Overexpression of ARBORKNOX1 delays the differentiation of induced somatic sector analysis (ISSA) derived xylem fibre cells in poplar stems

Abstract

ARBORKNOX1 (ARK1), a poplar functional homolog of the Arabidopsis Class-I KNOTTED- like homeobox (KNOXI) transcription factor SHOOT MERISTEMLESS (STM), has been shown to have a role in maintaining meristematic cells in an undifferentiated state. Studies in which this gene was ectopically overexpressed identified a delay in the differentiation of cambial derivatives. Overexpression of ARK1 in poplar stem sectors, using the induced somatic sector analysis (ISSA) experimental system, was undertaken to further investigate its role in the differentiation of xylem fibre cells. ISSA involves the in vivo transformation of a small number of cambial cells in the stem with a gene of interest giving rise to a discreet transgenic tissue sector that can be directly compared to adjacent non-transgenic fibres to elucidate gene function. Phenotypes obtained were comparable with the proposed role of ARK1, where a delay in the development of the cell wall in differentiating fibre cells of active cambia was observed. Additional evidence suggests a role for ARK1 in the positive regulation of cell viability in the cambium. The significance of dormancy signals in the context of differentiation was also highlighted, as some transgenic fibres failed to fully differentiate prior to the onset of dormancy. Our findings are discussed in the context of wood formation and the use of ISSA as an experimental system.