EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM
Understanding molecular adaptations evolved in response to environmental temperature changes is essential, because temperature affects the kinetic energy of molecules and modifies molecular interactions, macromolecular stability/functioning and membrane features. Environmental oxygen availability ma...
| Main Authors: | , , , , , |
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| Format: | Article in Journal/Newspaper |
| Language: | Portuguese |
| Published: |
Associação Brasileira de Ciência Ecológica e Conservação (ABECO)
2017
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| Subjects: | |
| Online Access: | https://revistas.ufrj.br/index.php/oa/article/view/8110 |
| _version_ | 1821752816543203328 |
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| author | Verde, Cinzia Giordano, Daniela Russo, Roberta Riccio, Alessia Coppola, Daniela di Prisco, Guido |
| author_facet | Verde, Cinzia Giordano, Daniela Russo, Roberta Riccio, Alessia Coppola, Daniela di Prisco, Guido |
| author_sort | Verde, Cinzia |
| collection | Portal de Periódicos da UFRJ (Universidade Federal do Rio de Janeiro) |
| description | Understanding molecular adaptations evolved in response to environmental temperature changes is essential, because temperature affects the kinetic energy of molecules and modifies molecular interactions, macromolecular stability/functioning and membrane features. Environmental oxygen availability may also play an important role in the evolution of polar marine organisms, as suggested by the physiological and biochemical strategies adopted by these organisms to acquire, deliver and scavenge oxygen.This review summarises the current knowledge on the structure and function of hemoglobins of fish living in Antarctic habitats. The variety of adaptations underlying the ability of Antarctic fish to survive at temperatures permanently close to freezing is unique among teleosts. The dominant perciform suborder Notothenioidei affords an excellent study group for elaborating the evolution of biochemical adaptation to temperature. The availability of notothenioid taxa living in a wide range of latitudes (Antarctic, sub-Antarctic, and temperate regions) offers a remarkable opportunity to study the physiological and biochemical characters gained and, conversely, lost in response to cold and to reconstruct the likely evolutionary events modulating the ability to carry oxygen in freezing habitats. Although oxygen can be transported in freely dissolved form most animals rely on one or more protein carriers to deliver it to the respiring tissues. Compared to temperate and tropical species, high-Antarctic notothenioids have evolved reduced hemoglobin concentration/multiplicity. The Antarctic family Channichthyidae (the notothenioid crown group) is devoid of hemoglobin. All extant icefish species lack hemoglobin and many have lost myoglobin expression. In these species, oxygen delivery to tissues occurs by transport of the gas physically dissolved in the plasma. ADAPTACIONES EVOLUTIVAS EN PECES ANTÁRTICOS: EL SISTEMA DE TRANSPORTE DE OXÍGENO. Comprender las adaptaciones moleculares que han evolucionado en respuesta a los cambios ... |
| format | Article in Journal/Newspaper |
| genre | Antarc* Antarctic Icefish |
| genre_facet | Antarc* Antarctic Icefish |
| geographic | Antarctic The Antarctic |
| geographic_facet | Antarctic The Antarctic |
| id | ftufriodejaneiro:oai:ojs.pkp.sfu.ca:article/8110 |
| institution | Open Polar |
| language | Portuguese |
| op_collection_id | ftufriodejaneiro |
| op_relation | https://revistas.ufrj.br/index.php/oa/article/view/8110/6569 https://revistas.ufrj.br/index.php/oa/article/view/8110/33477 https://revistas.ufrj.br/index.php/oa/article/view/8110 |
| op_rights | Copyright (c) 2017 Oecologia Australis |
| op_source | Oecologia Australis; v. 15 n. 1 (2011): Antarctic ~ South American Interactions in the Marine Environment (ASAI); 40-50 Oecologia Australis; Vol. 15 No. 1 (2011): Antarctic ~ South American Interactions in the Marine Environment (ASAI); 40-50 2177-6199 |
| publishDate | 2017 |
| publisher | Associação Brasileira de Ciência Ecológica e Conservação (ABECO) |
| record_format | openpolar |
| spelling | ftufriodejaneiro:oai:ojs.pkp.sfu.ca:article/8110 2025-01-16T19:22:44+00:00 EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM Verde, Cinzia Giordano, Daniela Russo, Roberta Riccio, Alessia Coppola, Daniela di Prisco, Guido 2017-02-20 application/pdf image/jpeg https://revistas.ufrj.br/index.php/oa/article/view/8110 por por Associação Brasileira de Ciência Ecológica e Conservação (ABECO) https://revistas.ufrj.br/index.php/oa/article/view/8110/6569 https://revistas.ufrj.br/index.php/oa/article/view/8110/33477 https://revistas.ufrj.br/index.php/oa/article/view/8110 Copyright (c) 2017 Oecologia Australis Oecologia Australis; v. 15 n. 1 (2011): Antarctic ~ South American Interactions in the Marine Environment (ASAI); 40-50 Oecologia Australis; Vol. 15 No. 1 (2011): Antarctic ~ South American Interactions in the Marine Environment (ASAI); 40-50 2177-6199 Antarctic Cold-adaptation Evolution Fish Hemoglobin info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2017 ftufriodejaneiro 2024-06-24T04:23:30Z Understanding molecular adaptations evolved in response to environmental temperature changes is essential, because temperature affects the kinetic energy of molecules and modifies molecular interactions, macromolecular stability/functioning and membrane features. Environmental oxygen availability may also play an important role in the evolution of polar marine organisms, as suggested by the physiological and biochemical strategies adopted by these organisms to acquire, deliver and scavenge oxygen.This review summarises the current knowledge on the structure and function of hemoglobins of fish living in Antarctic habitats. The variety of adaptations underlying the ability of Antarctic fish to survive at temperatures permanently close to freezing is unique among teleosts. The dominant perciform suborder Notothenioidei affords an excellent study group for elaborating the evolution of biochemical adaptation to temperature. The availability of notothenioid taxa living in a wide range of latitudes (Antarctic, sub-Antarctic, and temperate regions) offers a remarkable opportunity to study the physiological and biochemical characters gained and, conversely, lost in response to cold and to reconstruct the likely evolutionary events modulating the ability to carry oxygen in freezing habitats. Although oxygen can be transported in freely dissolved form most animals rely on one or more protein carriers to deliver it to the respiring tissues. Compared to temperate and tropical species, high-Antarctic notothenioids have evolved reduced hemoglobin concentration/multiplicity. The Antarctic family Channichthyidae (the notothenioid crown group) is devoid of hemoglobin. All extant icefish species lack hemoglobin and many have lost myoglobin expression. In these species, oxygen delivery to tissues occurs by transport of the gas physically dissolved in the plasma. ADAPTACIONES EVOLUTIVAS EN PECES ANTÁRTICOS: EL SISTEMA DE TRANSPORTE DE OXÍGENO. Comprender las adaptaciones moleculares que han evolucionado en respuesta a los cambios ... Article in Journal/Newspaper Antarc* Antarctic Icefish Portal de Periódicos da UFRJ (Universidade Federal do Rio de Janeiro) Antarctic The Antarctic |
| spellingShingle | Antarctic Cold-adaptation Evolution Fish Hemoglobin Verde, Cinzia Giordano, Daniela Russo, Roberta Riccio, Alessia Coppola, Daniela di Prisco, Guido EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM |
| title | EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM |
| title_full | EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM |
| title_fullStr | EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM |
| title_full_unstemmed | EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM |
| title_short | EVOLUTIONARY ADAPTATIONS IN ANTARCTIC FISH: THE OXYGEN-TRANSPORT SYSTEM |
| title_sort | evolutionary adaptations in antarctic fish: the oxygen-transport system |
| topic | Antarctic Cold-adaptation Evolution Fish Hemoglobin |
| topic_facet | Antarctic Cold-adaptation Evolution Fish Hemoglobin |
| url | https://revistas.ufrj.br/index.php/oa/article/view/8110 |