Timothy F. Plageman

1.0k citations
23 papers · 709 indexed · h-index 14
Co-authors
Katherine E. YutzeyRichard A. LangJeffrey D. HildebrandMing LouBharesh K. ChauhanApril N. SmithJohn B. WallingfordAmanda L. Zacharias
Cited by
Cell BiologyMolecular BiologyDevelopmental Neuroscience
Journals
Journal of Biological Chemistry (1 paper)PLoS ONE (2 papers)Development (4 papers)
Partner nations
United StatesCanadaAustralia

In The Last Decade

Timothy F. Plageman

22 papers receiving 704 citations

Peers

Timothy F. Plageman
Comparison fields: 5 of 70
  • Cell Biology 200
  • Molecular Biology 574
  • Developmental Neuroscience 23
  • Aging 8
  • Genetics 126
Replace Hong Jun Rhee with:
Hong Jun Rhee Netherlands
Josephine E. Joya Australia
Bruce Micales United States
Nathan A. Mundell United States
Beth A. Firulli United States
Uli Schmidt Germany
Janine LeBlanc-Straceski United States
Jeanette Hyer United States
Daniel Trcka Canada
Yayoi Kinoshita United States
Timothy F. Plageman relative to Hong Jun Rhee Netherlands Hong Jun Rhee's profile →
Citations per field
00.5×4.4×
Hong Jun Rhee · 1×
Citations per year

Countries citing papers authored by Timothy F. Plageman

Since Specialization
Citations

This map shows the geographic impact of Timothy F. Plageman'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 Timothy F. Plageman with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Timothy F. Plageman more than expected).

Fields of papers citing papers by Timothy F. Plageman

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Timothy F. Plageman. 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 Timothy F. Plageman. The network helps show where Timothy F. Plageman may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Timothy F. Plageman, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Timothy F. Plageman Line = papers co-authored together Timothy F. Plageman links everyone, so they are left out of the graph.

All Works

20 of 20 papers shown
#Work
1
Shroom3 facilitates optic fissure closure via tissue alignment and reestablishment of apical-basal polarity during epithelial fusion
Developmental Biology ·Jessica A Herstine,Jordyn Mensh,E. J. Coffman,Stephanie M. George,Kenneth Herman,Jessica B. Martin,Ali Zatari,Heather L. Chandler,Zbyněk Kozmík,Thomas A. Drysdale,Darren Bridgewater,Timothy F. Plageman
20251
2
Understanding the role of Shroom3 in the developing mouse myocardium
PLoS ONE ·Jane Carleton,Rami Halabi,Jessica A. Willson,Timothy F. Plageman,Darren Bridgewater,Qingping Feng,Thomas A. Drysda e
20250
3
Arvcf Dependent Adherens Junction Stability is Required to Prevent Age-Related Cortical Cataracts
Frontiers in Cell and Developmental Biology ·Jessica B. Martin,Kenneth Herman,Nathalie Houssin,Wade Rich,Matthew A. Reilly,Timothy F. Plageman
20224
4
Formation and contraction of multicellular actomyosin cables facilitate lens placode invagination
Developmental Biology ·Nathalie Houssin,Jessica B. Martin,Vincenzo Coppola,Sung Ok Yoon,Timothy F. Plageman
202018
5
Novel variants in CDH2 are associated with a new syndrome including Peters anomaly
Clinical Genetics ·Linda M. Reis,Nathalie Houssin,Carlos Zamora,Omar Abdul‐Rahman,Jennifer M. Kalish,Elaine H. Zackai,Timothy F. Plageman,Elena V. Semina
201914
6
Folic acid modifies the shape of epithelial cells during morphogenesis via a Folr1 and MLCK dependent mechanism
Biology Open ·Jessica B. Martin,Maria Muccioli,Kenneth Herman,Richard H. Finnell,Timothy F. Plageman
201910
7
Lens Stretching Modulates Lens Epithelial Cell Proliferation via YAP Regulation
Investigative Ophthalmology & Visual Science ·Bharat Kumar,Heather L. Chandler,Timothy F. Plageman,Matthew A. Reilly
201929
8
Lens placode planar cell polarity is dependent on Cdc42-mediated junctional contraction inhibition
Developmental Biology ·Maria Muccioli,Dalya Qaisi,Ken Herman,Timothy F. Plageman
201614
9
Thyroid bud morphogenesis requires CDC42- and SHROOM3-dependent apical constriction
Biology Open ·David A.F. Loebel,Timothy F. Plageman,Theresa L. Tang,Vanessa Jones,Maria Muccioli,Patrick Tam
20168
10
Epithelial Morphogenesis
Current topics in developmental biology ·Bharesh K. Chauhan,Timothy F. Plageman,Ming Lou,Richard A. Lang
201521
11
Junctional p120-catenin Recruitment of Shroom3 Facilitates Apical Constriction During Lens Pit Morphogenesis
Investigative Ophthalmology & Visual Science ·Timothy F. Plageman,Albert B. Reynolds,Richard A. Lang
20141
12
The interaction between Shroom3 and Rho-kinase is required for neural tube morphogenesis in mice
Biology Open ·Debamitra Das,Jenna K. Zalewski,Swarna Mohan,Timothy F. Plageman,Andrew P. VanDemark,Jeffrey D. Hildebrand
201429
13
Generation of an Rx-tTA: TetOp-Cre Knock-In Mouse Line for Doxycycline Regulated Cre Activity in the Rx Expression Domain
PLoS ONE ·Timothy F. Plageman,Richard A. Lang
20125
14
A Trio-RhoA-Shroom3 pathway is required for apical constriction and epithelial invagination
Development ·Timothy F. Plageman,Bharesh K. Chauhan,Christine Yang,Fanny Jaudon,Xun Shang,Yi Zheng,Ming Lou,Anne Debant,Jeffrey D. Hildebrand,Richard A. Lang
201193
15
A TRIO-RhoA-Shroom3 pathway is required for apical constriction during lens pit invagination
Developmental Biology ·Timothy F. Plageman,Bharesh K. Chauhan,Fanny Jaudon,Xun Shang,Yi Zheng,Ming Lou,Anne Debant,Richard A. Lang
20111
16
Shroom3 and a Pitx2-N-cadherin pathway function cooperatively to generate asymmetric cell shape changes during gut morphogenesis
Developmental Biology ·Timothy F. Plageman,Amanda L. Zacharias,Philip J. Gage,Richard A. Lang
201144
17
Pax6-dependent Shroom3 expression regulates apical constriction during lens placode invagination
Development ·Timothy F. Plageman,Mei-I Chung,Ming Lou,April N. Smith,Jeffrey D. Hildebrand,John B. Wallingford,Richard A. Lang
201093
18
Microarray analysis of Tbx5‐induced genes expressed in the developing heart
Developmental Dynamics ·Timothy F. Plageman,Katherine E. Yutzey
200625
19
Differential Expression and Function of Tbx5 and Tbx20 in Cardiac Development
Journal of Biological Chemistry ·Timothy F. Plageman,Katherine E. Yutzey
2004104
20
T‐box genes and heart development: Putting the “T” in heart
Developmental Dynamics ·Timothy F. Plageman,Katherine E. Yutzey
2004123

About Timothy F. Plageman

Timothy F. Plageman is a scholar working on Aging, Cell Biology and Molecular Biology, having authored 23 papers that have together received 709 indexed citations. Recurring topics across this work include Wnt/β-catenin signaling in development and cancer (9 papers), Developmental Biology and Gene Regulation (9 papers), Connexins and lens biology (6 papers), Congenital heart defects research (5 papers), Cellular Mechanics and Interactions (3 papers), Hippo pathway signaling and YAP/TAZ (3 papers), Connective tissue disorders research (2 papers) and Intraocular Surgery and Lenses (2 papers). The work is most often cited by research in Cell Biology (200 citations), Molecular Biology (574 citations) and Developmental Neuroscience (23 citations). Timothy F. Plageman has collaborated with scholars based in United States, Canada and Australia. Frequent co-authors include Katherine E. Yutzey, Richard A. Lang, Jeffrey D. Hildebrand, Ming Lou, Bharesh K. Chauhan, April N. Smith, John B. Wallingford, Amanda L. Zacharias, Philip J. Gage and Albert B. Reynolds. Their work appears in journals such as Journal of Biological Chemistry, PLoS ONE 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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