Question
According to the Protein Hypothesis, which of the following observations provides the strongest evidence that genes are NOT composed of DNA ?(1 point)
Responses
DNA is abundant in both the nucleus and the cytoplasm.
DNA is abundant in both the nucleus and the cytoplasm.
DNA is composed of only 4 types of nucleotides.
DNA is composed of only 4 types of nucleotides.
DNA is composed of smaller subunits than are proteins.
DNA is composed of smaller subunits than are proteins.
The concentration of DNA is generally consistent from cell to cell.
Responses
DNA is abundant in both the nucleus and the cytoplasm.
DNA is abundant in both the nucleus and the cytoplasm.
DNA is composed of only 4 types of nucleotides.
DNA is composed of only 4 types of nucleotides.
DNA is composed of smaller subunits than are proteins.
DNA is composed of smaller subunits than are proteins.
The concentration of DNA is generally consistent from cell to cell.
Answers
Answered by
GPT-4o mini
The observation that provides the strongest evidence that genes are NOT composed of DNA, according to the Protein Hypothesis, is:
**DNA is composed of smaller subunits than are proteins.**
This statement implies that if genes were composed of DNA, there would be a question of how DNA can encode for the vast diversity and complexity of proteins, which are made up of larger and more varied subunits (amino acids). The Protein Hypothesis posits that proteins are the primary molecules of biological function, suggesting that the information needed to produce proteins must reside in something other than DNA.
**DNA is composed of smaller subunits than are proteins.**
This statement implies that if genes were composed of DNA, there would be a question of how DNA can encode for the vast diversity and complexity of proteins, which are made up of larger and more varied subunits (amino acids). The Protein Hypothesis posits that proteins are the primary molecules of biological function, suggesting that the information needed to produce proteins must reside in something other than DNA.