ProfessorsProfessors of Wake Forest UniversityGloria K. Muday

Gloria K. Muday

Wake Forest University

H-index: 57

North America-United States

About Gloria K. Muday

Gloria K. Muday, With an exceptional h-index of 57 and a recent h-index of 37 (since 2020), a distinguished researcher at Wake Forest University, specializes in the field of ethylene and auxin, flavonoids, ROS, root and pollen development, guard cell signaling.

His recent articles reflect a diverse array of research interests and contributions to the field:

Reactive oxygen species are signaling molecules that modulate plant reproduction

Informative community structure revealed using Arabidopsis time series transcriptome data via partitioned local depth

Flavonols improve thermotolerance in tomato pollen during germination and tube elongation by maintaining ROS homeostasis

Abscisic acid increases hydrogen peroxide in mitochondria to facilitate stomatal closure

Flavonols modulate plant development, signaling, and stress responses

Reactive oxygen species function as signaling molecules in controlling plant development and hormonal responses

Partitioned Local Depth analysis of time course transcriptomic data reveals elaborate community structure

Ethylene signaling increases reactive oxygen species accumulation to drive root hair initiation in Arabidopsis

Gloria K. Muday Information

University	Wake Forest University
Position	___
Citations(all)	13833
Citations(since 2020)	4598
Cited By	11015
hIndex(all)	57
hIndex(since 2020)	37
i10Index(all)	93
i10Index(since 2020)	69
Email	Access Email
University Profile Page	Wake Forest University
Google Scholar	View Google Scholar Profile

Gloria K. Muday Skills & Research Interests

ethylene and auxin

flavonoids

ROS

root and pollen development

guard cell signaling

Top articles of Gloria K. Muday

Title	Journal	Author(s)	Publication Date
Reactive oxygen species are signaling molecules that modulate plant reproduction		Mohammad Foteh Ali Gloria K Muday	2024/1/28
Informative community structure revealed using Arabidopsis time series transcriptome data via partitioned local depth	in silico Plants	Maleana G Khoury Kenneth S Berenhaut Katherine E Moore Edward E Allen Alexandria F Harkey ...	2024/1/1
Flavonols improve thermotolerance in tomato pollen during germination and tube elongation by maintaining ROS homeostasis	bioRxiv	Anthony E Postiglione Allison M Delange Mohammad Foteh Ali Maarten Houben Eric Y Wang ...	2023/12/23
Abscisic acid increases hydrogen peroxide in mitochondria to facilitate stomatal closure	Plant Physiology	Anthony E Postiglione Gloria K Muday	2023/5/1
Flavonols modulate plant development, signaling, and stress responses		Hana Daryanavard Anthony E Postiglione Joëlle K Mühlemann Gloria K Muday	2023/4/1
Reactive oxygen species function as signaling molecules in controlling plant development and hormonal responses		R Emily Martin Anthony E Postiglione Gloria K Muday	2022/10/1
Partitioned Local Depth analysis of time course transcriptomic data reveals elaborate community structure	bioRxiv	Maleana Khoury Kenneth Berenhaut Katherine Moore Edward Allen Alexandria Harkey ...	2022/1/1
Ethylene signaling increases reactive oxygen species accumulation to drive root hair initiation in Arabidopsis	Development	R Emily Martin Eliana Marzol Jose M Estevez Gloria K Muday	2022/7/1
Flavonols modulate lateral root emergence by scavenging reactive oxygen species in Arabidopsis thaliana	Journal of Biological Chemistry	Jordan M Chapman Gloria K Muday	2021/1/1
A new tool for discovering transcriptional regulators of co-expressed genes predicts gene regulatory networks that mediate ethylene-controlled root development	in silico Plants	Alexandria F Harkey Kira N Sims Gloria K Muday	2020
A conditional mutation in SCD1 reveals linkage between PIN protein trafficking, auxin transport, gravitropism, and lateral root initiation	Frontiers in Plant Science	Carole L Gibson Jonathan W Isley Tanya G Falbel Cassie T Mattox Daniel R Lewis ...	2020/7/7
The role of ROS homeostasis in ABA-induced guard cell signaling		Anthony E Postiglione Gloria K Muday	2020/6/30
Flavonols regulate root hair development by modulating accumulation of reactive oxygen species in the root epidermis	Development	Sheena R Gayomba Gloria K Muday	2020/4/15
The dynamic response of the Arabidopsis root metabolome to auxin and ethylene is not predicted by changes in the transcriptome	Scientific Reports	Sherry B Hildreth Evan E Foley Gloria K Muday Richard F Helm Brenda SJ Winkel	2020/1/20