Description:
<p>Many higher plants are polysomatic whereby different cells possess variable amounts of nuclear DNA. The conditional triggering of endocycles results in higher nuclear DNA content (C value) that in some cases has been correlated to increased cell size. While numerous multicolored fluorescent protein (FP) probes have revealed the general behavior of the nucleus and intranuclear components, direct visualization and estimation of changes in nuclear-DNA content in live cells during their development has not been possible. Recently, monomeric Eos fluorescent protein (mEosFP) has emerged as a useful photoconvertible protein whose color changes irreversibly from a green to a red fluorescent form upon exposure to violet-blue light. The stability and irreversibility of red fluorescent mEosFP suggests that detection of green color recovery would be possible as fresh mEosFP is produced after photoconversion. Thus a ratiometric evaluation of the red and green forms of mEosFP following photoconversion could be used to estimate production of a core histone such as H2B during its concomitant synthesis with DNA in the synthesis phase of the cell cycle. Here we present proof of concept observations on transgenic tobacco (Nicotiana tabacum) Bright Yellow 2 cells and Arabidopsis (Arabidopsis thaliana) plants stably expressing H2B:: mEosFP In Arabidopsis seedlings an increase in green fluorescence is observed specifically in cells known to undergo endoreduplication. he detection of changes in nuclear DNA content by correlating color recovery of H2B:: mEosFP after photoconversion is a novel approach involving a single FP. The method has potential for facilitating detailed investigations on conditions that favor increased cell size and the development of polysomaty in plants.</p>