In RNA, there is ribose that replaces deoxyribose.
The sugar present in deoxyribose RNA is deoxyribose.
No, RNA does not contain the sugar deoxyribose. RNA contains the sugar ribose.
DNA has the deoxyribose sugar, while RNA has the ribose sugar.
No, RNA does not have deoxyribose in its structure. RNA contains ribose sugar instead of deoxyribose, which is found in DNA.
Deoxyribose is not directly involved in the synthesis of RNA. RNA is made up of ribose sugar, not deoxyribose. Deoxyribose is found in DNA, not RNA.
The sugar present in deoxyribose RNA is deoxyribose.
No, RNA does not contain the sugar deoxyribose. RNA contains the sugar ribose.
Uracil
DNA has the deoxyribose sugar, while RNA has the ribose sugar.
No, RNA does not have deoxyribose in its structure. RNA contains ribose sugar instead of deoxyribose, which is found in DNA.
Deoxyribose is not directly involved in the synthesis of RNA. RNA is made up of ribose sugar, not deoxyribose. Deoxyribose is found in DNA, not RNA.
Yes, DNA contains deoxyribose sugar, while RNA contains ribose sugar.
RNA contains ribose sugar instead of deoxyribose sugar found in DNA.
No, RNA does not contain deoxyribose. RNA contains ribose, which is a different type of sugar molecule.
The deoxyribose sugar is a key component in the structure of DNA and RNA molecules. In DNA, deoxyribose sugar forms the backbone of the double helix structure, connecting the nucleotide bases together. In RNA, deoxyribose sugar is replaced by ribose sugar, which helps in the synthesis of proteins. Overall, deoxyribose sugar plays a crucial role in maintaining the stability and function of DNA and RNA molecules.
Adenine occurs in both RNA and DNA molecules. It is uracil that replaces thymine in the RNA molecule.
DNA has got Deoxyribose sugar. RNA has got Ribose sugar.