Cytotaxonomy of four European species in the Eusimulium vernum group (Diptera: Simuliidae)

The polytene chromosomes of four closely related Eusimulium (Roubaud) morphospecies from Europe have been examined. These are Eusimulium vernum (Macquart), E. costatum (Friedrichs), E. cryophilum (Rubtzov), and E. carpathicum (Knoz). Interspecific comparisons indicate that vernum and costatum are homosequential in chromosomal banding pattern; however, costatum does differ from vernum in possessing a conspicuous chromocenter. Both species may have B chromosomes, but these are not identical. Three kinds of vernum populations are found: pure X0Y0 (with undifferentiated X and Y chromosomes), pure X0Y1 (with males heterozygous for IIS-1 ve), and mixed X0Y0/X0Y1 populations. Only two European vernum cytotypes are indicated. Eusimulium cryophilum and E. carpathicum share a suite of autosomal polymorphisms as well as a fixed paracentric (IL-2) and a fixed pericentric (IIIP-1) inversion with respect to the vernum "Knebworth" standard. They differ from one another by three fixed inversions (IIS-1, IIIS-3, and IIIS-4). It is argued that at least two siblings, cryophilum A and cryophilum B, exist within cryophilum s.l. Sections 86B and 91C in the long arm of chromosome III appear to be extremely labile for breakage and reunion phenomena because several tandem or near-tandem inversions occur in this area. A cytophylogeny of the taxa under study is presented.

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An intra- and inter-island study of the polytene chromosomes of Simulium exasperans (Diptera: Simuliidae)

Canadian Journal of Zoology ◽

10.1139/z04-051 ◽

2004 ◽

Vol 82 (5) ◽

pp. 808-816 ◽

Cited By ~ 1

Author(s):

Mike Spironello ◽

Fiona F Hunter

Keyword(s):

Sex Chromosomes ◽

Banding Pattern ◽

Preliminary Data ◽

Chromosome Banding ◽

Polytene Chromosomes ◽

Heterozygote Advantage ◽

Chromosomal Banding ◽

Males And Females ◽

Interspecific Comparisons ◽

First Time

The polytene chromosome banding pattern of Simulium exasperans (Craig, 1987) is described for the first time. Three populations of S. exasperans from Moorea and Tahiti were examined cytologically. Interspecific comparisons revealed that S. exasperans is homosequential in chromosomal banding pattern to Simulium cataractarum (Craig, 1987), but contains three species-characteristic floating inversions: IL-1ex.2ex, IIL-1ex,2ex, and IIIL-1ex. No sex-linked inversions were identified; males and females had undifferentiated sex chromosomes. The IIL-1ex,2ex inversion was in Hardy-Weinberg disequilibrium in two of the three populations. From this preliminary data, two cytotypes may exist: cytotype A (Belvedre Cascade population) and cytotype B (1st Afareaitu Cascade and Jardin Public Vaipahi populations). Contrary to phylogenetic and biogeographic data, it is hypothesized that the Belvedre Cascade population (cytotype A) is ancestral to the populations containing cytotype B. Furthermore, a heterozygote advantage may exist in cytotype B.

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Cytotaxonomic differentiation of Wilhelmia equina (Linné, 1747) and Wilhelmia lineata (Meigen, 1804) (Diptera: Simuliidae)

Genome ◽

10.1139/g89-486 ◽

1989 ◽

Vol 32 (4) ◽

pp. 589-595 ◽

Cited By ~ 6

Author(s):

E. Andreas Weber ◽

Jörg Grunewald

Keyword(s):

Salivary Gland ◽

Banding Pattern ◽

Polytene Chromosomes ◽

Morphological Characteristics ◽

Nucleolus Organizer ◽

Banding Patterns ◽

Chromosomal Banding ◽

Chromosome Maps ◽

Chromosomal Polymorphisms ◽

Ectopic Pairing

In most cases the larvae of Wilhelmia equina and W. lineata cannot be distinguished by using classical morphological features. The morphological characteristics of the salivary gland polytene chromosomes allow one to differentiate clearly between the two species. Characteristic for W. equina are the extended region between the centromere, Ctr (transformed centromere), and the nucleolus organizer, NO, in IS, the definitive position of RB (ring of Balbiani) and bulge in IIS, and the fan-shaped IIIL telomere. The chromosomes of W. lineata are marked by complex chromosomal polymorphisms, the altered position of RB and bulge on IIS and by a strong ectopic pairing of centromeres. The comparison of banding patterns provides several intraspecific polymorphic inversions and interspecific fixed rearrangements for species diagnosis. Partial chromosome maps were established. The comparison of the chromosomal banding pattern of Wilhelmia with that of the Simulium standard reveals a whole-arm interchange between chromosomes I and II in Wilhelmia identical with that in Metomphalus, Prosimulium vernale, a form of P. mixtum, and Metacnephia.Key words: cytotaxonomy, Simuliidae, Wilhelmia equina, Wilhelmia lineata, larvae.

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Polytene chromosomes of Simulium (Psaroniocompsa) daltanhani (Diptera: Simuliidae) from Central Amazonia, Brazil

Zootaxa ◽

10.11646/zootaxa.1676.1.6 ◽

2008 ◽

Vol 1676 (1) ◽

pp. 57 ◽

Cited By ~ 2

Author(s):

NEUSA HAMADA ◽

ELENY DA SILVA PEREIRA ◽

PETER H. ADLER

Keyword(s):

Banding Pattern ◽

Polytene Chromosomes ◽

Nucleolar Organizer ◽

Species Group ◽

Chromosomal Complement ◽

Central Amazonia ◽

Similar Banding Pattern ◽

Chromosome I

Last-instar larvae of Simulium (Psaroniocompsa) daltanhani Hamada and Adler from a stream in Central Amazonia were analyzed cytologically by mapping their polytene chromosomes. Simulium daltanhani has the nucleolar organizer in the short arm of chromosome I, heterogametic females, and an absence of autosomal polymorphisms. The chromosomes carry multiple rearrangements relative to other analyzed members of the S. quadrifidum species group in the subgenus Psaroniocompsa. One-third of the chromosomal complement is rearranged relative to the sequence of S. ulyssesi, the species with the most similar banding pattern among studied members of the S. quadrifidum group.

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A comparison of polytene chromosomes in salivary glands and orbital bristle trichogen cells in Ceratitis capitata

Genome ◽

10.1139/g91-034 ◽

1991 ◽

Vol 34 (2) ◽

pp. 215-219 ◽

Cited By ~ 11

Author(s):

A. Zacharopoulou ◽

K. Bourtzis ◽

Ph. Kerremans

Keyword(s):

Salivary Gland ◽

Salivary Glands ◽

Banding Pattern ◽

Ceratitis Capitata ◽

Polytene Chromosomes ◽

Biological Significance ◽

Fruit Fly ◽

Banding Patterns ◽

Homologous Chromosomes ◽

Different Tissues

The banding patterns of polytene chromosomes in different tissues of the Mediterranean fruit fly, Ceratitis capitata, vary to such an extent that homologous chromosomes cannot be recognised. However, analyses of autosomal breakpoints in several translocation strains allowed chromosomes from the two tissues to be aligned despite their difference in banding pattern. These results were discussed, considering the different hypotheses of the origin and biological significance of polytene chromosome bands.Key words: polytene chromosomes, salivary gland chromosomes, orbital bristle trichogen cell chromosomes, Ceratitis capitata.

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Banding pattern of A and B chromosomes of Prochilodus lineatus (Characiformes, Prochilodontidae), with comments on B chromosomes evolution

Genetica ◽

10.1007/s10709-005-4846-1 ◽

2006 ◽

Vol 127 (1-3) ◽

pp. 277-284 ◽

Cited By ~ 28

Author(s):

Roberto Ferreira Artoni ◽

Marcelo Ricardo Vicari ◽

Alexandra Lidiane Endler ◽

Zélia Isabel Cavallaro ◽

Célia Maria de Jesus ◽

...

Keyword(s):

Banding Pattern ◽

B Chromosomes ◽

Prochilodus Lineatus

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The Balbiani ring and the polytene chromosomes of Drosophila bicornuta

Genome ◽

10.1139/g92-011 ◽

1992 ◽

Vol 35 (1) ◽

pp. 64-67 ◽

Cited By ~ 9

Author(s):

P. Mavragani-Tsipidou ◽

Z. G. Scouras ◽

A. Natsiou-Voziki

Keyword(s):

Salivary Gland ◽

Larval Development ◽

Banding Pattern ◽

Polytene Chromosomes ◽

Balbiani Ring

A study of the BR1 and of the most prominent puffs during larval development and after in vitro ecdysterone treatment, as well as of the banding pattern and inverted tandem chromosomal duplications of the salivary gland chromosomes of Drosophila bicornuta, is presented in this report. These data are compared and discussed with those of D. auraria and D. serrata, two other montium species.Key words: Drosophila, Balbiani ring, duplications, ecdysterone.

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A Gene in Drosophila That Produces a New Chromosomal Banding Pattern

Science ◽

10.1126/science.137.3534.993-a ◽

1962 ◽

Vol 137 (3534) ◽

pp. 993-994 ◽

Cited By ~ 10

Author(s):

L. Levine ◽

L. Van Valen

Keyword(s):

Banding Pattern ◽

Chromosomal Banding

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Population cytogenetic studies on Simulium feuerborni Edwards (Diptera: Simuliidae) from northern Thailand

Genome ◽

10.1139/g98-106 ◽

1999 ◽

Vol 42 (1) ◽

pp. 80-86 ◽

Cited By ~ 7

Author(s):

Chaliow Kuvangkadilok ◽

Suwannee Phayuhasena ◽

Visut Baimai

Keyword(s):

Polytene Chromosomes ◽

Natural Populations ◽

Gene Pools ◽

Northern Thailand ◽

Y Chromosomes ◽

Larval Salivary Gland ◽

Hardy Weinberg Equilibrium ◽

Chiang Mai Province ◽

Chromosome I ◽

Paracentric Inversions

A standard photographic map of Simulium feuerborni (Diptera: Simuliidae) was constructed from larval salivary gland polytene chromosomes and is described herein. Analysis of polytene chromosomes was made from wild larvae collected from the four populations at Doi Inthanon National Park, Chiang Mai Province, northern Thailand. Simulium feuerborni has three pairs of chromosomes (2n = 6) which are arranged from the longest to the shortest. Chromosome I is metacentric while chromosomes II and III are submetacentric. A total of six simple paracentric inversions have been detected in these natural populations of S. feuerborni. These inversions (IS-1, IL-1, IIL-1, IIL-2, IIIS-1, IIIL-1) occurred in all chromosome arms except for the arm IIS. Significant deviation from Hardy-Weinberg equilibrium has been observed in inversion IIIL-1 at Hui Sai Luaeng suggesting the existence of two gene pools in this population. There is no indication of sex linkage associated with an inversion sequence in these populations. Thus, the X and Y chromosomes of S. feuerborni could not be recognized in this study.Key words: Simulium, polytene chromosome map, inversion polymorphisms

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Polytene chromosomes reflect functional organization of the Drosophila genome

Vavilov Journal of Genetics and Breeding ◽

10.18699/vj19.474 ◽

2019 ◽

Vol 23 (2) ◽

pp. 148-153

Author(s):

D. S. Sidorenko ◽

T. Yu. Zykova ◽

V. A. Khoroshko ◽

G. V. Pokholkova ◽

S. A. Demakov ◽

...

Keyword(s):

Banding Pattern ◽

Functional Organization ◽

Polytene Chromosomes ◽

Diploid Cell ◽

Regulatory Elements ◽

Molecular Organization ◽

Open Chromatin ◽

Drosophila Genome ◽

Fourth Chromosome ◽

Molecular Map

Polytene chromosomes of Drosophila melanogaster are a convenient model for studying interphase chromosomes of eukaryotes. They are giant in size in comparison with diploid cell chromosomes and have a pattern of cross stripes resulting from the ordered chromatid arrangement. Each region of polytene chromosomes has a unique banding pattern. Using the model of four chromatin types that reveals domains of varying compaction degrees, we were able to correlate the physical and cytological maps of some polytene chromosome regions and to show the main properties of genetic and molecular organization of bands and interbands, that we describe in this review. On the molecular map of the genome, the interbands correspond to decompacted aquamarine chromatin and 5’ ends of ubiquitously active genes. Gray bands contain lazurite and malachite chromatin, intermediate in the level of compaction, and, mainly, coding parts of genes. Dense black transcriptionally inactive bands are enriched in ruby chromatin. Localization of several dozens of interbands on the genome molecular map allowed us to study in detail their architecture according to the data of whole genome projects. The distribution of proteins and regulatory elements of the genome in the promoter regions of genes localized in the interbands shows that these parts of interbands are probably responsible for the formation of open chromatin that is visualized in polytene chromosomes as interbands. Thus, the permanent genetic activity of interbands and gray bands and the inactivity of genes in black bands are the basis of the universal banding pattern in the chromosomes of all Drosophila tissues. The smallest fourth chromosome of Drosophila with an atypical protein composition of chromatin is a special case. Using the model of four chromatin states and fluorescent in situ hybridization, its cytological map was refined and the genomic coordinates of all bands and interbands were determined. It was shown that, in spite of the peculiarities of this chromosome, its band organization in general corresponds to the rest of the genome. Extremely long genes of different Drosophila chromosomes do not fit the common scheme, since they can occupy a series of alternating bands and interbands (up to nine chromosomal structures) formed by parts of these genes.

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Peculiarities of choromosomal polymorphism Glyptotendipes glaucus meigen, 1818 (Diptera, Chironomidae) from lake Chaika of the national park “Curonian spit”

Ecological genetics ◽

10.17816/ecogen15327-33 ◽

2017 ◽

Vol 15 (3) ◽

pp. 27-33

Author(s):

Evgeniya A. Kalinina ◽

Natalya V. Vinokurova

Keyword(s):

National Park ◽

Polytene Chromosomes ◽

Chromosome Mapping ◽

Total Biomass ◽

Collection Site ◽

Curonian Spit ◽

Widespread Species ◽

Kaliningrad Region ◽

Chromosome Iii ◽

Glyptotendipes Glaucus

Background. The genus Glyptotendipes includes widespread species of chironomids with the largest phytophilous larvae, which constitute a large percentage of the total biomass of invertebrates. Glyptotendipes glaucus (Meigen, 1818) is the dominant species of chironomids in Lake Chaika of the National Park “Curonian Spit”. Materials and methods. The material of the study included 51 Glyptotendipes glaucus fourth – instar larvae collected in Lake Chaika of the National Park “Curonian Spit”. Larvae were fixed in Carnoy’s liquid (ethanol : glacial acetic acid = 3 : 1) at the collection site. The slides of polytene chromosomes from salivary glands of the larvae were prepared according to the standard aceto – orsein technique. Chromosome mapping was carried out according to Belyanina and Durnova (1998). Results. The level of inversion polymorphism for given populations was determined. Two new inversion sequences glaD6 and glaD7 were detected and localized. Ectopic contact type of T-T between the chromosome G(IV) and the arm of F(III), as well as the monomorphy of the chromosome III(EF) Glyptotendipes glaucus were first identified in the Kaliningrad region. The value of the ratio of the number of inversion sequences to the number of genomic combinations corresponded to its level for previously studied reservoirs in Kaliningrad city. Conclusion. The prevalence of the inversion sequences glaA2, glaA3, glaB2 glaB3, glaB4, glaB6, glaC3, glaD2, glaD3, glaD5, glaG4 in chromosomes I(AB), II(CD) and IV(G) Glyptotendipes glaucus of Lake Chaika indicates the greatest variability and dynamism of this parts of the genome of the species.

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