Respuesta :
1. Option C is correct. RNA nitrogenous bases sometimes bond with other bases.
2. Option D is correct. Genetic code is the 3 letter code of ordered nitrogenous bases.
The RNA form bonds with another strand also found in the human cell.
- It's true that RNA is usually single-stranded and DNA is double-stranded.
- DNA forms a helical structure while RNA does not.
So Option A and B can be eliminated.
The genetic code:
- It is the 3 letter code of ordered nitrogenous bases that are found in the RNA.
- This code for amino acids.
So we can conclude that the Genetic code is the 3 letter code of ordered nitrogenous bases.
For more about genes you can refer to the link:
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RNA and DNA are the nucleotides found in the cell. These nucleotides code the genetic information and play a crucial role in the central dogma of molecular biology.
The Correct answers are:
- Option C: The nitrogenous bases of RNA are never hydrogen-bonded to other bases
- Option D: The order of nitrogenous bases
DNA is a double-stranded helical structure that consists of genetic information. The nitrogenous base, a pentose sugar, and phosphate backbone make up the DNA molecule.
On the other hand, RNA is a single-stranded molecule, that consists of a nitrogenous base, a pentose sugar, and a phosphate group. The nitrogenous base pairs in the DNA and RNA are similar, such that purines and pyrimidines form hydrogen bonds that are complementary to each other.
The genetic code is the three-letter code, which forms the ordered nitrogenous base pairing in the DNA and RNA. The genetic codes are made up of amino acids.
These codons are transcribed and translated to convey the information present in DNA and RNA.
Therefore, DNA and RNA have nitrogenous bases bonded by hydrogen bonds and the order of nitrogenous bases is complementary in these nucleotides.
To know more about nucleotides, refer to the following link:
https://brainly.com/question/24918991
