The enzyme that is used to bind DNA fragments together is DNA ligase. Using DNA ligase to join DNA fragments is the last step in the production of a recombinant DNA plasmid.
DNA ligase.
DNA ligase
DNA ligase
DNA ligase
The initiation complex makes a small gap for a helicase enzyme to bind. It is the helicase the 'undwinds' the DNA for most of replication. In E. coli, for example, DnaA protein binds DNA to make a small gap between the two DNA strands, where DnaB enzyme (a helicase) can bind to the lagging strand (the one that is copied in fragments). From there, DnaB unwinds the DNA ahead of the polymerase enzyme.
single-strand binding proteins
The region of an enzyme where the substrate binds is called the active site.
After the NADH binds there the binding of pyruvate happens at the enzyme active site.
The active site of an enzyme is the site where substrates undergo the reaction specfic to that enzyme.
helicase enzyme
The initiation complex makes a small gap for a helicase enzyme to bind. It is the helicase the 'undwinds' the DNA for most of replication. In E. coli, for example, DnaA protein binds DNA to make a small gap between the two DNA strands, where DnaB enzyme (a helicase) can bind to the lagging strand (the one that is copied in fragments). From there, DnaB unwinds the DNA ahead of the polymerase enzyme.
single-strand binding proteins
A binds with T, G binds with C.Therefore the complementary strand for ATCGCATT would be TAGCGTAA.
The active site is where the substrate binds.
the region where a reactant binds to an enzyme is known as the active site
The region of an enzyme where the substrate binds is called the active site.
After the NADH binds there the binding of pyruvate happens at the enzyme active site.
The newly created DNA strand binds to the parent DNA strand with the help of ligase enzyme.
The complementary (partner) strand to the segment ACTGT would be TGACA. This is because in DNA, A binds to T and C binds to G.
An enzyme inhibitor is a substance that binds to an enzyme and decreases the enzyme's activity.
The substrate