However, in eukaryotes only, there are extra sequences in the DNA and mRNA that don't code for proteins called introns. This mRNA is then further processed:
Nucleotides come from the food we eat and are stored in the cytoplasm of the cell.
Insertion: a type of mutation
the nucleus
A chromosomal replication
There are four bases in a DNA "ladder"... It is called a ladder because of the "two sides" and the bases... In DNA replication, they obviously replicate and the two sides are replicated as are the bases. (A,T,C,G)
DNA Polymerase
Yes it is. The eukaryotic DNA polymerase works much slower than the prokaryotic DNA polymerase, working at around 50 bases per second. With as many as 80 million bases to replicate the job is achieved in about one hour by having many replication forks. The simple answer: It's quicker.
DNA Polymerase
A chromosomal replication
There are four bases in a DNA "ladder"... It is called a ladder because of the "two sides" and the bases... In DNA replication, they obviously replicate and the two sides are replicated as are the bases. (A,T,C,G)
Yes it is. The eukaryotic DNA polymerase works much slower than the prokaryotic DNA polymerase, working at around 50 bases per second. With as many as 80 million bases to replicate the job is achieved in about one hour by having many replication forks. The simple answer: It's quicker.
DNA Polymerase
A pairs with T ,G pairs with C , T pairs with A, G pairs with C during replication .
A pairs with T ,G pairs with C , T pairs with A, G pairs with C during replication .
hydrogen in bases
DNA Polymerase
the hydrogen bonds between the nitrogen bases must be broken and the molecule must unwind.
dna replication. can be summarised as the two helical strands of dna unravelling through the action of enzymes and the corresponding nitrogenous bases of each being matched up (A-T, C-G) to form two identical strands
The hydrogen bonds connecting the nucleotide bases are broken so right down the center is where is is split for DNA Replication or Transcription.
By forming matching hydrogen bonds.