Abstract
A Drosophila gene encoding a gamma-type isozyme of phosphoinositide-specific phospholipase C (PLC) was isolated and characterized. The gene, termed plc-gamma d, was mapped at position 14B-C of the X chromosome. The encoded protein, termed PLC-gamma D, contains X and Y regions, common to all known PLC isozymes. The two regions are split by a Z region that comprises two src homology 2 and one src homology 3 domains and is characteristic of gamma-type mammalian PLC (PLC-gamma 1 and -gamma 2). The deduced amino acid sequence of PLC-gamma D shows overall similarity to mammalian PLC-gamma s; no large deletion was observed except the short C-terminal extended region. In particular, the two split catalytic domains (X and Y regions) and the regulatory Z region including the src homology 2 and src homology 3 domains are well conserved. The mRNA is expressed throughout development, but expression is relatively higher during the embryonic stage, suggesting fundamental and important roles in both cell proliferation and differentiation. Distribution of the mRNA during embryogenesis, as analyzed by whole amount in situ hybridization, revealed that the mRNA emerges and reaches maximum levels at the cellular blastoderm stage and then decreases rapidly to a lower level. In later embryonic stages, invaginated anterior and posterior midgut primordia show high levels of mRNA expression, and fused midgut also maintains a high level of expression. In other tissues and cells, the mRNA was detected at lower levels. These results indicate that Drosophila PLC-gamma may be involved in universal cellular processes mediated possibly by receptor tyrosine kinases during embryogenesis and may also play specific roles during cellularization and midgut differentiation.
Highlights
A Drosophila gene encodinga y-type isozymeof phos- triphosphate, which cause increases in the activity of protein phoinositide-specificphospholipase C (PLC)wasisolated and characterized
The tworegions are split by a Z region that comprises twosrc homology 2 and one src homology 3 domains and is characteristic of y-type mammalian PLC (PLC-y1 and 9 2 ) .The deduced amino acsiedquenceof PLC-yDshows overall similarity to mammalian PLC-ys; no large deletion was observed exceptthe shortC-terminalextended region
The turnoverof phosphoinositides takes place in various cellular processes triggered by extracellularstimulisuchas growth factors and hormon(eRs hee et al, 1989; Majerus et al, 1990; Cockcroft and Thomas, 1992). This reaction iscatalyzed by phosphoinositide-specific phospholipase C (PLC)‘ producing two second messenger molecules, diacylglycerol and inositol similar sequences to mammalian protein tyrosine kinases that are coupled to PLC-y (Shiloand Raz, 1991; Pulidoet al., 1992; Shishido et al, 1993)
Summary
Molecular Cloning and Nucleotide Sequencing of Drosophila PLC-)-A Drosophila genomic library(Sugaya et al, 1994) was screened with a cDNA probe forrat PLC-y2 (anNcoI fragment of about 4 kilobase pairs, residues 8-3959) (Emoriet al., 1989)under less strin-. CDNA clones for Drosophila PLC-y were obtained fromabout 5 x lo plaques of a pupalcDNAlibraryof Drosophila melanogaster Canton-S (Kojima et al, 1991) using the above genomic clones as probes. Northern BlotAnalysis-Twenty pg of total RNA extracted from embryonic, larval, pupal, or adult D. melanogaster Canton-S were electrophoresed on a formaldehyde-containinggel andblottedonto a nylon membrane (Sambrooket al., 1989).Hybridizationwas carried outusing rapidhybridizationbuffer(AmershamCorp.).The filter was washed in 0.1 x SSC containing 0.1%SDS at 65 "C. An endogenous inhibitory sequence, termed the PLC inhibitor region (Homma and Takenawa, 1992), shownin PLC-y1 and -y2 is contained in PLC-yD, some sequence diversity was observed (Fig. In Situ Hybridization to Polytene Chromosome-Polytenechromosomes were prepared fromsalivary glands of D. melanogaster Canton-S and processedfor in situ hybridizationusing a biotin-labeled DNAprobe according to the standard method(Engels et al, 1986).
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