The Drosophila simulans Lhr rescues lethal hybrids from the cross of D. melanogaster and D. simulans. We describe here, the phenotypes of Lhr dependent rescue hybrids and demonstrate the effects of Lhr on functional morphology of the salivary chromosomes in the hybrids. Our results reveal that the phenotypes of the 'Lhr dependent rescued' hybrids were largely dependent on the genetic background and the dominance in species and hybrids, and not on Lhr. Cytological examination reveal that while the salivary chromosome of 'larval lethal' male carrying melanogaster X chromosome was unusually thin and contracted, in 'rescued' hybrid males (CmelXmelYsim;A melAsim) the X chromosome showed typical pale staining, enlarged diameter and incorporated higher rate of 3H-uridine in presence of one dose Lhr in the genome. In hybrid males carrying simulans X chromosome (CmelXsimYmel;AmelA sim), enlarged width of the polytene X chromosome was noted in most of the nuclei, in Lhr background, and transcribed at higher rate than that of the single X chromosome of male. In hybrid females (both viable, e.g., C mel Xmel Xsim; Amel Asim and rescued, e.g., CmelXmel Xmel; A mel Asim), the functional morphology of the X chromosomes were comparable to that of diploid autosomes in presence of one dose of Lhr. In hybrid metafemales, (CmelXmelXmelX sim; AmelAsim), two dose of melanogaster X chromosomes and one dose of simulans X chromosome were transcribed almost at 'female' rate in hybrid genetic background in presence of one dose of Lhr. In rescued hybrid males, the melanogaster-derived X chromosome appeared to complete its replication faster than autosomes. These results together have been interpreted to have suggested that Lhr suppresses the lethality of hybrids by regulating functional activities of the X chromosome(s) for dosage compensation. © Indian Academy of Sciences.

R N CHATTERJEE

P CHATTERJEE

A PAL

M PAL-BHADRA

University of Calcutta (informally known as Calcutta University or CU) is a collegiate public state university located in Kolkata, West Bengal, India.&nbsp;Within India it is recognized as a &quot;Five-Star University&quot; and accredited &quot;A&quot; Grade by National Assessment and Accreditation Council.

&nbsp;

The University of Calcutta has secured the Fifth position among the Universities of India in the prestigious &quot;Indian University Ranking 2019&quot; list, released by the NIRF of the Ministry of Human Resource Development, Government of India.

&nbsp;

It was established on 24 January 1857, and was one of the first institutions in Asia to be established as a multidisciplinary and Western-style university. Its alumni and faculty include several heads of state, heads of government, social reformers, prominent artists, only academy award winner and Dirac medal winner in India, many Fellows of the Royal Society and five Nobel laureates as of 2019 which is highest in South Asia.

University Of Calcutta

Journal of Genetics

Phenotypic divergence of eggshells between D. melanogaster and D. simulans strains, was compared, using SEM, for analyzing fitness related eco-physiological traits of the eggshells in the two sibling species. The variations of eggshell traits between strains within species, between species and asymmetry in hybrids of two species have been calculated for understanding the demographic success of the two species. The present results revealed that variation of traits between strains within species was not always same which suggest that many traits are not strongly constrained within species. The main findings show that following eco-physiological traits of eggshells are mostly diverged between two species: (i) dorsal appendages (DA) length, (ii) insertion position of DA in main body of eggshell, (iii) the number and size of respiratory pores in dorsal and ventral side of DA, (iv) average length and volume of eggshells and (v) the thickness of chorionic hexagonal ridges. Examination of interspecific hybrids showed that the traits have undergone considerable genetic changes during evolutionary divergence of the two species. The authors propose that divergent ovipositional preference of the females of two species, may be the driving force in establishing species specific life history parameters for avoiding competition at pre-adult stages and demographic success. © 2015, The National Academy of Sciences, India.

Proceedings of the National Academy of Sciences India Section B - Biological Sciences

Eggshells of Drosophila melanogaster and D. simulans: Ultrastructure, Measurement and Analyses

The reinverted In(1)BM2 strain of Drosophila melanogaster alter the global architecture of the male X chromosome in ~30 % salivary nuclei, while rest of the nuclei show a perfectly normal haplo-X morphology. We show that, in the aberrant morphology of male X chromosome bearing nuclei, the chromocenter was grossly abnormal, exhibiting either loose morphology or reduced in size. Rearing flies at lower temperature (16 °C) enhanced both frequency and severity of variegated phenotype in the X chromosome and chromocenter. In variegated X chromosome, many intercalary heterochromatic sites showed cytologically visible link (ectopic pairing) at higher frequencies than the X chromosome of Oregon R males. When duplication for the segment 18A-20F, 16F-20F, 8C-20F and 1A-17F were combined with rearranged X chromosome of male, the rearranged X chromosome ceases to show variegating phenotype. Similarly, when a seperate maleless mutation (either mle1 or mlets—a dosage compensation regulatory gene mutation) was introduced in homozygous condition in the rearranged strain, variegated phenotypes of the male X chromosome were not only modified, bloated appearance of male X chromosome was also partially reduced. On the basis of the results, we suggest that (1) like many other re-arrangements involving pericentric heterochromatin, reinverted In(1)BM2 X chromosome induce long-distance heterochromatin spreading into juxtraposed euchromatic sequences of the X chromosome, (2) X limited distribution of intercalary heterochromatin (either SR sequences or transposable elements bearing heterochromatic sites) function as relay elements for ‘spreading’ of heterochromatic factors to the entire X chromosome, and (3) the termination of heterochromatin spreading on the male X chromosome by different genomic context indicate that there is an inherent mechanism for movement of heterochromatin-binding proteins in the X chromosome from one class of site to another and back, for regulation of X chromosome organization. © 2016, Archana Sharma Foundation of Calcutta.

Nucleus (India)

Heterochromatin-binding proteins regulate male X polytene chromosome morphology and dosage compensation: an evidence from a variegated rearranged strain [In (1)BM 2,(rv)] and its interactions with hyperploids and mle mutation in Drosophila melanogaster

An allele of intersex (ix5) of Drosophila melanogaster has been characterized. The genetic analysis of the allele demonstrated that like other point mutations of ix, the ix5 allele also transformed diplo-X individuals into intersexes. The ix5 mutation also affects the arrangement of sex comb bristles on the forelegs of males, although they had morphologically nearly normal male genitalia. They often fail to display a sustained pattern of courtship activity when tested. Orcein-stained squash preparations of testes from ix5 males revealed a defect in spermatogenesis. Our results, taken together with those of McRobert &amp; Tompkins (1985), indicate that the ix+ gene also functions in male sex determination.

Fulltext

Genetical Research

Genetic analysis of an intersex allele (ix5) that regulates sexual phenotype of both female and male Drosophila melanogaster

The chromosome complement of hybrid males from the cross between Drosophila miranda female and D. persimilis male provides an interesting chromosomal situation where an autosome, the 3rd chromosome of D. persimilis, coexists with a homologue that developed into a sex chromosome, the X2 in D. miranda. Except for certain inversions and a few minor translocations, these two chromosomes (X2 and the 3rd) still look alike as polytene elements. However, in hybrid males pairing of the two chromosomes, the X2 and 3rd, is rare, while in female hybrids it occurs frequently. - 3H-TdR labeling shows that while the X2 and 3rd chromosomes replicate synchronously in hybrid female, in the hybrid male the former completes its replication earlier than the 3rd chromosome, as do the two arms of the X1 (XL and XR). The frequency and relative intensity of 3H-TdR labeling of each site of the X2 and that of the 3rd chromosome in hybrid males closely agree with those of the corresponding sites in the X2 of the miranda male and the 3rd chromosome of the persimilis male (or female), respectively. The results suggest that timing and rate of replication of the X2 are determined autonomously and follow the pattern in the respective parental species. © 1984 Springer-Verlag.

Chromosoma

Conserved autonomy of replication of the X-chromosomes in hybrids of Drosophila miranda and Drosophila persimilis

[3H]Thymidine labeling patterns have been examined in gynandric mosaic salivary glands of Drosophila melanogaster. The Ring X stock, R(1) w(vc)/In(1)dl 49, l (1) J1 y w lz(s), was used for this purpose. 365 labeled XX2A and 40 labeled XO2A nuclei were obtained from a total of 624 nuclei in 9 pairs of mosaic salivary glands. It was observed that in all but those nuclei which had DD, 1C, and 2C patterns, the X chromosome of the XO2A nuclei always had fewer sites labeled than the X chromosomes of the XX2A nuclei, for a given pattern of the autosomes in either sex. Such asynchronous labeling of the chromosome in the XO2A (male) nuclei was observed regardless of the proportion of the XO2A cells (2.0 to 73.7%), in the mosaic glands. Moreover, while the frequency of [3H]thymidine labeling for all of the 39 replicating units except the 2 late replicating sites (3C and 11A) in the X chromosome of the XO2A nuclei, was consistently lower than in the X chromosome of the XX2A nuclei, the mean number of grains on the X chromosome was relatively (to autosomes) similar in both XX2A and XO2A cells. The results, therefore, suggest that, as in XY2A larval glands, the X chromosome in the XO2A cells also completes the replication earlier than autosomes and that the XO2A nuclei show cellular autonomy with respect to the early replication of the X chromosome, like its counterpart, RNA transcription. Absence of the asynchrony during the initial phase (DD 2C) further supports the contention (a) that the single X chromosome of the male not only completes the replication earlier but that the rate of replication of its DNA is possibly faster, and (b) that there might be a common regulation with respect to the initiation of replication of different chromosomes in a genome.

Journal of Cell Biology

Chromosomal basis of dosage compensation in Drosophila. IX. Cellular autonomy of the faster replication of the X chromosome in haplo X cells of Drosophila melanogaster and synchronous initiation

A detailed analysis of the 3H-thymidine labelling pattern for a large fraction of the X (12A-20D) and a short section of the 4th (90C-94C) chromosome of Drosophila hydei with special emphasis on the 18 X-chromosomal puffs and 14 autosomal puffs is presented. Attempts to arrange the different labelling patterns into different ordered sequences lead to only one optimal sequence that fits with a continuous-to-discontinuous sequence of labelling, both at the level of whole chromosome sections as well as at the level of the 18 X-chromosomal and 14 autosomal puffs. This finding inplies that all genetically active sites start replication simultaneously and that each active locus may complete its replication according to the amount of DNA and/or the degree of puffing activity. The data suggest that the individual units behave autonomously. On the basis of the labelling frequency of the different non-puffed segments and puffing sites of the X and the 4th, it has been shown that (a) puff sites in most cases take a shorter time than non-puffed bands, and (b) the puff sites on the female X's require a longer period of replication as compared to the same puffs on the male X. These observations suggest that the asynchronous replication of the male X may be causally related to its hyperactivity. The data provide further evidence in support of piecemeal regulation of dosage compensation in Drosophila and reinstates the hyperactive male X model of dosage compensation. © 1973.

Cell Differentiation

Chromosomal basis of dosage compensation in Drosophila. VII. DNA replication patterns of the puffs in the male and female larval polytene chromosomes

Genetics

Genetic Complexity Underlying Hybrid Male Sterility in Drosophila

Drosophila simulans Lethal hybrid rescue mutation (Lhr) rescues inviable hybrids by restoring X chromosomal dosage compensation and causes fluctuating asymmetry of development

Journal	Journal of Genetics
Publisher	INDIAN ACAD SCIENCES
ISSN	0022-1333