We have determined that two P elements, P[21-3] and P[21r36], residing in the 5′-UTR of the vestigial wing gene, encode functional repressors in eye tissue. However, neither element fits a previous categorization of repressor-making elements as Type I or II. Both elements encode polypeptides that are shorter than the canonical elements they most closely resemble. DNA sequencing reveals that P[21r36] encodes an intact THAP domain that is missing in the P[21] element, which does not encode a functional repressor. Recovery of P[21-3] at sites other than vestigial (where it causes the wing mutant, vg21-3) reveals that the element can make repressor in wing tissue of sufficient activity to repress the mutant phenotype of vg21-3. Why the P[21-3] element fails to produce repressor when located at vestigial may be explained by our observation that three different mutants in the RNA interference pathway cause a partial reversion of vg21-3. We speculate that the vg and P-initiated transcripts that arise at the vg locus in the vg21-3 mutant trigger an RNA interference response that results in the mutual degradation of both transcripts.
Dioxin degradating capability and the identification of gene encode for dioxin dioxygenase of facultative anaerobic bacterial mixture setDN20 from toxic chemicals contaminated soils in Da Nang
