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tpj12090-sup-0001-FigureS1.tifimage/tif7253KFigure S1. Time-dependent onset of the cpk28 phenotype.
tpj12090-sup-0002-FigureS2.tifimage/tif192KFigure S2. Reversal of cpk28 mutant characteristics in complementation lines.
tpj12090-sup-0003-FigureS3.tifimage/tif3035KFigure S3. Expression level of CPK28 in transgenic lines.
tpj12090-sup-0004-FigureS4.tifimage/tif1634KFigure S4. Complementation of the cpk28 stem elongation phenotype by tissue-specific expression of CPK28.
tpj12090-sup-0005-FigureS5.tifimage/tif1843KFigure S5. In vivo phosphorylation sites of CPK28.
tpj12090-sup-0006-FigureS6.tifimage/tif86KFigure S6. Calcium-dependent kinase activity of CPK28 phosphorylation variants.
tpj12090-sup-0007-FigureS7.tifimage/tif1273KFigure S7. In vivo complementation of the cpk28 stem elongation phenotype by different CPK28 phosphorylation variants.
tpj12090-sup-0008-FigureS8.tifimage/tif4877KFigure S8. Additional hormone treatments of WT and cpk28 mutants.
tpj12090-sup-0009-FigureS9.tifimage/tif123KFigure S9. Reduced GA biosynthesis gene expression of cpk28 mutants is reversed in complementation lines.
tpj12090-sup-0010-FigureS10.tifimage/tif227KFigure S10. Early GA-responses are not disturbed in cpk28 mutants.
tpj12090-sup-0011-FigureS11.tifimage/tif15926KFigure S11. Impact of exogenous gibberellic acid on secondary growth in cpk28.
tpj12090-sup-0012-FigureS12.tifimage/tif926KFigure S12. Scheme for CPK28 function.
tpj12090-sup-0013-TableS1.xlsxapplication/msexcel14KTable S1. Primer sequences used in this study.
tpj12090-sup-0014-Legends.docWord document27K 
tpj12090-sup-0015-MethodsS1.docxWord document23KMethods S1. Supplemental experimental procedures.

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