Answer: Biodiversity is important in supporting vital ecosystem services (ES) such as provision of clean water, but can also provide social benefits, such as improved employment. The report focussed on the impact of biodiversity on employment and the value of biodiversity and the services provided for vulnerable rural people.
The monoamine oxidase (MAO) inhibitor is an enzyme inhibits monoamine oxidase that is involved in the breakdown of serotonin, norepinephrine, and dopamine at the brain.
<h3>Neurotransmitters and their uses</h3>
Neurotransmitters are the chemical that are used to transmit electrical signals from a nerve cell to the target organ.
Some examples of neurotransmitters are:
- gamma-aminobutyric acid (GABA),
- norepinephrine, and serotonin
Monoamine oxidase (MAO) inhibitor enzyme makes the neurotransmitters available at the brain by preventing their breakdown by the monoamine oxidase.
Learn more about enzymes here:
brainly.com/question/16204837
<h2>
The nerve impulse signal will move towards synapse.</h2><h2>
Explanation:</h2>
The electrical charge travel through the neural cell membrane and thus generates a nerve impulse. The nerve impulse travels through membrane of neural cell by the movement of ions across the membrane. The nerve impulse signal will travel through the neuron and reaches at the end of a neuron that is axon terminal. The end (axon) of a neuron connects with the dendrites of second neuron with the help of molecules known as neurotransmitters. This connection between two neurons that allows the nerve impulse to travel is called synapse.
Learn more: Nerve impulse
1. brainly.com/question/13145357
2. brainly.com/question/10740647
Answer:
When electrons move through a series of electron acceptor molecules in cellular respiration, <em>oxygen is eventually reduced by the electrons in the formation of water</em>
Explanation:
The electron transport chain is located in the internal mitochondrial membrane. There are three proteinic complexes in the membrane, I, II, and III, that contain the electrons transporters and the enzymes necessary to catalyze the electrons transference from one complex to the other. Complex I contains the flavine mononucleotide -FMN- that receives electrons from the NADH. The coenzyme Q, located in the lipidic interior of the membrane, conducts electrons from complex I to complex II. The complex II contains cytochrome b, from where electrons go to cytochrome c, which is a peripheric membrane protein. Electrons travel from cytochrome c to cytochromes a and a3, located in the complex III. Finally, electrons go back to the matrix, where they combine to H₊ ions and oxygen, to form the water molecule. As electrons are transported through the chain, protons are bombed through the three proteinic complexes from the matrix to the intermembrane space.