The number of turns present in the α -helix structure of DNA is to be calculated. Concept introduction: The alpha helix consists of a coiled polypeptide chain. The secondary structure of DNA is similar to the secondary structure of proteins which is an alpha helix structure held together by hydrogen bonds. The alpha helix in DNA consists of two right-handed polynucleotide chains that are coiled together by number of turns about the same axis resulting in alpha helical structure. To determine: The number of turns present in the α -helix structure of DNA.
The number of turns present in the α -helix structure of DNA is to be calculated. Concept introduction: The alpha helix consists of a coiled polypeptide chain. The secondary structure of DNA is similar to the secondary structure of proteins which is an alpha helix structure held together by hydrogen bonds. The alpha helix in DNA consists of two right-handed polynucleotide chains that are coiled together by number of turns about the same axis resulting in alpha helical structure. To determine: The number of turns present in the α -helix structure of DNA.
Solution Summary: The author explains that the number of turns present in the alpha -helix structure of DNA is to be calculated.
Interpretation: The number of turns present in the α-helix structure of DNA is to be calculated.
Concept introduction: The alpha helix consists of a coiled polypeptide chain. The secondary structure of DNA is similar to the secondary structure of proteins which is an alpha helix structure held together by hydrogen bonds. The alpha helix in DNA consists of two right-handed polynucleotide chains that are coiled together by number of turns about the same axis resulting in alpha helical structure.
To determine: The number of turns present in the α-helix structure of DNA.
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