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The extracellular fluid, in particular the interstitial fluid, constitutes the body's internal environment that bathes all of the cells in the body. The ECF composition is therefore crucial for their normal functions, and is maintained by a number of homeostatic mechanisms involving negative feedback .
The main intravascular fluid in mammals is blood, a complex mixture with elements of a suspension (blood cells), colloid (), and solutes (glucose and ions).The blood represents both the intracellular compartment (the fluid inside the blood cells) and the extracellular compartment (the blood plasma).
In contrast to extracellular fluid, cytosol has a high concentration of potassium ions and a low concentration of sodium ions. [27] This difference in ion concentrations is critical for osmoregulation , since if the ion levels were the same inside a cell as outside, water would enter constantly by osmosis - since the levels of macromolecules ...
This space is usually taken to be outside the plasma membranes, and occupied by fluid (see extracellular matrix). The term is used in contrast to intracellular (inside the cell). According to the Gene Ontology , the extracellular space is a cellular component defined as: "That part of a multicellular organism outside the cells proper, usually ...
In cell biology, a vesicle is a structure within or outside a cell, consisting of liquid or cytoplasm enclosed by a lipid bilayer. Vesicles form naturally during the processes of secretion , uptake (endocytosis), and the transport of materials within the plasma membrane.
A rise of extracellular (e.g., serum) partial pressure of carbon dioxide (pCO 2) above 45 mmHg leads to formation of carbonic acid, which causes a decrease of pH i as it dissociates: [10] H 2 O + CO 2 ⇌ H 2 CO 3 ⇌ H + + HCO 3 – Since biological cells contain fluid that can act as a buffer, pH i can be maintained fairly well within a ...
Gap junctions or communicating junctions, allow for direct chemical communication between adjacent cellular cytoplasm through diffusion without contact with the extracellular fluid. [9] This is possible due to six connexin proteins interacting to form a cylinder with a pore in the centre called a connexon. [10]
Prokaryotes have fewer organelles than eukaryotes. Both have plasma membranes and ribosomes (structures that synthesize proteins [clarification needed] and float free in cytoplasm). Two unique characteristics of prokaryotes are fimbriae (finger-like projections on the surface of a cell) and flagella (threadlike structures that aid movement). [2]