Global ETD Search

41	Epigenetic Regulators Of Development In The Social Amoeba Dictyostellium Discoideum : The Roles Played By Histone Deacetylases And Heat Shock Protein 90 Sawarkar, Ritwick 07 1900 (has links) The major evolutionary transition from single-celled to multicellular life is believed to have occurred independently of the main metazoan lineages in the cellular slime moulds, of which Dictyostelium discoideum is the best-studied species. Unusually, in this case multicellular development is a facultative trait and part of an asexual life cycle. It is triggered by starvation and involves aggregation of hitherto independent and possibly unrelated free-living cells. The consequences of multicellularity in D.discoideum are strongly influenced by the environment and meaningful external perturbations are easily carried out. This makes the organism ideally suited to a study of epigenetic factors that regulate development. In an attempt to understand how conserved epigenetic pathways are integrated within the developmental framework, two likely players were chosen for investigation - heat shock protein 90 (Hsp90) and histone deacetylases (HDACs). Hsp90 has been implicated in diverse biological processes such as protein folding, cell cycle control, signal transduction, and morphological evolution. The role of Hsp90 in D.discoideum life cycle was studied using a specific inhibitor, geldanamycin. Inhibition of Hsp90 function in D.discoideum caused a delay in aggregation and an arrest of development at the ‘mound’ stage. A reduction in Hsp90activity in starving cells of D.discoideum resulted in the generation of a range of phenotypes. The study suggests that Hsp90 is required for a specific developmental transition of the social amoeba and is important in generating a reliable outcome of the developmental process. Histone acetylation regulates gene expression and leads to the establishment and maintenance of cellular phenotypes during development of plants and animals. To study the roles of HDACs in D.discoideum, biochemical, pharmacological and genetic approaches were employed. The inhibition of HDAC activity by trichostatin A resulted in histone hyperacetylation and a delay in cell aggregation and differentiation. Cyclic AMP oscillations were normal in starved amoebae treated with trichostatin A but the expression of a subset of cAMP-regulated genes was delayed. Bioinformatic analysis indicated that there are four genes encoding putative HDACs in D.discoideum. One of these four genes, hdaB, was found to be dispensable for growth and development under laboratory conditions; but formed spores with lower efficiency than the wild type in chimeras. The work shows that HDAC activity is important for regulating two aspects of multicellular development: (a) heterochrony, namely the relative timing of developmental events, and (b) modulating the behaviour of single cells in a manner that is sensitive to their social environment. Gene Regulation Biochemical Genetics Dictyostelium Discoideum Protein 90 Histone Deacetylases Heat Shock Protein 90 Gene Expression D. discoideum Hsp90 Biochemical Genetics
42	Prospecção de genes codificadores de enzimas lipolíticas em biblioteca metagenômica de consórcio microbiano degradador de óleo diesel. / Screening for lipolytic enzyme codification genes in a metagenomic library of consortia specialized in diesel oil degradation. Pereira, Mariana Rangel 03 March 2011 (has links) As enzimas lipolíticas vêm atraindo atenção no mercado global devido ao enorme potencial biotecnológico, como: na formulação de detergentes; na indústria de couro; produção de cosméticos, fármacos, aromas, biodiesel, etc. O objetivo deste trabalho foi prospectar genes codificadores de enzimas lipolíticas em biblioteca metagenômica de um consórcio microbiano degradador de óleo diesel. A seleção foi feita pela atividade lipolítica através do cultivo dos clones em placa de petri e a avaliação foi pela observação de halo ao redor da colônia, sendo positiva para 30 clones dentre os quais dois se destacaram. Estes dois clones foram selecionados e subclonados. Os DNAs das sub-bibliotecas foram sequenciados, gerando um contig completo para cada clone. Através do ORF Finder foi identificado cinco ORFs de esterase/lipase, dentre as quais uma alcançou 58% de identidade com uma bactéria não cultivável. As árvores filogenéticas indicam que duas ORFs são similares à família IV das enzimas lipolíticas, enquanto que as outras três ORFs à família V. / Lipolytic enzymes have been attracting global market attention because they show enormous biotechnological potential. The present work was done as an attempt to find genes which codify lipolytic enzymes in a metagenomic library composed of diesel oil degradation microbe consortia. Clones were selected according to lipolytic activity and were then evaluated after cultivation in Petri dishes by observation of halo formation around the colonies. 30 clones produced halo formations and were identified as positives, two of which showed prominent results. These two were then selected and sub cloned. DNA from the sub libraries was sequenced, generating a complete contig for each clone. Using the ORF Finder five esterase/lipase ORFs were identified, with one of these attaining 58% of identity to a non cultivatable bacteria species. Assessment of the cladograms showed that two ORFs were similar to lipolytic enzyme family IV, while the other three ORFs were similar to family V. Biochemical genetics DNA sequence Enzimas lipolíticas Genética bioquímica genomas Genomes Lipase Lipase Lipolytic enzymes Sequência do DNA
43	Studies On Initiator tRNA Selection On The Ribosomes In Escherichia Coli Das, Gautam 06 1900 (has links) The studies reported in this thesis address the aspects of initiator tRNA selection in Escherichia Coli. A summary of the relevant literature discussing the process of ptotein biosynthesis in general and initiator tRNA selection, in particular is presented in chapter 1. The next chapter (Chapter2) describes the ‘Materials and Methods’ used throughout the experimental work carried out in this thesis. It is followed by two chapters(Chapter 3 and Chapter 4) which describe the isolation and characterization of an E. coli mutant, to understand the mechanism of initiator tRNA selection. Chapter 5 comprises of some experimental work and future perspectives on the utility of the E.coli mutant. The last chapter (Chapter 6) summarizes the published work where I have contributed to besides the work described in Chapters 3 to 5. The summary of chapters 3-5 is as described below:- (i)Isolation and genetic mapping of extragenic suppressors of mutant initiator tRNA lacking the three consecutive G, C base pairs in the anticodon stem Initiator tRNA selection on the ribosomes is a result of several steps, some of which are unique to the prokaryotic world. Structure-function analyses of E.Coli tRNAfMet have revealed that the most important features of tRNAfMet, pertinent to its in vivo function as an initiator, are located in the acceptor stem and the anticodon arm regions. The three consecutive G-C base pairs in the anticodon stem of the tRNAfMet, conserved across all kingdoms of life, have been implicated in preferential binding to 30S ribosomal P-site. How the 3G-C base pairs are exploited by ribosomes in selecting the initiator tRNA, has been a long standing question. In the present work, a genetic screen was developed to isolate second site compensatory mutations of the mutant tRNAfMet, inactive in initiation because the 3G-C base pairs in it were changed to those found in the elongator tRNAMet(‘3G-C mutant’). Two extragenic suppressors were mapped to defined regions in the 12 min and 85 min locations in the E. Coli genome and three others were classified in these two broad groups. A super suppressor strain exhibiting synergistic suppression was generated. Further genetic mapping identified a G122D mutation in the folD gene encoding 5, 10 methylene tetrahydrofolate dehydrogenase/cyclohydrolase in one of the suppressor strains E. Coli A48. Complementation analysis using over expression of fold confirmed the results obtained by genetic mapping. (ii) Role of the intracellular S-adenosylmethionine flux in initiation with an initiator versus elongator tRNAs in Escherichia Coli How a defect in folD gene product (in E. Coli A48) leads to initiation with the ‘3G-C mutant’ initiator tRNA, has been addressed in this work. The FolD enzyme plays a key role in the one-carbon metabolism. The mutation in folD resulted in a lethal phenotype in minimal medium. The end-products of the pathway, 10 formyl-THF, methionine and S-adenosylmethionine(SAM) were analyzed for their possible role in initiation with the ‘3G-C mutant’ tRNAfMet, which revealed that lowering of the steady-state abundance of methionine and SAM had a direct role in initiation with the ‘3G-C mutant” tRNAfMet. Analysis of the 16S tRNA revealed that the methylations, as a result of reduced levels of SAM, were undetectable in the E.Coli A48. This prompted us to generate targeted mutations in the methyltransferase genes, which have highlighted the importance of methylations in initiator tRNA selection. Consistent with the growth retardation phenotype of methylase deficient strains at higher temperatures, the E. Coli A48 also displays temperature sensitivity. Further analysis of mycoplasma genomes, which do not follow the strong conservation of three G-C base pairs in the anicodon stem of initiator tRNA has uncovered an hitherto unknown evolutionary connection between methylations of 16S rRNA and initiator tRNA selection. We observed genetic interaction between infC(encoding IF3) and fold (encoding FolD). We also demonstrate initiation with tRNAfMet containing mutations in one, two or all the three G-C base pairs, as also with the elongator tRNA (tRNAGln). (iii) Utility of E. Coli A48 in investigation of biological processes: Some Preliminary studies and future perspectives. The availability of the E. Coli A48 strain is a valuable addition to the field of initiator tRNA selection and opens up further opportunities for its application. In this study, we have analyzed some of the properties of the E. Coli A48 strain viz. sensitivity to UV light and formylation independent initiation. E. Coli possess multiple copies of initiator tRNA, encoded by the metZVW operon and the metY gene. We reasoned that the abundance of cellular initiator tRNA might be a contributing factor in maintenance of specificity of initiation. Consistent with our prediction, we observed initiation with the ‘3G-C mutant’ tRNAfMet in E. Coli strains deficient in initiator tRNA genes. The various aspects of SAM limitation, biological functions of post-transcriptional modifications, incorporation of non-methionine amino acids in then-terminus of proteins and genetic approaches to system biology for the understanding of one-carbon metabolism are discussed. Escherichia Coli Ribosomes Initiator tRNA Protein Biosynthesis Escherichia Coli Mutant Genetic Mapping Biochemical Genetics
44	Functional Analysis Of DdRpb4 And DdRpb7, Two Subunits Of Dictyostelium Discoideum RNA Polymerase II Devi, Naorem Aruna 01 1900 (has links) The process of eukaryotic transcription and its regulation has been an interesting area of research for decades. With more insights into the process of transcriptional regulation of genes, studies have revealed a transcriptional regulation at the level of RNA polymerase II in response to nutritional stress. Further studies in our laboratory and others’, using Saccharomyces cerevisiae as a model system, had shown that two subunits of core RNA polymerase II, RPB4 and RPB7 play a crucial role in response to nutritional starvation. Similarly, these proteins are also known to play important roles in stress response in higher eukaryotes. Additionally, altering levels of Rpb4 and Rpb7 can differentially affect starvation response in S. cerevisiae (Singh et al., 2007). Multiple tissue blot analyses had shown that both these subunits are differentially expressed in different human tissues more significantly in heart, kidney and brain (Khazak et al., 1995; Khazak et al., 1998; Schoen et al., 1997). These findings have led us to investigate in Dictyostelium discoideum, a cellular slime mold, the possible role of these subunits during starvation-induced development. D. discoideum cells exist as unicellular amoebae in soil. In this organism, growth and differentiation phases are distinctly separated, which is an advantage for investigating the functions of these subunits during growth and development. Cells respond to nutritional starvation by undergoing a series of morphological changes coordinated with transcriptional changes giving rise to a terminally differentiated structure referred to as fruiting body which has live spores suspended on top of stalk of dead cells. Though starvation-induced development is accompanied by differential expression of genes, few studies related to the transcription machinery, RNA polymerase II have been reported so far. Purification and presence of all three RNA polymerases from D. discoideum had been reported earlier but the details of their structures and regulation have not been explored in detail (Pong and Loomis, 1973; Renart et al., 1985). One interesting observation reported by Lam and colleagues (Lam et al., 1992) was that CTD of the largest subunit of RNA polymerase II, Rpb1, is highly conserved with 24 heptapeptide repeats and expression of RPB1 transcript was regulated during development. Thus, we carried out experiments to characterize Rpb4 and Rpb7, two subunits of D. discoideum RNA polymerase II to understand any role of these subunits during development. Identification of Rpb4 and Rpb7, two subunits of D. discoideum RNA polymerase II To identify the homologs of S. cerevisiae Rpb4 and Rpb7 in D. discoideum, we employed bioinformatics and genetic approaches. Firstly, we searched D. discoideum database for all protein sequences of S. cerevisiae RNA polymerase II subunits. We could obtain sequences homologous to all twelve subunits in D. discoideum. Among the 12 subunits of D. discoideum RNA polymerase II, we chose to characterize two subunits, DdRpb4 and DdRpb7. We cloned the open reading frames of these two genes from D. discoideum Ax2 cells and cloned them in yeast expression vectors for complementation studies. In S. cerevisiae, Rpb4 is a non-essential protein but rpb4∆ cells show abnormal phenotypes. Few phenotypes of rpb4∆ cells, such as temperature sensitivity, defective in response to nutritional starvation and defective in activated transcription, were employed to identify the D. discoideum homolog of ScRpb4 (Woychik and Young, 1989; Pillai et al., 2001: Pillai et al., 2003). We observed that DdRPB4 can rescue temperature sensitivity corroborated with its ability to activate transcription from HSE containing promoters and sporulation defects of Scrpb4Δ mutant to the wild type. However, DdRPB4 can rescue neither the defect in activated transcription of GAL10 and INO1 promoters nor the elongated morphology exhibited by Scrpb4Δ mutant. On the other hand, we observed that DdRPB7 can complement the lethality associated with ScRPB7 deletion and can partially rescue the phenotypes associated with Scrpb4∆ strain similar to ScRPB7 (Sharma and Sadhale, 1999; Singh et al., 2004). Taken together, we have identified D. discoideum Rpb4 and Rpb7 as bona fide homologs of S. cerevisiae Rpb4 and Rpb7, respectively. Analysis of Rpb4 and Rpb7 in D. discoideum Since yeast RNA polymerase II subunits, Rpb4 and Rpb7, play an important role in the regulation of genes responsive to starvation stress, we carried out experiments to characterize Rpb4 and Rpb7 during growth and starvation-induced development in D. discoideum. Temporal and spatial expression profiles show avaried but similar pattern of RPB4 and RPB7 transcripts during D. discoideum development. We observed similarity between ScRpb4 and DdRpb4 in its ability to interact with DdRpb7 and to localise in both nuclear and cytoplasmic compartments. Attempts to knock out or reduce the levels of DdRpb4 and DdRpb7 by homologous recombination and antisense approaches, respectively, failed. However, since altering levels of Rpb4 and Rpb7 in S. cerevisiae can affect different stress response pathways, we had used overexpression to alter the level of Rpb4 and analysed its effect on D. discoideum development. We overexpressed DdRpb4 as GFP fusion protein in Ax2 cells and observed that D. discoideum cells overexpressing DdRpb4 showed normal growth and development similar to the wild type protein. Interestingly, we observed that Ax2 cells overexpressing DdRpb4 have drastically reduced levels of the endogenous protein. Thus, we have identified a post-transcriptional control on the level of Rpb4 in D. discoideum. Role of S. cerevisiae Rpb4/Rpb7 subcomplex in stress In S. cerevisiae, Rpb4 and Rpb7 interact with each other and carry out important functions (Choder, 2003; Sampath and Sadhale, 2004). Employing the functional conservation of Rpb4 and Rpb7 across various model systems, we further investigated the role of the subcomplex in S. cerevisiae. Since Rpb7 is an essential gene, we have generated rpb7Δstrain in the presence of plasmids expressing Rpb7 or its homologs. We have generated a S. cerevisiae strain lacking both RPB4 and RPB7 and introduced Rpb4 and Rpb7 homologs from either D. discoideum or C. albicans. We analysed these strains under stresses such as high temperature and nutrient starvation. The results of these experiments have provided how the differences in Rpb4 and Rpb7 proteins and their ability to form a subcomplex could be reflected in differential stress responses. Besides the high functional conservation of these proteins, their interaction with other regulatory proteins might also be critical for a proper response to nutritional stress. RNA Polymerase Dictyostelium Discoideum RNA DdRpb4 DdRpb7 Gene Transcription RNA Polymerase II Rpb7 Rpb4 Biochemical Genetics
45	Molecular-genetic and structural analyses of the nifHDKX proteins of the nitrogenase system Lahiri, Surobhi, January 2006 (has links) Thesis (Ph.D.) -- Mississippi State University. Department of Biological Sciences. / Title from title screen. Includes bibliographical references.
46	TATA-independent transcriptional initiation from PEA3-initiators Yu, Mi, January 1900 (has links) Thesis (Ph. D.)--University of Missouri--Columbia, 1996. / Typescript. Vita. Includes bibliographical references (leaves: 108-124). Also available on the Internet.
47	4,5-dihydropyrazoles : novel chemistry and biological activity Catti, Federica January 2007 (has links) No description available. 547.59
48	Biochemical genetics, physiology and ecotoxicology of Southern African vulture species Van Wyk, Erika 11 September 2012 (has links) D.Phil. / The main objective of this study was to describe the population genetic structure of African Whitebacked Vultures (Pseudogyps africanus) and to compare values to those previously documented for the Cape Griffon Vulture (Gyps coprotheres). The percentage of polymorphic .loci (P = 34.15%, 0.99 criterion) and average heterozygosity (17 = 0.108, ±0.032) calculated for P. africanus, confirm low levels of genetic -variation as reported for G. coprotheres. Blood samples' obtained from Lappetfaced (Torgos, tracheliotos) and Egyptian (Neophron percnopterus) Vultures enabled an evaluation of the genetic differentiation among the four southern African vulture species from allele frequency data assessed at 19 presumptive gene loci. Six (31.58%) of the 19 shared loci were polymorphic. Values of 1.26 (10.1), 26.32% and 0.076 (±0.047) for P.'africanus, 1.21 (±0.1), 21.05% and 0.097 (±0.045) for T. tracheliotos, 1.11 (±0.7), 21.05%. and 0.053 .(±0.053) for N: percnopterus and 1.05 (±0.5), 5.26% and 0.044 (±0.047) for G. coprotheres were obtained for the mean number of alleles per locus, P and Ti respectively. An average between-population fixigion index (FsT) value of 0.322 was obtained, which is indicative of significant (P < 0.01) differentiation between the four accipitrid species studied. Reference values for some haematological and plasma chemical parameters were established in 33 apparently normal, free-living, African Whitebacked Vulture nestlings. This .information can be. used in future ornithological research. A total of 27 variables . were examined, which include: leucocyte and erythrocyte counts, haemoglobin concentration, .haematocrit, haematimetric indices, glucose, creatinine, urea, total prOtein, albumin, globulin, albumin/globulin ratio, cholesterol, total lipids, triglycerides, aspartate aminotransferase, cholinesterase, lactate dehydrogenase, alkaline phosphatase, calcium, phosphorus, chloride, potassium, sodium and osmolarity. Only five parameters exhibited statistically significant (p < 0.05) differences between the two populations assayed. The Sandveld population showed elevated mean corpuscular haemoglobin concentration and alkaline phosphatase levels relative to the Dronfield population, whereas, the latter group displayed higher erythrocyte counts and potassium and sodium values than birds from the Sandveld community. Gaschromatography was used to establish the presence of quantifiable . residues .of 14 persistent chlorinated hydrocarbon pollutants in whole blood, clotted blood, heart, kidney, liver, bone, fat and muscle samples obtained from individual African Whitebacked, Cape. Griffon and Lappetfaced Vultures from different localities in South Africa. Concentrations of seven essential elements (Ca, Co, Cr, Cu, Fe, Mn and Zn) and four toxic metals (Al, Ni, Pb and Sr) were, furthermore, measured. The levels of pollutants measured in whole blood samples of live specimens were compared between nestlings from two natural breeding colonies, adults from a wildlife area and birds held in captivity. Statistically significant differences between populations were detected in geometric means calculated for y-BHC, a-chlordane and a-endosulfan. Five of the organochlorine contaminants displayed significant variations between concentrations detected in the clotted blood, organs and muscles excised from vulture carcasses. This includes residues ofy-BHC, a-chlordane, dieldrin, ,8-endosulfan and heptachlor epoxide. Values of the respective organochlorines obtained in vulture samples were generally low in comparison to results documented for a number of avian species. Levels of the , majority of metals analysed differed significantly- between two or more of the sampling localities, between adults and nestlings, and between captive and wild individuals. Metals which did not occur in such distinctly defining concentrations were Sr, Cu and Fe. Birds from Moholoholo maintained the highest overall blood metal burden, while nestlings from Dronfield were the least contaminated Significant differences were present between two or more tissues types for all the metals. The predominant sites for metal accumulation in vultures were the fatty tissues and bones. Most of the levels of metals measured in vultures compared well with concentrations reported for other avian species, and were generally within the range documented for species devoid of deleterious symptoms induced from heavy metal poisoning. However; certain individuals exhibited potentially toxic concentrations of specific metals such as Cu, Fe, Ni, and Pb. Continual monitoring of breeding colonies is recommended. The suitability of African Whitebacked Vulture nestlings as basic bioindicatori is highly advocated. The genetic data from this study can be used to compare levels of genetic diversity remaining in captive and wild vulture populations. An assessment of the amount and pattern of genetic variation of current populations of vulture species is an essential step towards ensuring the longterm survival of these birds. The phylogenetic conclusions found in. this study through allozyme electrophoresis correspond to results obtained from nucleotide sequence studies of the mitochondrial cytochrome b. gene. This points to an extent of positive corroboration between the two techniques. The haematological profile established for African Whitebacked Vulture nestlings constitutes a set of reference values that was previously unavailable for southern African vulture species. This data can assist in diagnosing and monitoring pathological and clinical' incidents detected in vultures. Values for a number of organochlo?ine pesticides and heavy metals, which have not been analysed in vulture species in the past, are documented. These values can serve as guidelines for future research, as well as control values for monitoring the occurrence and distribution of these contaminants within the habitats of vulture species. This study, therefore, presents information for research fields directly related to the survival of vulture populations. These factors must be included in future vulture management and reintroduction programmes as they will serve to enhance the success of conservation attempts. Vultures - Africa Vultures - Physiology - Africa Vultures - Toxicology - Africa Biochemical genetics. Heavy metals - Toxicology - Africa
49	Towards Elucidating The Role Of Histone H1t And Gene Expression Profiling Of Spermatogenic Cells During Mammalian Spermatogenesis Sneha Ramesh, * 07 1900 (has links) (PDF) No description available. Nucleosomes Chromatin Structure Gene Expression Spermatogenesis Mammalian Spermatogenesis Spermatogenic Cells Histone H1 Biochemical Genetics
50	Molecular Genetic Analysis Of Flower Development In Rice Kushalappa, M Kumuda 01 1900 (has links) (PDF) No description available. Rice - Flower - Molecular Genetics Rice - Molecular Genetics Arabidopsis thallana Arabidopsis majus Biochemical Genetics

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