he figure shows the process of photosynthesis in plants and some of the process's products.
Information
A figure.Short description, A figure.,Long description,
The figure shows Chloroplast and the molecule G3P are at the center of the process.
Arrows point from a Sun labeled Light, the molecule Upper C Upper O subscript 2, and the molecule Upper H subscript 2 Upper O to Chloroplast.
An arrow points from Chloroplast to the molecule Upper O subscript 2.
An arrow points from Chloroplast to the molecule G3P, which shows 3 connected spheres each labeled with Upper C.
Arrows point from the G3P molecule to Sugars, Fatty acids, and Amino acids.
Nitrogen points to Amino acids.
Question
How do plants obtain protein? Select ,begin emphasis,three,end emphasis, statements needed for a correct explanation, and place them in the box.
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Answer options with 5 options.
1. Through the process of photosynthesis, plants produce glucose (sugars) during the light-independent reactions in the chloroplast.
2. Glucose serves as the primary source of carbon for plants and can be converted into other organic molecules, including amino acids.
3. Nitrogen is obtained by plants from the soil, which is then used to synthesize amino acids.
4. Amino acids are the building blocks of proteins.
5. Therefore, plants obtain protein by synthesizing amino acids using carbon from glucose and nitrogen from the soil.
which ones
1. Through the process of photosynthesis, plants produce glucose (sugars) during the light-independent reactions in the chloroplast.
4. Amino acids are the building blocks of proteins.
5. Therefore, plants obtain protein by synthesizing amino acids using carbon from glucose and nitrogen from the soil.
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1. Plants obtain protein through the process of photosynthesis.
2. Plants absorb nitrogen from the soil, which is essential for protein synthesis.
3. During photosynthesis, plants convert sunlight energy into chemical energy stored in glucose (sugars).
4. Glucose is then used to produce ATP (adenosine triphosphate), the energy currency of cells.
5. ATP is required for the synthesis of amino acids, the building blocks of proteins.
To answer the question "How do plants obtain protein?", we need to examine the process of photosynthesis and the components involved. The figure provides valuable information to find the correct explanation.
Based on the figure, we can deduce the following statements for a correct explanation:
1. Plants synthesize amino acids during photosynthesis: From the figure, it is apparent that the molecule Upper C Upper O subscript 2 and the molecule Upper H subscript 2 Upper O, which are obtained from the Sun labeled Light, are transported to the Chloroplast. An arrow points from Chloroplast to the molecule G3P, which represents the synthesis of organic molecules. Some of these organic molecules are amino acids, the building blocks of proteins.
2. Amino acids combine to form proteins: The arrow pointing from the G3P molecule to Amino acids suggests that the synthesized amino acids can further react and combine to form proteins. This demonstrates how plants utilize the organic molecules generated during photosynthesis to create proteins.
3. Nitrogen is required for protein synthesis: The figure highlights that Nitrogen points to Amino acids. Nitrogen is an essential element for the formation of amino acids and, consequently, proteins. Plants obtain the necessary nitrogen through the absorption of nitrogen-containing compounds from the soil, such as nitrates or ammonia, which they incorporate into amino acids and eventually proteins.
Once you have identified these three statements from the figure, you can place them in the provided box.