RNA contains uracil in its nucleotide structure, not thymine.
RNA contains uracil in its nucleotide structure, not thymine.
mRNA contains uracil in its nucleotide sequence, not thymine.
RNA has uracil instead of thymine in its nucleotide structure.
No, mRNA does not contain thymine in its nucleotide sequence. Instead, mRNA contains uracil in place of thymine.
Yes, RNA contains uracil in its nucleotide sequence instead of thymine, which is found in DNA.
RNA contains uracil in its nucleotide structure, not thymine.
mRNA contains uracil in its nucleotide sequence, not thymine.
RNA has uracil instead of thymine in its nucleotide structure.
No, mRNA does not contain thymine in its nucleotide sequence. Instead, mRNA contains uracil in place of thymine.
Uracil is not incorporated into the structure of the DNA helix. Uracil is found in RNA instead of thymine, which is the corresponding nucleotide in DNA.
Yes, RNA contains uracil in its nucleotide sequence instead of thymine, which is found in DNA.
RNA has uracil instead of thymine in its nucleotide structure because during the process of transcription, RNA is made by copying the DNA template. Uracil is used in RNA instead of thymine because uracil can easily pair with adenine, just like thymine does in DNA, allowing for accurate replication of genetic information.
RNA uses uracil instead of thymine in its nucleotide structure because uracil is more stable and can form base pairs with adenine, just like thymine does in DNA. This allows RNA to function effectively in its role of carrying genetic information and facilitating protein synthesis.
DNA contains thymine in its structure, not uracil.
DNA contains thymine in its structure, not uracil.
No, an anticodon tRNA does not contain thymine (T) nucleotide. Instead, tRNA contains uracil (U), which pairs with adenine (A) in the RNA molecule during protein synthesis. Thymine is typically found in DNA molecules but is replaced by uracil in RNA.
thymine....uracil is its substitution.