In DNA, the sugar found is 2-deoxyribose.
In RNA, the sugar found is ribose.
Both are 5-carbon sugars. The only difference between them is that the first mentioned above has one oxygen atom less than ribose sugar, at the position 2'.
DNA has the deoxyribose sugar, while RNA has the ribose sugar.
The sugar found in RNA is ribose, while the sugar found in DNA is deoxyribose.
Deoxyribose is the sugar found in DNA but not RNA. It has a hydroxyl group less than ribose, which is the sugar found in RNA.
The SUGAR found in DNA but not RNA is Codo.
The sugar found in DNA is deoxyribose, while the sugar found in RNA is ribose. The main structural difference between these two sugars is the presence of an extra hydroxyl group in ribose that is absent in deoxyribose.
Deoxyribose is the sugar found in DNA. Ribose is the sugar found in RNA.
DNA has the deoxyribose sugar, while RNA has the ribose sugar.
The sugar found in RNA is ribose, while the sugar found in DNA is deoxyribose.
Deoxyribose is the sugar found in DNA but not RNA. It has a hydroxyl group less than ribose, which is the sugar found in RNA.
The SUGAR found in DNA but not RNA is Codo.
The only sugar found in DNA is deoxyribose. DNA means deoxyribonucleic acid. The only sugar found in RNA is ribose. RNA means ribonucleic acid.
Ribose sugar, as opposed to Deoxyribose sugar found in DNA.
DNA and RNA both have a sugar-phosphate backbone and nitrogenous bases. The bases found in both DNA and RNA are Adenine, Guanine and Cytosine.
The sugar found in DNA is called two-prime [2'] deoxyribose. The sugar found in Rna is called ribose.
DNA and RNA both have a sugar-phosphate backbone and nitrogenous bases. The bases found in both DNA and RNA are Adenine, Guanine and Cytosine.
The sugar found in DNA nucleotides is called deoxyribose. It is a five-carbon sugar that lacks one oxygen atom compared to ribose, the sugar found in RNA nucleotides. This structural difference is key to distinguishing between DNA and RNA.
The five-carbon sugar found in DNA is deoxyribose, while in RNA, it is ribose. These sugars form the backbone of the nucleic acid molecules, with the bases attaching to them to create the genetic code.