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- 1 KB (143 words) - 19:27, 27 November 2010
- 12 bytes (1 word) - 11:51, 26 September 2007
- | pagename = Eukaryote | abc = eukaryote749 bytes (71 words) - 08:18, 15 March 2024
- 12 bytes (1 word) - 11:51, 26 September 2007
- 134 bytes (19 words) - 21:35, 5 April 2009
- Auto-populated based on [[Special:WhatLinksHere/Eukaryote]]. Needs checking by a human.2 KB (213 words) - 16:25, 11 January 2010
Page text matches
- #REDIRECT [[Eukaryote]]23 bytes (2 words) - 19:46, 26 March 2007
- #REDIRECT [[eukaryote]]23 bytes (2 words) - 12:02, 5 April 2007
- #redirect [[Eukaryote]]23 bytes (2 words) - 23:07, 1 March 2007
- | pagename = Eukaryote | abc = eukaryote749 bytes (71 words) - 08:18, 15 March 2024
- A [[eukaryote|eukaryotic]] [[organism]], grouped into the [[kingdom (biology)|kingdom]] '269 bytes (29 words) - 16:41, 12 April 2009
- The part of a [[eukaryote|eukaryotic]] [[cell (biology)|cell]] which contains most of its genetic mat167 bytes (23 words) - 03:42, 18 August 2009
- ...ized function. True organelles are membrane-bound and are only found in [[Eukaryote|Eukaryotic]] cells.198 bytes (28 words) - 07:21, 4 January 2008
- {{r|Eukaryote}}222 bytes (29 words) - 21:52, 12 March 2009
- {{r|Eukaryote}}415 bytes (51 words) - 21:41, 5 April 2009
- {{r|Eukaryote}}280 bytes (34 words) - 22:06, 2 March 2009
- Extensions of [[thylakoid]] membranes of the [[granum|grana]] inside [[Eukaryote|eukaryotic]] [[chloroplast]]s, linking the grana and, by so doing, linking626 bytes (88 words) - 23:13, 26 November 2010
- <br>[[Eukaryote]]579 bytes (87 words) - 04:12, 22 November 2023
- {{r|Eukaryote}}524 bytes (69 words) - 10:07, 1 February 2010
- {{r|Eukaryote}}483 bytes (62 words) - 18:57, 11 January 2010
- {{r|Eukaryote}}507 bytes (65 words) - 16:56, 11 January 2010
- {{r|Eukaryote}}701 bytes (100 words) - 22:16, 2 March 2009
- {{r|Eukaryote}}978 bytes (127 words) - 11:53, 11 January 2010
- {{r|Eukaryote}}1 KB (133 words) - 19:45, 11 January 2010
- {{r|Eukaryote}}1 KB (169 words) - 15:54, 1 March 2010
- ...verse field of study encompassing [[bacteria]], [[archaea]], unicellular [[eukaryote|eukaryotes]] and [[viruses]]. The term came into widespread use in the 19601 KB (161 words) - 19:49, 10 November 2007
- ...meaning nut or kernel. Prokaryotic cells are distinctively simpler than [[Eukaryote|eukaryotic]] cells, lacking a distinct membrane bound nucleus and membrane1 KB (160 words) - 17:55, 23 January 2011
- * Kurland CG ''et al.'' (2006) Genomics and the irreducible nature of eukaryote cells. ''Science'' '''312'''(5776):1011-4 PMID 167097761 KB (160 words) - 18:42, 24 March 2008
- ...meaning nut or kernal. Prokaryotic cells are distinctively simpler than [[Eukaryote|Eukaryotic]] cells. Prokaryotic cells lack a distinct membrane bound nucleu1,012 bytes (143 words) - 13:15, 13 November 2007
- Auto-populated based on [[Special:WhatLinksHere/Eukaryote]]. Needs checking by a human.2 KB (213 words) - 16:25, 11 January 2010
- ...f the Genome Project (with Gerry Rubin); the first genetic dissection of a eukaryote genome by segmental aneuploidy at the University of California, San Diego;3 KB (510 words) - 03:53, 22 November 2023
- {{r|Eukaryote}}2 KB (266 words) - 12:52, 9 April 2024
- {{r|Eukaryote}}2 KB (271 words) - 07:01, 9 September 2010
- ...erevisiae''''' is one of today’s most widely used yeasts. This unicellular eukaryote plays a key role in the fermentation processes which produce alcoholic beve ...een conducted. Due to its thorough investigation, this yeast was the first eukaryote to have its genome completely sequenced.4 KB (700 words) - 14:33, 28 August 2009
- ...s of a phagotrophic heterotrophic eukaryote with a photosynthetic red alga eukaryote (Keeling 2003). The plastid was secondarily lost in several lineages (Delwi5 KB (692 words) - 22:03, 27 September 2012
- {{r|Eukaryote}}3 KB (336 words) - 04:05, 8 June 2009
- {{r|Eukaryote}}3 KB (380 words) - 09:53, 5 August 2023
- In [[prokaryote]]s and simple [[eukaryote]]s, the effects of [[mutation]]s can be determined by isolating spontaneous2 KB (346 words) - 00:44, 8 May 2008
- ...|tree]] of life showing the separation of [[Bacteria]], [[Archaea]], and [[Eukaryote]] domains. See [[Microorganisms]] article for further explanation.]] ...organisms superficially similar to bacteria), and ''[[Eukaryote|Eukarya]] (eukaryote)'' domains.13 KB (2,052 words) - 06:27, 15 September 2013
- ...tive nucleus, in contrast to cells which possess well formed nuclei, the [[Eukaryote]]s.)3 KB (441 words) - 10:28, 12 October 2007
- ...]] and [[plastids]] (e.g. [[chloroplast]]s), which are [[organelle]]s of [[eukaryote|eukaryotic]] cells. According to this theory, these organelles originated ...y related to [[bacteria]]l homologues. This has led to the proposal that [[eukaryote]]s may have arisen through fusion of an [[archaeon]] and a bacterium.8 KB (1,150 words) - 15:22, 18 August 2009
- *[[Eukaryote]]4 KB (522 words) - 23:30, 10 November 2007
- {{r|Eukaryote}}5 KB (593 words) - 10:53, 12 May 2023
- ...].<ref>Kurland CG ''et al.'' (2006) Genomics and the irreducible nature of eukaryote cells. ''Science'' '''312'''(5776):1011-4 PMID 16709776</ref> ...finition of the three Domains - ''[[Bacteria]]'', ''[[Archaea]]'', and ''[[Eukaryote|Eukarya, (alternatively called Eukaryota)]]'' - of currently existing cells15 KB (2,298 words) - 21:50, 12 March 2009
- ...er similar pairs'', such as [[Plantae]] vs. [[Plant]], [[Eukaryota]] vs. [[Eukaryote]], etc. [[User:Joshua Choi|Joshua Choi]] 02:55, 29 March 2009 (UTC)5 KB (719 words) - 15:39, 30 March 2009
- ...microscopic]] [[organism]]s and [[community|communities]]. This includes [[eukaryote]]s (with a [[cell nucleus|nucleus]]) such as [[fungi]] and [[protists]] ([[ * [[Eukaryote]]11 KB (1,526 words) - 06:55, 9 June 2009
- Mitosis occurs exclusively in [[eukaryote|eukaryotic]] cells, but occurs in different ways in different species. For5 KB (851 words) - 17:59, 13 January 2009
- The cytoskeleton was once believed to be a feature only of [[eukaryote|eukaryotic]] cells, but [[homology (biology)|homologues]] of the major prot6 KB (861 words) - 10:22, 24 January 2011
- ...x-carbon-molecule) down into [[pyruvate]] (a three-carbon molecule). In [[eukaryote]]s, pyruvate moves into the [[mitochondrium|mitochondria]]. It is converted8 KB (1,089 words) - 02:01, 2 June 2009
- ...es in [[rRNA]], showing the separation of [[bacteria]], [[archaea]], and [[eukaryote]]s.}} ...typical bacterial features, and are in many aspects similar to those of [[eukaryote]]s. For instance, archaean translation uses eukaryotic-like initiation and14 KB (2,053 words) - 05:54, 9 June 2009
- :Thus: "Inside [[plant]] [[Cell (biology)|cells]] and other [[Eukaryote|Eukaryotic]] cells that carry out [[photosynthesis]], tiny, [[bacteria]]-si7 KB (1,098 words) - 02:24, 7 March 2024
- {{r|Eukaryote}}8 KB (1,034 words) - 14:21, 8 March 2024
- ...ological [[Three-domain system|sub-kingdoms]] (domains), such as between [[eukaryote|eukaryotic]] protists and bacteria, or between bacteria and insects are the ...ed on SSU rRNA sequences, showing the separation of Bacteria, Archaea, and Eukaryote domains. See [[Microorganisms]] article for further explanation]]29 KB (4,264 words) - 18:44, 2 October 2013
- ...ylation. The post glycolytic reactions take place in the mitochondria in [[eukaryote|eukaryotic cell]]s, and at the cell membrane in [[prokaryote|prokaryotic ce9 KB (1,309 words) - 04:08, 26 September 2007
- ...an important cellular mechanism found in plants, animals and many other [[eukaryote]]s, most likely evolved as a defense against viruses. An elaborate machiner Since viruses that infect [[eukaryote]]s need to transport their genetic material into the host cell's [[cell nuc16 KB (2,389 words) - 01:43, 30 December 2010
- Inside [[plant]] [[Cell (biology)|cells]] and other [[Eukaryote|eukaryotic]] cells that perform [[photosynthesis]], tiny, [[bacteria]]-size9 KB (1,262 words) - 16:26, 23 September 2013