Organelle
In cell biology, an organelle is a part of a cell that does a specific job.
Organelles typically have their own plasma membrane round them.[1] Most of the cell's organelles are in the cytoplasm.[2][3]
The name organelle comes from the idea that these structures are to cells what an organ is to the body.
There are many types of organelles in eukaryotic cells. Prokaryotes were once thought not to have organelles, but some examples have now been found.[4] They are not organised like eukaryote organelles, and are not bounded by plasma membranes. They are called bacterial microcompartments.[5]
Scope of the term
The term is now widely used to refer to cellular structures surrounded by single or double plasma membranes.[6][7][8][9] However, the older definition of a 'subcellular functional unit' still coexists. That is, the term is sometimes used for structures which are not membrane-bound.[10][11]
The plasma membrane is a lipid bilayer with some proteins embedded in it. It keeps the ions and molecules of the organelle from merging with the surroundings.
Origin of organelles
Mitochondria and chloroplasts, which have double-membranes and their own DNA, are believed to have originated from incompletely consumed or invading prokaryotic organisms, which were adopted as a part of the invaded cell. This idea is supported in the endosymbiotic theory.
Eukaryotic organelles
Major organelles
Organelle | Main function | Structure | Organisms | Notes |
---|---|---|---|---|
chloroplast (plastid) | photosynthesis | double-membrane compartment | plants, protists (rare kleptoplastic organisms) | has some DNA; originated by endosymbiosis. |
endoplasmic reticulum | translation and folding of new proteins (rough endoplasmic reticulum), expression of lipids (smooth endoplasmic reticulum) | single-membrane compartment | all eukaryotes | rough endoplasmic reticulum is covered with ribosomes, has folds that are flat sacs; smooth endoplasmic reticulum has folds that are tubular |
flagellum | locomotion, sensory | some eukaryotes | ||
Golgi apparatus | sorting and modification of proteins | single-membrane compartment | all eukaryotes | |
mitochondrion | energy production | double-membrane compartment | most eukaryotes | has some DNA; originated by endosymbiosis |
nucleus | DNA maintenance, RNA transcription | double-membrane compartment | all eukaryotes | has bulk of genome |
vacuole | storage, homeostasis | single-membrane compartment | eukaryotes |
Minor organelles
Organelle/Macromolecule | Main function | Structure | Organisms |
---|---|---|---|
acrosome | helps spermatoza fuse with ovum | single-membrane compartment | many animals |
autophagosome | vesicle which collects cytoplasmic material and organelles for degradation | double-membrane compartment | all eukaryotic cells |
centriole | anchor for cytoskeleton | microtubule protein | animals |
cilium | movement in or of external medium. | microtubule protein | animals, protists, few plants |
cnidocyst | stinging | coiled hollow tubule | cnidarians |
eyespot apparatus | detects light, allowing phototaxis to take place | green algae and other unicellular photosynthetic organisms such as Euglena | |
glycosome | carries out glycolysis | single-membrane compartment | Some protozoa, such as Trypanosomes. |
glyoxysome | conversion of fat into sugars | single-membrane compartment | plants |
hydrogenosome | energy & hydrogen production | double-membrane compartment | a few unicellular eukaryotes |
lysosome | breakdown of large molecules (e.g., proteins + polysaccharides) | single-membrane compartment | by convention, animal cells; but (wider definition) most eukaryotes |
melanosome | pigment storage | single-membrane compartment | animals |
mitosome | not known | double-membrane compartment | a few unicellular eukaryotes |
myofibril | muscular contraction | bundled filaments | animals |
nucleolus | ribosome production | protein-DNA-RNA | most eukaryotes |
parenthesome | not known | not known | fungi |
peroxisome | breakdown of metabolic hydrogen peroxide | single-membrane compartment | all eukaryotes |
proteasome | degradation of unneeded or damaged proteins by proteolysis | very large protein complex | All eukaryotes, all archaea, some bacteria |
ribosome | translation of RNA into proteins | RNA-protein | eukaryotes, prokaryotes |
stress granule | mRNA storage | membraneless (mRNP complexes) | Most eukaryotes |
vesicle | material transport | single-membrane compartment | all eukaryotes |
Prokaryotic organelles
Prokaryotes are not so complex as eukaryotes. They were thought to have no internal structures enclosed by lipid membranes.[12]
However, recent research has shown that at least some prokaryotes have microcompartments such as carboxysomes. These subcellular compartments are 100–200 nm in diameter and are enclosed by a shell of proteins.[13] Even more striking is the description of membrane-bound magnetosomes in bacteria.[14][15] as well as the nucleus-like structures of the Planctomycetes that are surrounded by lipid membranes.[16]
Organelle/Macromolecule | Main function | Structure | Organisms |
---|---|---|---|
carboxysome | carbon fixation | protein-shell compartment | some bacteria |
chlorosome | photosynthesis | light harvesting complex | green sulfur bacteria |
flagellum | movement in external medium | protein filament | some prokaryotes and eukaryotes |
magnetosome | magnetic orientation | inorganic crystal, lipid membrane | magnetotactic bacteria |
nucleoid | DNA maintenance, transcription to RNA | DNA-protein | prokaryotes |
plasmid | DNA exchange | circular DNA | some bacteria |
ribosome | translation of RNA into proteins | RNA-protein | eukaryotes, prokaryotes |
thylakoid | photosynthesis | photosystem proteins and pigments | mostly cyanobacteria |
References
- ↑ See 'Scope of the term' below.
- ↑ Alberts, Bruce et al. 2003. Essential cell biology, 2nd ed. Garland Science.
- ↑ National Research Council (U.S.). Committee on Research Opportunities in Biology (1989). Opportunities in biology. National Academies. p. 104. ISBN 978-0-309-03927-7. Retrieved 23 December 2010.
- ↑ Kerfeld C.; et al. (2005). "Protein structures forming the shell of primitive bacterial organelles". Science. 309 (5736): 936–8. doi:10.1126/science.1113397. PMID 16081736.
- ↑ Bobik T.A. (2007). "Bacterial microcompartments" (PDF). Microbe. Am Soc Microbiol. 2: 25–31.
- ↑ Nultsch, Allgemeine Botanik, 11. Aufl. 2001, Thieme Verlag
- ↑ Wehner/Gehring, Zoologies, 23. Aufl. 1995, Thieme Verlag
- ↑ Alberts, Bruce (2004). Molecular Biology of the Cell. ISBN 978-0-8153-3218-3.
- ↑ Brock, Mikrobiologie, 2. korrigierter Nachdruck 2003. der 1. Aufl. von 2001
- ↑ Strasburger's Lehrbuch der Botanik für Hochschulen, 35. Aufl. 2002. S. 42
- ↑ Alliegro MC, Alliegro MA, Palazzo RE (2006). "Centrosome-associated RNA in surf clam oocytes". Proc. Nat. Acad. Sci. USA. 103 (24): 9037–9038. doi:10.1073/pnas.0602859103. PMC 1482561. PMID 16754862.
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: CS1 maint: multiple names: authors list (link) - ↑ Ryter A (1988). "Contribution of new cryomethods to a better knowledge of bacterial anatomy". Ann. Inst. Pasteur Microbiol. 139 (1): 33–44. doi:10.1016/0769-2609(88)90095-6. PMID 3289587.
- ↑ Kerfeld CA; et al. (2005). "Protein structures forming the shell of primitive bacterial organelles". Science. 309 (5736): 936–8. Bibcode:2005Sci...309..936K. doi:10.1126/science.1113397. PMID 16081736.
- ↑ Komeili A.; et al. (2006). "Magnetosomes are cell membrane invaginations organized by the actin-like protein MamK". Science. 311 (5758): 242–5. Bibcode:2006Sci...311..242K. doi:10.1126/science.1123231. PMID 16373532.
- ↑ Scheffel A.; et al. (2006). "An acidic protein aligns magnetosomes along a filamentous structure in magnetotactic bacteria". Nature. 440 (7080): 110–4. Bibcode:2006Natur.440..110S. doi:10.1038/nature04382. PMID 16299495.
- ↑ Fuerst JA (2005). "Intracellular compartmentation in planctomycetes". Annu. Rev. Microbiol. 59: 299–328. doi:10.1146/annurev.micro.59.030804.121258. PMID 15910279.