Rapid sequence divergence in a heat shock locus of Drosophila

In situ hybridization of cRNA transcribed from cloned D. melanogaster heat shock sequences to D. hydei chromosomes has shown that the D. hydei locus 2–32 A corresponds to the D. melanogaster locus 87 A/C and the D. hydei locus 2–36 A to the D. melanogaster locus 95 D, while the D. hydei locus 4–81 B corresponds to the D. melanogaster locus 63 BC. No hybridization to D. hydei chromosomes was found with cRNA transcribed from a clone containing the sequences encoded by the D. melanogaster locus 87 C. Neither D. melanogaster heat shock RNA nor D. virilis heat shock RNA hybridized significantly to the D. hydei heat shock locus 2–48 B. Furthermore, D. hydei heat shock RNA did not hybridize to the cytological homologs of locus 2–48 B found in D. repleta or in D. virilis. D, hydei heat shock. RNA did hybridize to the cytological homologs of locus 2–48 B in D. neohydei and D. eohydei, both of which belong to the hydei subgroup.     

Mutations affectingβ-alanine metabolism influence inducibility of the 93D puff by heat shock inDrosophila melanogaster

Effect of mutations at the ebony or black locus on induction of heat shock puffs in polytene nuclei of salivary glands ofDrosophila melanogaster larvae were examined by [³H]uridine autoradiography. The levels of-alanine in the body are known to be increased by mutation at the ebony locus but decreased by mutation at the black locus. The presence of mutant allele/s at either locus in the homo- or heterozygous condition prevented induction of the 93D puff by heat shock. Elimination of the mutant allele at the ebony or black locus by recombination or by reversion of a P element insertion mutant allele of ebony restored the heat shock inducibility of the 93D puff. In vivo or in vitro administration of excess-alanine to salivary glands of wild-type larvae also resulted in the 93D site being refractory to heat shock induction. In agreement with earlier results, noninduction of the 93D puff during heat shock due to the-alanine effect was accompanied by unequal puffing of the 87A and 87C loci. The selective inducibility of the 93D puff by benzamide was not affected by ebony or black mutations or by excess-alanine in wild-type larvae     

Mutational Analysis of the Region Surrounding the 93d Heat Shock Locus of DROSOPHILA MELANOGASTER

The region containing subdivisions 93C, 93D and 93E on chromosome 3 of Drosophila melanogaster has been screened for visible and lethal mutations. Treatment with three mutagens, γ irradiation, ethyl methanesulfonate and diepoxybutane, has produced mutations that fall into 20 complementation groups, including the previously identified ebony locus. No point mutations affecting the heat shock locus in 93D were detected; however, a pair of deficiencies that overlap in the region of this locus was isolated. Flies heterozygous in trans for this pair of deficiencies are capable of producing all of the major heat shock puffs (except 93D) and the major heat shock proteins. In addition, these flies show recovery of normal protein synthesis following a heat shock.     

Rapid and high resolution detection of in situ hybridisation to polytene chromosomes using fluorochrome-labeled RNA

Fluorochrome-labeled RNA allows the rapid detection of in situ hybrids without the need for long exposure times as in the autoradiographical hybridisation methods. Resolution is high because of the high resolving power of fluorescence microscopy. The application of a previously reported method for the hybrido-cytochemical detection of DNA sequences to polytene chromosomes of Drosophilia is described. — The specificity and sensitivity of the method are demonstrated by the hybridisation with polytene chromosomes of 1) rhodamine-labeled 5S RNA, to the 5S rRNA sites of D. melanogaster (56F) and D. hydei (23 B), 2) rhodamine-labeled RNA complementary to a plasmid containing histone genes, to the 39DE region of D. melanogaster, 3) rhodamine-labeled D. melanogaster tRNA species (Gly-3 and Arg-2), to their respective loci in D. melanogaster, 4) rhodamine-labeled RNA complementary to the insert of plasmid 232.1 containing part of a D. melanogaster heat shock gene from locus 87 C, to D. hydei heat shock locus 2-32A. In the latter instance it was possible to demonstrate the labeling of a double band which escaped unambiguous detection by autoradiography in the radioactive cytochemical hybridisation procedure because of the low topological resolution of autoradiograms. — The sensitivity of the fluorochrome-labeled RNA method is compared with the radioactive methods which use ³H- or ¹²⁵I-labeled RNAs. The factors governing the sensitivity and the number of bound fluorochrome molecules to be expected are discussed.Dedicated to Professor W. Beermann in honour of his 60th birthday     

Conservation of the 93D puff of Drosophila melanogaster in different species of Drosophila

Temperature shock (TS) results in activation of a specific set of puffs in polytene nuclei of D. melanogaster. Earlier studies in this species from several laboratories revealed certain unique features of the major TS puff at 93D locus, which is also specifically induced by benzamide (BM) and by incubation of glands in heat shocked glands' homogenate (HSGH). We have now extended studies on TS response to several other species of Drosophila to ascertain whether loci homologous to 93D puff of D. melanogaster are present in other species. In polytene nuclei of two closely related (D. ananassae, D. kikkawai) and in two distantly related species (D. hydei, D. nasuta), six to nine puffs are induced by TS. Interestingly, in each species one of the major TS puffs, viz., 2L-2C in D. ananassae, E-11BC in D. kikkawai, 2R-48A in D. nasuta and 2-48C in D. hydei, is also specifically induced by BM, autologous species' HSGH and vitamine-B₆ (vit-B₆) treatment. HSGH of a different species fails to induce these puffs. These puffs thus resemble the 93D locus of D. melanogaster, although the 93D puff does not respond to vit-B₆. These observations are discussed in relation to the conservation of 93D puff locus in different species of Drosophila.     

The activity of two heat shock loci of Drosophila hydei in tissue culture cells and salivary gland cells as analyzed by in situ hybridization of complementary DNA

Complementary DNA was made to poly A⁺ nuclear or polysomal RNA isolated from heat shock tissue culture cells of Drosophila hydei. A number of loci other than the four major heat shock loci are labelled after in situ hybridization of these cDNA preparations, while solution hybridization indicated that only about 10% of the cDNA was specific for heat shocked cells. Removal of the fraction of cDNA which could react with 25° C RNA and subsequent in situ hybridization of heat shock specific cDNA indicated that locus 4–81 B, a major salivary gland heat shock locus, is also active at 25° C in tissue culture cells, while locus 4–85 B is specifically activated by heat shock in tissue culture cells. This latter locus is not seen to be clearly puffed in salivary glands, but was shown to be active in that tissue both by direct autoradiography of salivary gland chromosomes after 3H-uridine labeling and by hybridization of cDNA to chromosomal RNA.