Answer:
they build up over time making its shape
Explanation:
Answer:
C) Olfactory bulb is a correct answer.
Explanation:
Olfactory blub role it to sense the smell once they receive the information from the olfactory receptor, it sends the information from the nose to the brain region.This process occurs when the odorants get bind to the olfactory receptors at the specific sites and the glomerulus is present on the olfactory bulb of brain region detects the signal from the receptor and transmit to olfactory blub, and then the brain interacts with the sensory parts, by this ways smell identification is done.
The areas of the brain located just above the sinus cavity and just below the frontal lobes that receive information from the olfactory receptor cells is known as the Olfactory bulb.
Answer:
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All the gametes are 25%; SY(25% so on) Sy, sY, and sy .
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Explanation:
Spherical shape (S) is dominant over dented shape(s), so S is dominant over s;
Yellow (Y) is dominant over white color (y), so Y is dominant over y.
Here as given, parent is heterozygous for both parents.
so its genotype is= SsYy
Gametes formation follow both law of segregation and law of independent assortment:
So, 25% of gametes are SY
25% of gametes are Sy
25% of gametes are sY
25% of gametes are sy.
Answer:
Electron transport chain and ATP synthase
Explanation:
The inner mitochondrial membrane contains an electron transport chain and ATP synthesis. Four membrane protein complexes serve as the electron carriers and are embedded in the inner mitochondrial membrane. These protein complexes are called complex I, II, III and IV. Transfer of electrons from NADH and FADH2 to terminal electron acceptor oxygen occurs via these protein complexes.
During electron transfer, the pumping of protons towards the inner mitochondrial membrane creates an electrochemical gradient. The downhill transfer of protons back to the matrix via proton channel of ATP synthase drives phosphorylation of ADP. Therefore, presence of all the protein complexes of the electron transport chain and ATP synthase is required for electron transfer and ATP synthesis.
