Publications

Krishna A, Gardiner J, Donner TJ, Scarpella E (2021). Control of vein-forming, striped gene expression by auxin signaling. BMC Biology 19: 213. Pubmed

Lavania D, Linh NM, Scarpella E (2021). Of cells, strands, and networks: auxin and the patterned formation of the vascular system. Cold Spring Harbor Perspectives in Biology 13: a039958. Pubmed

Lv S, Wang L, Zhang X, Li X, Fan L, Xu Y, Zhao Y, Xie H, Sawchuk MG, Scarpella E, Qiu Q-S (2020). Arabidopsis NHX5 and NHX6 regulate PIN6-mediated auxin homeostasis and growth. Journal of Plant Physiology 255: 153305. Pubmed

Matosevich R, Cohen I, Gil-Yarom N, Modrego A, Friedlander-Shani L, Verna C, Scarpella E, Efroni I (2020). Local auxin biosynthesis is required for root regeneration after wounding. Nature Plants 6: 1020-1030. Pubmed

Govindaraju P, Verna C, Zhu T, Scarpella E (2020). Vein patterning by tissue-specific auxin transport. Development 147: dev187666. Pubmed

Amalraj B, Govindaraju P, Krishna A, Lavania D, Linh NM, Ravichandran SJ, Scarpella E (2020). GAL4/GFP enhancer-trap lines for identification and manipulation of cells and tissues in developing Arabidopsis leaves. Developmental Dynamics 249: 1127-1146. Pubmed

Ravichandran SJ, Linh NM, Scarpella E (2020). The canalization hypothesis — challenges and alternatives. New Phytologist 227: 1051-1059. Pubmed

Radhakrishnan D, Shanmukhan AP, Kareem A, Aiyaz M, Varapparambathu V, Toms A, Kerstens M, Valsakumar D, Landge AN, Shaji A, Mathew MK, Sawchuk MG, Scarpella E, Krizek BA, Efroni I, Mähönen AP, Willemsen V, Scheres B, Prasad K (2020). A coherent feed forward loop drives vascular regeneration in damaged aerial organs growing in normal developmental-context. Development 147: dev185710. Pubmed

Verna C, Ravichandran SJ, Sawchuk MG, Linh NM, Scarpella E (2019). Coordination of tissue cell polarity by auxin transport and signaling. eLife 8: e51061. Pubmed

Linh NM, Verna C, Scarpella E (2018). Coordination of cell polarity and the patterning of leaf vein networks. Current Opinion in Plant Biology 41: 116-124. Pubmed

Belteton S, Sawchuk MG, Donohoe BS, Scarpella E, Szymanski DB (2018). Reassessing the roles of PIN proteins and anticlinal microtubules during pavement cell morphogenesis. Plant Physiology 176: 432-449. Pubmed

Scarpella E (2017). The logic of plant vascular patterning. Polarity, continuity and plasticity in the formation of the veins and of their networks. Current Opinions in Genetics & Development 45: 34-43. Pubmed

Bennett T, Hines G, van Rongen M, Waldie T, Sawchuk MG, Scarpella E, Ljung K, Leyser O (2016). Connective auxin transport in the shoot facilitates communication between shoot apices. PLoS Biology 14: e1002446. Pubmed

Verna C, Sawchuk MG, Linh NM, Scarpella E (2015). Control of vein network topology by auxin transport. BMC Biology 13: 94. Pubmed

Konishi M, Donner TJ, Scarpella E, Yanagisawa S (2015). MONOPTEROS directly activates the auxin-inducible promoter of the Dof5.8 transcription factor gene in Arabidopsis thaliana leaf provascular cells. Journal of Experimental Botany 66: 283-291. Pubmed

Sawchuk MG, Scarpella E (2013). Control of vein patterning by intracellular auxin transport. Plant Signaling & Behavior 8: e27205. Pubmed

Odat O, Gardiner J, Sawchuk MG, Verna C, Donner TJ, Scarpella E (2014). Characterization of an allelic series in the MONOPTEROS gene of Arabidopsis. Genesis 52: 127-133. Pubmed

Sawchuk MG, Scarpella E (2013). Polarity, continuity, and alignment in plant vascular strands. Journal of Integrative Plant Biology 55: 824-834. Pubmed

Sawchuk MG, Edgar A, Scarpella E (2013). Patterning of leaf vein networks by convergent auxin transport pathways. PLoS Genetics 9: e1003294. Pubmed

Donner TJ, Scarpella E (2013). Transcriptional control of early vein expression of CYCA2;1 and CYCA2;4 in Arabidopsis leaves. Mechanisms of Development 130: 14-24. Pubmed

Scarpella E, Berleth T. (2013). Auxin Transport and Signaling in Leaf Vascular Patterning. In Polar Auxin Transport (Chen R, Baluska F; Springer-Verlag): 129-154. Publisher

Vanneste S, Coppens F, Lee E, Donner TJ, Xie Z, Van Isterdael G, Dhondt S, De Winter F, De Rybel B, Vuylsteke M, De Veylder L, Friml J, Inzé D, Grotewold E, Scarpella E, Sack F, Beemster GT, Beeckman T (2011). Developmental regulation of CYCA2s contributes to tissue-specific proliferation in Arabidopsis. The EMBO Journal. 30: 3430-3441. Pubmed

Ckurshumova W, Scarpella E, Goldstein R, Berleth T (2011). Double-filter identification of vascularexpressed genes using Arabidopsis plants with vascular hypertrophy and hypotrophy. Plant Science 181: 96-104. Pubmed

Gardiner J, Donner TJ, Scarpella E (2011). Simultaneous activation of SHR and ATHB8 expression defines switch to preprocambial cell state in Arabidopsis leaf development. Developmental Dynamics 240: 261-270. Pubmed

Scarpella E, Helariutta Y (2010). Vascular pattern formation in plants. Current Topics in Developmental Biology 91: 221-265. Pubmed

Donner TJ, Sherr I, Scarpella E (2010). Auxin signal transduction in Arabidopsis vein formation. Plant Signaling & Behavior 5: 70-72. Pubmed

Gardiner J, Sherr I, Scarpella E (2010). Expression of DOF genes identifies early stages of vascular development in Arabidopsis leaves. International Journal of Developmental Biology 54: 1389-1396. Pubmed

Scarpella E, Barkoulas M, Tsiantis M (2010). Control of leaf and vein development by auxin. Cold Spring Harbor Perspectives in Biology 2: a001511. Pubmed

Donner TJ, Sherr I, Scarpella E (2009). Regulation of preprocambial cell state acquisition by auxin signaling in Arabidopsis leaves. Development 136: 3235-3246. Pubmed

Donner TJ, Scarpella E (2009). Auxin transport-dependent leaf vein formation. Botany 87: 678-684. Publisher

Sawchuk MG, Donner TJ, Scarpella E (2008). Auxin transport-dependent, stage-specific dynamics of leaf vein formation. Plant Signaling and Behavior 3: 286-289. Pubmed

Sawchuk MG, Donner TJ, Head P, Scarpella E (2008). Unique and overlapping expression patterns among members of photosynthesis-associated nuclear gene families in Arabidopsis. Plant Physiology 148: 1908-1924. Pubmed

Sawchuk MG, Head P, Donner TJ, Scarpella E (2007). Time-lapse imaging of Arabidopsis leaf development shows dynamic patterns of procambium formation. New Phytologist 176: 560-571. Pubmed

Berleth T, Scarpella E, Prusinkiewicz P (2007). Towards the system biology of auxin-transport mediated patterning. Trends in Plant Sciences 12: 151-159. Pubmed

Scarpella E, Marcos D, Friml J, Berleth T (2006). Control of leaf vascular patterning by polar auxin transport. Genes & Development 20: 1015-1027. Pubmed

Scarpella E, Simons EJ, Meijer AH (2005). Multiple regulatory elements contribute to the vascular-specific expression of the rice HD-Zip gene Oshox1 in Arabidopsis. Plant and Cell Physiology 46: 1400-1410. Pubmed

Kuijt SJH, Lamers GEM, Rueb S, Scarpella E, Ouwerkerk PBF, Spaink HP, Meijer AH (2004). Different subcellular localization and trafficking properties of KNOX class 1 homeodomain proteins from rice. Plant Molecular Biology 55: 781-796. Pubmed

Berleth T, Krogan NT, Scarpella E (2004). Auxin signals – turning genes on and turning cells around. Current Opinion in Plant Biology 7: 553-563. Pubmed

Scarpella E, Francis P, Berleth T (2004). Stage-specific markers define early steps of procambium development in Arabidopsis leaves and correlate termination of vein formation with mesophyll differentiation. Development 131: 3445-3455. Pubmed

Scarpella E, Meijer AH (2004). Pattern formation in the vascular system of monocot and dicot plant species. New Phytologist 164: 209-242. Publisher

Berleth T, Scarpella E (2004). Polar signals in vascular development. In Polarity in Plants (Lindsey K; Blackwell): 264-287. Publisher

Scarpella E, Rueb S, Meijer AH (2003). The RADICLELESS1 gene is required for vascular pattern formation in rice. Development 130: 645-658. Pubmed

Scarpella E, Boot KJM, Rueb S, Meijer, AH (2002). The procambium specification gene Oshox1 promotes polar auxin transport capacity and reduces its sensitivity toward inhibition. Plant Physiology 130: 1349-1360. Pubmed

Postma-Haarsma AD, Rueb S, Scarpella E, Lamers GEM, Hoge JHC, Meijer AH (2002). Developmental regulation and downstream effects of the knox class homeobox genes Oskn2 and Oskn3 from rice. Plant Molecular Biology 48: 423-441. Pubmed

Scarpella E, Rueb S, Boot KJM, Hoge JHC, Meijer AH (2000). A role for the rice homeobox gene Oshox1 in provascular cell fate commitment. Development 127: 3655-3669. Pubmed

Meijer AH, Scarpella E, Van Dijk EL, Qin L, Taal AJC, Rueb S, Harrington SE, McCouch SR, Schilperoort RA, Hoge JHC (1997). Transcriptional repression by Oshox1, a novel homeodomain leucine zipper protein from rice. The Plant Journal 11: 263-276. Pubmed