A Detailed Larval Salivary Gland Polytene Chromosome Photomap for Culex quinquefasciatus (Diptera: Culicidae) from Johannesburg, South Africa

Photographic maps and rearrangements of each salivary gland polytene chromosome arm of Anopheles nemophilous (species F) and of An. dirus species A, B, C, and D of the Dirus group from natural populations in Thailand are presented. Structural conformation of heterokaryotypes and comparison of chromosome banding sequences reveal 10 paracentric inversions. The data on fixed inversion of 3Rb and inversion polymorphism of the X chromosome shared by these species were used to construct a phylogeny of the five members of the An. dirus complex, thereby outlining their patterns of speciation through chromosomal rearrangements.Key words: polytene chromosome rearrangements, Anopheles dirus, phylogeny.

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Chromocentre polymorphism in polytene chromosomes of Simulium costatum (Diptera: Simuliidae)

Genome ◽

10.1139/g89-476 ◽

1989 ◽

Vol 32 (4) ◽

pp. 510-515 ◽

Cited By ~ 3

Author(s):

C. Brockhouse ◽

J. A. B. Bass ◽

N. A. Straus

Keyword(s):

Salivary Gland ◽

Polytene Chromosome ◽

Polytene Chromosomes ◽

Black Fly ◽

Weinberg Equilibrium ◽

Larval Salivary Gland ◽

Hybrid Introgression ◽

Hardy Weinberg Equilibrium ◽

Two Populations

The polytene chromosomes of the black fly species Simulium (Nevermannia) costatum are joined at the centromeres in a strongly heterochromatic chromocentre. Examination of the larval salivary gland chromosomes revealed two populations with a unique polymorphism for attachment to the chromocentre involving all centromeres. All three homologous pairs of chromosomes are polymorphic for centromeres that do not join to the chromocentre. Samples from one of these populations were large enough for thorough study. In this population, the attachment polymorphism is in Hardy-Weinberg equilibrium for two of the centromeres and was in the same frequency for 2 successive years of sampling. The polymorphism could be either primary, retained from an ancestral nonchromocentric state, or secondary, evolving independently or introduced via hybrid introgression. The evolution of chromocentres is discussed in the context of species in the Simulium vernum group.Key words: black fly, polytene chromosome, chromocentre, polymorphism, evolution.

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Genetic Analysis of the Drosophila 63F Early Puff: Characterization of Mutations in E63-1 and maggie, a Putative Tom22

Genetics ◽

10.1093/genetics/156.1.229 ◽

2000 ◽

Vol 156 (1) ◽

pp. 229-244

Author(s):

Martina Vaskova ◽

A M Bentley ◽

Samantha Marshall ◽

Pamela Reid ◽

Carl S Thummel ◽

...

Keyword(s):

Salivary Gland ◽

Genetic Analysis ◽

Polytene Chromosomes ◽

Reading Frame ◽

Protein Levels ◽

Ef Hand ◽

Larval Salivary Gland ◽

Complementation Groups ◽

Inducible Genes ◽

Early Puff

Abstract The 63F early puff in the larval salivary gland polytene chromosomes contains the divergently transcribed E63-1 and E63-2 ecdysone-inducible genes. E63-1 encodes a member of the EF-hand family of Ca2+-binding proteins, while E63-2 has no apparent open reading frame. To understand the functions of the E63 genes, we have determined the temporal and spatial patterns of E63-1 protein expression, as well as undertaken a genetic analysis of the 63F puff. We show that E63-1 is expressed in many embryonic and larval tissues, but the third-instar larval salivary gland is the only tissue where increases in protein levels correlate with increases in ecdysone titer. Furthermore, the subcellular distribution of E63-1 protein changes dynamically in the salivary glands at the onset of metamorphosis. E63-1 and E63-2 null mutations, however, have no effect on development or fertility. We have characterized 40 kb of the 63F region, defined as the interval between Ubi-p and E63-2, and have identified three lethal complementation groups that correspond to the dSc-2, ida, and mge genes. We show that mge mutations lead to first-instar larval lethality and that Mge protein is similar to the Tom22 mitochondrial import proteins of fungi, suggesting that it has a role in mitochondrial function.

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A modification of Heidenhain's iron-haematoxylin technique, as used to stain smears of Drosophila larval polytene chromosomes and neuroblast cells

Canadian Journal of Zoology ◽

10.1139/z71-019 ◽

1971 ◽

Vol 49 (1) ◽

pp. 132-133 ◽

Cited By ~ 1

Author(s):

Albert E. Moorman

Keyword(s):

Acetic Acid ◽

Salivary Gland ◽

Methyl Alcohol ◽

Polytene Chromosomes ◽

Larval Salivary Gland

Acetic-acid-fixed smears of Drosophila larval salivary gland chromosomes and of neuroblast cells from the larval ganglion undergoing mitosis are prepared by a modification of Heidenhain's iron-haematoxylin technique, in which absolute methyl alcohol is the solvent of all reagents used in the staining process.

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The fine structure of the nuclear membrane in the larval salivary gland and midgut of Chironomus

Experimental Cell Research ◽

10.1016/0014-4827(54)90200-1 ◽

1954 ◽

Vol 6 (2) ◽

pp. 519-522 ◽

Cited By ~ 46

Author(s):

G.F. Bahr ◽

W. Beermann

Keyword(s):

Fine Structure ◽

Salivary Gland ◽

Nuclear Membrane ◽

Larval Salivary Gland

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p75, a polypeptide component of karyoskeletal protein-enriched fractions associated with transcriptionally active loci of Drosophila melanogaster polytene chromosomes

Molecular and Cellular Biology ◽

10.1128/mcb.8.5.1877-1886.1988 ◽

1988 ◽

Vol 8 (5) ◽

pp. 1877-1886

Author(s):

B M Benton ◽

S Berrios ◽

P A Fisher

Keyword(s):

Tissue Culture ◽

Drosophila Melanogaster ◽

Transcriptional Regulation ◽

Salivary Gland ◽

Indirect Immunofluorescence ◽

Polytene Chromosomes ◽

Nuclear Interior ◽

Culture Cells ◽

Tissue Culture Cells ◽

Larval Salivary Gland

A 75-kilodalton polypeptide has been identified which copurifies with karyoskeletal protein-enriched fractions prepared from Drosophila melanogaster embryos. Results of indirect immunofluorescence experiments suggest that this protein, here designated p75, is primarily associated with puffed regions of larval salivary gland polytene chromosomes. In nonpolytenized Schneider 2 tissue culture cells, p75 appeared to be localized throughout the nuclear interior during interphase. In mitotic cells, p75 was redistributed diffusely. A possible role for karyoskeletal elements in transcriptional regulation is discussed.

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