2026 Gloria K. Muday: Biology and Biochemistry Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Biology and Biochemistry	60	11821	10887	5084	4557	116	15274

Research.com Recognitions

2014 - Fellow of the American Society of Plant Biologists

Overview

Gloria K. Muday is affiliated with Wake Forest University in the United States and specializes in research within the fields of Agricultural and Biological Sciences as well as Biochemistry, Genetics, and Molecular Biology. Their work primarily focuses on several subfields, including Plant Science, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Genetics, and Pollution.

The scientist's main research topics encompass Plant Molecular Biology Research, Plant Stress Responses and Tolerance, Plant Reproductive Biology, Photosynthetic Processes and Mechanisms, Plant Gene Expression Analysis, Plant nutrient uptake and metabolism, and Gene Regulatory Network Analysis.

Their publication record includes significant papers such as:

The Role of ROS Homeostasis in ABA-Induced Guard Cell Signaling (2020), published in Frontiers in Plant Science
Flavonols modulate plant development, signaling, and stress responses (2023), published in Current Opinion in Plant Biology
Reactive oxygen species function as signaling molecules in controlling plant development and hormonal responses (2022), published in Current Opinion in Plant Biology
Flavonols modulate lateral root emergence by scavenging reactive oxygen species in Arabidopsis thaliana (2020), published in Journal of Biological Chemistry
Reactive oxygen species are signaling molecules that modulate plant reproduction (2024), published in Plant Cell & Environment

Frequent collaborators in their research include:

Alexandria F. Harkey
Anthony Postiglione
Mohammad Foteh Ali
Maleana Khoury
Joëlle K. Mühlemann

The scientist has published multiple works in venues such as bioRxiv (Cold Spring Harbor Laboratory), Frontiers in Plant Science, Current Opinion in Plant Biology, Development, and in silico Plants. The distribution of publications shows a particular concentration in preprint and plant science journals.

Recognition of their contributions includes being named a Fellow of the American Society of Plant Biologists in 2014.

Best Publications

Flavonoids Act as Negative Regulators of Auxin Transport in Vivo in Arabidopsis

Dana E. Brown;Aaron M. Rashotte;Angus S. Murphy;Jennifer Normanly

970
Citations
Inhibition of Auxin Movement from the Shoot into the Root Inhibits Lateral Root Development in Arabidopsis

Robyn C. Reed;Shari R. Brady;Gloria K. Muday

599
Citations
Auxin and ethylene: collaborators or competitors?

Gloria K. Muday;Abidur Rahman;Brad M. Binder

481
Citations
The transparent testa4 Mutation Prevents Flavonoid Synthesis and Alters Auxin Transport and the Response of Arabidopsis Roots to Gravity and Light

Charles S. Buer;Gloria K. Muday

466
Citations
Brassinosteroids Interact with Auxin to Promote Lateral Root Development in Arabidopsis

Fang Bao;Junjiang Shen;Shari R. Brady;Gloria K. Muday

463
Citations
Flavonoid Accumulation Patterns of Transparent Testa Mutants of Arabidopsis

Wendy Ann Peer;Dana E. Brown;Brian W. Tague;Gloria K. Muday

460
Citations
Basipetal auxin transport is required for gravitropism in roots of Arabidopsis

Aaron M. Rashotte;Shari R. Brady;Robyn C. Reed;Sandra J. Ante

434
Citations
Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana

Sangeeta Negi;Maria G. Ivanchenko;Gloria K. Muday

413
Citations
Reduced naphthylphthalamic acid binding in the tir3 mutant of Arabidopsis is associated with a reduction in polar auxin transport and diverse morphological defects.

Max Ruegger;Elizabeth Dewey;Lawrence Hobbie;Dana Brown

409
Citations
Ethylene–auxin interactions regulate lateral root initiation and emergence in Arabidopsis thaliana

Maria G. Ivanchenko;Gloria K. Muday;Joseph G. Dubrovsky

397
Citations
Auxin and ethylene induce flavonol accumulation through distinct transcriptional networks.

Daniel R. Lewis;Melissa V. Ramirez;Nathan D. Miller;Prashanthi Vallabhaneni

378
Citations
Polar auxin transport: controlling where and how much

Gloria K Muday;Alison DeLong

361
Citations
Arabidopsis SMALL AUXIN UP RNA63 promotes hypocotyl and stamen filament elongation

Keun Chae;Cameron G. Isaacs;Paul H. Reeves;Gregory S. Maloney

353
Citations
Flavonols control pollen tube growth and integrity by regulating ROS homeostasis during high-temperature stress

Joëlle K. Muhlemann;Trenton L. B. Younts;Gloria K. Muday

350
Citations
Ethylene inhibits lateral root development, increases IAA transport and expression of PIN3 and PIN7 auxin efflux carriers

Daniel R. Lewis;Sangeeta Negi;Poornima Sukumar;Gloria K. Muday

346
Citations
Nitric oxide causes root apical meristem defects and growth inhibition while reducing PIN-FORMED 1 (PIN1)-dependent acropetal auxin transport

María Fernández-Marcos;Luis Sanz;Daniel R. Lewis;Gloria K. Muday

346
Citations
Genetic and Chemical Reductions in Protein Phosphatase Activity Alter Auxin Transport, Gravity Response, and Lateral Root Growth

Aaron M. Rashotte;Alison DeLong;Gloria K. Muday

339
Citations
Genetic dissection of the role of ethylene in regulating auxin-dependent lateral and adventitious root formation in tomato

Sangeeta Negi;Poornima Sukumar;Xing Liu;Jerry D. Cohen

309
Citations
Flavonoids Are Differentially Taken Up and Transported Long Distances in Arabidopsis

Charles S. Buer;Gloria K. Muday;Michael A. Djordjevic

296
Citations
Genetic and chemical reductions in protein phosphatase activity alter auxin transport, gravity response, and lateral root growth. [Erratum: 2005 Sept., v. 17, no. 9, p. 2614.]

A.M. Rashotte;A. DeLong;G.K. Muday

0
Citations

Frequent Co-Authors

Aaron M. Rashotte Auburn University

Angus S. Murphy University of Maryland, College Park

Stanley J. Roux The University of Texas at Austin

Wendy Ann Peer University of Maryland, College Park

Michael A. Djordjevic Australian National University

Harry Brumer University of British Columbia

František Baluška University of Bonn

Brian G. Forde Lancaster University

Tobias I. Baskin University of Massachusetts Amherst

Richard F. Helm Virginia Tech

External Links

Personal website of Gloria K. Muday

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Gloria K. Muday

D-Index & Metrics

D-Index & Metrics

Biology and Biochemistry

Research.com Recognitions

Overview

Best Publications

Flavonoids Act as Negative Regulators of Auxin Transport in Vivo in Arabidopsis

Inhibition of Auxin Movement from the Shoot into the Root Inhibits Lateral Root Development in Arabidopsis

Auxin and ethylene: collaborators or competitors?

The transparent testa4 Mutation Prevents Flavonoid Synthesis and Alters Auxin Transport and the Response of Arabidopsis Roots to Gravity and Light

Brassinosteroids Interact with Auxin to Promote Lateral Root Development in Arabidopsis

Flavonoid Accumulation Patterns of Transparent Testa Mutants of Arabidopsis

Basipetal auxin transport is required for gravitropism in roots of Arabidopsis

Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana

Reduced naphthylphthalamic acid binding in the tir3 mutant of Arabidopsis is associated with a reduction in polar auxin transport and diverse morphological defects.

Ethylene–auxin interactions regulate lateral root initiation and emergence in Arabidopsis thaliana

Auxin and ethylene induce flavonol accumulation through distinct transcriptional networks.

Polar auxin transport: controlling where and how much

Arabidopsis SMALL AUXIN UP RNA63 promotes hypocotyl and stamen filament elongation

Flavonols control pollen tube growth and integrity by regulating ROS homeostasis during high-temperature stress

Ethylene inhibits lateral root development, increases IAA transport and expression of PIN3 and PIN7 auxin efflux carriers

Nitric oxide causes root apical meristem defects and growth inhibition while reducing PIN-FORMED 1 (PIN1)-dependent acropetal auxin transport

Genetic and Chemical Reductions in Protein Phosphatase Activity Alter Auxin Transport, Gravity Response, and Lateral Root Growth

Genetic dissection of the role of ethylene in regulating auxin-dependent lateral and adventitious root formation in tomato

Flavonoids Are Differentially Taken Up and Transported Long Distances in Arabidopsis

Genetic and chemical reductions in protein phosphatase activity alter auxin transport, gravity response, and lateral root growth. [Erratum: 2005 Sept., v. 17, no. 9, p. 2614.]

Frequent Co-Authors

External Links

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