The structural genes for three Drosophila glue proteins reside at a single polytene chromosome puff locus.

Crowley, Thomas E.; Bond, Michael D.; Meyerowitz, Elliot M.

doi:10.1128/mcb.3.4.623

Cited by 55 publications

(17 citation statements)

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“…The RNAs are all polyadenylated and polysomal (Meyerowitz and Hogness 1982). By comparing conceptual translations of the eDNA sequences with partial amino acid sequences of different glue polypeptides, it was found that each of the 68C RNAs codes for a different glue component (Crowley et al 1983). The 1120-nucleotide RNA is the mRNA for the sgs-3 glue polypeptide, which had previously been shown by genetic mapping to be coded in or near the 68C puff (Korge 1975;Akam et al 1978).…”

Section: Dna Sequence Organization Of the 68c Puffmentioning

confidence: 98%

“…Both genetic and molecular experiments have shown that these puffs contain the structural genes for the polypeptides that comprise the salivary gland glue (Korge 1975(Korge , 1977Akam et al 1978;Muskavitch and Hogness 1980;Velissariou andAshburner 1980, 1981;Crowley et al 1983;Gautam 1983;Guild and Shore 1984). This glue consists of at least eight polypeptides that start to be synthesized in the salivary glands in early to midthird instar, and stop synthesis at the time of puparium formation (Beckendorf and Kafatos 1976).…”

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confidence: 98%

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The 68C Glue Puff of Drosophila

Meyerowitz¹,

Crosby²,

Garfinkel³

et al. 1985

Cold Spring Harbor Symposia on Quantitative Biology

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Drosophila rnelanogaster begins its ~ife as a fertilized egg, which undergoes embryogenesis within an egg shell for about a day and then hatches from the egg as a first instar larva. The wormlike larva eats yeast for a day, then sheds its first instar skin and crawls out as a second instar larva. One day later another molt occurs, resulting in a third instar larva. The third instar stage lasts approximately 40 hours at 25~ toward the end of this stage the larva crawls out of its medium and onto a dry surface. After a few hours of wandering, it stops, contracts, and secretes a protein glue from its salivary glands that hardens and attaches the larva to its substrate (Fraenkel and Brookes 1953). The affixed larva then tans its third larval instar cuticle into a puparial case, and some hours later pupates within this case. Complete metamorphosis follows pupation, and after several days the pupal case is opened and a new adult emerges.The third instar salivary glands that are the source of the secreted glue consist of a pair of separate lobes connected by a common anterior duct. Each lobe is a blind sac with a simple lumen; the lumen communicates with the anterior duct, and through the duct with the larval mouth, and the outside world. Each lobe contains approximately 130 giant cells, which were set aside during embryogenesis, and have enlarged without cell division since that stage. The enlargement of the cells parallels an increase in the DNA content of each cell: As the gland develops the chromosomes of its cells replicate up to 11 times, with the replicated chromatids staying aligned in register, to form the familiar polytene chromosomes that exist in many dipteran tissues . These chromosomes are enormous, with a diameter of around 5 gm, and lengths of hundreds of micrometers. They show an abundance of cytological detail. One prominent cytological feature is the pattern of bands: Bands are darkstaining transverse stripes on the chromosomes that sit in a constant relation to the genetic map, and thus to the DNA sequence.

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Section: Dna Sequence Organization Of the 68c Puffmentioning

confidence: 98%

mentioning

confidence: 98%

The 68C Glue Puff of Drosophila

Meyerowitz¹,

Crosby²,

Garfinkel³

et al. 1985

Cold Spring Harbor Symposia on Quantitative Biology

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“…stays nearly constant, The 68C puff of Drosophila melanogaster contains three genes that code for components of a protein glue that affixes the puparial case to a solid substrate (1)(2)(3). These genes are expressed abundantly in the salivary glands of third instar larvae and are controlled by the steroid hormone ecdysterone (4-7).…”

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confidence: 99%

Characterization of the boundaries between adjacent rapidly and slowly evolving genomic regions in Drosophila.

Martin¹,

Meyerowitz²

1986

Proc. Natl. Acad. Sci. U.S.A.

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The site of a dramatic change in the rate of DNA sequence evolution exists near the 68C glue gene clusters of several Drosophila species. We have previously determined the approximate location of this transition site by comparison of restriction maps of the regions flanking the 68C-like glue gene cluster of five members of the melanogaster species subgroup. In the present work we report the sequence of the transition region in three of these Drosophila species: D. melanogaster, D. yakuba, and D. erecta. Using a best-fit alignment of these sequences, we rind that the site of transition from slowly to rapidly evolving sequences occurs abruptly within a region <50 nucleotides in length. Sequencing. DNA sequencing was performed by the dideoxy chain-termination method of Sanger et al. (12). Custom oligonucleotides, used to prime sequencing reactions from sites in the interior of a cloned insert, were provided by S. Horvath of the California Institute of Technology Microchemical Facility. These primers were purified and used as described in Strauss et al. (13). All sequences were determined on both strands.Computer Analysis. DNA sequences were analyzed using programs written by one of the authors (C.H.M.) for an IBM PC-XT computer. DNA sequences were aligned using the algorithm of Gotoh (14) as implemented by R. Pruitt on an Apple Macintosh computer. RESULTSThe border between regions of high and low conservation was located by inspection of the restriction maps of regions containing and adjacent to the cloned glue gene clusters. The broken vertical line in Fig. 1 The sequencing strategy is diagrammed in Fig. 2. All sequences start at the EcoRI site (R) that lies at least 1000 Abbreviation: kb, kilobase pair(s). 8654The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.

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“…As enzyme activity produced by fusion This observation is consistent with the kinds of fusion genes used. Sgs-7-Adh is a transcriptional fusion in the 5' untranslated leader of both genes and therefore produces native ADH protein that lacks a signal peptide for transport into the lumen (9). In contrast, Sgs-8-lacZ is a translational fusion with the coding sequences for 51 amino acids from Sgs-8 present and contains the signal peptide necessary for secretion into the lumen of the gland.…”

Section: Resultsmentioning

confidence: 99%

cis-acting sequences required for expression of the divergently transcribed Drosophila melanogaster Sgs-7 and Sgs-8 glue protein genes.

1991

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The Sgs-7 and Sgs-8 glue genes at 68C are divergently transcribed and are separated by 475 bp. Fusion genes with Adh or lacZ coding sequences were constructed, and the expression of these genes, with different amounts of upstream sequences present, was tested by a transient expression procedure and by germ line transformation. A cis-acting element for both genes is located asymmetrically in the intergenic region between -211 and -43 bp relative to Sgs-7. It is required for correct expression of both genes. This element can confer the stageand tissue-specific expression pattern of glue genes on a heterologous promoter. An 86-bp portion of the element, from -133 to -48 bp relative to Sgs-7, is shown to be capable of enhancing the expression of a truncated and therefore weakly expressed Sgs-3 fusion gene. Recently described common sequence motifs of glue gene regulatory elements (T. Todo, M. Roark, K. Vijay Raghavan, C. A. Mayeda, and E. M. Meyerowitz, Mol. Cell. Biol. 10: [5991][5992][5993][5994][5995][5996][5997][5998][5999][6000][6001][6002] 1990) are located within this 86-bp region.The salivary gland secretion (Sgs), or glue protein, genes expressed in the salivary glands of Drosophila melanogaster third-instar larvae represent an example of a coordinately expressed set of genes. The set codes for proteins that are synthesized in one tissue and at one time in development (1,25,26). The proteins are secreted into the lumen of the salivary gland and expelled just prior to pupariation to affix the pupa to a surface during metamorphosis (12, 27). Seven genes are known to code for components of the glue. The Sgs-3, Sgs-7, and Sgs-8 genes are clustered within a 5,000-bp segment on the left arm of chromosome 3 at 68C, while the Sgs-J, Sgs4, Sgs-5, and Sgs-6 genes each reside at a different location in the genome. All of the chromosomal sites with glue genes correspond to regions showing large intermolt polytene chromosome puffs during the time of glue protein synthesis.The 68C intermolt puff is interesting because of the clustering of the three genes found there. The order of the genes is telomere, Sgs-8, Sgs-7, Sgs-3, centromere with respect to the left arm of the third chromosome. Transcription of Sgs-8 proceeds leftward, transcription of Sgs-7 proceeds rightward, and transcription of Sgs-3 proceeds rightward (16, 40). The 5' end of Sgs-8 is separated from the 5' end of Sgs-7 by 475 bp of nontranscribed intergenic sequences (16), and the two genes are surrounded by two 285-bp elements that form an inverted repeat. The 3' end of Sgs-7 is separated from the 5' end of Sgs-3 by 1,958 bp (16,40).Two trans-acting regulators of this gene set have been described. The steroid hormone ecdysterone is required for both activation and cessation of RNA synthesis (11,18), and the function eliminated by the lethal(l)nonpupariating-1 [l(J)npr-1] mutation is required for expression of the three 68C genes (10).

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The structural genes for three Drosophila glue proteins reside at a single polytene chromosome puff locus.

Cited by 55 publications

References 30 publications

The 68C Glue Puff of Drosophila

The 68C Glue Puff of Drosophila

Characterization of the boundaries between adjacent rapidly and slowly evolving genomic regions in Drosophila.

cis-acting sequences required for expression of the divergently transcribed Drosophila melanogaster Sgs-7 and Sgs-8 glue protein genes.

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