Kees Boot
Onderzoeker / gast
- Naam
- Dr. C.J.M. Boot
- Telefoon
- +31 71 527 2727
- c.j.m.boot@math.leidenuniv.nl
Onderzoeker / gast
- Wiskunde en Natuurwetenschappen
- Mathematisch Instituut
- Mathematisch Instituut
- Boot C.J.M., Hille S.C., Korthout H.A.A.J., Libbenga K.R. & Duijn A. van (2021), Extracting relevant physiological information from polar auxin transport data in Panax ginseng, Journal of Plant Physiology 262: 153436.
- Boot K.J.M., Hille S.C., Libbenga K.R., Pelletier L.A., Spronsen P.C. van, Duijn A. van & Offringa R. (2016), Modelling the dynamics of polar auxin transport in inflorescence stems of Arabidopsis thaliana, Journal of Experimental Botany 67(3): 649-666.
- Boot C.J.M., Libbenga K.R., Hille S.C., Offringa R. & Duijn B. van (2012), Polar auxin transport: an early invention, Journal of Experimental Botany 63(11): 4213-4218.
- Pacios-Bras C., Schlaman W.R.M., Boot K., Admiraal P., Mateos Langerak J., Stougaard J. & Spaink H.P. (2003), Auxin distribution in Lotus japonicus during root nodule development, Plant Molecular Biology 52(6): 1169-1180.
- Han Y.-S., Spronsen P.C. van, Tak T., Rood A.M.M., Brussel A.A.N. van, Kijne J.W. & Boot C.J.M. (2003), Salicyclic acid inhibits indeterminate-type nodulation but not determinate-type nodulation, Molecular Plant-Microbe Interactions 16: 83-91.
- Graaff E. van der, Boot C.J.M., Granbom R., Sandberg G. & Hooykaas P.J.J. (2003), Increased endogenous auxin production in Arabidopsis thaliana C24 causes both typical and novel auxin related phenotypes, Journal of Plant Growth Regulation 22(3): 240-252.
- Brussel A.A.N. van, Tak T., Boot C.J.M. & Kijne J.W. (2002), Autoregulation of root nodule formation: Signals of both symbiotic partners studied in a split-root system of Vicia sativa subsp. nigra, Molecular Plant-Microbe Interactions 15: 341-349.
- Scarpella E., Boot C.J.M., Rueb S. & Meijer A.H. (2002), The procambium specification gene Oshol 1 promotes polar auxin transport capacity and reduces its sensitivity toward inhibition, 130: 1349-1360.