Examples of deoxyribose in the following topics:
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- The "backbone" of each helix is formed from alternating deoxyribose and phosphate subunits as illustrated in .
- Each deoxyribose is connected to a base that extends between the two backbones.
- The complex molecules that make up our DNA are held together by a phosphate-deoxyribose backbone, as shown.
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- The pentose sugar in DNA is deoxyribose and in RNA it is ribose.
- The difference between the sugars is the presence of the hydroxyl group on the second carbon of the ribose and hydrogen on the second carbon of the deoxyribose.
- Two types of pentose are found in nucleotides, deoxyribose (found in DNA) and ribose (found in RNA).
- Deoxyribose is similar in structure to ribose, but it has an H instead of an OH at the 2′ position.
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- Two types of pentose are found in nucleotides, deoxyribose (found in DNA) and ribose (found in RNA).
- Deoxyribose is similar in structure to ribose, but it has an H instead of an OH at the 2′ position.
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- The components of the nucleotide used in DNA synthesis are a nitrogenous base, a deoxyribose, and a phosphate group .
- The sugar is deoxyribose in DNA and ribose in RNA.
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- Complete hydrolysis of chromosomal nucleic acids gave inorganic phosphate, 2-deoxyribose (a previously unknown sugar) and four different heterocyclic bases (shown in the following diagram).
- Base-catalyzed hydrolysis of DNA gave four nucleoside products, which proved to be N-glycosides of 2'-deoxyribose combined with the heterocyclic amines.
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- They realized only later that the mixed nucleotides were of two types—one containing ribose (RNA) and the other deoxyribose (DNA).
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- Homochirality is the term used to describe all building blocks in living organisms having the same "handedness" (amino acids being left-handed, nucleic acid sugars (ribose and deoxyribose) being right-handed, and chiral phosphoglycerides).
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- DNA strands have a phosphate-deoxyribose backbone.