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The characterization of DINE-1, a short, interspersed repetitive element present on chromosome and in the centric heterochromatin of Drosophila melanogaster (1999)

Locke, J. ; Howard, L. T. ; Aippersbach, N. ; [et al.]

Springer

Chromosoma 108 (1999), S. 356-366

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. The banded portion of chromosome 4 (the ”dot” chromosome) in Drosophila melanogaster displays some properties of β-heterochromatin, which is normally found within the centric domain of the chromosomes. The nature and distribution of repetitive elements on chromosome 4 could play a role in the establishment of this unusual chromatin configuration. We describe here one such element: a short, interspersed repetitive sequence named DINE-1. Determination of a consensus sequence for the element reveals that there are two conserved regions (A and B) separated by a highly variable spacer. The conserved sequences are ∼400 bp long but degenerate at both ends, opening the possibility that a yet-to-be-discovered mother element may be present in the genome. DINE-1 bears few of the properties of the mammalian short interspersed elements (SINEs) to which it bears a superficial resemblance in size. It does not appear to be the product of reverse transcription and lacks any polymerase III promoter consensus. The elements are not flanked by target site duplications and their termini lack direct or inverted repeats, suggesting that they themselves are not transposable. Our analysis of cosmid clones from chromosome 4, and elsewhere in the genome, revealed that the euchromatic locations of DINE-1 are almost exclusively confined to chromosome 4. In situ hybridization of a DINE-1 probe to polytene chromosomes confirmed the preferential distribution along 4, in addition to its presence in the centric heterochromatin. This unusual genomic distribution of bias toward chromosome 4 is also seen in the sibling species, D. simulans, whose dot chromosomes exhibit poorly resolved polytene bands and lack crossing over during meiosis like those of D. melanogaster. However, the dot chromosome of D. virilis, which exhibits a well-defined banded structure on polytene chromosomes and can cross over, has only a single, discrete site of DINE-1 element hybridization. The presence of DINE-1 within these regions suggests a role in the heterochromatic nature of chromosome 4 in D. melanogaster and supports the contention that repeats accumulate in regions of diminished crossing over.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004120050387

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Effects of reforestation methods on genetic diversity of lodgepole pine: an assessment using microsatellite and randomly amplified polymorphic DNA markers (1999)

Thomas, B. R. ; Macdonald, S. E. ; Hicks, M. ; [et al.]

Springer

Theoretical and applied genetics 98 (1999), S. 793-801

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ISSN: 1432-2242

Keywords: Key words Pinus contorta ; Silviculture ; Reforestation ; Gene conservation ; RAPD ; SSR ; DNA analyses

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We examined the effects of different methods of forest regeneration on the genetic diversity of lodgepole pine (Pinus contorta var ‘latifolia’) using two different DNA-based molecular markers [randomly amplified polymorphic DNA (RAPDs) and microsatellites or simple sequence repeats (SSRs)]. Genetic diversity was estimated for 30 individuals in each of four populations for the following three stand types: (1) mature lodgepole pine (〉100 years); (2) 20- to 30-year-old harvested stands left for natural regeneration; (3) 20- to 30-year-old planted stands (4 stands of each type); and one group of 30 operationally produced seedlings. There was no significant effect of stand type on expected heterozygosity, although allelic richness and diversity were much higher for SSRs than for RAPDs. Expected heterozygosity ranged from 0.39 to 0.47 based on RAPDs and from 0.67 to 0.77 based on SSRs. The number of alleles per locus for SSRs ranged from 3 to 34 (mean 21.0), and there was a significant relationship between sequence repeat length and the number of alleles at a locus. Both marker types showed that over 94% of the variation was contained within the populations and that the naturally regenerated stands sampled had lower (not significant) expected heterozygosity than the planted or unharvested stands. The group of seedlings (assessed by RAPDs only) had expected heterozygosity and allele frequencies similar to those of the unharvested stands. Genetic distance measures were higher than obtained previously in the species using isozyme markers. There was no correlation between the two marker types for pair-wise genetic distances based on populations analyzed by both methods. Pair-wise genetic distance measures and an ordination of allele frequencies for both marker types showed little effect of geographic location or stand type on genetic similarity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220051136

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Stage-specific mechanisms regulate the expression of the dopa decarboxylase gene during Drosophila development (1986)

Hodgetts, R. B. ; Clark, W. C. ; Gietz, R. D. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Archives of Insect Biochemistry and Physiology 3 (1986), S. 97-104

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ISSN: 0739-4462

Keywords: enzyme induction ; Drosophila ; steroid hormone ; 20-hydroxyecdysone ; Chemistry ; Food Science, Agricultural, Medicinal and Pharmaceutical Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology

Notes: Transcripts of the dopa decarboxylase (Ddc) gene accumulate within 4 h of the administration of 20-OH-ecdysone to mature larvae of Drosophila. The increase can be explained as the sum of a direct steroid effect, independent of protein synthesis, and an indirect effect, dependent on proteins synthesized after an increase in the hormone titer. By contrast, the peaks of DDC activity in embryos, and perhaps in the first two larval instars and in imaginal discs as well, cannot be ascribed to any direct steroid effects. In fact, a decreasing hormone titer might be required before the Ddc gene can be expressed at these stages. The stage-specific differences in the molecular mechanisms regulating Ddc gene activity may be reflected in the phenotype of an activity variant, Ddc+4. Molecular studies now underway on the variant Ddc gene might help us to understand the complex multifunctional region that we believe lies upstream of the gene and regulates its expression during development.

Additional Material: 3 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/arch.940030711

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