ATP, citrate, or glucose-6-phosphate
anaerobes
In high solute concentrations water will flow out of the cell. In low solute concentrations water will flow into the cell.
When an enzyme in a pathway is inhibited by the product of the reaction sequence, feedback inhibition occurs. The product molecule "feeds back" to stop the reaction sequence when the product is abundant.
yes some plants have high concentrations of chlorine, like fungi and rose bushes
The two ions found in high concentrations of acid are hydrogen ion(H+ ) and hydroxonium ion(H3O+).
anaerobes
No it cannot. NADH inhibits glycolysis, the Krebs Cycle and the electron transport chain. HIGH levels of NAD however does stimulate glycolysis but High levels of NADH and low levels of NAD does not stimulate glycolysis but rather inhibits it.
In high solute concentrations water will flow out of the cell. In low solute concentrations water will flow into the cell.
When an enzyme in a pathway is inhibited by the product of the reaction sequence, feedback inhibition occurs. The product molecule "feeds back" to stop the reaction sequence when the product is abundant.
In high concentrations it can be.
High blood concentrations of uric acid can lead to gout. Gout is the most commonly associated medical condition with high blood concentrations of uric acid.
yes some plants have high concentrations of chlorine, like fungi and rose bushes
In high concentrations it can be.
veins carry blood with high concentrations of waste products and arteries carry blood with high concentrations of nutrients
They have high and variable heart rates.
The two ions found in high concentrations of acid are hydrogen ion(H+ ) and hydroxonium ion(H3O+).
diffusion