| Stomatal patterning and differentiation by synergistic interactions of receptor kinases ED Shpak, JM McAbee, LJ Pillitteri, KU Torii Science 309 (5732), 290-293, 2005 | 656 | 2005 |
| Synergistic interaction of three ERECTA-family receptor-like kinases controls Arabidopsis organ growth and flower development by promoting cell proliferation ED Shpak, CT Berthiaume, EJ Hill, KU Torii Oxford University Press for The Company of Biologists Limited 131 (7), 1491-1501, 2004 | 439 | 2004 |
| Dominant-negative receptor uncovers redundancy in the Arabidopsis ERECTA leucine-rich repeat receptor–like kinase signaling pathway that regulates organ shape ED Shpak, MB Lakeman, KU Torii The Plant Cell 15 (5), 1095-1110, 2003 | 250 | 2003 |
| Contiguous hydroxyproline residues direct hydroxyproline arabinosylation in Nicotiana tabacum E Shpak, E Barbar, JF Leykam, MJ Kieliszewski Journal of Biological Chemistry 276 (14), 11272-11278, 2001 | 173 | 2001 |
| Synthetic genes for glycoprotein design and the elucidation of hydroxyproline-O-glycosylation codes E Shpak, JF Leykam, MJ Kieliszewski Proceedings of the National Academy of Sciences 96 (26), 14736-14741, 1999 | 165 | 1999 |
| Di-isodityrosine is the intermolecular cross-link of isodityrosine-rich extensin analogs cross-linked in vitro MA Held, L Tan, A Kamyab, M Hare, E Shpak, MJ Kieliszewski Journal of Biological Chemistry 279 (53), 55474-55482, 2004 | 158 | 2004 |
| Diverse Roles of ERECTA Family Genes in Plant Development ED Shpak Journal of integrative plant biology 55 (12), 1238-1250, 2013 | 143 | 2013 |
| Synthetic genes for the elucidation of glycosylation codes for arabinogalactan-proteins and other hydroxyproline-rich glycoproteins MJ Kieliszewski, E Shpak Cellular and Molecular Life Sciences CMLS 58, 1386-1398, 2001 | 143 | 2001 |
| A receptor-like protein acts as a specificity switch for the regulation of stomatal development G Lin, L Zhang, Z Han, X Yang, W Liu, E Li, J Chang, Y Qi, ED Shpak, ... Genes & development 31 (9), 927-938, 2017 | 135 | 2017 |
| Haploinsufficiency after successive loss of signaling reveals a role for ERECTA-family genes in Arabidopsis ovule development LJ Pillitteri, SM Bemis, ED Shpak, KU Torii Oxford University Press for The Company of Biologists Limited 134 (17), 3099 …, 2007 | 120 | 2007 |
| The role of LORELEI in pollen tube reception at the interface of the synergid cell and pollen tube requires the modified eight-cysteine motif and the receptor-like kinase FERONIA X Liu, C Castro, Y Wang, J Noble, N Ponvert, M Bundy, C Hoel, E Shpak, ... The Plant Cell 28 (5), 1035-1052, 2016 | 109 | 2016 |
| ERECTA Family Genes Regulate Auxin Transport in the Shoot Apical Meristem and Forming Leaf Primordia MK Chen, RL Wilson, K Palme, FA Ditengou, ED Shpak Plant physiology 162 (4), 1978-1991, 2013 | 86 | 2013 |
| EPFL signals in the boundary region of the SAM restrict its size and promote leaf initiation PZ Kosentka, A Overholt, R Maradiaga, O Mitoubsi, ED Shpak Plant physiology 179 (1), 265-279, 2019 | 65 | 2019 |
| Regulation of floral patterning and organ identity by Arabidopsis ERECTA-family receptor kinase genes SM Bemis, JS Lee, ED Shpak, KU Torii Journal of experimental botany 64 (17), 5323-5333, 2013 | 64 | 2013 |
| The presence of multiple introns is essential for ERECTA expression in Arabidopsis R Karve, W Liu, SG Willet, KU Torii, ED Shpak RNA 17 (10), 1907-1921, 2011 | 58 | 2011 |
| Regulation of plasmodesmatal permeability and stomatal patterning by the glycosyltransferase-like protein KOBITO1 D Kong, R Karve, A Willet, MK Chen, J Oden, ED Shpak Plant Physiology 159 (1), 156-168, 2012 | 55 | 2012 |
| Modification of tomato growth by expression of truncated ERECTA protein from Arabidopsis thaliana H Villagarcia, AC Morin, ED Shpak, MV Khodakovskaya Journal of Experimental Botany 63 (18), 6493-6504, 2012 | 50 | 2012 |
| ERECTA family signaling constrains CLAVATA3 and WUSCHEL to the center of the shoot apical meristem L Zhang, D DeGennaro, G Lin, J Chai, ED Shpak Development 148 (5), dev189753, 2021 | 42 | 2021 |
| A mutation in the catalytic subunit of the glycosylphosphatidylinositol transamidase disrupts growth, fertility, and stomata formation MGR Bundy, PZ Kosentka, AH Willet, L Zhang, E Miller, ED Shpak Plant Physiology 171 (2), 974-985, 2016 | 39 | 2016 |
| Production of recombinant plant gum with tobacco cell culture in bioreactor and gum characterization J Xu, E Shpak, T Gu, M Moo‐Young, M Kieliszewski Biotechnology and bioengineering 90 (5), 578-588, 2005 | 34 | 2005 |
