Jeongmoo Park

1.8k citations

18 papers · 1.4k indexed · h-index 14

Plant Science top 2%
Molecular Biology top 10%
Genetics
Ecology, Evolution, Behavior and Systematics
Biotechnology

Co-authors: Giltsu Choi Nayoung Lee Eunae Park Yuji Kamiya Jung-Hyun Kim Woohyun Kim Doheon Lee Eunkyoo Oh
Topics: Plant Molecular Biology Research (13 papers)Plant Reproductive Biology (5 papers)Light effects on plants (5 papers)
Cited by: Plant Science Molecular Biology Physiology
Journals: Nature Communications The Plant Cell Development
Partner nations: South Korea United States Japan

In The Last Decade

Jeongmoo Park

17 papers receiving 1.4k citations

Peers

Replace Masahiko Furutani with:

Masahiko Furutani Japan

Suiwen Hou China

Suying Han China

Frédéric Gévaudant France

Monica Carabelli Italy

Kai Dünser Austria

Miguel de Lucas Spain

Yinbo Gan China

Jeffery F. Harper United States

Jeongmoo Park relative to Masahiko Furutani Japan Masahiko Furutani's profile →

Citations per field

00.5×2×3.1×

Masahiko Furutani · 1×

×0.7 1k/2k

PS

×0.6 917/2k

MB

×1.4 57/41

GENET

×0.5 35/64

EEBS

×3.1 28/9

BIOTE

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Countries citing papers authored by Jeongmoo Park

Since Specialization

Citations

This map shows the geographic impact of Jeongmoo Park's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Jeongmoo Park with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jeongmoo Park more than expected).

Fields of papers citing papers by Jeongmoo Park

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jeongmoo Park. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Jeongmoo Park. The network helps show where Jeongmoo Park may publish in the future.

Co-authorship network of co-authors of Jeongmoo Park

This figure shows the co-authorship network connecting the top 25 collaborators of Jeongmoo Park. A scholar is included among the top collaborators of Jeongmoo Park based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Jeongmoo Park. Jeongmoo Park is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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18 of 18 papers shown

#	Work	Indexed citations
1	Structural insights into proteolysis-dependent and -independent suppression of the master regulator DELLA by the gibberellin receptor. 2025 ·PubMed ·(unknown),Yan Wang,Jianhong Hu,Jeongmoo Park,(unknown),(unknown),Kedar Sharma,Mario J. Borgnia,(unknown),Pei Zhou	0
2	Phosphorylation activates master growth regulator DELLA by promoting histone H2A binding at chromatin in Arabidopsis 2024 ·Nature Communications ·Xu Huang,Rodolfo Zentella,Jeongmoo Park,(unknown),Dina L. Bai,Mark M. Ross,Jeffrey Shabanowitz,Donald F. Hunt,Tai‐ping Sun	5
3	Enabling High-throughput Transgene Expression Studies Using Automated Liquid Handling for Etiolated Maize Leaf Protoplasts 2024 ·Journal of Visualized Experiments ·(unknown),Jeongmoo Park,(unknown),(unknown),(unknown),(unknown),(unknown),Shujie Dong	1
4	Automated, High-Throughput Protoplast Transfection for Gene Editing and Transgene Expression Studies 2023 ·Methods in molecular biology ·(unknown),(unknown),Yingxiao Zhang,Chengjin Zhang,(unknown),Matthew T. Moore,(unknown),(unknown),Jeongmoo Park,(unknown),Aditya Gopalan,Shujie Dong,Yuyan Chen,Qiudeng Que	4
5	The master growth regulator DELLA binding to histone H2A is essential for DELLA-mediated global transcription regulation 2023 ·Nature Plants ·Xu Huang,(unknown),Jeongmoo Park,Dong‐Ha Oh,Jianhong Hu,Rodolfo Zentella,Hong Qiao,Maheshi Dassanayake,Tai‐ping Sun	19
6	Gibberellin Signaling Requires Chromatin Remodeler PICKLE to Promote Vegetative Growth and Phase Transitions 2017 ·PLANT PHYSIOLOGY ·Jeongmoo Park,Dong‐Ha Oh,Maheshi Dassanayake,(unknown),Joe Ogas,Giltsu Choi,Tai‐ping Sun	57
7	The ERF11 Transcription Factor Promotes Internode Elongation by Activating Gibberellin Biosynthesis and Signaling 2016 ·PLANT PHYSIOLOGY ·Xin Zhou,Zhonglin Zhang,Jeongmoo Park,Ludmila Tyler,Yusuke Jikumaru,Kai Qiu,Edward A. Nam,Shelley Lumba,Darrell Desveaux,Peter McCourt,Yuji Kamiya,Tai‐ping Sun	95
8	PIF1-Interacting Transcription Factors and Their Binding Sequence Elements Determine the in Vivo Targeting Sites of PIF1 2016 ·The Plant Cell ·Jung-Hyun Kim,Hyojin Kang,Jeongmoo Park,Woohyun Kim,Janghyun Yoo,Nayoung Lee,Jaewook Kim,Tae‐Young Yoon,Giltsu Choi	71
9	The Arabidopsis RING Domain Protein BOI Inhibits Flowering via CO-dependent and CO-independent Mechanisms 2015 ·Molecular Plant ·(unknown),Jeongmoo Park,Eunae Park,Ilha Lee,Giltsu Choi	27
10	The Transcriptional Coregulator LEUNIG_HOMOLOG Inhibits Light-Dependent Seed Germination in Arabidopsis 2015 ·The Plant Cell ·Nayoung Lee,Jeongmoo Park,Keunhwa Kim,Giltsu Choi	33
11	HONSU, a Protein Phosphatase 2C, Regulates Seed Dormancy by Inhibiting ABA Signaling in Arabidopsis 2013 ·Plant and Cell Physiology ·Woohyun Kim,Yeon Lee,Jeongmoo Park,Nayoung Lee,Giltsu Choi	75
12	ABA-INSENSITIVE3, ABA-INSENSITIVE5, and DELLAs Interact to Activate the Expression ofSOMNUSand Other High-Temperature-Inducible Genes in Imbibed Seeds inArabidopsis 2013 ·The Plant Cell ·Soohwan Lim,Jeongmoo Park,Nayoung Lee,Jinkil Jeong,Shigeo Toh,Asuka Watanabe,Jung-Hyun Kim,Hyojin Kang,Dong‐Hwan Kim,Naoto Kawakami,Giltsu Choi	179
13	DELLA Proteins and Their Interacting RING Finger Proteins Repress Gibberellin Responses by Binding to the Promoters of a Subset of Gibberellin-Responsive Genes inArabidopsis 2013 ·The Plant Cell ·Jeongmoo Park,(unknown),Eunae Park,Jong‐Seong Jeon,Giltsu Choi	115
14	Phytochrome B inhibits binding of phytochrome‐interacting factors to their target promoters 2012 ·The Plant Journal ·Eunae Park,Jeongmoo Park,Jung-Hyun Kim,Akira Nagatani,J. Clark Lagarias,Giltsu Choi	147
15	ABI3 and PIL5 Collaboratively Activate the Expression ofSOMNUSby Directly Binding to Its Promoter in ImbibedArabidopsisSeeds 2011 ·The Plant Cell ·Jeongmoo Park,Nayoung Lee,Woohyun Kim,Soohwan Lim,Giltsu Choi	119
16	Genome-Wide Analysis of Genes Targeted by PHYTOCHROME INTERACTING FACTOR 3-LIKE5 during Seed Germination inArabidopsis 2009 ·The Plant Cell ·Eunkyoo Oh,Hyo-Jin Kang,Shinjiro Yamaguchi,Jeongmoo Park,Doheon Lee,Yuji Kamiya,Giltsu Choi	310
17	LONGIFOLIA1andLONGIFOLIA2, two homologous genes,regulate longitudinal cell elongation inArabidopsis 2006 ·Development ·Young Koung Lee,Gyung‐Tae Kim,In-Jung Kim,Jeongmoo Park,Sang‐Soo Kwak,Giltsu Choi,Wonil Chung	131
18	Co-transformation using a negative selectable marker gene for the production of selectable marker gene-free transgenic plants 2004 ·Theoretical and Applied Genetics ·Jeongmoo Park,Young Koung Lee,(unknown),(unknown)	39

About Jeongmoo Park

Jeongmoo Park is a scholar working on Plant Science, Biotechnology and Biophysics, having authored 18 papers that have together received 1.4k indexed citations. Recurring topics across this work include Plant Molecular Biology Research (13 papers), Plant Reproductive Biology (5 papers) and Light effects on plants (5 papers). The work is most often cited by research in Plant Science (1.4k citations), Molecular Biology (917 citations) and Physiology (19 citations). Jeongmoo Park has collaborated with scholars based in South Korea, United States and Japan. Frequent co-authors include Giltsu Choi, Nayoung Lee, Eunae Park, Yuji Kamiya, Jung-Hyun Kim, Woohyun Kim, Doheon Lee, Eunkyoo Oh, Hyo-Jin Kang and Shinjiro Yamaguchi. Their work appears in journals such as Nature Communications, The Plant Cell and Development.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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