Stomatal Guard Cells Co-opted an Ancient ABA-Dependent Desiccation Survival System to Regulate Stomatal Closure

Modeling rapid stomatal closure with synchronous Boolean network approach

Waidyarathne, KP
Samarasinghe, Sandhya

December 2013

The phytohormone Abscisic acid (ABA) is an endogenous messenger in plant abiotic stress responses. D...

Acquiring control: the evolution of stomatal signalling pathways

Sussmilch, FC
Schultz, J
Hedrich, R
Roelfsema, MRG

January 2019

In vascular plants, stomata balance two opposing functions: they open to facilitate CO2 uptake and c...

A tandem amino acid residue motif in guard cell SLAC1 anion channel of grasses allows for the control of stomatal aperture by nitrate.

Schäfer, N.
Maierhofer, T.
Herrmann, J.
Jørgensen, M.E.
Lind, C.
von Meyer, K.
Lautner, S.
Fromm, J.
Felder, M.
Hetherington, A.M.
Ache, P.
Geiger, D.
Hedrich, R.

January 2018

The latest major group of plants to evolve were the grasses. These became important in the mid-Paleo...

Stomatal Guard Cells Co-opted an Ancient ABA-Dependent Desiccation Survival System to Regulate Stomatal Closure

Lind, Christof
Dreyer, Ingo
López-Sanjurjo, Enrique J.
von Meyer, Katharina
Ishizaki, Kimitsune
Kohchi, Takayuki
Lang, Daniel
Zhao, Yang
Kreuzer, Ines
Al-Rasheid, Khaled A.S.
Ronne, Hans
Reski, Ralf
Zhu, Jian-Kang
Geiger, Dietmar
Hedrich, Rainer

March 2015

SummaryDuring the transition from water to land, plants had to cope with the loss of water through t...

Regulatory Mechanism Controlling Stomatal Behavior Conserved across 400 Million Years of Land Plant Evolution

Chater, Caspar
Kamisugi, Yasuko
Movahedi, Mahsa
Fleming, Andrew
Cuming, Andrew C.
Gray, Julie E.
Beerling, David J.

June 2011

SummaryStomatal pores evolved more than 410 million years ago [1, 2] and allowed vascular plants to ...

On the origins of osmotically driven stomatal movements

Sussmilch, FC
Roelfsema, MRG
Hedrich, R

January 2019

Stomatal pores with apertures that can be adjusted by changes in guard cell turgor have facilitated ...

Stomatal Closure: The Old Guard Takes Up the SLAC

Chater, C.
Gray, J.E.

March 2015

Flowering plant stomata close through passive dehydration or by active pumping of anions through SLA...

Stomatal Closure: The Old Guard Takes Up the SLAC

Chater, Caspar
Gray, Julie E.

March 2015

SummaryFlowering plant stomata close through passive dehydration or by active pumping of anions thro...

Evolutionary innovations in the stomatal control of vascular plants

McAdam, SAM

January 2013

Stomata are the numerous pores on the leaves of land plants. These pores occur between two adjustabl...

Land Plants Acquired Active Stomatal Control Early in Their Evolutionary History

Ruszala, Elizabeth M.
Beerling, David J.
Franks, Peter J.
Chater, Caspar
Casson, Stuart A.
Gray, Julie E.
Hetherington, Alistair M.

June 2011

SummaryStomata are pores that regulate plant gas exchange [1]. They evolved more than 400 million ye...

What are the evolutionary origins of stomatal responses to abscisic acid in land plants?

Sussmilch, FC
Brodribb, TJ
McAdam, SAM

January 2017

The evolution of active stomatal closure in response to leaf water deficit, mediated by the hormone ...

Guard cell SLAC1-type anion channels mediate flagellin-induced stomatal closure

Deger, Aysin Guzel
Scherzer, Soenke
Nuhkat, Maris
Kedzierska, Justyna
Kollist, Hannes
Brosché, Mikael
Unyayar, Serpil
Boudsocq, Marie
Hedrich, Rainer
Roelfsema, M. Rob G.

January 2015

International audienceDuring infection plants recognize microbe-associated molecular patterns (MAMPs...

Transcription Factors and Hormone-Mediated Mechanisms Regulate Stomata Development and Responses UnderAbiotic Stresses: An Overview

Landi, Marco
Basile, Alice
Fambrini, Marco
Pugliesi, Claudio

January 2017

Plants require essentially carbon dioxide (CO2) and water to survive. However, CO2 uptake implicates...

Guard Cell Signaling

Hetherington, Alistair M.

December 2001

AbstractThe plant hormone abscisic acid (ABA) regulates the aperture of the stomatal pore. The recen...

Evolution of ABA signalling pathways

Cuming, AC

October 2019

Abscisic acid (ABA) signalling first appears in the land plant lineage, regulating responses to dehy...

Modeling rapid stomatal closure with synchronous Boolean network approach

Waidyarathne, KP
Samarasinghe, Sandhya

December 2013

The phytohormone Abscisic acid (ABA) is an endogenous messenger in plant abiotic stress responses. D...

Acquiring control: the evolution of stomatal signalling pathways

Sussmilch, FC
Schultz, J
Hedrich, R
Roelfsema, MRG

January 2019

In vascular plants, stomata balance two opposing functions: they open to facilitate CO2 uptake and c...

A tandem amino acid residue motif in guard cell SLAC1 anion channel of grasses allows for the control of stomatal aperture by nitrate.

Schäfer, N.
Maierhofer, T.
Herrmann, J.
Jørgensen, M.E.
Lind, C.
von Meyer, K.
Lautner, S.
Fromm, J.
Felder, M.
Hetherington, A.M.
Ache, P.
Geiger, D.
Hedrich, R.

January 2018

The latest major group of plants to evolve were the grasses. These became important in the mid-Paleo...

Stomatal Guard Cells Co-opted an Ancient ABA-Dependent Desiccation Survival System to Regulate Stomatal Closure

Lind, Christof
Dreyer, Ingo
López-Sanjurjo, Enrique J.
von Meyer, Katharina
Ishizaki, Kimitsune
Kohchi, Takayuki
Lang, Daniel
Zhao, Yang
Kreuzer, Ines
Al-Rasheid, Khaled A.S.
Ronne, Hans
Reski, Ralf
Zhu, Jian-Kang
Geiger, Dietmar
Hedrich, Rainer

March 2015

SummaryDuring the transition from water to land, plants had to cope with the loss of water through t...

Regulatory Mechanism Controlling Stomatal Behavior Conserved across 400 Million Years of Land Plant Evolution

Chater, Caspar
Kamisugi, Yasuko
Movahedi, Mahsa
Fleming, Andrew
Cuming, Andrew C.
Gray, Julie E.
Beerling, David J.

June 2011

SummaryStomatal pores evolved more than 410 million years ago [1, 2] and allowed vascular plants to ...

On the origins of osmotically driven stomatal movements

Sussmilch, FC
Roelfsema, MRG
Hedrich, R

January 2019

Stomatal pores with apertures that can be adjusted by changes in guard cell turgor have facilitated ...

Stomatal Closure: The Old Guard Takes Up the SLAC

Chater, C.
Gray, J.E.

March 2015

Flowering plant stomata close through passive dehydration or by active pumping of anions through SLA...

Stomatal Closure: The Old Guard Takes Up the SLAC

Chater, Caspar
Gray, Julie E.

March 2015

SummaryFlowering plant stomata close through passive dehydration or by active pumping of anions thro...

Evolutionary innovations in the stomatal control of vascular plants

McAdam, SAM

January 2013

Stomata are the numerous pores on the leaves of land plants. These pores occur between two adjustabl...

Land Plants Acquired Active Stomatal Control Early in Their Evolutionary History

Ruszala, Elizabeth M.
Beerling, David J.
Franks, Peter J.
Chater, Caspar
Casson, Stuart A.
Gray, Julie E.
Hetherington, Alistair M.

June 2011

SummaryStomata are pores that regulate plant gas exchange [1]. They evolved more than 400 million ye...

What are the evolutionary origins of stomatal responses to abscisic acid in land plants?

Sussmilch, FC
Brodribb, TJ
McAdam, SAM

January 2017

The evolution of active stomatal closure in response to leaf water deficit, mediated by the hormone ...

Guard cell SLAC1-type anion channels mediate flagellin-induced stomatal closure

Deger, Aysin Guzel
Scherzer, Soenke
Nuhkat, Maris
Kedzierska, Justyna
Kollist, Hannes
Brosché, Mikael
Unyayar, Serpil
Boudsocq, Marie
Hedrich, Rainer
Roelfsema, M. Rob G.

January 2015

International audienceDuring infection plants recognize microbe-associated molecular patterns (MAMPs...

Transcription Factors and Hormone-Mediated Mechanisms Regulate Stomata Development and Responses UnderAbiotic Stresses: An Overview

Landi, Marco
Basile, Alice
Fambrini, Marco
Pugliesi, Claudio

January 2017

Plants require essentially carbon dioxide (CO2) and water to survive. However, CO2 uptake implicates...

Guard Cell Signaling

Hetherington, Alistair M.

December 2001

AbstractThe plant hormone abscisic acid (ABA) regulates the aperture of the stomatal pore. The recen...

Evolution of ABA signalling pathways

Cuming, AC

October 2019

Abscisic acid (ABA) signalling first appears in the land plant lineage, regulating responses to dehy...

Modeling rapid stomatal closure with synchronous Boolean network approach

Waidyarathne, KP
Samarasinghe, Sandhya

December 2013

The phytohormone Abscisic acid (ABA) is an endogenous messenger in plant abiotic stress responses. D...

Acquiring control: the evolution of stomatal signalling pathways

Sussmilch, FC
Schultz, J
Hedrich, R
Roelfsema, MRG

January 2019

In vascular plants, stomata balance two opposing functions: they open to facilitate CO2 uptake and c...

A tandem amino acid residue motif in guard cell SLAC1 anion channel of grasses allows for the control of stomatal aperture by nitrate.

Schäfer, N.
Maierhofer, T.
Herrmann, J.
Jørgensen, M.E.
Lind, C.
von Meyer, K.
Lautner, S.
Fromm, J.
Felder, M.
Hetherington, A.M.
Ache, P.
Geiger, D.
Hedrich, R.

January 2018

The latest major group of plants to evolve were the grasses. These became important in the mid-Paleo...

Stomatal Guard Cells Co-opted an Ancient ABA-Dependent Desiccation Survival System to Regulate Stomatal Closure

Abstract

Extracted data

Stomatal Guard Cells Co-opted an Ancient ABA-Dependent Desiccation Survival System to Regulate Stomatal Closure

Abstract

Extracted data

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