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Which enzyme removes the RNA primers during DNA replication?
The enzyme that removes RNA primers during DNA replication is called DNA polymerase I.
During DNA replication, which enzyme removes the RNA primers and then fills in the gap?
During DNA replication, the enzyme that removes the RNA primers and fills in the gaps is called DNA polymerase.
Which enzyme synthesizes RNA primer?
primase bind to dna helicase. form a complex called primose.
What kind of molecule is primase?
Primase is an enzyme. It is used to synthesize a short RNA fragment called a primer during DNA replication.
Which enzyme breaks the hydrogen bonds during DNA replication?
The enzyme that breaks the hydrogen bonds during DNA replication is called helicase.
Which enzyme removes the RNA primers during DNA replication?
The enzyme that removes RNA primers during DNA replication is called DNA polymerase I.
During DNA replication, which enzyme removes the RNA primers and then fills in the gap?
During DNA replication, the enzyme that removes the RNA primers and fills in the gaps is called DNA polymerase.
Which enzyme synthesizes RNA primer?
primase bind to dna helicase. form a complex called primose.
What kind of molecule is primase?
Primase is an enzyme. It is used to synthesize a short RNA fragment called a primer during DNA replication.
What is the enzyme that meditate DNA replication?
The enzyme that mediates DNA replication is DNA polymerase. It synthesizes new DNA strands by adding nucleotides complementary to the template strand during the replication process. Additionally, other enzymes such as helicase and primase play crucial roles in unwinding the DNA double helix and synthesizing RNA primers, respectively, to initiate replication.
What is the enzyme use for replication of DNA in Ecoli?
In E. coli, the primary enzyme responsible for DNA replication is DNA polymerase III. This enzyme synthesizes new DNA strands by adding nucleotides complementary to the template strand during the replication process. Additionally, DNA polymerase I plays a role in removing RNA primers and filling in gaps with DNA. Together, these enzymes ensure accurate and efficient replication of the bacterial genome.
What would be the immediate consequences of a non-functional primase enzyme?
A non-functional primase enzyme would prevent the initiation of DNA replication since primase is responsible for synthesizing RNA primers that are needed to start the replication process. Without these RNA primers, DNA polymerase cannot add new nucleotides to the growing DNA strand, leading to stalled replication and cell death.
What is the primase and its function?
Primase in the DNA-dependent RNA polymerase enzyme that functions in DNA replication by synthesizing the RNA primers which are then extended by DNA polymerase to yield newly synthesized DNA fragments. While being an RNA polymerase, primase is different from the RNA polymerase that functions in the transcription of DNA.
What role does the primase play in replication?
Primase is the enzyme responsible for synthesizing short RNA primers that provide a starting point for DNA synthesis by DNA polymerase during DNA replication. These primers serve as a foundation for the attachment of nucleotides that will form the new DNA strand. In essence, primer synthesis by primase initiates the replication process by allowing DNA polymerase to extend the primer with new DNA nucleotides.
Which enzyme breaks the hydrogen bonds during DNA replication?
The enzyme that breaks the hydrogen bonds during DNA replication is called helicase.
Which enzyme is responsible for breaking hydrogen bonds during DNA replication?
The enzyme responsible for breaking hydrogen bonds during DNA replication is called DNA helicase.
What is the role of the enzyme DNA primase?
DNA primase is responsible for synthesizing short RNA primers that are necessary for DNA replication. These primers provide the starting point for DNA polymerase to begin synthesizing a new strand of DNA. DNA primase plays a crucial role in initiating DNA replication in both prokaryotic and eukaryotic cells.
