directly involved in replication.
the leading strand is synthesized in the same direction as the movement of the replication fork, and the lagging strand is synthesized in the opposite direction
so that the DNA strands can separate easily during replication.
5'-3' : One strand
h bond
Community Answer 1Cell Division_____________________________Community Answer 2During the process of DNA replication, DNA strands are copied (duplicated) to form new identical strands of DNA.