<h3>Chain of electron transfer The electron transport chain is the final stage of the respiration route, and it is where the most ATP molecules are produced. The electron transport chain is a group of proteins located on mitochondria's inner membrane. The hydrogen ions and electrons are released into the transport chain by NADH.</h3>
An electron transport chain (ETC) is a collection of protein complexes and other molecules that transfer electrons from electron donors to electron acceptors via redox reactions (both reduction and oxidation occur at the same time) and couple this electron transfer with proton (H+ ion) transfer across a membrane. The electron transport chain contains many membrane-bound enzymes.
Answer: increased
Explanation: the more you have the better you can tell where something is acting on you, ie touch
Answer:
just do it they told me siter
Explanation:
Answer:
1.33 m/s
Explanation:
The formula for Kinetic Energy is given as:
Where, m is the mass and v is the velocity of the object. In order to tell how fast is the object moving we need to calculate its velocity.
Re-arranging the above equation and isolating v, we get
Putting values in this equation, we get:
Thus, the object is moving with a velocity of 1.33 m/s
<span>The amino acid is cysteine. Cysteine has a thiol group as its side chain, and the oxidation of these thiol groups allows for the formation of disulfide bridges between two cysteins to occur in proteins. The formation of a disulfide bridge increases the rigidity of the protein's folded structure, helping to maintain the protein's structure and to prevent unfolding. While the reducing environment found within the cell often prevents the formation of these disulfide bridges by preventing oxidation these bonds can form in the extracellular environment, and so the disulfide bridges formed by cysteines contribute to maintaining cellular stability outside the cell.</span>