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Aequorea victoria Crystal Jelly, Water Jellyfish

Aequorea victoriais commonly referred to as Crystal Jelly, Water Jellyfish. Difficulty in the aquarium: Not suitable for aquarium keeping.

Profilbild Urheber Phil Garner, Southern California Marine Life, USA

Aequorea victoria, 2015


Courtesy of the author Phil Garner, Southern California Marine Life, USA Phil Garner, USA. Please visit www.flickr.com for more information.

Uploaded by Muelly.

Image detail

Profile

lexID:
3226 
AphiaID:
283998 
Scientific:
Aequorea victoria 
German:
Fadententakel-Qualle, Wässrige Hydromeduse 
English:
Crystal Jelly, Water Jellyfish 
Category:
Jellyfish  
Family tree:
Animalia (Kingdom) > Cnidaria (Phylum) > Hydrozoa (Class) > Leptothecata (Order) > Aequoreidae (Family) > Aequorea (Genus) > victoria (Species) 
Initial determination:
(Murbach & Shearer, ), 1902 
Occurrence:
Canada , China, Japan, North Atlantic Ocean, North Pacific (Ocean), the Mediterranean Sea 
Sea depth:
0 - 6 Meter 
Size:
3.15" - 7.87" (8cm - 20cm) 
Temperature:
°F - 50 °F (°C - 10°C) 
Food:
Carnivore, Crustaceans, Fish eggs, Fish larvae, Jellyfish, Predatory 
Difficulty:
Not suitable for aquarium keeping 
Offspring:
Not available as offspring 
CITES:
Not evaluated 
Red List:
Not evaluated (NE) 
Related species at
Catalog of Life:
 
Author:
Publisher:
Meerwasser-Lexikon.de
Created:
Last edit:
2021-12-24 10:23:32 

Info

Aequorea victoria (Murbach & Shearer, 1902)

Aequorea victoria is one of the thread-tentacle jellyfish, sometimes called crystal jelly. Thhey are found widely along the Pacific coast of California and Oregon north to Vancouver Iceland.

This species is easy to identifie in the bright fluorescent dots around the edge of her bell body.

Synonymised names:
Campanulina membranosa Strong, 1925 (synonym (polyp))
Mesonema victoria Murbach & Shearer, 1902 (basionym)

Scientific paper

  1. Reversible Dimerization of Aequorea victoria Fluorescent Proteins Increases the Dynamic Range of FRET-Based Indicators, Kotera, Ippei; Iwasaki, Takuya; Imamura, Hiromi; Noji, Hiroyuki; Nagai, Takeharu , 2010
  2. An arbitrary Lagrangian–Eulerian formulation for the numerical simulation of flow patterns generated by the hydromedusa Aequorea victoria, Mehmet Sahin; Kamran Mohseni, 2009
  3. Crystallization and preliminary X-ray analysis of a monomeric mutant of Azami-Green (mAG), an Aequorea victoria green fluorescent protein-like green-emitting fluorescent protein from the stony coral Galaxea fascicularis, , 2009
  4. Control of swimming in the hydrozoan jellyfish Aequorea victoria: subumbrellar organization and local inhibition, Satterlie, R. A., 2008
  5. The First Mutant of the Aequorea victoria Green Fluorescent Protein That Forms a Red Chromophore , Mishin, Alexander S.; Subach, Fedor V.; Yampolsky, Ilia V.; King, William; Lukyanov, Konstantin A.; Verkhusha, Vladislav V. , 2008
  6. Structural and Spectral Response of Aequorea victoria Green Fluorescent Proteins to Chromophore Fluorination, Pal, Prajna P.; Bae, Jae Hyun; Azim, M. Kamran; Hess, Petra; Friedrich, Rainer; Huber, Robert; Moroder, Luis; Budisa, Nediljko, 2005
  7. Fusion of Aequorea victoria GFP and aequorin provides their Ca2+-induced interaction that results in red shift of GFP absorption and efficient bioluminescence energy transfer, Andrey Yu. Gorokhovatsky; Victor V. Marchenkov; Natalia V. Rudenko; Tanya V. Ivashina; Vladimir N. Ksenzenko; Nils Burkhardt; Gennady V. Semisotnov; Leonid M. Vinokurov; Yuli B. Alakhov, 2004
  8. Homogeneous assay for biotin based on Aequorea victoria bioluminescence resonance energy transfer system, Andrey Yu Gorokhovatsky; Natalia V Rudenko; Victor V Marchenkov; Vitaly S Skosyrev; Maxim A Arzhanov; Nils Burkhardt; Mikhail V Zakharov; Gennady V Semisotnov; Leonid M Vinokurov; Yuli B Alakhov, 2003
  9. Luminescent proteins from Aequorea victoria: applications in drug discovery and in high throughput analysis, Sapna K. Deo; S. Daunert, 2001
  10. Aequorea victoria bioluminescence moves into an exciting new era, Jonathan M Kendall; Michael N Badminton, 1998
  11. Transformation of Erwinia carotovora ssp. atroseptica with the Green Fluorescent Protein Gene from Aequorea victoria, A. G. Pesnyakevich; G. D. Lyon, 1998
  12. Sound scattering by the gelatinous zooplankters Aequorea victoria and Pleurobrachia bachei, B.C. Monger; S. Chinniah-Chandy; E. Meir; S. Billings; C.H. Greene; P.H. Wiebe, 1998
  13. Deletions of the Aequorea victoria Green Fluorescent Protein Define the Minimal Domain Required for Fluorescence, Li, X.; Zhang, G.; Ngo, N.; Zhao, X.; Kain, S. R.; Huang, C.-C. , 1997
  14. Structural Basis for Dual Excitation and Photoisomerization of the Aequorea victoria Green Fluorescent Protein, Katjusa Brejc, Titia K. Sixma, Paul A. Kitts, Steven R. Kain, Roger Y. Tsien, Mats Ormo and S. James Remington, 1997
  15. Deletion mapping of the Aequorea victoria green fluorescent protein, Jill Dopf; Thomas M. Horiagon, 1996
  16. Crystal Structure of the Aequorea victoria Green Fluorescent Protein, Orm , M.; Cubitt, A. B.; Kallio, K.; Gross, L. A.; Tsien, R. Y.; Remington, S. J., 1996
  17. Bacterial plasmid conjugation on semi-solid surfaces monitored with the green fluorescent protein (GFP) from Aequorea victoria as a marker, Bjarke Bak Christensen; Claus Sternberg; Soren Molin, 1996
  18. Enhanced Green Fluorescence by the Expression of an Aequorea victoria Green Fluorescent Protein Mutant in Mono- and Dicotyledonous Plant Cells, Christoph Reichel, Jaideep Mathur, Peter Eckes, Kerstin Langenkemper, Csaba Koncz, Jeff Schell, Bernd Reiss and Christoph Maas, 1996
  19. The Aequorea victoria Green Fluorescent Protein Can Be Used as a Reporter in Live Zebrafish Embryos, Adam Amsterdam; Shuo Lin; Nancy Hopkins, 1995
  20. Primary structure of the Aequorea victoria green-fluorescent protein, Prasher, Douglas C.; Eckenrode, Virginia K.; Ward, William W.; Prendergast, Frank G.; Cormier, Milton J. , 1992
  21. Two types of excretory pores in the hydrozoan medusa Aequorea victoria (Murbach and Shearer, 1902), Aria, Mary Needler; Chan, Ina Mae, 1989
  22. Predation on Fish Larvae and Eggs by the Hydromedusa Aequorea victoria at a Herring Spawning Ground in British Columbia, Purcell, Jennifer E., 1989
  23. Biochemical composition of fed and starved Aequorea victoria (Murbach et Shearer, 1902) (Hydromedusa), Mary Needier Aral; Jeffrey A. Ford; John N.C. Whyte, 1989
  24. Vulnerability of larval herring (Clupea harengus pallasi) to capture by the jellyfishAequorea victoria, J. E. Purcell; T. D. Siferd; J. B. Marliave, 1987
  25. Oxygen Consumption of Fed and Starved Aequorea victoria (Murbach and Shearer, 1902) (Hydromedusae), Mary Needler Arai, 1986

External links

  1. Wikipedia (de). Abgerufen am 07.08.2020.
  2. Wikipedia (en). Abgerufen am 07.08.2020.
  3. World Register of Marine Species (WoRMS) (en). Abgerufen am 07.08.2020.

Pictures

Commonly

Aequorea victoria , Crystal Jelly, Monterey Aquarium 2012
1
Copyright Ssblakely
1
Aequorea victoria, 2015
Aequorea victoria, 2015

Husbandry know-how of owners

Chewbacca
@Chewbacca

am 06.03.14#1
Eigentlich recht einfach zu halten. Im Laboratorium halten wir sie bei SEHR rudimentären Bedingungen einige Monate lang. Wir haben nur einen "Fish" einen mit Magneten rotierenden Stab der Strömung erzeugt in einem RUNDEN Becher,der etwa 40L fasst. Wichtig ist die Kühlung! Diese Qualle ist jedoch komplett durchsichtig! Man sieht sie fast nicht. Die einzige Möglichkeit die zu sehen sind UV oder sehr tiefblaue Strahlen die eine Fluoreszenz in den Fortpflanzungsorganen auslösen. Die Gewinnung dieses Grün fluoreszierenden Proteins Brachte Osamu Shimomura, Martin Chalfie und Roger Tsien 2008 den Nobelpreis in Chemie. Wird seitdem synthetisch hergestellt und im allen Laboratorien für fast alles verwendet! Eine echte Entdeckung! Haltung machbar, Interesse nur anekdotisch.

--
Gruss Robin Gauff
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