Search results
From Bioblast
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (194 words) - 10:57, 11 November 2016
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (203 words) - 10:41, 14 February 2020
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (203 words) - 10:02, 3 June 2020
- ...ct of the loss of activity of the mitochondrial enzyme in a photosynthetic organism. In this purpose, we inactivated by RNA interference the expression of the |organism=Algae2 KB (238 words) - 15:15, 8 August 2023
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (202 words) - 10:02, 3 June 2020
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (202 words) - 10:02, 3 June 2020
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (202 words) - 10:03, 3 June 2020
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (202 words) - 10:03, 3 June 2020
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (206 words) - 10:04, 3 June 2020
- |organism=Fishes, Crustaceans, Annelids |preparations=Intact organism2 KB (244 words) - 05:00, 23 November 2021
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (186 words) - 16:08, 4 June 2017
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (212 words) - 08:54, 6 July 2023
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (190 words) - 10:02, 3 June 2020
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (191 words) - 16:11, 4 June 2017
- |?Mammal and model=Organism |?Mammal and model=Organism1 KB (198 words) - 10:54, 11 November 2016
- |abstract=The life cycle of an organism is one of its most elemental features, underpinning a broad range of phenom |organism=Plants2 KB (248 words) - 10:14, 9 November 2016
- ...thermal performance is likely to confer variation in the upper limit of an organism's thermal niche and in turn affect the structure of wild populations in war |organism=Fishes2 KB (340 words) - 16:53, 26 March 2018
- |organism=Bovines |preparations=Intact organism2 KB (240 words) - 15:24, 17 February 2015
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (213 words) - 18:55, 15 May 2019
- |organism=Other invertebrates |preparations=Intact organism2 KB (281 words) - 10:13, 9 November 2016
- |organism=Bovines529 bytes (70 words) - 13:15, 3 April 2021
- |organism=Human |preparations=Intact organism2 KB (257 words) - 02:43, 21 January 2020
- |organism=Rat, Annelids636 bytes (71 words) - 04:49, 23 November 2021
- |organism=Hexapods |preparations=Intact organism2 KB (237 words) - 04:27, 29 February 2020
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (257 words) - 16:30, 11 January 2017
- |organism=Bovines618 bytes (83 words) - 12:21, 24 February 2015
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (206 words) - 16:38, 13 January 2023
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (241 words) - 16:13, 11 January 2017
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (214 words) - 16:05, 20 March 2019
- |organism=Rat514 bytes (69 words) - 17:00, 16 January 2021
- ...etic demands, represent multiple powerful experimental systems in a single organism. Extensive resources are available for the community of ''Drosophila'' rese |organism=Drosophila2 KB (289 words) - 15:36, 15 March 2023
- ...nknown. Electron cryotomography of whole mitochondria from the aging model organism ''Podospora anserina'' revealed profound age-dependent changes in membrane |organism=Fungi2 KB (244 words) - 18:27, 16 January 2021
- ...ract=Epigenetic mechanisms control gene activity and the development of an organism. The epigenome includes DNA methylation, histone modifications, and RNA-med |organism=Human2 KB (235 words) - 18:50, 16 January 2021
- ...tion of fahd-1, the nematode homolog of FAHD1, in the context of an intact organism. We found that mutation of fahd-1 resulted in reduced brood size, a deregul |organism=Caenorhabditis elegans, Nematodes2 KB (343 words) - 10:11, 9 November 2016
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (214 words) - 16:04, 16 April 2018
- |organism=Rat603 bytes (75 words) - 11:30, 15 June 2015
- |organism=Human |preparations=Intact organism2 KB (257 words) - 06:48, 28 June 2022
- |organism=Human |preparations=Intact organism2 KB (266 words) - 15:36, 28 June 2020
- |organism=Human |preparations=Intact organism2 KB (253 words) - 16:12, 20 November 2015
- |organism=Algae562 bytes (73 words) - 15:13, 8 August 2023
- |organism=Caenorhabditis elegans |preparations=Intact organism2 KB (249 words) - 10:16, 5 December 2022
- |organism=Human791 bytes (101 words) - 11:52, 31 July 2014
- |organism=Rat730 bytes (81 words) - 04:43, 23 November 2021
- |organism=Human |preparations=Intact organism2 KB (252 words) - 19:37, 2 February 2020
- |organism=Caenorhabditis elegans |preparations=Intact organism2 KB (244 words) - 09:41, 12 August 2019
- ...esses a very similar fatty acid oxidation system and has served well as an organism for modeling genetic loss of function. Knockout mice have been created for |organism=Mouse2 KB (276 words) - 16:16, 29 October 2023
- |organism=Caenorhabditis elegans, Nematodes |preparations=Intact organism2 KB (240 words) - 10:11, 9 November 2016
- |organism=Rat607 bytes (76 words) - 17:55, 16 January 2021
- |?Mammal and model=Organism682 bytes (95 words) - 15:30, 10 June 2020
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (283 words) - 11:33, 11 November 2016
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (213 words) - 22:34, 19 January 2020
- |organism=Human |preparations=Intact organism2 KB (272 words) - 14:31, 5 May 2020
- |organism=Rat668 bytes (81 words) - 04:27, 23 November 2021
- |organism=Annelids |preparations=Intact organism2 KB (254 words) - 04:52, 23 November 2021
- |organism=Rat826 bytes (103 words) - 17:08, 13 December 2019
- |organism=Human |preparations=Intact organism2 KB (270 words) - 23:00, 8 March 2020
- |organism=Human |preparations=Intact organism2 KB (246 words) - 02:04, 11 July 2021
- |organism=Human |preparations=Intact organism2 KB (258 words) - 11:53, 8 January 2020
- |?Mammal and model=Organism643 bytes (85 words) - 09:20, 13 February 2020
- |?Mammal and model=Organism643 bytes (85 words) - 09:21, 13 February 2020
- |?Mammal and model=Organism643 bytes (85 words) - 09:21, 13 February 2020
- |?Mammal and model=Organism643 bytes (85 words) - 09:21, 13 February 2020
- |organism=Human572 bytes (72 words) - 19:04, 11 August 2013
- |organism=Molluscs674 bytes (84 words) - 20:45, 22 November 2021
- |organism=Eubacteria |preparations=Intact organism2 KB (244 words) - 10:50, 16 February 2018
- |organism=Mouse736 bytes (86 words) - 16:17, 7 May 2020
- ...data. This is particularly clear in ''Drosophila'' studies, a common model organism in biological research, with increasingly popularity in mitochondrial resea |organism=2 KB (302 words) - 14:31, 1 August 2023
- ...cation of the Krogh principle to plants introduced a corollary: “No single organism... exists that can provide easy access to the diversity of hidden mechanism2 KB (274 words) - 11:56, 26 February 2015
- |organism=Human |preparations=Intact organism2 KB (286 words) - 11:16, 27 December 2021
- |organism=Human, Horse, Dog |preparations=Intact organism2 KB (290 words) - 15:25, 17 February 2015
- |organism=Fishes759 bytes (92 words) - 12:04, 23 January 2019
- |organism=Fishes, Crustaceans, Plants831 bytes (97 words) - 04:54, 23 November 2021
- |organism=Molluscs |preparations=Intact organism2 KB (301 words) - 14:52, 27 December 2021
- ...easing due to their importance in the physiology and pathophysiology of an organism. Neuroblastoma cell line SH-SY5Y is widely used as an ''in vitro'' model in |organism=Human2 KB (277 words) - 15:41, 7 May 2020
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (289 words) - 16:31, 11 January 2017
- ...hagen DK ''', 2019 Aug 19-23. Mitochondrial Physiology ‐ from Organelle to Organism |abstract= Mitochondrial Physiology ‐ from Organelle to Organism , Copenhagen, Denmark, 20192 KB (294 words) - 15:33, 23 November 2021
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (261 words) - 11:33, 11 November 2016
- |?Mammal and model=Organism675 bytes (87 words) - 09:15, 13 February 2020
- |?Mammal and model=Organism675 bytes (87 words) - 09:16, 13 February 2020
- |?Mammal and model=Organism675 bytes (87 words) - 09:16, 13 February 2020
- |?Mammal and model=Organism672 bytes (87 words) - 09:16, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:16, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:17, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:17, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:18, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:18, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:18, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:20, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:20, 13 February 2020
- |?Mammal and model=Organism670 bytes (87 words) - 09:20, 13 February 2020
- |?Mammal and model=Organism675 bytes (87 words) - 09:14, 13 February 2020
- |?Mammal and model=Organism672 bytes (87 words) - 09:14, 13 February 2020
- |organism=Caenorhabditis elegans, Nematodes |preparations=Intact organism2 KB (265 words) - 10:10, 9 November 2016
- ...Gnaiger E, eds (2010) Mitochondrial physiology. The many functions of the organism in our cells. Mitochondr Physiol Network 15.06:128 pp. ISBN 978-3-9502399-4 ...as a FEBS workshop '''Mitochondrial Physiology. The Many Functions of the Organism in Our Cells''', as acontinuation of a series of events focusing on mitocho2 KB (291 words) - 13:27, 17 October 2017
- |organism=Bovines693 bytes (99 words) - 11:18, 28 May 2015
- ...rotective mechanism called non-photochemical quenching (NPQ). In the model organism for green algae ''Chlamydomonas reinhardtii'', NPQ is triggered by pigment |organism=Algae2 KB (263 words) - 15:30, 8 August 2023
- |organism=Rat912 bytes (116 words) - 17:10, 13 December 2019
- |organism=Human, Eubacteria606 bytes (91 words) - 16:32, 17 September 2017
- ::::* [[Mitochondrial Physiology ‐ from Organelle to Organism 2019 Copenhagen DK]]717 bytes (84 words) - 13:27, 16 March 2020
- ...n the organism, and in some quarters is still claimed. How does the living organism avoid decay? The obvious answer is: By eating, drinking, breathing and (in ::::* An organism's astonishing gift of concentrating a 'stream of order' on itself and thus4 KB (632 words) - 09:34, 1 May 2024
- |organism=Human |preparations=Intact organism2 KB (289 words) - 15:13, 7 January 2020
- === Mitochondria - the Organism in our Cells ===3 KB (431 words) - 11:32, 6 July 2022
- |organism=Human |preparations=Intact organism2 KB (298 words) - 00:35, 16 February 2020
- ...tical maximum). We found that at temperature ranges causing the loss of an organism's general homeostasis (between 20°C and 25°C) and with a substrate combin |organism=Fishes3 KB (397 words) - 12:49, 26 February 2018
- |organism=Rat1 KB (127 words) - 10:41, 10 April 2022
- |?Mammal and model=Organism548 bytes (72 words) - 12:49, 25 February 2020
- |?Mammal and model=Organism752 bytes (87 words) - 14:51, 29 November 2016
- |?Mammal and model=Organism697 bytes (91 words) - 09:14, 13 February 2020
- |?Mammal and model=Organism696 bytes (91 words) - 09:14, 13 February 2020
- |?Mammal and model=Organism698 bytes (91 words) - 09:13, 13 February 2020
- |?Mammal and model=Organism698 bytes (91 words) - 09:13, 13 February 2020
- |?Mammal and model=Organism698 bytes (91 words) - 09:12, 13 February 2020
- |?Mammal and model=Organism698 bytes (91 words) - 09:12, 13 February 2020
- |?Mammal and model=Organism699 bytes (91 words) - 09:11, 13 February 2020
- |?Mammal and model=Organism699 bytes (91 words) - 09:09, 13 February 2020
- |organism=Bovines946 bytes (119 words) - 17:09, 13 December 2019
- |organism=Human, Mouse, Bovines, Horse, Dog, Other mammals |preparations=Intact organism2 KB (301 words) - 07:18, 28 June 2022
- |organism=Human, Rat719 bytes (87 words) - 17:23, 9 November 2017
- |organism=Human664 bytes (88 words) - 13:47, 26 May 2015
- |organism=Mouse780 bytes (88 words) - 11:53, 12 February 2022
- |organism=Human |preparations=Intact organism2 KB (271 words) - 21:54, 9 February 2020
- |organism=Mouse895 bytes (119 words) - 14:45, 14 July 2021
- |organism=Human |preparations=Intact organism, Intact cells2 KB (269 words) - 11:28, 18 December 2022
- |organism=Human |preparations=Intact organism2 KB (314 words) - 13:58, 25 December 2019
- |organism=Caenorhabditis elegans |preparations=Intact organism2 KB (250 words) - 16:51, 7 May 2020
- |organism=Rat748 bytes (105 words) - 14:26, 27 March 2018
- |organism=Plants, Eubacteria849 bytes (106 words) - 06:41, 6 February 2024
- |organism=Fungi668 bytes (95 words) - 10:44, 6 February 2018
- |organism=Human684 bytes (82 words) - 11:21, 23 February 2015
- |organism=Human |preparations=Intact organism2 KB (287 words) - 23:02, 8 March 2020
- |organism=Eubacteria |preparations=Intact organism2 KB (277 words) - 10:56, 14 August 2018
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (318 words) - 13:02, 11 January 2017
- |organism=Crustaceans, Annelids |preparations=Intact organism2 KB (275 words) - 04:53, 23 November 2021
- |?Mammal and model=Organism541 bytes (72 words) - 17:43, 25 February 2020
- |organism=Human |preparations=Intact organism2 KB (281 words) - 11:43, 8 March 2020
- |organism=Human, Mouse732 bytes (99 words) - 11:30, 8 November 2016
- |organism=Human, Mouse, Rat |preparations=Intact organism2 KB (291 words) - 23:40, 18 December 2022
- |organism=Molluscs |preparations=Intact organism2 KB (293 words) - 05:48, 23 November 2021
- |organism=Fishes793 bytes (107 words) - 16:54, 26 March 2018
- |organism=Plants |preparations=Intact organism2 KB (269 words) - 13:50, 28 August 2018
- |organism=Mouse734 bytes (105 words) - 11:27, 8 November 2016
- |organism=Human |preparations=Intact organism2 KB (308 words) - 03:13, 21 January 2020
- |organism=Eubacteria |preparations=Intact organism, Intact cells2 KB (272 words) - 14:53, 16 May 2023
- |organism=Caenorhabditis elegans, Nematodes |preparations=Intact organism2 KB (286 words) - 00:58, 10 November 2023
- |organism=Human |preparations=Intact organism2 KB (292 words) - 17:55, 21 February 2020
- |organism=Human919 bytes (116 words) - 16:14, 6 March 2020
- |?Mammal and model=Organism767 bytes (93 words) - 09:12, 5 October 2020
- |organism=Mouse |preparations=Intact organism, Isolated mitochondria2 KB (267 words) - 12:37, 3 April 2019
- ...of the largest intracellular acidifications ever reported for a eukaryotic organism. However, the endogenous origin of this pH shift remains largely unexplaine |organism=Artemia, Crustaceans3 KB (444 words) - 09:35, 9 November 2016
- |organism=Human, Mouse837 bytes (112 words) - 13:03, 18 March 2018
- |organism=Mouse820 bytes (104 words) - 14:09, 14 July 2021
- |organism=Human |preparations=Intact organism2 KB (272 words) - 07:53, 21 February 2020
- ...hm. possesses a form II RUBISCO. To cast some light on the mechanisms this organism undergoes to cope with low CO2 availability, we compared cells grown at atm |organism=Algae2 KB (318 words) - 15:30, 8 August 2023
- |organism=Human937 bytes (124 words) - 17:06, 13 December 2019
- |organism=Protists |preparations=Intact organism, Intact cells2 KB (308 words) - 13:41, 4 June 2018
- ...variation in species longevity. We compared age-related profiles of whole-organism lipid peroxidation (urinary isoprostanes) and liver lipid damage (malondial |organism=Mouse, Other mammals2 KB (304 words) - 14:15, 20 February 2015
- |organism=Mouse814 bytes (104 words) - 15:52, 13 November 2017
- ...meostasis is indispensable for a functional energy metabolism of the whole organism. Here, we report that loss of the mitochondrial matrix protease CLPP result |organism=Mouse2 KB (283 words) - 15:52, 9 May 2018
- |organism=Human |preparations=Intact organism2 KB (273 words) - 12:11, 27 March 2018
- ...coagulant in nature, exposure to prion favored a thrombogenic state in the organism. |organism=Human2 KB (275 words) - 16:19, 9 November 2016
- ...how considering variation in mitochondrial efficiency, together with whole-organism oxygen consumption, can permit a better understanding of the relationship b2 KB (300 words) - 12:13, 27 March 2018
- |organism=Fishes |preparations=Intact organism2 KB (315 words) - 09:01, 9 November 2016
- |organism=Mouse798 bytes (106 words) - 16:38, 7 November 2016
- |?Mammal and model=Organism591 bytes (79 words) - 20:20, 25 February 2020
- |organism=Mouse931 bytes (121 words) - 12:30, 4 December 2019
- ...ve phosphorylation more than 90% of the cellular energy (ATP) required for organism's growth, reproduction and maintenance. Hence, information on mitochondrial |organism=Birds3 KB (453 words) - 16:12, 13 November 2017
- ...ar eucaryotes with largely unknown functions. Invalidation of ATAD3 blocks organism development at early stages requiring mitochondrial mass increase. Since AT |organism=Mouse2 KB (288 words) - 13:30, 28 March 2018
- |organism=Other mammals, Fungi, Plants, Eubacteria761 bytes (96 words) - 10:37, 6 July 2022
- |organism=Human |preparations=Intact organism2 KB (298 words) - 11:55, 8 March 2020
- ...fects associated with the lack of the protein in living tissues, and whole organism. To test OXPHOS functionality in this wide spectrum of tissues and cells fr |organism=Human, Mouse2 KB (300 words) - 10:40, 9 November 2016
- |abstract=''Drosophila melanogaster'' is a popular research model organism thanks to its powerful genetic tools that allow spatial and temporal contro |organism=Drosophila2 KB (329 words) - 13:44, 27 March 2018
- ...s with other environmental parameters and variable O2 demand throughout an organism's life history, would have resulted in long-term evolutionary and ecologica2 KB (310 words) - 23:13, 15 July 2022
- |abstract=Maximal oxygen consumption (''V''<sub>O2</sub>) in the organism is defined by the integrated functional capacities of multiple organ system |organism=Human3 KB (422 words) - 11:10, 28 April 2017
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (318 words) - 09:07, 23 May 2018
- ...Ca<sup>2+</sup> uptake capacity. Furthermore, this crustacean is the only organism known to exhibit bongkrekate-insensitive mitochondrial adenine nucleotide e |organism=Artemia, Crustaceans2 KB (321 words) - 13:20, 10 March 2020
- |organism=Rat868 bytes (115 words) - 12:27, 5 February 2018
- ...protein Pantagruelian Mitochondrion I (PMI) both at the scale of the whole organism, and at the level of mitochondrial ultrastructure and function. We show tha |organism=Drosophila, Hexapods2 KB (313 words) - 10:02, 9 November 2016
- ...)phenol), a widely used antibacterial agent, exerts adverse effects on the organism of mammals. Recent research revealed that triclosan at low micromolar conce |organism=Rat2 KB (297 words) - 08:48, 27 June 2019
- |organism=Bovines, Saccharomyces cerevisiae, Fungi937 bytes (114 words) - 09:25, 9 November 2016
- |organism=Crustaceans, Molluscs |preparations=Intact organism2 KB (316 words) - 05:26, 23 November 2021
- |organism=Rat, Fishes717 bytes (100 words) - 17:24, 27 March 2018
- |organism=Human |preparations=Intact organism2 KB (328 words) - 23:02, 8 March 2020
- |organism=Human |preparations=Intact organism2 KB (298 words) - 23:02, 8 March 2020
- |organism=Mouse1,012 bytes (128 words) - 16:51, 17 October 2023
- |organism=Human |preparations=Intact organism2 KB (302 words) - 14:11, 16 June 2015
- |organism=Human |preparations=Intact organism2 KB (289 words) - 17:49, 24 December 2021
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (315 words) - 12:25, 20 February 2020
- |organism=Human |preparations=Intact organism, Permeabilized tissue, Isolated mitochondria2 KB (303 words) - 23:29, 8 December 2019
- |organism=Mouse, Rat, Guinea pig867 bytes (117 words) - 13:25, 27 May 2015
- |organism=Human |preparations=Intact organism2 KB (346 words) - 23:10, 15 July 2022
- |organism=Mouse |preparations=Intact organism2 KB (297 words) - 13:22, 24 March 2015
- |organism=Human, Mouse |preparations=Intact organism3 KB (346 words) - 02:55, 21 January 2020
- ...eral diseases lead to an unbalance in the metabolic processes, forcing the organism to deplete the body's energetic reserve to supply its own needs. One of the |organism=Mouse2 KB (353 words) - 17:42, 3 January 2018
- |organism=Rat |preparations=Intact organism2 KB (302 words) - 14:16, 16 June 2015
- |organism=Rat, Bovines, Saccharomyces cerevisiae, Birds826 bytes (107 words) - 06:55, 28 June 2022
- |organism=Human |preparations=Intact organism3 KB (322 words) - 17:14, 21 February 2020
- |organism=Human, Rat820 bytes (109 words) - 11:32, 8 November 2016
- |organism=Mouse872 bytes (124 words) - 11:54, 5 February 2018
- |organism=Human |preparations=Intact organism2 KB (324 words) - 17:52, 21 February 2020
- |organism=Human1 KB (128 words) - 17:38, 17 October 2023
- |?Mammal and model=Organism989 bytes (127 words) - 11:18, 13 February 2023
- ...atic functioning, which impairs the physiological performance of the whole organism. As a consequence, a paradigm shift seems reasonable towards a systemic vie |organism=Human3 KB (333 words) - 21:12, 14 July 2020
- |organism=Human |preparations=Intact organism2 KB (348 words) - 11:55, 8 March 2020
- ...pare cultures with different densities, using ''Nannochloropsis'' as model organism. We observed that cell density has a substantial impact on photosynthetic a |organism=Algae2 KB (315 words) - 14:46, 30 April 2024
- |organism=Human |preparations=Intact organism2 KB (339 words) - 12:40, 21 March 2016
- ...by data. This is particularly clear in Drosophila studies, a common model organism in biomedical research, which is increasingly popular in mitochondrial stud |organism=Drosophila3 KB (368 words) - 16:13, 21 August 2023
- |organism=Mouse800 bytes (104 words) - 10:52, 28 May 2018
- |organism=Rat763 bytes (98 words) - 21:36, 2 December 2016
- |organism=Mouse831 bytes (113 words) - 08:59, 19 October 2018
- ...h, in combination with pleiotropic OXPHOS inhibition, can be toxic for the organism. We conclude that the beneficial effect of biguanides should probably be as |organism=Rat2 KB (309 words) - 04:19, 12 February 2020
- |?Mammal and model=Organism |?Mammal and model=Organism2 KB (292 words) - 14:09, 24 September 2023
- |?Mammal and model=Organism |?Mammal and model=Organism5 KB (614 words) - 23:55, 25 January 2021
- |organism=Human, Bovines, Dog, Cat, Chicken820 bytes (107 words) - 12:24, 26 February 2015
- |organism=Human |preparations=Intact organism3 KB (330 words) - 16:09, 24 February 2020
- |organism=Caenorhabditis elegans |preparations=Intact organism2 KB (310 words) - 13:17, 9 July 2018
- |abstract=Sepsis, a systemic inflammatory response of the organism against an infection, |organism=Mouse2 KB (326 words) - 15:11, 23 January 2019
- |?Mammal and model=Organism762 bytes (99 words) - 17:42, 25 February 2020
- |organism=Artemia, Crustaceans |preparations=Intact organism3 KB (339 words) - 09:41, 9 November 2016
- |organism=Fishes |preparations=Intact organism, Isolated mitochondria2 KB (333 words) - 09:12, 9 November 2016
- ...personalized treatment options. The power of a genetically tractable model organism coupled with well-established ''in vivo'' assays and a relatively short lif |organism=Drosophila2 KB (311 words) - 14:10, 19 July 2021
- |organism=Saccharomyces cerevisiae |preparations=Intact organism, Intact cells2 KB (334 words) - 11:11, 8 July 2021
- |organism=Other invertebrates |preparations=Intact organism3 KB (359 words) - 15:14, 20 October 2017
- |organism=Human |preparations=Intact organism2 KB (334 words) - 11:43, 8 March 2020
- |organism=Human835 bytes (104 words) - 11:36, 17 September 2018
- ...cal processes in mitochondria and control phenotypic characteristics of an organism, we investigated the BH4 deficiency effect on cardiac mitochondria function |organism=Mouse2 KB (312 words) - 15:45, 28 March 2018
- |organism=Caenorhabditis elegans |preparations=Intact organism2 KB (320 words) - 12:05, 12 February 2018
- |organism=Other mammals956 bytes (133 words) - 09:25, 8 November 2016
- |?Organism624 bytes (80 words) - 14:46, 29 November 2016
- |organism=Rat796 bytes (114 words) - 17:05, 19 February 2018
- ..., tissue-specific relationships between mitochondrial properties and whole-organism metabolic traits were observed. Specifically, SMR was positively associated |organism=Fishes3 KB (353 words) - 16:53, 26 March 2018
- |organism=Saccharomyces cerevisiae1,019 bytes (141 words) - 15:13, 10 December 2015
- |organism=Human954 bytes (119 words) - 16:25, 8 May 2018
- |organism=Human |preparations=Intact organism3 KB (359 words) - 16:45, 24 February 2020
- |organism=Human |preparations=Intact organism2 KB (357 words) - 08:54, 8 March 2020
- |organism=Human |preparations=Intact organism2 KB (315 words) - 11:51, 8 January 2020
- ...he thrifty phenotype is also adaptive in the longer-term, by preparing the organism for its likely adult environment. However, windows of plasticity close earl |organism=Human4 KB (548 words) - 09:36, 23 November 2015
- |organism=Human928 bytes (125 words) - 23:13, 15 July 2022
- |organism=Plants1 KB (144 words) - 10:14, 9 November 2016
- ...glucose transporter 8 (GLUT8) as a critical regulator of hepatic and whole-organism metabolic homeostasis in the overfed and diabetic states. However, the func |organism=Mouse2 KB (327 words) - 14:51, 18 September 2018
- |organism=Rat987 bytes (137 words) - 11:25, 8 November 2016
- |organism=Mouse1 KB (135 words) - 12:51, 4 December 2019
- ...''Galleria mellonella'' larvae are argued to be an extremely useful intact organism for (i) pre-screening putative antidotes for efficacy and (ii) circumventin |organism=Bovines2 KB (344 words) - 18:21, 19 May 2020
- |organism=Dog |preparations=Intact organism2 KB (298 words) - 15:01, 17 February 2015
- |organism=Human |preparations=Intact organism2 KB (319 words) - 17:56, 21 February 2020
- |organism=Rat1 KB (120 words) - 04:24, 23 November 2021
- |organism=Human1 KB (135 words) - 13:25, 27 October 2023
- |organism=Human |preparations=Intact organism2 KB (334 words) - 12:10, 27 April 2015
- ...hallmarks of the development of metabolic inflexibility and reinforce this organism as a suitable model for the study of metabolic disorders. |organism=Drosophila3 KB (349 words) - 13:34, 20 October 2021
- |organism=Mouse1,010 bytes (121 words) - 16:58, 9 November 2017
- |organism=Human |preparations=Intact organism2 KB (358 words) - 20:50, 14 February 2020