Answer:
mycelium, hyphae, coenocytic hope this helps out
Explanation:
Answer:When a ribosome happens to be making a protein with an ER signal sequence, ... The main cell type in the liver, the hepatocyte, is another cell with an abundant smooth ER. ... of all other proteins made by ribosomes bound to the rough ER membrane, ... are by far the most common oligosaccharides found on glycoproteins.
Explanation:
Answer:
+1
Explanation:
because when an atom loses an electron it gains
Answer:
b. Because they have a low affinity for the H+
Explanation:
All electrons that enter the transport chain come from NADH and FADH2 molecules that are produced in earlier phases of cellular respiration: glycolysis, pyruvate oxidation and the citric acid cycle.
NADH is very good at donating electrons in redox reactions (that is, its electrons are at a high energy level), so you can transfer your electrons directly to complex I and transform it back into NAD +. The movement of electrons through complex I in a series of redox reactions releases energy, which the complex uses to pump protons from the matrix into the intermembrane space.
FADH2 is not as good for donating electrons as NADH (that is, its electrons are at a lower energy level), so it cannot transfer its electrons to complex I. Instead, it introduces electrons to the transport chain through complex II, which does not pump protons through the membrane.
C acceleration describes how displacement changes with time
