| Genome-wide discovery and characterization of maize long non-coding RNAs L Li, SR Eichten, R Shimizu, K Petsch, CT Yeh, W Wu, AM Chettoor, ... Genome biology 15 (2), 1-15, 2014 | 384 | 2014 |
| An Exocyst Complex Functions in Plant Cell Growth in Arabidopsis and Tobacco M Hála, R Cole, L Synek, E Drdová, T Pečenková, A Nordheim, ... The Plant Cell 20 (5), 1330-1345, 2008 | 306 | 2008 |
| Polarized growth: maintaining focus on the tip RA Cole, JE Fowler Current opinion in plant biology 9 (6), 579-588, 2006 | 304 | 2006 |
| SEC8, a subunit of the putative Arabidopsis exocyst complex, facilitates pollen germination and competitive pollen tube growth RA Cole, L Synek, V Zarsky, JE Fowler Plant physiology 138 (4), 2005-2018, 2005 | 212 | 2005 |
| Plant cell morphogenesis: plasma membrane interactions with the cytoskeleton and cell wall JE Fowler, RS Quatrano Annual review of cell and developmental biology 13 (1), 697-743, 1997 | 201 | 1997 |
| The Arabidopsis Exocyst Complex Is Involved in Cytokinesis and Cell Plate Maturation M Fendrych, L Synek, T Pečenková, H Toupalová, R Cole, E Drdová, ... The Plant Cell 22 (9), 3053-3065, 2010 | 194 | 2010 |
| Arabidopsis exocyst subunits SEC8 and EXO70A1 and exocyst interactor ROH1 are involved in the localized deposition of seed coat pectin I Kulich, R Cole, E Drdová, F Cvrčková, A Soukup, J Fowler, V Žárský New Phytologist 188 (2), 615-625, 2010 | 134 | 2010 |
| The exocyst complex contributes to PIN auxin efflux carrier recycling and polar auxin transport in A rabidopsis EJ Drdova, L Synek, T Pečenková, M Hala, I Kulich, JE Fowler, ... The Plant Journal 73 (5), 709-719, 2013 | 132 | 2013 |
| Conserved Subgroups and Developmental Regulation in the Monocot rop Gene Family TM Christensen, Z Vejlupkova, YK Sharma, KM Arthur, JW Spatafora, ... Plant physiology 133 (4), 1791-1808, 2003 | 117 | 2003 |
| ROP GTPases act with the receptor-like protein PAN1 to polarize asymmetric cell division in maize JA Humphries, Z Vejlupkova, A Luo, RB Meeley, AW Sylvester, JE Fowler, ... The Plant Cell 23 (6), 2273-2284, 2011 | 101 | 2011 |
| Ectopic Expression of the Maize Homeobox GeneLiguleless3 Alters Cell Fates in the Leaf GJ Muehlbauer, JE Fowler, L Girard, R Tyers, L Harper, M Freeling Plant Physiology 119 (2), 651-662, 1999 | 91 | 1999 |
| Arabidopsis Myosin XI-K Localizes to the Motile Endomembrane Vesicles Associated with F-actin VV Peremyslov, AL Klocko, JE Fowler, VV Dolja Frontiers in plant science 3, 184, 2012 | 84 | 2012 |
| Sectors expressing the homeobox gene liguleless3 implicate a time-dependent mechanism for cell fate acquisition along the proximal-distal axis of the maize leaf GJ Muehlbauer, JE Fowler, M Freeling Development 124 (24), 5097-5106, 1997 | 80 | 1997 |
| Discovery of novel transcripts and gametophytic functions via RNA-seq analysis of maize gametophytic transcriptomes AM Chettoor, SA Givan, RA Cole, CT Coker, E Unger-Wallace, ... Genome biology 15 (7), 1-23, 2014 | 78 | 2014 |
| Fractionation and subfunctionalization following genome duplications: mechanisms that drive gene content and their consequences M Freeling, MJ Scanlon, JE Fowler Current Opinion in Genetics & Development 35, 110-118, 2015 | 73 | 2015 |
| Maize ROP7 GTPase contains a unique, CaaX box‐independent plasma membrane targeting signal M Ivanchenko, Z Vejlupkova, RS Quatrano, JE Fowler The Plant Journal 24 (1), 79-90, 2000 | 68 | 2000 |
| Maize ROP2 GTPase provides a competitive advantage to the male gametophyte KM Arthur, Z Vejlupkova, RB Meeley, JE Fowler Genetics 165 (4), 2137-2151, 2003 | 67 | 2003 |
| Genetic analysis of mutations that alter cell fates in maize leaves: Dominant Liguleless mutations JE Fowler, M Freeling Developmental genetics 18 (3), 198-222, 1996 | 58 | 1996 |
| Mosaic Analysis of the Liguleless3 Mutant Phenotype in Maize by Coordinate Suppression of Mutator-insertion Alleles JE Fowler, GJ Muehlbauer, M Freeling Genetics 143 (1), 489-503, 1996 | 43 | 1996 |
| Auxin and root hair morphogenesis SH Lee, HT Cho Root hairs, 45-64, 2009 | 38* | 2009 |
