CUFinder

Zhonglin Mou

Zhonglin Mou

University of Florida

H-index: 33

North America-United States

About Zhonglin Mou

Zhonglin Mou, With an exceptional h-index of 33 and a recent h-index of 27 (since 2020), a distinguished researcher at University of Florida, specializes in the field of Plant Immunity.

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

A group of L-type lectin receptor kinases function redundantly in mediating extracellular NAD (P) signaling in Arabidopsis

Multiplexed gene editing in citrus by using a multi-intron containing Cas9 gene

Damage-Associated Molecular Patterns and Systemic Signaling

NONEXPRESSOR OF PATHOGENESIS-RELATED GENES control Huanglongbing tolerance by regulating immune balance in citrus plants

Evaluating nicotinamide adenine dinucleotide for its effects on halo blight of snap bean

Multiplexed gene editing with a multi-intron containing Cas9 gene in citrus

N-hydroxypipecolic acid triggers systemic acquired resistance through extracellular NAD (P)

Dissecting the Role of SAG101 in Extracellular NAD (P)+-Mediated Immune Signaling

Zhonglin Mou Information

University

Position

Professor of Plant Biology

Citations(all)

7162

Citations(since 2020)

2781

Cited By

5676

hIndex(all)

33

hIndex(since 2020)

27

i10Index(all)

50

i10Index(since 2020)

45

Email

Access Email

University Profile Page

University of Florida

Google Scholar

View Google Scholar Profile

Zhonglin Mou Skills & Research Interests

Plant Immunity

Top articles of Zhonglin Mou

Title

Journal

Author(s)

Publication Date

A group of L-type lectin receptor kinases function redundantly in mediating extracellular NAD (P) signaling in Arabidopsis

Plant Physiology

Qi Li

Mingxi Zhou

Fiona Harris

Zhonglin Mou

2024/4/23

Multiplexed gene editing in citrus by using a multi-intron containing Cas9 gene

Transgenic Research

Poulami Sarkar

Jorge Santiago Vazquez

Mingxi Zhou

Amit Levy

Zhonglin Mou

...

2024/4/2

Damage-Associated Molecular Patterns and Systemic Signaling

Phytopathology®

Fiona M Harris

Zhonglin Mou

2024/2/29

NONEXPRESSOR OF PATHOGENESIS-RELATED GENES control Huanglongbing tolerance by regulating immune balance in citrus plants

bioRxiv

Poulami Sarkar

Choaa El-Mohtar

Donielle Turner

Stacy Welker

Cecile J Robertson

...

2024

Evaluating nicotinamide adenine dinucleotide for its effects on halo blight of snap bean

Plant Disease

Yi Huang

Qingchun Liu

Mustafa Jibrin

Zhonglin Mou

Nicholas Dufault

...

2023/3/1

Multiplexed gene editing with a multi-intron containing Cas9 gene in citrus

bioRxiv

Poulami Sarkar

Jorge Santiago Vazquez

Mingxi Zhou

Amit Levy

Zhonglin Mou

...

2023

N-hydroxypipecolic acid triggers systemic acquired resistance through extracellular NAD (P)

Nature communications

Qi Li

Mingxi Zhou

Shweta Chhajed

Fahong Yu

Sixue Chen

...

2023/10/27

Dissecting the Role of SAG101 in Extracellular NAD (P)+-Mediated Immune Signaling

UF Journal of Undergraduate Research

Emily Liu

Mingxi Zhou

Zhonglin Mou

2023/10/17

A direct link between BR and SA signaling: Negative regulation of TGA4 by BIN2

Molecular Plant

Cheng Liu

Qingcai Liu

Zhonglin Mou

2022/8/1

Draft Genome Sequences of Pseudomonas syringae pv. tomato Strains J4 and J6, Isolated in Florida

Microbiology Resource Announcements

Naweena Thapa

Sujan Timilsina

Gerald V Minsavage

Juliana Pereira-Martin

Gary E Vallad

...

2021/4/15

Efficient artificial microRNA vectors for gene silencing in citrus

Plant Cell Reports

Qi Li

Michel Canton

Hao Wu

Xudong Zhang

Janice Zale

...

2021/12

Selection of transgenic citrus plants based on glyphosate tolerance conferred by a citrus 5-enolpyruvylshikimate-3-phosphate synthase variant

Plant Cell Reports

Benjamin A Merritt

Xudong Zhang

Eric W Triplett

Zhonglin Mou

Vladimir Orbović

2021/10

NAD Metabolism and Signaling in Plants

Frontiers in Plant Science

Alisdair Fernie

Shin-nosuke Hashida

Kazuya Yoshimura

Bertrand Gakière

Zhonglin Mou

...

2020/2/26

Efficient CRISPR/Cas9 genome editing with Citrus embryogenic cell cultures

BMC biotechnology

Manjul Dutt

Zhonglin Mou

Xudong Zhang

Sameena E Tanwir

Jude W Grosser

2020/12

Use of elongator genes to improve plant disease resistance

2020/11/10

Differential quantitative requirements for NPR1 between basal immunity and systemic acquired resistance in Arabidopsis thaliana

Frontiers in Plant Science

Yezhang Ding

Matthew R Dommel

Chenggang Wang

Qi Li

Qi Zhao

...

2020/9/18

Perception of damaged self in plants

Qi Li

Chenggang Wang

Zhonglin Mou

2020/4/1

See List of Professors in Zhonglin Mou University(University of Florida)