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Karen Schumaker
Professor, Plant Sciences | Professor, BIO5 Institute | Member of the Graduate Faculty
School of Plant Sciences-Res
Map Page
Research Area
salt tolerance,
calcium signaling,
plant genetics,
plant biology,
gene regulation,
stress response,
arabidopsis,
ion transport,
calcium regulation,
sodium transport
Grants
(3)
Linking Calcium Sensor Gene Duplication and Functional Divergence to Plant Salt Tolerance
2016
·
$558.2K
·
External
Principal Investigator (PI)
gene duplication,
functional divergence,
plant salt tolerance,
calcium sensor,
gene expression regulation
Evolutionary and Functional Analysis of Plant Adaptation to Salinity
2011
·
$540K
·
External
Principal Investigator (PI)
evolutionary biology,
plant physiology,
salinity stress,
functional genomics,
adaptation mechanisms
Calcium-Mediated Regulation of Proton-Coupled Sodium Transport
2004
·
$1.1M
·
External
Principal Investigator (PI)
ion transport,
calcium regulation,
sodium transport,
cell signaling,
membrane transport
Publications
(51)
Recent
Duplication and functional divergence of a calcium sensor in the Brassicaceae
2020
calcium signaling,
plant genetics,
gene duplication,
protein evolution,
biological divergence
Linking Duplication of a Calcium Sensor to Salt Tolerance in Eutrema salsugineum
2019
calcium signaling,
salt tolerance,
genetic duplication,
plant adaptation,
stress response
FERTILIZATION-INDEPENDENT SEED-Polycomb Repressive Complex 2 plays a dual role in regulating Type I MADS-Box genes in early endosperm development
2018
seed development,
epigenetics,
gene regulation,
plant reproduction,
chromatin modification
Arabidopsis CALCINEURIN B-LIKE10 Functions Independently of the SOS Pathway during Reproductive Development in Saline Conditions
2016
plant genetics,
reproductive development,
salinity stress,
gene expression,
signaling pathways
SOS2-LIKE PROTEIN KINASE5, an SNF1-RELATED PROTEIN KINASE3-Type Protein Kinase, Is Important for Abscisic Acid Responses in Arabidopsis through Phosphorylation of ABSCISIC ACID-INSENSITIVE5 nbsp;
2015
plant biology,
protein kinase,
abscisic acid signaling,
phosphorylation,
arabidopsis
A Chaperone Function of NO CATALASE ACTIVITY1 Is Required to Maintain Catalase Activity and for Multiple Stress Responses in Arabidopsis
2015
enzyme regulation,
stress response,
protein function,
plant biology,
oxidative stress
A Calcium-Independent Activation of the Arabidopsis SOS2-Like Protein Kinase24 by Its Interacting SOS3-Like Calcium Binding Protein1 nbsp; nbsp;
2014
protein kinase,
calcium signaling,
plant biology,
cell signaling,
gene regulation
Inhibition of the Arabidopsis Salt Overly Sensitive Pathway by 14-3-3 Proteins
2014
plant genetics,
protein interactions,
plant stress response,
signal transduction,
molecular biology
Distinct roles of SOS1 in the convergent evolution of salt tolerance in Eutrema salsugineum and Schrenkiella parvula
2014
salt tolerance,
evolution,
plant research,
sos1 gene,
convergent evolution
UBIQUITIN-SPECIFIC PROTEASE16 modulates salt tolerance in arabidopsis by regulating Na+H+ antiport activity and serine hydroxymethyltransferase stability
2013
plant biology,
proteins,
salt tolerance,
gene regulation,
stress response
Collaborations
(6)
Rod Wing
Mutual work: 1 Publication
Collaboration Details
Steven Smith
Mutual work: 2 Publications
Collaboration Details
Mark Beilstein
Mutual work: 3 Publications
Collaboration Details
Michelle Mcmahon
Mutual work: 1 Publication
Collaboration Details
Lingling An
Mutual work: 2 Publications
Collaboration Details
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News
(1)
World’s Largest Robotic Field Scanner Now in Place
2016
Courses
(6)
Advanced Plant Biology
Mechanisms of Development
Mechanisms in Development
Mechanisms in Plant Development
Mechanisms Of Development
Page 1 of 2
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Techs/Patents
(1)
Increasing Salt Tolerance in Arabidopsis Thaliana
2018
·
Technology
5+ Collaborators
$2.2M / $2.2M Funding
50+ Publications
5+ Courses
