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Plantae/plants

Karrer, E. E., and Rodriguez, R. L. 1992. Metabolic regulation of rice a-amylase and sucrose synthase genes in planta. Plant J. 2,517-523. [Pg.181]

Mizutani M, Ohta D, Sato R (1997) Isolation of a cDNA and a genomic clone encoding cinnamate 4-hydroxylase from Arabidopsis and its expression manner in planta. Plant Physiol 113 755-763... [Pg.440]

Zhang H, Xie X, Kim M-S, Komyeyev DA, Holaday S, and Pare PW (2008) Soil bacteria augment Arabidopsis photosynthesis by decreasing glucose sensing and abscisic acid levels in planta. Plants. 56 264-273... [Pg.126]

Ederli, L. Reale, L. Madeo, L. Eerranti, F Gehring, C. Fornaciari, M. Romano, B. Pasqualini, S. NO release by nitric oxide donors in vitro and in planta. Plant Physiol. Biochem. 2009,47,42-48. [Pg.52]

Brownleader M.D. Hopkins J. Mobasheri A. et al. (2002) Role of extension peroxidases in tomato Lycopersicon esculentum MiU.) seedling growth // Planta V. 210. P. 668-676. Burhanova G.F. Yarullina L. G. Maksimov I. V. (2007) Effect of chitooligosaccharides on wheat defence responses to infection by Bipolaris sorokiniana / / Russ. J. of plant physiology. V. 54. P. 104 -110. [Pg.216]

Bjorkman, O. Demmig, B. (1987). Photon yield of oxygen evolution and chlorophyll fluorescence characteristics at 77 K among vascular plants of diverse origins. Planta, 170, 489-504. [Pg.64]

Demmig, B. Bjorkman, O. (1987). Comparison of the effect of excessive light on chlorophyll fluorescence (77 K) and photon yield of O2 evolution in leaves of higher plants. Planta, 171,171-84. [Pg.64]

Sharp, R.E. Davies, W.J. (1979). Solute regulation and growth by roots and shoots of water-stressed maize plants. Planta, 147, 43-9. [Pg.92]

Walton, D.C., Harrison, M.A. Cote, P. (1976). The effects of water stress on abscisic acid levels and metabolism in roots of Phaseolus vulgaris and other plants. Planta, 131, 141. ... [Pg.92]

Lauchli, A., Spurr, A.R. Wittkop, R.W. (1970). Electron probe analysis of freeze substituted, epoxy resin embedded tissue for ion transport studies in plants. Planta, 95, 341-50. [Pg.248]

Grotewold, E., The challenges of moving chemicals within and out of cells insights into the transport of plant natural products, Planta 219, 906, 2004. [Pg.385]

The substrate for HGA synthesis is UDP-D-galacturonic acid (UDP-GalA) (81). UDP-GalA has been isolated from plants (59) and several pathways for its synthesis in planta have been reported (31). In vitro studies on pectin biosynthesis have been hampered since radiolabeled UDP-galacturonic acid is not commercially available. Previous researchers have used several... [Pg.112]

Taylor,J.E., Tucker,G.A., Lasslett,Y., Smith,C.J.S., Amold,C.M., Watson,C.F., Schuch,W., Grierson,D and Roberts,J.A (1990) Polygalacturonase expression during leaf abscission of normal and transgenic tomato plants. Planta. 183.133-138. [Pg.354]

Yang Z, Cramer CL, Lacy GH (1992) Erwinia carotovora subsp. carotovora pectic enzymes In planta gene activation and roles in soft rot pathogenesis. Mol Plant-Microbe Interact 5 104-112... [Pg.397]

A. Hodge and P. Millard, Effect of elevated CO, on carbon partitioning and exudate release from Planta o hmeeolata seedlings. Physiol. Plant. I0J.2W (1998). [Pg.93]

E. Slesak, A. Tretyn, and J. Jurek, The influence of potassium humate on electric potentials in plants. Proceedings of VIII Symposium Humus et Planta, Prague, 1983,... [Pg.155]

J. F. Ma and K. Nomoto, Effective regulation of iron acquisition in graminaceous plants the role of mugineic acids as phytosiderophores. Pliy.siol. Planta 97 609 (1996). [Pg.254]

H. Marschner, V. Romheld, and M. Kissel, Localization of phytosiderophore release and of iron uptake along intact barley roots. Physiol. Planta. 77 157 (1987). V. Romheld, The role of phytosiderophores for acquisition of iron and other micronutrients in graminaceous species An Ecological Approach Iron Nutrition and Interactions in Plants (Y Chen and Y Hadar, eds.), Kluwer Academic Publishers, Boston, 1991, pp. 159-166. [Pg.257]

However, engineering of fluorescent marker proteins to determine subcellular protein localizations and associations in planta can be quite challenging since plant cells contain a number of autofluorescent compounds (e.g., lignin, chlorophyll, phenols, etc.,) whose emission spectra interfere with that of the most commonly used green or red fluorophores and their spectral variants... [Pg.425]

Bhat, R. A., Lahaye, T. and Panstruga, R. (2006). The visible touch in planta visualization of protein-protein interactions by fluorophore-based methods. Plant Methods 2, 12. [Pg.448]

Bayle, V., Nussaume, L. and Bhat, R. A. (2008). Combination of novel GFP mutant TSapphire and DsRed variant mOrange to set up a versatile in planta FRET-FLIM assay. Plant Physiol 148, 51-60. [Pg.450]

See other pages where Plantae/plants is mentioned: [Pg.26]    [Pg.582]    [Pg.635]    [Pg.26]    [Pg.582]    [Pg.635]    [Pg.84]    [Pg.70]    [Pg.360]    [Pg.389]    [Pg.53]    [Pg.355]    [Pg.833]    [Pg.877]    [Pg.10]    [Pg.409]    [Pg.155]    [Pg.144]    [Pg.423]    [Pg.426]    [Pg.429]    [Pg.433]    [Pg.439]    [Pg.439]    [Pg.440]    [Pg.443]    [Pg.88]    [Pg.188]    [Pg.279]   
See also in sourсe #XX -- [ Pg.14 , Pg.15 , Pg.38 , Pg.46 , Pg.49 , Pg.84 , Pg.89 , Pg.93 , Pg.99 , Pg.105 , Pg.119 , Pg.247 , Pg.248 , Pg.250 , Pg.252 , Pg.253 , Pg.288 , Pg.301 ]



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Plantae

Plantae/plants composition

Plantae/plants evolution

Plantae/plants flowering

Plantae/plants green

Plantae/plants higher

Plantae/plants lower

Plantae/plants tissues

Plantae/plants vascular

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