Prospects for Tissue-specific Analysis of Gene Expression in Xenopus Embryos through Laser-mediated Microdissection of Histological Sections

Abstract

Analysis of spatiotemporal patterns of gene expression is an important prerequisite for understanding the molecular basis of embryogenesis. Tissue-specific resolution is desirable, but often not achieved owing to methodical limitations. We used a common model system for embryonic development--the South African clawed frog Xenopus laevis--to demonstrate that laser microdissection and laser-mediated catapulting of tissue samples from histologic sections are feasible even for yolk-rich, fragile embryonic tissue. A combination with RT-PCR provides the possibility of detecting tissue-specific gene expression with high resolution and fidelity. We show that specimens of various sizes and shapes can easily be procured by laser microdissection and pressure catapulting (LMPC). Subsequent RNA-isolation and nested RT-PCR for marker genes revealed that the combination of these methods allows for analysis of specific gene expression in micro-areas. We report on the efficiency and reliability of detection of marker genes in dissected tissue. We further discuss the question of whether such a combination can be applied to certain issues raised in developmental biology with regard to other techniques.