Organelle

Organulum (plural: organula) is the diminutive of the Latin organum. In a footnote that appeared as a correction in the following issue of the journal, Möbius stated:

“The organs of the heteroplastids [= multicellular] consist of unified cells. Since the organs of the monoplastids [= protozoa] are only differently formed parts of a cell, I suggest calling them 'organula' ”. [the bracketed explanations do not appear in the original text].

The most original definition of the term was therefore limited exclusively to cell components of single cells. Some of the works published a little later name Möbius as the author.

It took several years until the term organulum or the newer organelle became generally accepted and also included components of cells of the multicellular cells in an expanded sense. Books and textbooks around 1900, by Valentin Häcker , Edmund Wilson and Oscar Hertwig , still talked about the organs of the cell. Later, both names were probably used side by side for a while: Bengt Lidforss wrote in 1915: “A new formation of these organs or organelles does not take place, at least in higher plants”.

Around 1920 the term organelle was used for the drive structures ("motor organelle complex", flagella and their anchoring) and other structures of single cells. Alfred Kühn wrote in 1920 about the centrioles as dividing organelles , for which, however, applies to the Vahlkampfien that "the alternative: organelle or product of structure formation" has not yet been decided - but without going into the difference between the two alternatives.

Max Hartmann used the term in 1953 in a textbook for extracellular (pellicula, shells, cell walls) and intracellular skeletons of unicellular organisms.

It was only later that the now widely used definition emerged, according to which cell components only surrounded by a membrane are regarded as organelles. Sometimes this is further restricted and only mitochondria and plastids , which have their own genome, are called organelles. But the more original definition of subcellular functional units in general is still in use.

In contrast to the term organelle , which always refers to a single object (such as a mitochondrion), the term compartment is used for the sum of all similar cellular spaces. A cell can therefore have many mitochondria, but only one mitochondrial compartment. The cytoplasm is also a compartment, but not an organelle.

Membrane-bounded organelles

Mitochondria , the cell nucleus and plastids ( chloroplasts and their relatives) are surrounded by a double membrane . Other membrane-bounded organelles have a simple membrane. These include the components of the endomembrane system and, in plants, the cell sap vacuole . In addition, there are some special membrane-bounded organelles that only occur in certain cell types or certain eukaryotic species groups, mostly single cells.

Semi-autonomous organelles

Scheme of a mitochondrion

Chloroplasts in the leaf blade of the deciduous moss Plagiomnium affine

According to the endosymbiotic theory , from a phylogenetic point of view, they are descendants of bacteria that were ingested by early eukaryotic cells. These bacteria were integrated into the cell in the course of evolution. Due to the presence of the mitochondrial precursors (derived from α-proteobacteria ) it was possible for the early eukaryotic, previously anaerobic , cells to use the much more effective oxygen-dependent energy production for the first time. The uptake of cyanobacteria , which developed into plastids, made it possible to use sunlight to generate energy: eukaryotic algae were created and thus the precursors of all plants.

Semiautonomous organelles have a double membrane: the outer one is formed by the host cell and is therefore of eukaryotic origin. It is derived from the in the recording constricted the organelle predecessor plasma membrane . The inner membrane is of prokaryotic origin. This is the modified plasma membrane of the symbiont . It provides a diffusion barrier for the exchange of molecules and electrons are.

Unnecessary structures of the bacterial cells were lost, most of the genes were transferred to the nucleus of the host cell or were also lost. However, some genes have also been added to the genome of the organelles, e.g. B. Genes for the exchange of proteins and amino acids with the host cell. What remains are the remnants of the prokaryotic genome, which is made up of a circular DNA molecule, and structures that are important for the function of the organelles.

Semi-autonomous organelles multiply independently by dividing. When the host cell divides, they are divided among the daughter cells.

Other common membrane-bound organelles

In addition to the semi-autonomous organelles, only the cell nucleus has a double membrane, the nuclear envelope . The organelles described in this section are usually found in all cells of an organism. In plants, this includes the cell sap vacuole and in all eukaryotes various components of the endomembrane system : the endoplasmic reticulum (ER), the Golgi apparatus , lysosomes and peroxisomes . A brief description of these organelles can be found in the article Cell at this point. Transport vesicles , which ensure the exchange of substances between the other components, also belong to the endomembrane system. Their inclusion in the definition of an organelle is inconsistent: Sometimes individual vesicles are referred to as organelles, sometimes not.

Animal cells

Plant cells

Carrots get their color from chromoplasts

Endosomes are missing in plant cells . For this they have plastids and a cell sap vacuole. A plant cell has at least one of the plastid types chloroplast , chromoplast and leukoplast . During differentiation , one type of plastid can transform into another. Plastids also contain their own ribosomes (plastoribosomes) with their own DNA.

Special membrane-bounded organelles

Cell-type-specific organelles of multicellular cells

The organelles listed here only occur in some cell types of certain multicellular organisms, but not in other cell types of the same organisms.

Taxon-specific organelles

Organelles are listed here that occur in eukaryotic protozoa or, in certain multicellular species, in all cells. Complex plastids such as apicoplasts can have their own organelles ( nucleomorph , a reduced cell nucleus) and different types of ribosomes. The plastids of red algae are also known as rhodoplasts , those of gaucophytes as cyanelles. More complex organelles sin the eyespots mostly photosynthetic , flagellate protists and especially the Ocelloide unicellular dinoflagellates family Warnowiaceae (Warnowiiden) that the phototaxis serve.

Eukaryotic organelles without a membrane

Cilia on the surface of lung epithelial cells

A more recent definition assumes that there is a surrounding membrane. However, the older meaning of the term, which is also still used, does not recognize such a requirement. According to this meaning, all cellular structures that are considered to be organ-like are referred to as organelle. It is difficult to differentiate between organelles defined in this way and larger molecular complexes. For example, when ribosomes are called organelles, then why not spliceosomes or the large enzyme complex of DNA replication and transcription ? Accordingly, the assignment of smaller structures to the organelles is not uniform. Assigning ribosomes or nucleoli to organelles would show that organelles, namely mitochondria and plastids or the cell nucleus, can themselves have organelles.

The broader organelle term also allows the inclusion of extracellular structures such as the plant cell walls or the shells of single cells.

One of the best-known representatives of the membrane-less organelles is the centrosome. Centrosomes can be recognized by light microscopy and were therefore discovered as early as the 19th century. They are not created anew, but arise through duplication and division. After cell division , each cell has a centrosome, which doubles during the cell cycle . In 2006 a work was published which suggests that centrosomes have their own genome. This does not consist of DNA , but of RNA and codes, among other things, for a reverse transcriptase . If these findings on the mussel Spisula solidissima are confirmed, centrosomes may also have to be referred to as semiautonomous organelles.

Given the great variety of intra- and extracellular structures that could be considered organelles, there are no general structural or functional similarities among these structures. The following, incomplete table gives some examples.

Prokaryotic organelles

As a rule, prokaryotes have no internal membranes and therefore no organelles according to the narrower definition. Exceptions are magnetosomes from magnetotactic bacteria and thylakoids from cyanobacteria . According to the further definition of the term organelle, however, numerous structures can be designated in this way, some of which the following table lists. Mesosomes , invaginations of the plasma membrane of bacteria, were for a time thought to be organelles. However, it turned out to be artifacts .

Web links

Commons : Organelles  - collection of images, videos and audio files

• Original electron microscope images of cell organelles
• Organelles of the cells, brief description with cell physiology

Individual evidence

1. ↑ Herder Lexicon of Biology. 1994.
2. ↑ CA Kerfeld, MR Sawaya, S. Tanaka, et al : Protein structures forming the shell of primitive bacterial organelles . In: Science . tape 309 , no. 5736 , 2005, pp. 936-938 , doi : 10.1126 / science.1113397 , PMID 16081736 . 
3. ^ ^{A b} Karl August Möbius: The death of the unicellular and multicellular animals. Viewed comparatively . In: Biological Centralblatt . tape 4 , no. 13, 14 , September 1884, pp. 389-392, 448 ( dietzellab.de ). 
4. ↑ Otto Bütschli: Dr. HG Bronn's Klassen u. Orders of the animal kingdom scientifically represented in words and pictures. First volume. Protozoa. Third Division: Infusoria and System of Radiolaria . 1888, p. 1412 : "The vacuoles are therefore not permanent organs or organula in a strict sense (as Möbius proposed to name the organs of the unicellular as opposed to those of the multicellular)" 
5. ↑ Amer. Naturalist. , 23, 1889, p. 183: “It may possibly be of advantage to use the word organula here instead of organ, following a suggestion by Möbius. Functionally differentiated multicellular aggregates in multicellular forms or metazoa are in this sense organs, while for functionally differentiated portions of unicellular organisms or for such differentiated portions of the unicellular germ-elements of metazoa the diminutive organula is appropriate. " Quoted from: organelle . In: Oxford English Dictionary .
6. ↑ Journal de l'anatomie et de la physiologie normales et pathologiques de l'homme et des animaux. ( books.google.com ).
7. ↑ Valentin Haecker: Cell and fertilization theory . Gustav Fischer, Jena 1899. 
8. ^ Edmund Beecher Wilson: The Cell in Development and Inheritance . 2nd Edition. The Macmillan Company, New York 1900. 
9. ↑ Oscar Hertwig: General Biology. Second edition of the textbook “The Cell and the Tissues” . Gustav Fischer, Jena 1906. 
10. ^ B. Lidforss: General Biology . Ed .: Paul Hinneberg. BG Teubner, Leipzig, Berlin 1915, Protoplasma, p. 227 (218-264) . 
11. ↑ Charles Atwood Kofoid, Olive Swezy: Flagellate Affinities of Trichonympha . In: Proceedings of the Nationa Academy of Sciences USA . tape 5 , no. 1 , 1919, p. 9-16 ( online ). 
12. ↑ Cl. Hamburger: Concise dictionary of Naturw. Volume V, p. 435. Infusorien. Quoted from Hans Petersen: About the concept of life and the stages of biological concept formation . In: Archive for Development Mechanics of Organisms (now: Development Genes and Evolution) . tape 45 , no. 3 , 1919, p. 423-442 , doi : 10.1007 / BF02554406 . 
13. ^ Alfred Kühn: Investigations into the causal analysis of cell division. Part I: On the morphology and physiology of the nuclear division of Vahlkampfia bistadialis . In: Archive for Development Mechanics of Organisms (now: Development Genes and Evolution) . tape 46 , 1920, pp. 259-327 , doi : 10.1007 / BF02554424 . 
14. ↑ Max Hartmann: General Biology . 4th edition. Gustav Fisher, Stuttgart 1953. 
15. ^ Nultsch: General botany. 11th edition 2001, Thieme Verlag.
16. ↑ Wehner, Gehring: Zoologie. 23rd edition 1995, Thieme Verlag.
17. ↑ Alberts et al .: Molecular Biology of the Cell. 4th edition 2002, "NCBI-Bookshelf"
18. ↑ Brock: Microbiology. 2nd corrected reprint (2003) of the 1st edition from 2001.
19. ↑ Hans Kleinig, Uwe Maier: Kleinig / Sitte Zellbiologie . Gustav Fischer Verlag, 4th edition 1999, ISBN 3-437-26010-3 .
20. ↑ Strasburger's textbook on botany for universities . 35th edition 2002, p. 42.
21. ^ ^{A b} Marc C. Alliegro, Mary Anne Alliegro, Robert E. Palazzo: Centrosome-associated RNA in surf clam oocytes . In: Proceedings of the National Academy of Sciences USA . tape 103 , no. 24 , June 13, 2006, pp. 9034-9038 , doi : 10.1073 / pnas.0602859103 . 
22. ↑ organelle . In: Oxford English Dictionary .
23. ^ ^{A b} Albert Frey-Wyssling: On the definition of the organelle term . In: Gegenbaur's morphological yearbook . tape 124 , no. 3 . Leipzig 1978, p. 455-57 . 
24. ^ Albert Frey-Wyssling: Concerning the concept Organelle ” . In: Experientia . tape 34 , 1978, p. 547 , doi : 10.1007 / BF01935984 (Note: the journal has been renamed and is now Cellular and Molecular Life Sciences ). 
25. ↑ Hans Kleinig, Peter Sitte: Cell Biology . 3. Edition. Gustav Fischer, Jena 1992. 
26. ↑ Bruce Alberts et al .: Molecular Biology of the Cell, 4th edition , Table 12.1 2002.
27. ↑ Bruce Alberts et al .: Molecular Biology of the Cell . 2002.
28. ^ AV Goldberg, S. Molik, AD Tsaousis, K. Neumann, G. Kuhnke, F. Delbac, CP Vivares, RP Hirt, R. Lill, TM Embley: Localization and functionality of microsporidian iron-sulfur cluster assembly proteins . In: Nature , 452, 2008, pp. 624-628.
29. ↑ The English language Wikipedia has an article on glycosomes
30. ^ Luis Delaye, Cecilio Valadez-Cano, Bernardo Pérez-Zamorano: How Really Ancient Is Paulinella Chromatophora? . In: PLoS Currents . 2016. doi : 10.1371 / currents.tol.e68a099364bb1a1e129a17b4e06b0c6b .
31. ↑ The English language Wikipedia has an article on apicoplasts
32. ↑ However, this is the case with organelles with a complex structure, such as the apicoplasts with the nucleomorph (cell nucleus homolog ) and the ocelloids (including their own mitochondria).
33. ↑ The English language Wikipedia has an article on carboxysomes

This article was added to the list of excellent articles on December 28, 2007 in this version .