Add to ORKGThe widespread application of confocal laser scanning microscopy has revolutionized biological imaging. We have developed a protocol for using confocal microscopy to examine the development of wild type and mutant Arabidopsis thaliana, overcoming the technical difficulties associated with examining whole-mounted plant tissue. This allowed us to rapidly determine the underlying cellular defects that lead to the morphological changes visible in several mutants, and has led to a greater understanding of the mechanisms involved in the control of floral organ number
*Air spaces in the leaf mesophyll generate deleterious optical effects that compromise confocal micr...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Recent advances in confocal microscopy, coupled with the development of numerous fluorescent reporte...
This chapter focuses on confocal laser scanning microscopy (CLSM). In CLSM, a sample is treated with...
The study of plant growth and development has long relied on experimental techniques using dead, fix...
Live imaging of above ground meristems can lead to new insights in plant development not possible fr...
International audienceAnalysis of shoot meristem shape and gene expression pattern has been conducte...
<p>(A) Schematic flowchart showing the folding back of a petal to expose the interface. <i>A</i>. <i...
International audienceAnalysis of meristem shape and gene expression pattern has been conducted in m...
We present methods for segmenting the sepal and shoot apical meristem of the Arabidopsis thaliana pl...
BACKGROUND: Plant cell death is a normal process during plant development. Mutant plants may exhibit...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Conventional light microscopy allows the observation of living as well as fixed cells and tissues to...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
*Air spaces in the leaf mesophyll generate deleterious optical effects that compromise confocal micr...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Recent advances in confocal microscopy, coupled with the development of numerous fluorescent reporte...
This chapter focuses on confocal laser scanning microscopy (CLSM). In CLSM, a sample is treated with...
The study of plant growth and development has long relied on experimental techniques using dead, fix...
Live imaging of above ground meristems can lead to new insights in plant development not possible fr...
International audienceAnalysis of shoot meristem shape and gene expression pattern has been conducte...
<p>(A) Schematic flowchart showing the folding back of a petal to expose the interface. <i>A</i>. <i...
International audienceAnalysis of meristem shape and gene expression pattern has been conducted in m...
We present methods for segmenting the sepal and shoot apical meristem of the Arabidopsis thaliana pl...
BACKGROUND: Plant cell death is a normal process during plant development. Mutant plants may exhibit...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Conventional light microscopy allows the observation of living as well as fixed cells and tissues to...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
*Air spaces in the leaf mesophyll generate deleterious optical effects that compromise confocal micr...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...
Gene function discovery in plants, as other plant science quests, is aided by tools that image, docu...