A replication bubble.
The enzyme helicase.
helicase
DNA Helicase unwinds the DNA strand in the specific location for it to be transcribed.
The DNA double helix unwinds.
Helicase
The chromatin network containing the DNA, which subsequently subsides, is responsible for the formation of chromosomal cells.
A characteristic of a DNA molecule that is not characteristic of a protein molecule is that the DNA molecule can replicate itself.
The hydrogen bonds connecting the nucleotide bases are broken so right down the center is where is is split for DNA Replication or Transcription.
DNA Helicase unwinds the DNA strand in the specific location for it to be transcribed.
The DNA double helix unwinds.
Helicase is an enzyme involved in DNA replication. It unwinds and unzips the parental DNA strand.
The rugs of DNA are Adenine, Guanine, Cytosine, and Thymine. When DNA replication occurs and the ladder has to be broken, an enzyme called "helicase" starts at the replication fork and unwinds the DNA ladder. Helicase breaks the rugs of DNA.
Helicase
It unwinds Dna, sometimes by itself yet mostly in conjunction with other Dna-ases; and in doing so, it makes the Bases accessible for Replication and or Transcription.
Helicase
Leading strand
The chromatin network containing the DNA, which subsequently subsides, is responsible for the formation of chromosomal cells.
No, RNA is synthesized from a single strand of DNA through a process called transcription. During transcription, the DNA helix unwinds, and an enzyme called RNA polymerase builds a complementary RNA molecule by pairing RNA nucleotides with the DNA template strand. This resulting single-stranded RNA molecule can then go on to perform various functions in the cell.
DNA Helicase unwinds and unzips the DNA. It separates the two strands of DNA so DNA replication can occur.