A Novel Drosophila Alkaline Phosphatase Specific to the Ellipsoid Body of the Adult Brain and the Lower Malpighian (Renal) Tubule

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A Novel Drosophila Alkaline Phosphatase Specific to the Ellipsoid Body of the Adult Brain and the Lower Malpighian (Renal) Tubule

Ming Yao Yang^a, Zongsheng Wang^a, Matthew MacPherson^a, Julian A. T. Dow^a, and Kim Kaiser^a
^a Division of Molecular Genetics, University of Glasgow, Glasgow G11 6NU, United Kingdom

Corresponding author: Kim Kaiser, Division of Molecular Genetics, University of Glasgow, 56 Dumbarton Rd., Glasgow G11 6NU, United Kingdom., k.kaiser{at}bio.gla.ac.uk (E-mail)

Communicating editor: K. ANDERSON

Two independent Drosophila melanogaster P{GAL4} enhancer-traplines revealed identical GAL4-directed expression patterns inthe ellipsoid body of the brain and in the Malpighian (renal)tubules in the abdomen. Both P-element insertions mapped tothe same chromosomal site (100B2). The genomic locus, as characterizedby plasmid rescue of flanking DNA, restriction mapping, andDNA sequencing, revealed the two P{GAL4} elements to be insertedin opposite orientations, only 46 bp apart. Three genes flankingthe insertions have been identified. Calcineurin A1 (previouslymapped to 21E-F) lies to one side, and two very closely linkedgenes lie to the other. The nearer encodes Aph-4, the firstDrosophila alkaline phosphatase gene to be identified; the moredistant gene [l(3)96601] is novel, with a head-elevated expression,and with distant similarity to transcription regulatory elements.Both in situ hybridization with Aph-4 probes and direct histochemicaldetermination of alkaline phosphatase activity precisely matchesthe enhancer-trap pattern reported by the original lines. Althoughthe P-element insertions are not recessive lethals, they displaytubule phenotypes in both heterozygotes and homozygotes. Ratesof fluid secretion in tubules from c507 homozygotes are reduced,both basally, and after stimulation by CAP_2b, cAMP, or Drosophilaleucokinin. The P-element insertions also disrupt the expressionof Aph-4, causing misexpression in the tubule main segment.This disruption extends to tubule pigmentation, with c507 homozygotesdisplaying white-like transparent main segments. These resultssuggest that Aph-4, while possessing a very narrow range ofexpression, nonetheless plays an important role in epithelialfunction.

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