Simultaneous EYFP-CENH3/H2B-DsRed Expression Is Impaired Differentially in Meristematic and Differentiated Nuclei of Arabidopsis Double Transformants.

Fluorescence live-cell microscopy is important in cell biology to perform artifact-free investigations. To analyze the dynamics of chromatin and centromeres at different stages of the cell cycle in nuclei and chromosomes, we performed simultaneous EYFP-CENH3/H2B-DsRed and single H2B-YFP transformations in Arabidopsis wild-type and cohesin T-DNA mutants. All constructs were under the control of the strong CaMV 35S promoter. While a strong silencing of fluorescence expression occurred differently in leaf and root tissues in the double transformants, nearly all single-transformed wild-type and most mutant cells showed H2B-YFP fluorescence. It seems that for an efficient co-expression of two fluorescence proteins, endogenous promoters and terminators should be used.