Protein phosphorylation is not involved in activation of G protein coupled receptor.
Further Explanation:
Roles of Protein phosphorylation are :
G- protein coupled receptor is activated through the external signals in the forms of ligand.
In this, ligand binds to the active site and cause conformation changes in receptor and active G- protein.
Protein phosphorylation is a key process in many biological functions but it is not directly involved in the activation of G protein-coupled receptors. Those receptors are activated by the binding to a specific signaling molecule, not phosphorylation.
Protein phosphorylation is a biochemical process that adds a phosphate group to a protein molecule, significantly affecting its function. Indeed, protein phosphorylation is involved in the activation of receptor tyrosine kinases, the activation of protein kinase molecules, and regulation of transcription by signaling molecules. However, phosphorylation is not directly involved in the activation of G protein-coupled receptors. Instead, these receptors are activated by binding to a specific signaling molecule or ligand, leading to a cascade of signaling events within the cell.
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_____, and all organisms have at least one.
Answer:
cell
Explanation:
Answer:
cell
Explanation:
That is the smallest unit of life, and every living thing has at least one cell, such as unicellular living things.
to break down food into nutrients that can be circulated throughout the body
Answer: Sorry if I'm wrong.
Explanation: The hypothalamus is the link between the endocrine and nervous systems. The hypothalamus produces releasing and inhibiting hormones, which stop and start the production of other hormones throughout the body. The hypothalamus plays a significant role in the endocrine system.
Answer:
Central nervous system includes brain and spinal cord. Peripheral nervous system includes autonomic nervous system and somatic nervous system.
Explanation:
Nervous system consists of electrically excitable cell called neurons and collection of nerves that transmit information in the body.
Nervous system is mainly divided into two parts - PNS (peripheral nervous system) and Central nervous system (CNS) . The CNS of the body consists of spinal cord and brain that regulates and coordinates all the functions of the body.
PNS consist of cranial and spinal nerves. This system is divided into Autonomic nervous system ( controls involuntary actions of body) and somatic nervous system ( control the voluntary actions of the body).
7.68
3.08
2.35
4.07
Answer:
The correct answer is 7.68
Explanation:
Isoelectric point (pI) is the pH at which the amino acid has net a charge of zero. We have to choose the two values of pKa at which the neutral form of the amino acid is predominant. Histidine (Hys) is a basic amino acid. From pKa's data, we deduce:
pKa1 = 2.3 (corresponds to α- carboxyl group)
pKa2= 6.04 (corresponds to R group)
pKa3= 9.33 (corresponds to α- amino group)
Since it is a basic amino acid, the neutral form will exist between the higher pKa's values. Thus, the pI will be in a pH value between 6.3 and 9.33.
So, we have to calculate the average of pKa2 and pKa3:
pI= (pKa2+pKa3)/2= (6.04+9.33)/2= 7.68
Therefore, the pI of Hys is 7.68.