Acetabularia: Difference between revisions

Acetabularia
Scientific classification
(unranked):	Viridiplantae
Division:	Chlorophyta
Class:	Ulvophyceae
Order:	Dasycladales
Family:	Polyphysaceae
Genus:	Acetabularia; Lamouroux, 1812
Species
	Acetabularia acetabulum (A. mediterranea); Acetabularia antillana; Acetabularia caliculus; Acetabularia crenulata; Acetabularia dentata; Acetabularia farlowii; Acetabularia jalakanyakae; Acetabularia kilneri; Acetabularia major; Acetabularia myriospora; Acetabularia peniculus; Acetabularia ryukyuensis; Acetabularia schenkii; Acetabularia toxasii;

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Acetabularia is a genus of green algae in the family Polyphysaceae,^[3] Typically found in subtropical waters, Acetabularia is a single-celled organism, but gigantic in size and complex in form, making it an excellent model organism for studying cell biology.^[4] In form, the mature Acetabularia resembles the round leaves of a nasturtium, is 0.5 to 10 cm tall and has three anatomical parts: a bottom rhizoid that resembles a set of short roots; a long stalk in the middle; and a top umbrella of branches that may fuse into a cap. Unlike other giant unicellular organisms, which are multinucleate, Acetabularia has a single nucleus, located in the rhizoid and allows the cell to regenerate completely if its cap is removed. The caps of two Acetabularia may also be exchanged, even from two different species.^{[citation needed]} In addition, if a piece of the stem is removed, with no access to the nucleus in the rhizoid, this isolated stem piece will also grow a new cap.^[5]

In the 1930s–1950s Joachim Hämmerling conducted experiments in which he demonstrated Acetabularia's genetic information is contained in the nucleus.^[6] This was the first demonstration that genes are encoded by DNA in eukaryotes; earlier studies by Oswald Avery and others had shown that this was true for prokaryotes.

Etymology

The name, Acetabularia, derives from the Latin word acetabulum, a broad, shallow cup used for dipping bread; the upturned cap of Acetabularia resembles such a cup. For this reason, it is also sometimes called mermaid's wineglass.^[7]

In the 19th century the same designation Acetabularia was proposed by George Edward Massee for a genus of fungi (now Cyphellopus), but this usage is obsolete and considered invalid as the algal name takes precedence.^[8]

Anatomy and life cycle

Acetabularia has three basic parts: its rhizoid, a short set of root-like appendages that contain the nucleus and anchor the cell to fissures in a substrate; its median stalk, which accounts for most of its length; and its apex, where its cap forms. There are usually several whorls of hair-like appendages close to the apex.^{[citation needed]}

Acetabularia are among the largest single-celled organisms, having also a remarkably large nucleus. During sexual reproduction, the nucleus undergoes multiple rounds of mitosis, forming many daughter nuclei all within one nuclear membrane. These nuclei undergo meiosis and are transported to the tips of the branches, the sporangia, where they are released as gametes.^[9]

Hämmerling's experiment

Each Acetabularia cell is composed of three segments: the "foot" or base which contains the nucleus, the "stalk," and the "cap." Hämmerling exchanged caps between individuals from two species, A. mediterranea and A. crenulata. A. mediterranea has a smooth, disc shaped cap, while A. crenulata has a branched, flower-like cap.

After the exchange, each transplanted cap gradually changed from its original form to the form typical for the species of the base it was now attached to. This showed that the nucleus controlled the form of the cap.

In another experiment, Hämmerling inserted a nucleus from one species of Acetabularia into an intact Acetabularia of a different species. The Acetabularia then produced a hybrid cap with characteristics of both species. This showed that both nuclei influenced the form of the cap. ^[6] Hammerling's results showed that the nucleus of a cell contains the genetic information that directs cellular development.

Morphogenesis

Although a single cell, Acetabularia exhibits a remarkably complex shape and has therefore long been a model organism for studying gene expression and morphogenesis. It seems to transport messenger RNA molecules (in an inactive riboprotein form) from the nucleus to its apical tips, where they are translated into proteins. These molecules may be activated by proteolysis of their protein carrier molecules, but this has not been verified as yet.^{[citation needed]}

Internal chemical gradients

In addition to its gradient in specific mRNA molecules, Acetabularia exhibits concentration gradients in several types of molecules, such as ascorbic acid.^{[citation needed]}

Circadian rhythms

Acetabularia has been used to study circadian rhythms.^[10]

Aquarium trade

Acetabularia species occasionally make their way into the aquarium trade. They are generally considered to be more difficult or unappealing macroalgae to care for in the reef aquarium, a fish-only, or a FOWLR (Fish Only With Live Rock) system, as they are delicate, readily eaten by herbivorous fish, grow slowly, and do not have the high nutrient uptake that reef aquarium refugium species (such as Chaetomorpha and Caulerpa) do. However, they are suitable for a macroalgae display tank, and thus macroalgae suppliers often carry species of Acetabularia.

References

^ Lamouroux JVF (1812). "Extrait d'un mémoire sur la classification des Polypiers coralligènes non entièrement pierreux". Nouveaux Bulletin des Sciences, par la Société Philomathique de Paris. 3: 181–188.
^ "Indian scientists discover 'mermaid' plant species". https://www.bbc.com/news/world-asia-india-58240416
^ Guiry, M.D.; Guiry, G.M. (2007). "Genus: Acetabularia taxonomy browser". AlgaeBase version 4.2 World-wide electronic publication, National University of Ireland, Galway. Retrieved 27 September 2007.
^ Mandoli, DF (1998). "Elaboration of Body Plan and Phase Change during Development of Acetabularia: How Is the Complex Architecture of a Giant Unicell Built?". Annual Review of Plant Physiology and Plant Molecular Biology. 49: 173–198. doi:10.1146/annurev.arplant.49.1.173. PMID 15012232.
^ B. Goodwin (1994) "How the Leopard Changed its Spots" Weidenfeld & Nicolson, London
^ ^a ^b . doi:10.1016/S0074-7696(08)61042-6. {{cite journal}}: Cite journal requires |journal= (help); Missing or empty |title= (help)
^ Lee, Robert E. (1999). Phycology. Cambridge, [England]: Cambridge University Press. pp. 217. ISBN 978-0-521-63883-8.
^ Index Fungorum.
^ Shihira-Ishikawa, I (1984). "Chromosome behavior in the primary nucleus of Acetabularia calyculus as revealed by epifluorescent microscopy". Protoplasma. 122 (1–2): 27–34. doi:10.1007/BF01279434. S2CID 24880240.
^ Sweeney, Beatrice M.; Tuffli, Charles F.; Rubin, Richard H. (1 January 1967). "The Circadian Rhythm in Photosynthesis in Acetabularia in the Presence of Actinomycin D, Puromycin, and Chloramphenicol". The Journal of General Physiology. 50 (3): 647–659. doi:10.1085/jgp.50.3.647. PMC 2225675. PMID 11526851.

External links

www.accessexcellence.org
Berger, Sigrid (2006).- Photo-Atlas of living Dasycladales.- ISBN 2-916733-01-9, Carnets de Géologie, Brest, Book / Livre 2006/02 (CG2006_BOOK_02), 348 p., 1 fig., 332 micrographs.
UTEX culture collection of algae, at the University of Texas at Austin
CCAP: Culture Collections of Algae and Protozoa

[1] Lamouroux JVF (1812). "Extrait d'un mémoire sur la classification des Polypiers coralligènes non entièrement pierreux". Nouveaux Bulletin des Sciences, par la Société Philomathique de Paris. 3: 181–188.

[2] "Indian scientists discover 'mermaid' plant species". https://www.bbc.com/news/world-asia-india-58240416

[Algaebase-3] Guiry, M.D.; Guiry, G.M. (2007). "Genus: Acetabularia taxonomy browser". AlgaeBase version 4.2 World-wide electronic publication, National University of Ireland, Galway. Retrieved 27 September 2007.

[4] Mandoli, DF (1998). "Elaboration of Body Plan and Phase Change during Development of Acetabularia: How Is the Complex Architecture of a Giant Unicell Built?". Annual Review of Plant Physiology and Plant Molecular Biology. 49: 173–198. doi:10.1146/annurev.arplant.49.1.173. PMID 15012232.

[5] B. Goodwin (1994) "How the Leopard Changed its Spots" Weidenfeld & Nicolson, London

[Hämmerling-6] . doi:10.1016/S0074-7696(08)61042-6. {{cite journal}}: Cite journal requires |journal= (help); Missing or empty |title= (help)

[7] Lee, Robert E. (1999). Phycology. Cambridge, [England]: Cambridge University Press. pp. 217. ISBN 978-0-521-63883-8.

[8] Index Fungorum.

[9] Shihira-Ishikawa, I (1984). "Chromosome behavior in the primary nucleus of Acetabularia calyculus as revealed by epifluorescent microscopy". Protoplasma. 122 (1–2): 27–34. doi:10.1007/BF01279434. S2CID 24880240.

[10] Sweeney, Beatrice M.; Tuffli, Charles F.; Rubin, Richard H. (1 January 1967). "The Circadian Rhythm in Photosynthesis in Acetabularia in the Presence of Actinomycin D, Puromycin, and Chloramphenicol". The Journal of General Physiology. 50 (3): 647–659. doi:10.1085/jgp.50.3.647. PMC 2225675. PMID 11526851.

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@@ Line 36: / Line 36: @@
 [[File:Acetabularia meditarranea.jpg|right|thumb|Details of ''Acetabularia mediterranea'']]
-In the 1930s–1950s [[Joachim Hämmerling]] conducted experiments in which he demonstrated ''Acetabularia'''s [[genetics|genetic]] information is contained in the nucleus.<ref name="Hämmerling">{{cite journal
+In the 1930s–1950s [[Joachim Hämmerling]] conducted experiments in which he demonstrated ''Acetabularia'''s [[genetics|genetic]] information is contained in the nucleus.<ref name="Hämmerling">{{cite journal |doi=10.1016/S0074-7696(08)61042-6 }}</ref> This was the first demonstration that [[gene]]s are encoded by [[DNA]] in [[eukaryote]]s; earlier studies by [[Oswald Avery]] and others had shown that this was true for [[prokaryote]]s.
-|last=Hämmerling
-|first=J
-|year=1953
-|title=Nucleo-cytoplasmic relationships in the development of Acetabularia
-|journal=J. Intern. Rev. Cytol.
-|volume=2
-|pages=475–498
-|doi=10.1016/S0074-7696(08)61042-6
-|series=International Review of Cytology
-|isbn=978-0-12-364302-5
-}}</ref> This was the first demonstration that [[gene]]s are encoded by [[DNA]] in [[eukaryote]]s; earlier studies by [[Oswald Avery]] and others had shown that this was true for [[prokaryote]]s.
 ==Etymology==
@@ Line 108: / Line 97: @@
 * {{cite journal |vauthors=Berger S, de Groot E, Heuhaus G, Schweiger M | year = 1987 | title = Acetabularia: a giant single cell organism with valuable advantages for cell biology | journal = European Journal of Cell Biology | volume = 44 | pages = 349–370 }}
 * {{cite book | author = Puiseux-Dao S | year = 1970 | title = Acetabularia and Cell Biology | publisher = Springer Verlag | location = New York | isbn = 0-236-17738-9}}
+* {{cite journal |doi=10.1007/978-3-642-46169-9_1 }}
-* {{cite journal | author = Schweiger H? | year = 1969 | title = Cell biology of Acetabularia | journal = Current Topics in Microbiology and Immunology | volume = 50 | pages = 1–36 | doi=10.1007/978-3-642-46169-9_1| pmid = 4907132 | isbn = 978-3-642-46171-2 }}
 ===Sundry references===
 * Cinelli, F. (1979). Acetabularia acetabulum (L.) Silva, Acetabularia parvula Solms-Laubach and Dasycladus vermicularis (Scopoli) Krasser (Chlorophyta, Dasycladales): ecology and distribution in the Mediterranean Sea.. In: Developmental Biology of Acetabularia. (Bonotto, S., Kefeli, V. & Puiseux-Dao, S. Eds), pp.&nbsp;3–14. Amsterdam: Elsevier North Holland Biomedical Press.
+* {{cite journal |last1=Cooper |first1=John J. |last2=Mandoli |first2=Dina F. |title=PHYSIOLOGICAL FACTORS THAT AID DIFFERENTIATION OF ZYGOTES AND EARLY JUVENILES OF ACETABULARIA ACETABULUM (CHLOROPHYTA) |journal=Journal of Phycology |date=February 1999 |volume=35 |issue=1 |pages=143–151 |doi=10.1046/j.1529-8817.1999.3510143.x }}
-* Cooper, J.J. & Mandoli, D.F. (1999). Physiological factors that aid differentiation of zygotes and early juveniles of Acetabularia acetabulum (Chlorophyta). Journal of Psychology 35: 143–151, 9 figs.
+* {{cite journal |doi=10.1007/978-94-009-6560-7_33 }}
-* Dazy, A. C., Borghi, H., Durand, M. & Puiseux-Dao, S. (1984). The effects of blue and red light on the transcellular electric potential, cytoplasmic streaming and rRNA transport in Acetabularia acetabulum. Proceedings of the International Seaweed Symposium 11: 193–197.
+* {{cite journal |last1=Hunt |first1=Brenda E. |last2=Mandoli |first2=Dina F. |title=A NEW, ARTIFICIAL SEA WATER THAT FACILITATES GROWTH OF LARGE NUMBERS OF CELLS OF ACETABULARIA ACETABULUM (CHLOROPHYTA) AND REDUCES THE LABOR INHERENT IN CELL CULTURE1 |journal=Journal of Phycology |date=June 1996 |volume=32 |issue=3 |pages=483–495 |doi=10.1111/j.0022-3646.1996.00483.x }}
-* Hunt, B.E. & Mandoli, D.F. (1996). A new, artificial seawater that facilitates growth of large numbers of cells of Acetabularia acetabulum (Chlorophyta) and reduces the labor inherent in cell culture. Journal of Psychology 32: 483–495, 6 figs, 3 tables.
-* Kingsley, R.J., Van Gilder, R., LeGeros, R.Z. & Watabe, N. (2003). Multimineral calcareous deposits in the marine alga Acetabularia acetabulum (Chlorophyta; Dasycladaceae). Journal of Psychology 39: 937–947.
+* {{cite journal |last1=Kingsley |first1=Roni J. |last2=Van Gilder |first2=Rachel |last3=LeGeros |first3=Racquel Z. |last4=Watabe |first4=Norimitsu |title=MULTIMINERAL CALCAREOUS DEPOSITS IN THE MARINE ALGA ACETABULARIA ACETABULUM (CHLOROPHYTA; DASYCLADACEAE) |journal=Journal of Phycology |date=October 2003 |volume=39 |issue=5 |pages=937–947 |doi=10.1046/j.1529-8817.2003.02169.x }}
+* {{cite journal |last1=Kratz |first1=Rene F. |last2=Young |first2=Philip A. |last3=Mandoli |first3=Dina F. |title=TIMING AND LIGHT REGULATION OF APICAL MORPHOGENESIS DURING REPRODUCTIVE DEVELOPMENT IN WILD-TYPE POPULATIONS OF ACETABULARIA ACETABULUM (CHLOROPHYCEAE) |journal=Journal of Phycology |date=February 1998 |volume=34 |issue=1 |pages=138–146 |doi=10.1046/j.1529-8817.1998.340138.x }}
-* Kratz, R.F., Young, P.A. & Mandoli, D.F. (1998). Timing and light regulation of apical morphogenesis during reproductive development in wild-type populations of Acetabularia acetabulum (Chlorophyceae). Journal of Psychology 34: 138–146, 6 figs, 2 tables.
+* {{cite journal |last1=Lüttke |first1=Angela |title=THE LACK OF CHLOROPLAST DNA IN ACETABULARIA MEDITERRANEA (ACETABULUM) (CHLOROPHYCEAE): A REINVESTIGATION |journal=Journal of Phycology |date=June 1988 |volume=24 |issue=2 |pages=173–180 |doi=10.1111/j.1529-8817.1988.tb04231.x }}
-* Lüttke, A. (1988). The lack of chloroplast DNA in Acetabularia mediterranea (acetabulum) (Chlorophyceae): A reinvestigation. Journal of Psychology 24: 173–180, 12 figs.
+* {{cite journal |last1=Mandoli |first1=Dina F. |last2=Wexler |first2=Adam |last3=Teschmacher |first3=Jill |last4=Zukowski |first4=Annette |title=BRIEF INCUBATION OF GAMETANGIA-BEARING CAPS IN ANTIBIOTICS ELIMINATES BRANCHING IN PROGENY OF ACETABULARIA ACETABULUM (CHLOROPHYTA)1 |journal=Journal of Phycology |date=October 1995 |volume=31 |issue=5 |pages=844–848 |doi=10.1111/j.0022-3646.1995.00844.x }}
-* Mandoli, D.F., Wexler, A., Teschmacher, J. & Zukowski, A. (1995). Note: Brief incubation of gametangia-bearing caps in antibiotics eliminates branching in progeny of Acetabularia acetabulum (Chlorophyta). Journal of Psychology 31: 844–848, 4 figs, 3 tables.
-* Menzel, D. (1981). Development and fine structure of plugs in the cap rays of Acetabularia acetabulum (mediterranea) (L.) Silva (Dasycladales). Phycologia 20: 56–64, 21 figs.
+* {{cite journal |last1=Menzel |first1=Diedrik |title=Development and fine structure of plugs in the cap rays of Acetabularia acetabulum (mediterranea) (L.) Silva (Dasycladales) |journal=Phycologia |date=March 1981 |volume=20 |issue=1 |pages=56–64 |doi=10.2216/i0031-8884-20-1-56.1 }}
-* Nishimura, N.J. & Mandoli, D.F. (1992). Population analysis of reproductive cell structures of Acetabularia acetabulum (Chlorophyta). Phycologia 31: 351–358, 9 figs, 2 tables.
+* {{cite journal |last1=Nishimura |first1=N. J. |last2=Mandoli |first2=D. F. |title=Population analysis of reproductive cell structures of Acetabularia acetabulum (Chlorophyta) |journal=Phycologia |date=May 1992 |volume=31 |issue=3-4 |pages=351–358 |doi=10.2216/i0031-8884-31-3-4-351.1 }}
+* {{cite journal |last1=Nishimura |first1=Nathan J. |last2=Mandoli |first2=Dina F. |title=VEGETATIVE GROWTH OF ACETABULARIA ACETABULUM (CHLOROPHYTA): STRUCTURAL EVIDENCE FOR JUVENILE AND ADULT PHASES IN DEVELOPMENT1 |journal=Journal of Phycology |date=October 1992 |volume=28 |issue=5 |pages=669–677 |doi=10.1111/j.0022-3646.1992.00669.x }}
-* Nishimura, N.J. & Mandoli, D.F. (1992). Vegetative growth of Acetabularia acetabulum (Chlorophyta): structural evidence for juvenile and adult phases in development. Journal of Psychology 28: 669–677, 7 figs.
-* Zeller, A. & Mandoli, D.F. (1993). Growth of Acetabularia acetabulum (Dasycladales, Chlorophyta) on solid substrata at specific cell densities. Phycologia 32: 136–142
+* {{cite journal |last1=Zeller |first1=A. |last2=Mandoli |first2=D. F. |title=Growth of Acetabularia acetabulum (Dasycladales, Chlorophyta) on solid substrata at specific cell densities |journal=Phycologia |date=March 1993 |volume=32 |issue=2 |pages=136–142 |doi=10.2216/i0031-8884-32-2-136.1 }}
 == External links ==