Laser capture microdissection of fluorescently labeled embryonic cranial neural crest cells.

This study is the first to report a unique genetic strategy to permanently label mammalian neural crest cells (NCC) with a fluorescent marker, selectively isolate the labeled NCC or their derivatives during murine ontogenesis by laser capture microdissection (LCM), and prepare molecular components, such as RNA, for selective gene expression analyses. Through utilization of a Cre recombinase/loxP system, a genetic strategy that has been used repeatedly to achieve tissue-specific activation of reporter transgenes in mice, a novel two-component mouse model was created in which neural crest cells (and their progeny) are indelibly marked throughout the pre- and postnatal lifespan of the organism. To generate this mouse model, a Wnt1-Cre transgenic line was crossed with a mouse line expressing a conditional reporter transgene ("floxed" enhanced green fluorescent protein).

Phosphatase regulation of gene expression during development of the palate.

In mammalian cells, including those of the embryonic palate, the level of phosphorylation of cellular proteins at any given time reflects the activities of protein kinases and protein phosphatases. Both protein phosphatase-1 (PP-1) and PP-2A inhibit cAMP-mediated increases in transcription by dephosphorylating CREB at ser-133. Western blot analysis indicated that protein phosphatase 1 (PP-1) was expressed constitutively in palatal tissue during its development.