7. Which shows the pathway of proteins from manufacture to distribution in aeukaryotic cell?
A. ribosome → endoplasmic reticulum → Golgi apparatus
B. endoplasmic reticulum → ribosome → Golgi apparatus
C. ribosome — Golgi apparatus → endoplasmic reticulum
D. endoplasmic reticulum → Golgi apparatus ribosome

Answer: Calvin cycle is the second stage of photosynthesis and does not require light.

Explanation: Photosynthetic reactions are divided into two phases: light dependent reactions and carbon fixation reactions. Light dependent reactions is the first stage of photosynthesis in which sunlight is used to split a molecule of water and the energy generated is conserved in form of ATP and NADPH.

Calvin cycle is the second stage of photosynthesis. It is also called carbon fixation reactions. These reactions do not need light to occur. It occurs in the dark, the ATP and NADPH produced in light dependent reactions are used to drive these reactions. In Calvin cycle, carbon dioxide is assimilated through a cyclic pathway to produce triose phosphate which is a precursor for glucose and other related molecules such as starch.

Final answer:

The Calvin cycle is the second stage of photosynthesis.

Explanation:

The correct statement is the second stage of photosynthesis. The Calvin cycle is a series of reactions that occur in the stroma of chloroplasts in plants. It takes place after the light-dependent reactions and uses the energy stored in ATP and NADPH to convert carbon dioxide into glucose. This cycle does not directly produce water and does not require light.

Also known as the Calvin-Benson cycle, is a series of biochemical reactions that take place in the stroma of chloroplasts during photosynthesis. It converts carbon dioxide and energy from ATP and NADPH into glucose and other organic molecules. The Calvin cycle is a crucial part of the light-independent reactions of photosynthesis.

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Answer: Using H as the allele,

Father - Hh or hh

Mother - Hh

Explanation:

Both parents must have at least one recessive gene to pass down to the hemophiliac woman. The mother does not have the disorder, so she must be heterozygous. No information is given on the father, but he must have passed down at least one recessive allele, so he cannot be homozygous dominant.