Evolutionary experimentation through hybridization under laboratory condition in Drosophila: Evidence for Recombinational Speciation

BACKGROUND: Drosophila nasuta nasuta (2n = 8) and Drosophila nasuta albomicans (2n = 6) are a pair of sibling allopatric chromosomal cross-fertile races of the nasuta subgroup of immigrans species group of Drosophila. Interracial hybridization between these two races has given rise to new karyotypic strains called Cytorace 1 and Cytorace 2 (first phase). Further hybridization between Thailand strain of D. n. albomicans and D. n. nasuta of Coorg strain has resulted in the evolution of two more Cytoraces, namely Cytorace 3 and Cytorace 4 (second phase). The third phase Cytoraces (Cytorace 5 to Cytorace 16) have evolved through interracial hybridization among first, second phase Cytoraces along with parental races. Each of these Cytoraces is composed of recombined genomes of the parental races. Here, we have made an attempt to systematically assess the impact of hybridization on karyotypes, morphometric and life history traits in all 16 Cytoraces. RESULTS: The results reveal that in most cases, the newly evolved Cytoraces, with different chromosome constitutions, exhibit decreased body size, better fitness and live longer than their parents. Particularly, Cytorace 5, 6 and 8 have evolved with very much higher range values of quantitative traits than the parents and other Cytoraces, which suggests the role of transgressive segregation in the evolution of these Cytoraces. CONCLUSION: Thus, the rapid divergence recorded in the chromosomes, karyotypes, body size and fitness traits of Cytoraces exhibit the early event of recombinational raciation / speciation in the evolution of the Cytoraces under laboratory conditions

Maternal grandmothers with advanced age reproduction are more likely to have Down syndrome grandchildren

Down syndrome (DS), trisomy 21, is the most common chromosomal syndrome that affects one in 600-800 live births. The advanced maternal age is the only well known risk factor to cause DS. Our study revealed that many young mothers produced DS children than advanced age mothers in India. A total of 150 suspected DS cases were investigated cytogenetically. Randomly selected 200 healthy families in South India were used as controls. Logistic regression was performed on case-control dataset which was generated by randomly selecting the child from each of the control families. Pedigree analyses indicated that the maternal grandmothers had advanced age during conception of their daughters who gave birth to DS child. Case-control status was used as dependent variable, whereas parental and grandparental age was used as covariates. Logistic regression was reported as odds ratios, univariate and multivariate. The age of maternal grandmother showed highly significant difference in odds ratio, indicating that the advanced age of maternal grandmother was the possible risk factor.  Therefore, it is important to sort-out the effect of advanced age mothers vs grandmothers on increased frequency of DS reported in different populations

Roles of the troponin isoforms during indirect flight muscle development in Drosophila

Troponin proteins in cooperative interaction with tropomyosin are responsible for controlling the contraction of the striated muscles in response to changes in the intracellular calcium concentration. Contractility of the muscle is determined by the constituent protein isoforms, and the isoforms can switch over from one form to another depending on physiological demands and pathological conditions. In Drosophila, amajority of themyofibrillar proteins in the Indirect Flight Muscles (IFMs) undergo post-transcriptional and post-translational isoform changes during pupal to adult metamorphosis to meet the high energy and mechanical demands of flight. Using a newly generated Gal4 strain (UH3-Gal4) which is expressed exclusively in the IFMs, during later stages of development, we have looked at the developmental and functional importance of each of the troponin subunits (troponin-I, troponin-T and troponin-C) and their isoforms. We show that all the troponin subunits are required for normal myofibril assembly and flight, except for the troponin-C isoform 1 (TnC1). Moreover, rescue experiments conducted with troponin-I embryonic isoform in the IFMs, where flies were rendered flightless, show developmental and functional differences of TnI isoforms and importance of maintaining the right isoform

Inheritance patterns, consanguinity & risk for asthma

Background & Objectives: Family history is an important risk factor for the development of asthma, contingent upon genetic and environment interaction. Since there is paucity of data on asthma inheritance in Indian population, the present study was undertaken to investigate the inheritance patterns of asthma and the effect of family history and consanguineous marriage on asthma inheritance. Methods: A total of 200 families, 100 index children and 100 index adults with clinically diagnosed asthma, along with 400 non-asthmatic children and adults as controls were selected for the present study. Information about the family history of each patients and controls was collected and analyzed pedigrees were also constructed. Results: A history of asthma in any member of the family was observed in 44.5 per cent of cases and 5.3 per cent of controls (P<0.001). A differential risk of developing asthma was noted in family history of asthma in different first and second degree relatives of children and adult patients. Consanguineous marriage was also noted in parents in 24.5 per cent of cases and 12.3 per cent of controls (P<0.001). The most common mode of asthma inheritance was recessive. Interpretation & Conclusions: Our results showed that consanguineous marriage and family history of asthma are important determinants in the development of asthma in the offspring

Rare association of turner syndrome with neurofibromatosis type 1 and tuberous sclerosis complex

We report a rare association of Turner syndrome with both Neurofibromatosis type I and Tuberous Sclerosis. The patient had XO karyotype with Turners stigmata and also had features of Neurofibromatosis 1 in the form of significant cafe-au-lait spots and Plexiform neurofibroma along with typical features of Tuberous Sclerosis complex. Pedigree analysis revealed that the elder brother of the proband in the family also suffered from Tuberous Sclerosis without the manifestation of Neurofibromatosis or any other genetic disorders. We hypothesize that these associations could be due to new independent mutations and also increased maternal and paternal age in a pre-disposition of Turner syndrome

Influence of advanced age of maternal grandmothers on Down syndrome

BACKGROUND: Down syndrome (DS) is the most common chromosomal anomaly associated with mental retardation. This is due to the occurrence of free trisomy 21 (92–95%), mosaic trisomy 21 (2–4%) and translocation (3–4%). Advanced maternal age is a well documented risk factor for maternal meiotic nondisjunction. In India three children with DS are born every hour and more DS children are given birth to by young age mothers than by advanced age mothers. Therefore, detailed analysis of the families with DS is needed to find out other possible causative factors for nondisjunction. METHODS: We investigated 69 families of cytogenetically confirmed DS children and constructed pedigrees of these families. We also studied 200 randomly selected families belonging to different religions as controls. Statistical analysis was carried out using logistic regression. RESULTS: Out of the 69 DS cases studied, 67 were free trisomy 21, two cases were mosaic trisomy 21 and there were none with translocation. The number of DS births was greater for the young age mothers compared with the advanced age mothers. It has also been recorded that young age mothers (18 to 29 years) born to their mothers at the age 30 years and above produced as high as 91.3% of children with DS. The logistic regression of case- control study of DS children revealed that the odds ratio of age of grandmother was significant when all the four variables were used once at a time. However, the effect of age of mother and father was smaller than the effect of age of maternal grandmother. Therefore, for every year of advancement of age of the maternal grandmother, the risk (odds) of birth of DS baby increases by 30%. CONCLUSION: Besides the known risk factors, mother's age, father's age, the age of the maternal grandmother at the time of birth of the mother is a risk factor for the occurrence of Down syndrome

Genetic Variability Assessed by Competitive Ability and ISSR Markers in the Members of the Nasuta-albomicans Complex of Drosophila

Abstract: The nasuta-albomicans complex (NAC) of Drosophila is an assemblage comprising of two morphologically indistinguishable members of the nasuta subgroup of the immigrans species group namely, Drosophila nasuta nasuta, Drosophila nasuta albomicans and 16 cytoraces, which have been evolved through a long range hybridization between D. n. nasuta and D. n. albomicans. This complex is an artificial hybrid zone of Drosophila with "allo-sympatric" populations, which exhibits differences in their cytogenetic differentiation, incipient sexual isolation, body size and fitness. The objectives of our study were to (a) assess the competitive ability of four laboratory evolved races -cytorace 1, cytorace 2, cytorace 3, cytorace 4 along with their parents, D. n .nasuta and D. n. albomicans (b) examine the DNA polymorphism among these hybrid races and their respective parents based on ISSR markers and (c) bring out the correlation, if any, between the above two. Among the six races, overall competitive ability was higher in D. n. nasuta, D. n. albomicans and cytorace 1 than other races. Cytorace 1, cytorace 2 and cytorace 4 are with 20-23% of DNA polymorphism while cytorace 3 is with 10.7% of DNA polymorphism with reference to four ISSR profiles. Thus, one can surmise that cytorace 1, cytorace 2 and cytorace 4 with increased genetic variability exhibited better fitness while cytorace 3 with the least DNA polymorphism showed reduced competitive ability. [Nature and Science 2010;8(12):29-42] (ISSN: 1545-0740)

Racial divergence of a rare laboratory evolved centromeric fission Cytorace of <i style="">nasuta-albomicans </i>complex of <i style="">Drosophila</i>

511-517Fissioncytorace-1, a member of the nasuta-albomicans complex of Drosophila is an evolutionary product of centric fission, which had occurred in the chromosome X3 of Cytorace 1, a hydridization product of Drosophila nasuta nasuta male (2n=8) and Drosophila nasuta albomicans female (2n=6). Cytorace 1 (males 2n=7; females 2n=6) has inherited this chromosome from its D. n. albomicans parent. The chromosome X3 of D. n. albomicans is a derivative of a centric fusion between the acrocentric chromosome 3 and the chromosome X of D. n. nasuta. The Fissioncytorace-1 has crossed 200 generations from the time of its evolution in the laboratory environment. When this centromeric fission race was subjected to some of the morphophenotypic and fitness assessment to find its overall population fitness showed, increased body size, sternopleural bristle, ovarioles, lifetime fecundity and fertility with reduced interspecific competitive ability and hatching success when compared with its parent (Cytorace 1). These results suggest that the hybrid races must have encountered an early event of recombinational raciation during their evolution in the laboratory environment, which is a unique observation in animal system illustrating the increase in the tempo of evolution after the event of hybridization