Active transplant and diffusion of nutrients

Active transport is the transportation of solute molecules across the cell membrane of an organism against an electrochemical gradient. The impermeability of the outer membrane of microorganisms (Gram-negative bacteria in particular) by nutrient and other important molecules is usually overcome by the active transport of solute molecules into the cell. Active transport is energy driven, and the process establishes a concentration gradient which allows nutrient molecules to penetrate the cytoplasmic membrane of an organism with the help of specific protein carrier molecules which harbour particular solute molecules such as nutrients.

In active transport, solute molecules (especially nutrients) are taken up by microbial cells in higher concentration gradient with the help of carrier proteins as earlier said; and the input of metabolic energy especially those derived from ATP and the electron transport chain allows important solute molecules to enter the microbial cell. Microorganisms live in environment which is usually characterized by the presence of dilute solute or nutrient molecules; and for microbes to thrive in such scenarios, they must develop mechanisms such as active transport among others that will enable them to concentrate these important solute molecules or nutrients and transport same via their cell membrane for growth and other metabolic activities.

Diffusion is the transportation of solute molecules from a region of higher concentration to a region of lower concentration. Nutrient molecules can be transported through the cell membrane of microbial cells either passively or in a facilitated typed of diffusion where the entry of solute molecules is usually facilitated using carrier protein molecules embedded in the cell membrane of the organism. The cell membrane of the microbial cell is very effective and selectively permeable that only certain molecules (e.g. water and gases like CO2 and O2) can pass through it with some ease while others such as nutrient or solute molecules will only pass through the cell membrane with the help of some carrier protein molecules present on the cell.

Passive or facilitated diffusion can occur without the input of energy (as is sometimes the case with active transport); and thus the entry of solute molecules into the cell is only by a concentration gradient of the given solute being transported and never against a concentration gradient which is peculiar with active transport. Both active transport and diffusion play significant roles in the exchange of nutrients and other molecules between microorganisms and their internal and external environment. They are both important for the efficient and sustained movement of important molecules across the cell membranes and/or cell walls of microorganisms.


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