Receptor kinase module targets PIN-dependent auxin transport
during canalization

J 2020

Receptor kinase module targets PIN-dependent auxin transport during canalization

HAJNÝ, Jakub, Tomáš PRÁT, Nikola RÝDZA, Lesia RODRIGUEZ, Shutang TAN et. al.

Základní údaje

Originální název

Receptor kinase module targets PIN-dependent auxin transport during canalization

Autoři

HAJNÝ, Jakub, Tomáš PRÁT, Nikola RÝDZA (703 Slovensko, domácí), Lesia RODRIGUEZ, Shutang TAN, Inge VERSTRAETEN, David DOMJAN, Ewa MAZUR (616 Polsko, domácí), Elwira SMAKOWSKA-LUZAN, Wouter SMET, Eliana MOR, Jonah NOLF, Baojun YANG, Wim GRUNEWALD, Gergely MOLNÁR, Youssef BELKHADIR, Bert D. DE RYBEL a Jiří FRIML

Vydání

Science, Washington, D.C. American Association for the Advancement of Science, 2020, 0036-8075

Další údaje

Jazyk

angličtina

Typ výsledku

Článek v odborném periodiku

Obor

10608 Biochemistry and molecular biology

Stát vydavatele

Spojené státy

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Impakt faktor

Impact factor: 47.728

Kód RIV

RIV/00216224:14740/20:00117389

Organizační jednotka

Středoevropský technologický institut

DOI

http://dx.doi.org/10.1126/science.aba3178

UT WoS

000583031800041

Klíčová slova anglicky

APICAL-BASAL AXIS; EFFLUX; GRADIENTS; FLOW

Štítky

CF PROT, rivok

Příznaky

Mezinárodní význam, Recenzováno

Změněno: 9. 10. 2024 11:26, Ing. Martina Blahová

Anotace

V originále

Spontaneously arising channels that transport the phytohormone auxin provide positional cues for self-organizing aspects of plant development such as flexible vasculature regeneration or its patterning during leaf venation. The auxin canalization hypothesis proposes a feedback between auxin signaling and transport as the underlying mechanism, but molecular players await discovery. We identified part of the machinery that routes auxin transport. The auxin-regulated receptor CAMEL (Canalization-related Auxin-regulated Malectin-type RLK) together with CANAR (Canalization-related Receptor-like kinase) interact with and phosphorylate PIN auxin transporters. camel and canar mutants are impaired in PIN1 subcellular trafficking and auxin-mediated PIN polarization, which macroscopically manifests as defects in leaf venation and vasculature regeneration after wounding. The CAMEL-CANAR receptor complex is part of the auxin feedback that coordinates polarization of individual cells during auxin canalization.

Návaznosti

90127, velká výzkumná infrastruktura

Název: CIISB II

Citovat

HAJNÝ, Jakub, Tomáš PRÁT, Nikola RÝDZA, Lesia RODRIGUEZ, Shutang TAN, Inge VERSTRAETEN, David DOMJAN, Ewa MAZUR, Elwira SMAKOWSKA-LUZAN, Wouter SMET, Eliana MOR, Jonah NOLF, Baojun YANG, Wim GRUNEWALD, Gergely MOLNÁR, Youssef BELKHADIR, Bert D. DE RYBEL a Jiří FRIML. Receptor kinase module targets PIN-dependent auxin transport during canalization. Science. Washington, D.C.: American Association for the Advancement of Science, 2020, roč. 370, č. 6516, s. 550-557. ISSN 0036-8075. Dostupné z: https://dx.doi.org/10.1126/science.aba3178.

@article{1711096,
   author = {Hajný, Jakub and Prát, Tomáš and Rýdza, Nikola and Rodriguez, Lesia and Tan, Shutang and Verstraeten, Inge and Domjan, David and Mazur, Ewa and SmakowskaandLuzan, Elwira and Smet, Wouter and Mor, Eliana and Nolf, Jonah and Yang, Baojun and Grunewald, Wim and Molnár, Gergely and Belkhadir, Youssef and de Rybel, Bert D. and Friml, Jiří},
   article_location = {Washington, D.C.},
   article_number = {6516},
   doi = {http://dx.doi.org/10.1126/science.aba3178},
   keywords = {APICAL-BASAL AXIS; EFFLUX; GRADIENTS; FLOW},
   language = {eng},
   issn = {0036-8075},
   journal = {Science},
   title = {Receptor kinase module targets PIN-dependent auxin transport during canalization},
   url = {https://science.sciencemag.org/content/370/6516/550},
   volume = {370},
   year = {2020}
}

TY  - JOUR
ID  - 1711096
AU  - Hajný, Jakub - Prát, Tomáš - Rýdza, Nikola - Rodriguez, Lesia - Tan, Shutang - Verstraeten, Inge - Domjan, David - Mazur, Ewa - Smakowska-Luzan, Elwira - Smet, Wouter - Mor, Eliana - Nolf, Jonah - Yang, Baojun - Grunewald, Wim - Molnár, Gergely - Belkhadir, Youssef - de Rybel, Bert D. - Friml, Jiří
PY  - 2020
TI  - Receptor kinase module targets PIN-dependent auxin transport during canalization
JF  - Science
VL  - 370
IS  - 6516
SP  - 550-557
EP  - 550-557
PB  - American Association for the Advancement of Science
SN  - 00368075
KW  - APICAL-BASAL AXIS
KW  - EFFLUX
KW  - GRADIENTS
KW  - FLOW
UR  - https://science.sciencemag.org/content/370/6516/550
L2  - https://science.sciencemag.org/content/370/6516/550
N2  - Spontaneously arising channels that transport the phytohormone auxin provide positional cues for self-organizing aspects of plant development such as flexible vasculature regeneration or its patterning during leaf venation. The auxin canalization hypothesis proposes a feedback between auxin signaling and transport as the underlying mechanism, but molecular players await discovery. We identified part of the machinery that routes auxin transport. The auxin-regulated receptor CAMEL (Canalization-related Auxin-regulated Malectin-type RLK) together with CANAR (Canalization-related Receptor-like kinase) interact with and phosphorylate PIN auxin transporters. camel and canar mutants are impaired in PIN1 subcellular trafficking and auxin-mediated PIN polarization, which macroscopically manifests as defects in leaf venation and vasculature regeneration after wounding. The CAMEL-CANAR receptor complex is part of the auxin feedback that coordinates polarization of individual cells during auxin canalization.
ER  -

HAJNÝ, Jakub, Tomáš PRÁT, Nikola RÝDZA, Lesia RODRIGUEZ, Shutang TAN, Inge VERSTRAETEN, David DOMJAN, Ewa MAZUR, Elwira SMAKOWSKA-LUZAN, Wouter SMET, Eliana MOR, Jonah NOLF, Baojun YANG, Wim GRUNEWALD, Gergely MOLNÁR, Youssef BELKHADIR, Bert D. DE RYBEL a Jiří FRIML. Receptor kinase module targets PIN-dependent auxin transport during canalization. \textit{Science}. Washington, D.C.: American Association for the Advancement of Science, 2020, roč.~370, č.~6516, s.~550-557. ISSN~0036-8075. Dostupné z: https://dx.doi.org/10.1126/science.aba3178.

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