Robotics and dynamic image analysis for studies of gene expression in plant tissues.

Gene expression in plant tissues is typically studied by destructive extraction of compounds from plant tissues for in vitro analyses. The methods presented here utilize the green fluorescent protein (gfp) gene for continual monitoring of gene expression in the same pieces of tissues, over time. The gfp gene was placed under regulatory control of different promoters and introduced into lima bean cotyledonary tissues via particle bombardment.

Quantitative evaluation of six different viral suppressors of silencing using image analysis of transient GFP expression.

The effects of six different plant viral suppressors of gene silencing were compared using an automated image collection and analysis system developed for continual monitoring of GFP expression. Suppressors were introduced into lima bean cotyledonary tissues either as 3'-GFP translational fusions or as co-introductions with the GFP gene on a separate plasmid. The resultant transient expression profiles for each suppressor depended on whether the suppressor was introduced as a fusion or co-introduced on separate plasmids.

Quantification and extension of transient GFP expression by the co-introduction of a suppressor of silencing.

Using particle bombardment, a DNA expression vector containing the green fluorescent protein (GFP) reporter gene was introduced into plant cells. Expression of the GFP gene was transient; resulting in peak GFP Expression about 24 h post introduction and a rapid decline thereafter. This well known decline in gene expression has previously been attributed to pre-integrative DNA events that involved the loss of introduced DNA or cell death.

Isolation of two highly active soybean (Glycine max (L.) Merr.) promoters and their characterization using a new automated image collection and analysis system.

A novel automated image collection and analysis system was used to compare two new soybean (Glycine max (L.) Merr.) promoters with the cauliflower mosaic virus 35S (CaMV35S) promoter, which was used as an expression standard.

Ectopic expression of a soybean phytase in developing seeds of Glycine max to improve phosphorus availability.

A transgenic approach was used to alter soybean seed phytate content by expressing a soybean phytase gene (GmPhy) during seed development to degrade accumulating phytic acid (IP6). An expression vector containing the soybean phytase cDNA controlled by the seed-specific beta-conglycinin promoter (alpha'-subunit) was used to transform embryogenic soybean cultures. Plants from four independent transgenic lines were analyzed for transgene integration and seed IP6 levels.

Leaf initiation and development in soybean under phosphorus stress.

Experiments investigated changes in leaf development in young soybean plants progressing into P stress. The apical meristem and leaf structure were examined anatomically to evaluate the involvement of cell division and cell expansion in the restriction of leaf number and individual leaf size. Seedlings were deprived of P for 32 d following germination.