Auxin transport routes in plant development
PETRÁŠEK, Jan and Jiří FRIML. Auxin transport routes in plant development. Development. Cambridge: Company of Biologists, 2009, Neuvedeno, No 136, p. 2675-2688. ISSN 0950-1991. |
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Basic information | |
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Original name | Auxin transport routes in plant development |
Name in Czech | Auxin transport routes in plant development |
Authors | PETRÁŠEK, Jan (203 Czech Republic) and Jiří FRIML (203 Czech Republic, guarantor). |
Edition | Development, Cambridge, Company of Biologists, 2009, 0950-1991. |
Other information | |
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Original language | English |
Type of outcome | Article in a journal |
Field of Study | Genetics and molecular biology |
Country of publisher | United Kingdom of Great Britain and Northern Ireland |
Confidentiality degree | is not subject to a state or trade secret |
Impact factor | Impact factor: 7.194 |
RIV identification code | RIV/00216224:14310/09:00028677 |
Organization unit | Faculty of Science |
UT WoS | 000268312800001 |
Keywords (in Czech) | auxin transport; development |
Keywords in English | auxin transport; development |
Changed by | Changed by: Mgr. Gabriela Jalová, učo 208673. Changed: 3/12/2009 16:16. |
Abstract |
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The differential distribution of the plant signaling molecule auxin is required for many aspects of plant development. Local auxin maxima and gradients arise as a result of local auxin metabolism and, predominantly, from directional cell-to-cell transport. In this primer, we discuss how the coordinated activity of several auxin influx and efflux systems, which transport auxin across the plasma membrane, mediates directional auxin flow. This activity crucially contributes to the correct setting of developmental cues in embryogenesis, organogenesis, vascular tissue formation and directional growth in response to environmental stimuli. |
Abstract (in Czech) |
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The differential distribution of the plant signaling molecule auxin is required for many aspects of plant development. Local auxin maxima and gradients arise as a result of local auxin metabolism and, predominantly, from directional cell-to-cell transport. In this primer, we discuss how the coordinated activity of several auxin influx and efflux systems, which transport auxin across the plasma membrane, mediates directional auxin flow. This activity crucially contributes to the correct setting of developmental cues in embryogenesis, organogenesis, vascular tissue formation and directional growth in response to environmental stimuli. |
Links | |
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IAA601630703, research and development project | Name: Identifikace molekulárních komponent a mechanizmu polárního směrování auxinových transportních proteinů rodiny PIN u Arabidopsis thaliana |
Investor: Academy of Sciences of the Czech Republic, Identification of molecular components and the mechanism of polar targeting of PIN auxin transport proteins in Arabidopsis thaliana |
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