Question
What process must occur for carbon, hydrogen, and oxygen atoms from sugar molecules to combine with other elements to form amino acids?(1 point)
Responses
Sugar molecules must be rearranged through metabolic pathways to form amino acids.
Sugar molecules must be rearranged through metabolic pathways to form amino acids.
Sugar molecules must undergo hydrolysis so they can react with nitrogen to form amino acids.
Sugar molecules must undergo hydrolysis so they can react with nitrogen to form amino acids.
Sugar molecules must be stored as fat to be later converted into amino acids.
Sugar molecules must be stored as fat to be later converted into amino acids.
Sugar molecules must undergo photosynthesis to produce energy, which can drive amino acid synthesis
Responses
Sugar molecules must be rearranged through metabolic pathways to form amino acids.
Sugar molecules must be rearranged through metabolic pathways to form amino acids.
Sugar molecules must undergo hydrolysis so they can react with nitrogen to form amino acids.
Sugar molecules must undergo hydrolysis so they can react with nitrogen to form amino acids.
Sugar molecules must be stored as fat to be later converted into amino acids.
Sugar molecules must be stored as fat to be later converted into amino acids.
Sugar molecules must undergo photosynthesis to produce energy, which can drive amino acid synthesis
Answers
GPT-4o mini
The correct response is:
**Sugar molecules must be rearranged through metabolic pathways to form amino acids.**
This accurately reflects that sugars (like glucose) can be converted into other organic compounds, including amino acids, through various metabolic processes, particularly in the context of cellular metabolism and biosynthesis.
**Sugar molecules must be rearranged through metabolic pathways to form amino acids.**
This accurately reflects that sugars (like glucose) can be converted into other organic compounds, including amino acids, through various metabolic processes, particularly in the context of cellular metabolism and biosynthesis.