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No, RNA does not have a double helix structure like DNA.
The double helix of DNA is more stable than a single helix due to the hydrogen bonding between complementary base pairs and the structural support provided by the sugar-phosphate backbone. The double helix structure allows for efficient storage and replication of genetic information.
No, RNA cannot form a double helix structure like DNA.
DNA is organized in a double-helix fashion.
A double helix is a twisted ladder-like structure that describes the shape of DNA. DNA is a molecule that carries genetic information in organisms. RNA is another type of nucleic acid that can form double helix structures under certain conditions, but it is less stable in this form compared to DNA.
DNA is shaped like a double helix.
A double helix is sometimes described as a twisted ladder.
No, RNA does not have a double helix structure like DNA.
DNA is shaped like a double helix also known as a "twisted ladder".
A strand of DNA is shaped like a double-helix.
The double helix of DNA is more stable than a single helix due to the hydrogen bonding between complementary base pairs and the structural support provided by the sugar-phosphate backbone. The double helix structure allows for efficient storage and replication of genetic information.
No, RNA cannot form a double helix structure like DNA.
The name of the shape of DNA is called double helix. There are two long strands of DNA connected in several points. These strands twist and look like a spiral or a spring.
double helix
DNA is organized in a double-helix fashion.
DNA (deoxyribonucleic acid) has a double helix structure, in which two strands of nucleotides are wound around each other. This helical structure is responsible for carrying genetic information in living organisms.
A double helix is a twisted ladder-like structure that describes the shape of DNA. DNA is a molecule that carries genetic information in organisms. RNA is another type of nucleic acid that can form double helix structures under certain conditions, but it is less stable in this form compared to DNA.