Intracellular digestion

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Process of how macroautophagy works

Every organism requires energy to be active.[1] However, to obtain energy from its outside environment, cells must not only retrieve molecules from their surroundings but also break them down.[1] This process is known as intracellular digestion.[1] In its broadest sense, intracellular digestion is the breakdown of substances within the cytoplasm of a cell. In detail, a phagocyte's duty is obtaining food particles and digesting it in a vacuole.[2] For example, following phagocytosis, the ingested particle (or phagosome) fuses with a lysosome containing hydrolytic enzymes to form a phagolysosome; the pathogens or food particles within the phagosome are then digested by the lysosome's enzymes.

Intracellular digestion can also refer to the process in which animals that lack a digestive tract bring food items into the cell for the purposes of digestion for nutritional needs. This kind of intracellular digestion occurs in many unicellular protozoans, in Pycnogonida, in some molluscs, Cnidaria and Porifera. There is another type of digestion, called extracellular digestion. In amphioxus, digestion is both extracellular and intracellular.

Function[edit]

Intracellular digestion is divided into heterophagic digestion and autophagic digestion.[3] These two types take place in the lysosome and they both have very specific functions.[3] Heterophagic intracellular digestion has an important job which is to break down all molecules that are brought into a cell by endocytosis.[3] The degraded molecules need to be delivered to the cytoplasm; however, this will not be possible if the molecules are not hydrolyzed in the lysosome.[3] Autophagic intracellular digestion is processed in the cell, which means it digests the internal molecules.[3]

Functions of autophagy

Autophagy[edit]

Generally, autophagy includes three small branches, which are macroautophagy, microautophagy, and chaperone-mediated autophagy.[4]

Occurrence[edit]

Most organisms that use intracellular digestion belong to Kingdom Protista, such as amoeba and paramecium.

Amoeba

Amoeba uses pseudopodia to capture food for nutrition in a process called phagocytosis.

Paramecium

Paramecium uses cilia in the oral groove to bring food into the mouth pore which goes to the gullet. At the end of the gullet, a food vacuole forms. Undigested food is carried to the anal pore.

Euglena

Euglena is photosynthetic but also engulfs and digests microorganisms.

References[edit]

  1. ^ a b c Anderson, O. Roger (1 January 1970). "Intracellular Digestion". The American Biology Teacher. 32 (8): 461–467. doi:10.2307/4443206.
  2. ^ Roberts, M. B. V. Biology: A Functional Approach. Nelson Thornes. ISBN 9780174480198.
  3. ^ a b c d e Jamieson, G. A.; Robinson, D. M. Mammalian Cell Membranes: Volume 2: The Diversity of Membranes. Elsevier. ISBN 9781483162782.
  4. ^ Glick, Danielle; Barth, Sandra; Macleod, Kay F. (2016-11-21). "Autophagy: cellular and molecular mechanisms". The Journal of Pathology. 221 (1): 3–12. doi:10.1002/path.2697. ISSN 0022-3417. PMC 2990190. PMID 20225336.

1 Roberts, M. B. V. Biology: A Functional Approach. Nelson Thornes. ISBN 9780174480198.

2 Jamieson, G. A.; Robinson, D. M. Mammalian Cell Membranes: Volume 2: The Diversity of Membranes. Elsevier. ISBN 9781483162782.

3 Anderson, O. Roger (1 January 1970). "Intracellular Digestion". The American Biology Teacher. 32 (8): 461–467. doi:10.2307/4443206.

4 Glick, Danielle; Barth, Sandra; Macleod, Kay F. (21 November 2016). "Autophagy: cellular and molecular mechanisms". The Journal of Pathology. 221 (1): 3–12. doi:10.1002/path.2697. ISSN 0022-3417.

5 Mizushima, Noboru (15 November 2007). "Autophagy: process and function". Genes & Development. 21(22): 2861–2873. doi:10.1101/gad.1599207. ISSN 0890-9369.