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How does the sugar in the DNA in nucleotide differ from that of an RNA Nucleotide?
The sugar in a DNA nucleotide contains one less oxygen atom.
DNA and RNA differ in all BUT one of the following ways.?
DNA and RNA differ in several ways, including their sugar components (deoxyribose in DNA and ribose in RNA), the presence of thymine in DNA versus uracil in RNA, and their typical structures (double-stranded for DNA and single-stranded for RNA). However, both DNA and RNA are nucleic acids composed of nucleotide monomers. Thus, the similarity in their fundamental composition is the one aspect they do not differ in.
Is deoxyribose and uracil found in a DNA nucleotide?
No. Deoxyribose is the sugar in a DNA nucleotide. A DNA nucleotide would also include a phosphate group and a nitrogen base.
How can you distinguish a DNA nucleotide from an RNA nucleotide?
The key difference between a DNA nucleotide and an RNA nucleotide is their five-carbon sugar molecules. One component of RNA is the five-carbon sugar ribose, C5H10O5. Alternatively, in DNA, the five-carbon sugar deoxyribose (C5H10O4) has one fewer oxygen atom. Another difference is in the nitrogenous bases of some DNA and RNA nucleotides. The nitrogenous base uracil (U) is unique to RNA nucleotides. Similarly, the nitrogenous base thymine (T) is unique to DNA nucleotides.
Does adenine nuleotide occur in DNA but not in RNA molecules?
Adenine occurs in both RNA and DNA molecules. It is uracil that replaces thymine in the RNA molecule.
How does the sugar in a DNA nucleotide differ from that in a RNA nucleotide?
The sugar in a DNA nucleotide contains one less oxygen atom.
How does the sugar in a DNA nucleotide differ from of an RNA nucleotide?
The sugar in a DNA nucleotide contains one less oxygen atom.
How does the sugars in a DNA nucleotide differ from that of an RNA nucleotide?
The sugar in a DNA nucleotide contains one less oxygen atom.
How does the sugar in the DNA in nucleotide differ from that of an RNA Nucleotide?
The sugar in a DNA nucleotide contains one less oxygen atom.
How does the sugar in a DNA nucleotide different from that of an RNA nucleotides?
The sugar in a DNA nucleotide contains one less oxygen atom.
DNA and RNA differ in all BUT one of the following ways.?
DNA and RNA differ in several ways, including their sugar components (deoxyribose in DNA and ribose in RNA), the presence of thymine in DNA versus uracil in RNA, and their typical structures (double-stranded for DNA and single-stranded for RNA). However, both DNA and RNA are nucleic acids composed of nucleotide monomers. Thus, the similarity in their fundamental composition is the one aspect they do not differ in.
Is deoxyribose and uracil found in a DNA nucleotide?
No. Deoxyribose is the sugar in a DNA nucleotide. A DNA nucleotide would also include a phosphate group and a nitrogen base.
How can one determine whether a nucleotide is DNA or RNA?
One can determine whether a nucleotide is DNA or RNA by looking at the sugar molecule it contains. DNA nucleotides have deoxyribose sugar, while RNA nucleotides have ribose sugar. This difference in sugar molecules helps distinguish between the two types of nucleotides.
What is a nucleotide polymer?
A nucleotide polymer is a long chain made up of nucleotide units bonded together. Each nucleotide consists of a nitrogenous base, a sugar molecule, and a phosphate group. Nucleotide polymers form the backbone of DNA and RNA molecules.
Out of the 3 parts which make up a nucleotide molecule what can differ from one nucleotide to another?
The nitrogenous base can differ from one nucleotide to another. It can be adenine, guanine, cytosine, or thymine (in DNA) or uracil (in RNA). The sugar and phosphate components remain the same in all nucleotides.
How can you distinguish a DNA nucleotide from an RNA nucleotide?
The key difference between a DNA nucleotide and an RNA nucleotide is their five-carbon sugar molecules. One component of RNA is the five-carbon sugar ribose, C5H10O5. Alternatively, in DNA, the five-carbon sugar deoxyribose (C5H10O4) has one fewer oxygen atom. Another difference is in the nitrogenous bases of some DNA and RNA nucleotides. The nitrogenous base uracil (U) is unique to RNA nucleotides. Similarly, the nitrogenous base thymine (T) is unique to DNA nucleotides.
Does adenine nuleotide occur in DNA but not in RNA molecules?
Adenine occurs in both RNA and DNA molecules. It is uracil that replaces thymine in the RNA molecule.
