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What enzyme unravels the DNA helix?
DNA Helicase. - an enzyme, is responsible for unwinding and unzipping the double helix.
What unzips the DNA molecule so it can replicate?
Enzymes called helicases are responsible for unwinding and unzipping the DNA double helix during replication. These enzymes break the hydrogen bonds between the base pairs, allowing the two strands to separate and serve as templates for the synthesis of new DNA strands.
When DNA replication occurs what is the first thing that occurs?
The first step of DNA replication is the unwinding of the double helix by helicase enzyme. This process separates the two strands of DNA and creates a replication fork where new DNA strands can be synthesized.
What opens up the double helix during replication?
An enzyme called helicase is responsible for unwinding and separating the double helix structure of DNA during replication. Helicase works by breaking the hydrogen bonds that hold the two strands together, allowing the DNA to be replicated.
What enzymes unwinding DNA double helix by breaking the hydrogen bonds to separate the complementary strands?
Helicase
What enzyme is responsible for unzipping the helix?
DNA Helicase. - an enzyme, is responsible for unwinding and unzipping the double helix.
What enzyme unravels the DNA helix?
DNA Helicase. - an enzyme, is responsible for unwinding and unzipping the double helix.
What unzips the DNA molecule so it can replicate?
Enzymes called helicases are responsible for unwinding and unzipping the DNA double helix during replication. These enzymes break the hydrogen bonds between the base pairs, allowing the two strands to separate and serve as templates for the synthesis of new DNA strands.
What enzyme unzips the DNA double helix?
The enzyme responsible for unzipping the DNA double helix during replication is called helicase. Helicase breaks the hydrogen bonds between the base pairs, allowing the DNA strands to separate and be copied.
What enzyme is responsible for unwinding the DNA molecule for replication?
The enzyme responsible for unwinding the DNA molecule for replication is called helicase. Helicase breaks the hydrogen bonds between the DNA base pairs, allowing the two strands to separate and expose the nucleotide bases for replication.
When DNA replication occurs what is the first thing that occurs?
The first step of DNA replication is the unwinding of the double helix by helicase enzyme. This process separates the two strands of DNA and creates a replication fork where new DNA strands can be synthesized.
What opens up the double helix during replication?
An enzyme called helicase is responsible for unwinding and separating the double helix structure of DNA during replication. Helicase works by breaking the hydrogen bonds that hold the two strands together, allowing the DNA to be replicated.
What enzymes unwinding DNA double helix by breaking the hydrogen bonds to separate the complementary strands?
Helicase
What uncoils the DNA double helix?
Enzymes called helicases are responsible for unwinding the DNA double helix during processes such as DNA replication and transcription. These helicases use energy from ATP hydrolysis to separate the two strands of DNA by breaking the hydrogen bonds between the base pairs.
What structure contains the instructions for making a copy of the cell?
The DNA molecule within the cell contains the instructions for making a copy of the cell through the process of DNA replication. This process involves unwinding and unzipping the DNA double helix and creating two new strands using complementary base pairing.
What substance controls the unzipping of DNA?
Enzymes called helicases are responsible for the unzipping of the DNA double helix during replication or transcription. Helicases break the hydrogen bonds between the base pairs, allowing the two DNA strands to separate and expose the nucleotide sequence for further processing.
What breaks the bonds between the nitrogen bases of the DNA molecule?
Your answer is "Helicase". This is the enzyme responsible for the unzipping of the DNA molecule, or in other words, the breakage of the bonds of its nitrogen bases.
