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pollen tube
24
"How many receptor-like kinases are required to operate a pollen tube" (2018) Muschietti, J.P.; Wengier, D.L. Current Opinion in Plant Biology. 41:73-82
"How many receptor-like kinases are required to operate a pollen tube" (2018) Muschietti, J.P.; Wengier, D.L. Current Opinion in Plant Biology. 41:73-82
"Arabidopsis pollen extensins LRX are required for cell wall integrity during pollen tube growth" (2018) Sede, A.R.;Borassi, C.;Wengier, D.L. (...)Muschietti, J.P. FEBS Letters. 592(2):233-243
"Arabidopsis pollen extensins LRX are required for cell wall integrity during pollen tube growth" (2018) Sede, A.R.;Borassi, C.;Wengier, D.L. (...)Muschietti, J.P. FEBS Letters. 592(2):233-243
"Arabidopsis pollen extensins LRX are required for cell wall integrity during pollen tube growth" (2018) Sede, A.R.;Borassi, C.;Wengier, D.L. (...)Muschietti, J.P. FEBS Letters. 592(2):233-243
"Calcium dynamics in tomato pollen tubes using the Yellow Cameleon 3.6 sensor" (2018) Barberini, M.L.;Sigaut, L.;Huang, W. (...)Muschietti, J. Plant Reproduction. 31(2):159-169
"Calcium dynamics in tomato pollen tubes using the Yellow Cameleon 3.6 sensor" (2018) Barberini, M.L.;Sigaut, L.;Huang, W. (...)Muschietti, J. Plant Reproduction. 31(2):159-169
"RALF4/19 peptides interact with LRX proteins to control pollen tube growth in Arabidopsis" (2017) Mecchia, M.A.;Santos-Fernandez, G.;Duss, N.N. (...)Grossniklaus, U. Science. 358(6370):1600-1603
"RALF4/19 peptides interact with LRX proteins to control pollen tube growth in Arabidopsis" (2017) Mecchia, M.A.;Santos-Fernandez, G.;Duss, N.N. (...)Grossniklaus, U. Science. 358(6370):1600-1603
"RALF4/19 peptides interact with LRX proteins to control pollen tube growth in Arabidopsis" (2017) Mecchia, M.A.;Santos-Fernandez, G.;Duss, N.N. (...)Grossniklaus, U. Science. 358(6370):1600-1603
"Pollen aquaporins: What are they there for?" (2016) Pérez Di Giorgio, J.A.; Barberini, M.L.; Amodeo, G.; Muschietti, J.P. Plant signaling & behavior. 11(9):e1217375
"Pollen aquaporins: What are they there for?" (2016) Pérez Di Giorgio, J.A.; Barberini, M.L.; Amodeo, G.; Muschietti, J.P. Plant signaling & behavior. 11(9):e1217375
"Optimized method for growing in vitro Arabidopsis thaliana pollen tubes" (2015) Borassi, C.;Di Giorgio, J.P.;Scarpin, M.R. (...)Estevez, J.M. Methods in Molecular Biology. 1242:41-47
"Optimized method for growing in vitro Arabidopsis thaliana pollen tubes" (2015) Borassi, C.;Di Giorgio, J.P.;Scarpin, M.R. (...)Estevez, J.M. Methods in Molecular Biology. 1242:41-47
"Preface" (2015) Estevez, J.M. Methods in Molecular Biology. 1242:v
"Mutations in two putative phosphorylation motifs in the tomato pollen receptor kinase LePRK2 show antagonistic effects on pollen tube length" (2011) Salem, T.;Mazzella, A.;Barberini, M.L. (...)Muschietti, J. Journal of Biological Chemistry. 286(6):4882-4891
"Mutations in two putative phosphorylation motifs in the tomato pollen receptor kinase LePRK2 show antagonistic effects on pollen tube length" (2011) Salem, T.;Mazzella, A.;Barberini, M.L. (...)Muschietti, J. Journal of Biological Chemistry. 286(6):4882-4891
"AtTIP1;3 and AtTIP5;1, the only highly expressed Arabidopsis pollen-specific aquaporins, transport water and urea" (2008) Soto, G.;Alleva, K.;Mazzella, M.A. (...)Muschietti, J.P. FEBS Letters. 582(29):4077-4082
"The receptor kinases LePRK1 and LePRK2 associate in pollen and when expressed in yeast, but dissociate in the presence of style extract" (2003) Wengier, D.;Valsecchi, I.;Cabanas, M.L. (...)Muschietti, J. Proceedings of the National Academy of Sciences of the United States of America. 100(11):6860-6865