What is the main structure of DNA?

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Multiple Choice

What is the main structure of DNA?

Explanation:
The main structure of DNA is characterized by its double helix formation. This structure consists of two long strands of nucleotides wound around each other, resembling a twisted ladder. Each strand is composed of a backbone made of sugars and phosphate groups, while the rungs of the ladder are formed by pairs of nitrogenous bases (adenine with thymine, and guanine with cytosine) that bond together through weak hydrogen interactions. The double helix configuration is critical for DNA's functions, including its ability to store genetic information and facilitate replication during cell division. The complementary nature of the base pairing allows for accurate copying of the genetic material, which is essential for the inheritance of traits. In contrast, alternative options mention different structures that do not accurately represent the DNA configuration found in living organisms. For instance, a single strand would not provide the stability and complementary pairing required for replication and encoding genetic information. Similarly, a triple helix is not a prevalent form of DNA in biological systems, and while linear chains may describe certain forms of nucleic acids, DNA primarily exists as a double helix in cells. Therefore, the double helix structure is fundamental to the function and integrity of DNA.

The main structure of DNA is characterized by its double helix formation. This structure consists of two long strands of nucleotides wound around each other, resembling a twisted ladder. Each strand is composed of a backbone made of sugars and phosphate groups, while the rungs of the ladder are formed by pairs of nitrogenous bases (adenine with thymine, and guanine with cytosine) that bond together through weak hydrogen interactions.

The double helix configuration is critical for DNA's functions, including its ability to store genetic information and facilitate replication during cell division. The complementary nature of the base pairing allows for accurate copying of the genetic material, which is essential for the inheritance of traits.

In contrast, alternative options mention different structures that do not accurately represent the DNA configuration found in living organisms. For instance, a single strand would not provide the stability and complementary pairing required for replication and encoding genetic information. Similarly, a triple helix is not a prevalent form of DNA in biological systems, and while linear chains may describe certain forms of nucleic acids, DNA primarily exists as a double helix in cells. Therefore, the double helix structure is fundamental to the function and integrity of DNA.

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