Scientists use an enzyme called restriction enzyme to cut genes out of strands of DNA.
Genes are arranged on twisted strands called DNA. DNA is housed in the nucleus and controls the cells functions and systems.
The enzyme that separates the two strands of DNA to start the replication process is called helicase.
RNA polymerase is the enzyme that binds to the DNA promoter region and separates the DNA strands during transcription. It then synthesizes an mRNA molecule using one of the strands as a template.
The enzyme that binds to DNA and separates the DNA strands during transcription is RNA polymerase. It is responsible for synthesizing a complementary RNA strand using one of the DNA strands as a template. This process is essential for gene expression and protein synthesis.
The enzyme that unzips DNA for transcription is called RNA polymerase. It separates the two strands of the DNA double helix and synthesizes a single-stranded RNA copy of one of the DNA strands.
restriction enzymes
ligase
Genes are arranged on twisted strands called DNA. DNA is housed in the nucleus and controls the cells functions and systems.
The enzyme that separates the two strands of DNA to start the replication process is called helicase.
A Retsriction enzyme endonuclease is an enzyme that is used to cut DNA strands (both single and double strands) during finger printing at the DNA recognition sites known as restriction sites.
restriction endonuclease
Assuming this is regarding DNA replication or transcription, the enzyme helicase separates the two strands.
DNA ligase
DNA polymerase
RNA polymerase is the enzyme that binds to the DNA promoter region and separates the DNA strands during transcription. It then synthesizes an mRNA molecule using one of the strands as a template.
the enzyme Lactase will enclose the single strands of DNA
DNA helicase is the enzyme that aids DNA in unzipping during transcription.