David T. Kuhn scite author profile

David T. Kuhn

4Publications

90Citation Statements Received

0Citation Statements Given

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Affiliations

University of Central Florida, Florida Technical College, Florida Institute of Technology

Publications

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Expression patterns of developmental genes reveal segment and parasegment organization of D. melanogaster genital discs

Freeland

Kuhn

1996

Mechanisms of Development

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We have used the expression patterns of genes known to be important during early Drosophila development to determine the segment-parasegment organization of the genital discs and to localize the three primordia in the male and female genital discs, engrailed (en) and hedgehog (hh) were used to locate posterior compartments in A8-A10, while cubitus interrupts (ci) localized the anterior compartments for each segment, decapentaplegic (dpp) identified the anterior cells that abut en and hh at the anterior-posterior border. abdominal-A (abd-A) identified the anterior compartment for abdominal segment 8 (aA8) in females but was not detected in the repressed female primordium in male discs. Abdominal-B (Abd-B) was expressed throughout the discs except for a small area along the edge of the posterior lobes, leaving open the possibility that A11 may contribute to the genital discs, caudal (cad) was expressed segmentally in the anal primordium of A10, extending through the Abd-B unstained region, wingless (wg) and gooseberry (gsb) may have assumed an added role in the discs perhaps providing proximal-distal cues. Models are presented to show how the segments and parasegments may fuse together during embryogenesis to form the mature male and female genital discs.

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Analysis of the genes involved in organizing the tail segments of the Drosophila melanogaster embryo

Kuhn

Turenchalk

Mack

et al. 1995

Mechanisms of Development

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The metameric organization of the Drosophila melanogaster tail is obscured by developmental events that partially suppress or fuse some of its regions. To better define the developmental origins and segmental identities in the tail of the Drosophila embryo, we documented expression patterns and mutant phenotypes of several genes that play important roles in its morphogenesis. We documented the domains of engrailed (en), Abdominal-B (Abd-B) and caudal (cad) expression in the tail region. The staining pattern of cut (ct) was used to correlate the embryonic sense organs with their respective positions on the larval cuticle. The en patterns in different Bithorax-Complex (BX-C) Abd-B morphogenetic (m) and regulatory (r) mutants demonstrated that Abd-B functions to, among other things, suppress embryonic ventral epidermal structures on the posterior side of A8 to A9. Ventral epidermal structures were not added back into the en pattern in r- or BX-C- mutants, indicating that although the BX-C functions extend through A10, other non-BX-C genes must be required for development of this segment.

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Aldehyde oxidase activity in the tumorous-head strain of Drosophila melanogaster

Kuhn

Cunningham

1976

Developmental Biology

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Pair-rule genes cooperate to activate en stripe 15 and refine its margins during germ band elongation in the D. melanogaster embryo

Kuhn

Chaverri

Persaud

et al. 2000

Mechanisms of Development

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Patterns of gene expression have been well documented during embryogenesis for the Drosophila melanogaster trunk segments. The same is not the case for the terminal segments. Here, gene expression patterns are followed during embryogenesis in the caudal segments (A8-A10 and the anal plate), with special attention paid to the novel regulation of engrailed (en). Chosen for this study are the pair-rule genes even-skipped (eve), fushi tarazu (ftz), runt (run), hairy (h), paired (prd) and odd-skipped (odd), and the segment polarity gene (en). The results demonstrate a progressive and coupled translocation of gene expression distally for all genes studied, suggesting that the most posterior segments are determined later than trunk segments.

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David T. Kuhn

Expression patterns of developmental genes reveal segment and parasegment organization of D. melanogaster genital discs

Analysis of the genes involved in organizing the tail segments of the Drosophila melanogaster embryo

Aldehyde oxidase activity in the tumorous-head strain of Drosophila melanogaster

Pair-rule genes cooperate to activate en stripe 15 and refine its margins during germ band elongation in the D. melanogaster embryo

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