Lista de obras - Frances C. Sussmilch - Dominio Público Uruguay

Abscisic acid (ABA) and key proteins in its perception and signaling pathways are ancient, but their roles have changed through time.

artículo científico publicado en 2017

Abscisic acid controlled sex before transpiration in vascular plants

artículo científico publicado en 2016

Acquiring Control: The Evolution of Stomatal Signalling Pathways

scientific article published on 20 February 2019

Continental-scale distribution and diversity of Ceratobasidium orchid mycorrhizal fungi in Australia

artículo científico publicado en 2021

From reproduction to production, stomata are the master regulators

scientific article published on 07 November 2019

How to Grow a Tree: Plant Voltage-Dependent Cation Channels in the Spotlight of Evolution

scientific article published on 29 August 2020

Identification of LATE BLOOMER2 as a CYCLING DOF FACTOR Homolog Reveals Conserved and Divergent Features of the Flowering Response to Photoperiod in Pea.

artículo científico publicado en 2016

Identification of the SHORT VEGETATIVE PHASE ( SVP )-like MADS-box genes in pea ( Pisum sativum L.)

artículo científico publicado en 2017

Independent genetic control of drought resistance, recovery, and growth of Eucalyptus globulus seedlings

scientific article published on 09 September 2019

Isolation and forward genetic analysis of developmental genes in pea.

artículo científico publicado en 2013

Leaves, not roots or floral tissue, are the main site of rapid, external pressure-induced ABA biosynthesis in angiosperms

artículo científico publicado en 2018

Linking Auxin with Photosynthetic Rate via Leaf Venation

artículo científico publicado en 2017

Molecular characterization of a mutation affecting abscisic acid biosynthesis and consequently stomatal responses to humidity in an agriculturally important species

artículo científico publicado en 2015

On the origins of osmotically driven stomatal movements

scientific article published on 15 December 2018

Pea VEGETATIVE2 Is an FD Homolog That Is Essential for Flowering and Compound Inflorescence Development.

artículo científico publicado en 2015

Specific mycorrhizal associations involving the same fungal taxa in common and threatened Caladenia (Orchidaceae): implications for conservation

artículo científico publicado en 2020

Stomata: the holey grail of plant evolution

artículo científico publicado en 2021

Stomatal responses to vapour pressure deficit are regulated by high speed gene expression in angiosperms.

artículo científico publicado en 2015

Surviving a Dry Future: Abscisic Acid (ABA)-Mediated Plant Mechanisms for Conserving Water under Low Humidity

artículo científico publicado en 2017

The Pea Photoperiod Response Gene STERILE NODES Is an Ortholog of LUX ARRHYTHMO.

artículo científico publicado en 2014

The evolving role of abscisic acid in cell function and plant development over geological time

artículo científico publicado en 2020

The pea GIGAS gene is a FLOWERING LOCUS T homolog necessary for graft-transmissible specification of flowering but not for responsiveness to photoperiod.

artículo científico publicado en 2011

Up-regulation of NCED3 and ABA biosynthesis occur within minutes of a decrease in leaf turgor but AHK1 is not required.

artículo científico publicado en 2017

Update on the genetic control of flowering in garden pea.

artículo científico publicado en 2009

VEGETATIVE1 is essential for development of the compound inflorescence in pea.

artículo científico publicado en 2012

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

artículo científico publicado en 2017

Lista de obras de Frances C. Sussmilch

Abscisic acid (ABA) and key proteins in its perception and signaling pathways are ancient, but their roles have changed through time.

Abscisic acid controlled sex before transpiration in vascular plants

Acquiring Control: The Evolution of Stomatal Signalling Pathways

Continental-scale distribution and diversity of Ceratobasidium orchid mycorrhizal fungi in Australia

From reproduction to production, stomata are the master regulators

How to Grow a Tree: Plant Voltage-Dependent Cation Channels in the Spotlight of Evolution

Identification of LATE BLOOMER2 as a CYCLING DOF FACTOR Homolog Reveals Conserved and Divergent Features of the Flowering Response to Photoperiod in Pea.

Identification of the SHORT VEGETATIVE PHASE ( SVP )-like MADS-box genes in pea ( Pisum sativum L.)

Independent genetic control of drought resistance, recovery, and growth of Eucalyptus globulus seedlings

Isolation and forward genetic analysis of developmental genes in pea.

Leaves, not roots or floral tissue, are the main site of rapid, external pressure-induced ABA biosynthesis in angiosperms

Linking Auxin with Photosynthetic Rate via Leaf Venation

Molecular characterization of a mutation affecting abscisic acid biosynthesis and consequently stomatal responses to humidity in an agriculturally important species

On the origins of osmotically driven stomatal movements

Pea VEGETATIVE2 Is an FD Homolog That Is Essential for Flowering and Compound Inflorescence Development.

Specific mycorrhizal associations involving the same fungal taxa in common and threatened Caladenia (Orchidaceae): implications for conservation

Stomata: the holey grail of plant evolution

Stomatal responses to vapour pressure deficit are regulated by high speed gene expression in angiosperms.

Surviving a Dry Future: Abscisic Acid (ABA)-Mediated Plant Mechanisms for Conserving Water under Low Humidity

The Pea Photoperiod Response Gene STERILE NODES Is an Ortholog of LUX ARRHYTHMO.

The evolving role of abscisic acid in cell function and plant development over geological time

The pea GIGAS gene is a FLOWERING LOCUS T homolog necessary for graft-transmissible specification of flowering but not for responsiveness to photoperiod.

Up-regulation of NCED3 and ABA biosynthesis occur within minutes of a decrease in leaf turgor but AHK1 is not required.

Update on the genetic control of flowering in garden pea.

VEGETATIVE1 is essential for development of the compound inflorescence in pea.

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