Global ETD Search

41	Functional Characterization of Saccharomyces Cerevisiae SUB1 in Starvation Induced Sporulation Response Gupta, Ritu January 2014 (has links) (PDF) Among the various external signals perceived by yeast cells, nutrient availability is a condition to which these cells show a highly diverse biological response. Diploid cells in response to different nutritional stress conditions shows different developmental outcomes. On nitrogen starvation, cells undergo dimorphic transition whereby a unicellular yeast form transforms to a multicellular pseudohyphal form. While in the complete absence of a nitrogen source and a fermentable carbon source, yeast cells enter into a complex developmental program termed sporulation which culminates in haploid spores. The main objective of this work was to understand the role played by S. cerevisiaeSUB1 in starvation-induced meiotic program of diploid cells, decipher its target in sporulation specific gene expression cascade, study the domain architecture of Sub1 and examine its functional homology to mammalian PC4. Role of Sub1 in induction of sporulation and other stress responses in S. cerevisiae In a previous whole-genome screen for mutants with altered sporulation efficiency in the Saccharomyces cerevisiae S288c strain, SUB1 locus was identified as a negative regulator of sporulation (Deutschbaueret al., 2002). Moreover, genome-wide gene expression analysis in SK1 strain had shown that SUB1 transcript levels are repressed during sporulation (Chu et al., 1998). Many studies in different yeast strain backgrounds implicate more than 1,000 genesout of 6,200 genes in yeast genome as being differentially expressed during the sporulation process (Chu et al., 1998; Primiget al., 2000; Deutschbaueret al., 2002). Interestingly, these studies show the number of regulatory genes that negatively affect sporulation is far lower than those that are activators of sporulation and moreover their mechanism of action is poorly studied. S. cerevisiae.SUB1 is one among negative regulators of sporulation(Deutschbaueret al., 2002). Global transcriptome of diploid yeast cells undergoing sporulation showed SUB1 transcripts are greatly reduced with time progression (Chu et al., 1998). To understand the role of SUB1 in sporulation, we generated deletion of both SUB1 alleles in the diploid S288c strain background and compared the kinetics of asci formation in this strain with that of the wild-type. We observed that cells lacking SUB1 exhibit ~5-fold increase in tetrad asci. Based on Eosin Y and Calcoflour White staining assays, we find no change in spore morphology in the mutant. Thus the increase in sporulation efficiency in sub1/sub1diploids is not accompanied by formation of defective spores. We validated the reduction in SUB1 transcript levels during sporulation in wild-type SK1 strain background. We also examined the Sub1 protein levels by epitope-tagging of the chromosomal SUB1 open reading frame and determining protein levels in this strain. We find that consistent with the data on transcript levels, Sub1-TAP tagged protein levels too decreased gradually on shift to sporulation medium. We created sub1alleles in diploids in the SK1 strain background and using this strain background we investigated Sub1 target genes and chose IME2 (early), SMK1, SPS2 (middle), DIT1, DIT2 (mid-late) and SPS100 (late) genes as representative sporulation genes. We observed that sub1∆/sub1∆cells have a significantly elevated expression of middle genes (SPS2 and SMK1) that followed normal induction kinetics i.e., 5 hours post transfer to sporulation medium. However, the expression levels or timing for other class of sporulation genes did not change in sub1∆strain as compared with the wild-type. In order to confirm these observations, we also studied the effects of over-expression of SUB1 from the GAL1 promoter by transforming the high copy plasmid. This was done in wild-type SK1 cells and the expression of sporulation genes were analyzed. We observed that expression of SMK1 and SPS2middle sporulation genes was reduced on over-expression of SUB1.We used the Sub1-TAP protein to assess if Sub1 directly regulates these genes by Chromatin immunoprecipitation assays. For these studies, we examined the recruitment of Sub1 to these loci through the time course of sporulation. In wild-type SK1 cells, Sub1 was to bound to middle sporulation genes and this was striking in cells at 5th hour post-induction of sporulation. These data establish that Sub1 directly associates with chromatin at these loci co-incident with the time points where expression levels of these changes is altered in cells lacking Sub1. Furthermore, to assess the role of Sub1 in other stress responses, such as pseudohyphae formation in response to nitrogen starvation, pheromone-induced agar invasion and secretory stress, we employed a genetic approach. Genetic interaction studies of SUB1 with RPB4, a subunit of RNA polymerase with functions in stress response and HOS2, a subunit of Set3 complex and a close homolog of mammalian HDAC3, reported to be involved in sporulation and secretory stress, were performed. Based on sporulation frequency and pseudohyphal formation in the double mutants we conclude that SUB1 is downstream of both these genes. Moreover, our results from assays of schmoo formation and pheromone-induced agar invasion suggest that SUB1 functionally interacts with HOS2. Study of domain architecture of Sub1 and homology to human PC4 Comparison of the S. cerevisiae Sub1 protein with its higher eukaryotic homologs showed that the N-terminal region of yeast Sub1 (32-105 aa) is highly conserved (Knauset al., 1996; Henry et al., 1996) with the 106-292 C -terminal amino acids being yeast-specific. We employed deletion analysis to generate partial Sub1 proteins and used them to understand the roles played by these domains in different phenotypes associated with Sub1. Our analysis of the localization of various Sub1-GFP fusion proteins shows that 146-172 aa in the C-terminal domain of Sub1 confers nuclear localization. Sporulation frequency analysis of the different domains of Sub1 suggests that both the N and C terminal domains are necessary for sporulation function of Sub1. The N terminal domain of yeast Sub1 shares homology with human PC4 and not surprisingly possesses ssDNA binding ability first attributed to human PC4 (Kaiser et al., 1995). In order to investigate whether the effects of SUB1 on kinetics of sporulation require its ssDNA binding function, we generated the sub1(Y66A) ssDNA binding mutant (Sikorskiet al., 2011) and over-expressed it in the S288c genetic background. We assessed sporulation efficiency of sub1∆/sub1∆cells over-expressing sub1(Y66A) mutant allele as compared to cells over-expressing wild-type SUB1. Interestingly, cells with over-expression of sub1(Y66A) have reduced sporulation efficiency that is equivalent to the levels achieved on over-expression of wild type SUB1. This data suggests that the ssDNA-binding ability of Sub1 is not important for its role in sporulation. Furthermore, we examined the ability of human PC4 to contribute to yeast sporulation process by complementation analysis. We observed that over-expression of PC4 complemented the phenotypes of sub1∆strain, suggesting that the function of Sub1/PC4 family is evolutionarily conserved. Studies on biochemical interactions of Sub1 with histone proteins Human PC4 is a chromatin-associated protein, present on metaphase chromosomes (Das et al., 2006). The short C-terminal domain of PC4(62-87 aa) interacts with core histones H3 and H2B in vitro and in vivo and this interaction mediates chromatin condensation. The homology between S. cerevisiaeSub1 (32-105 aa) and human PC4 (62-127 aa)is in the domain required for their DNA binding properties and coactivator functions, suggesting possible conservation in their interactions. We tested the interactions of yeast Sub1 with histone proteins by adopting both in vitro and in vivo interaction assays. We find recombinant Sub1 had strong interactions with rat and yeast histone H3in vitro. Moreover,Sub1 was found to interact with histone H2B, but not with H2A, in vivo, a binding specificity also shown by human PC4.Thus, we demonstrate conservation in the interaction of Sub1 with histone proteins. Saccharomyces Cerevisiae Saccharomyces Cerevisiae Sporulation Saccharomyces Cerevisiae SUB1 Protein Human PC4 (Popsitive Cofactor) SUB1 Histone Protein Interactions Diploid Yeast Cells Budding Yeast Yeast Sporulation SUB1 in S. cerevisiae Microbiology
42	Relation plante-hôte / Frankia dans les symbioses actinorhiziennes : cas particulier des souches non-isolables capables de sporuler in-planta / Frankia/host-plant relationship in actinorhizal symbiosis : particular case of non-isolable strains capable of in-planta sporulation Cotin-Galvan, Laetitia 29 September 2014 (has links) La sporulation est un phénomène présent chez de nombreux microorganismes, généralement impliqué dans les mécanismes de dispersion et/ou résistance en conditions environnementales défavorables. La sporulation observée chez certaines souches de Frankia (genre actinobactérien fixateur d'azote) lors de leur interaction symbiotique avec les plantes actinorhiziennes est donc paradoxale dans un contexte où la bactérie bénéficie d'une niche écologique favorable à son développement. Ces souches particulières de Frankia, dites Sp+, représentent un modèle unique de symbiote capable de sporulation au sein même des cellules de son hôte. Le rôle écologique et le sens évolutif de cette sporulation in-planta reste à ce jour peu élucidé. Les deux principaux objectifs de ce travail de thèse visent donc à (i) comprendre l'influence de la sporulation in-planta sur les capacités symbiotiques des souches Sp+, en termes d'infectivité et de compétitivité et (ii) appréhender l'impact de cette sporulation sur le fonctionnement du complexe symbiotique par une méthode de profilage métabolique. Ces travaux ont permis de confirmer les particularités symbiotiques des souches Sp+ (infectivité et compétitivité accrues) et de montrer des différences significatives dans le métabolisme primaire et secondaire du complexe symbiotique associées à la présence de spores de Frankia / Sporulation is a phenomenon present in many microorganisms, usually involved in the mechanisms of dispersion and/or resistance to unfavorable environmental conditions. Sporulation occurs in some Frankia strains (a diazotrophic actinobacteria) during their symbiotic interaction with actinorhizal plants, which is paradoxical in a context where the bacterium has a favorable ecological niche for its development. These particular Frankia strains, called Sp+, represent a unique model of symbiont capable of sporulation within the host cells. The ecological role and the evolutionary meanings of this in-planta sporulation still remain understood. The two main objectives of this thesis aimed to (i) understand the influence of in-planta sporulation on the symbiotic capacity of Sp+ strains in terms of infectivity and competitiveness and (ii) understand the impact of this sporulation on the functioning of the symbiotic complex by a metabolic profiling approach. These studies have confirmed the symbiotic characteristics of Sp+ strains (greater infectivity and competitiveness) and have shown significant differences in the primary and secondary metabolism of the symbiotic complex associated with the presence of Frankia spores Sporulation in-planta Symbiose actinorhizienne Frankia-Alnus Sp+ Sp- Infectivité Compétitivité Profilage métabolique In-planta sporulation Sp+ Sp- Infectivity Competitiveness Metabolic profiling 579.17
43	Rôles adaptatifs et contraintes de la sporulation chez les microorganismes associés aux plantes : cas de la sporulation in planta dans la symbiose actinorhizienne Frankia (Frankiaceae)–Alnus (Betulaceae) / Adaptive roles and constraints of the sporulation in plant-associated microorganisms : case of the in-planta sporulation in the actinorhizal symbiosis Frankia (Frankiaceae)–Alnus (Betulaceae) Pozzi, Adrien C. 18 December 2014 (has links) Frankia est une actinobactérie capable d'établir une symbiose racinaire avec les plantes actinorhiziennes dont le genre Alnus. Seulement certaines souches de Frankia sont capables de sporuler in planta, ce qui est illustré par la présence (Sp+) ou l'absence (Sp–) de sporanges dans les cellules végétales de la nodosité. C’est à notre connaissance un cas unique de sporulation endophyte. Cependant la description et l’interprétation écologique de ce trait d’histoire de vie (THV) original étaient incomplètes. Notre contribution à l’étude de la sporulation in planta des Frankia infectives de l’aulne intègre des approches théorique, descriptive et expérimentale, pour préciser (i) l’influence relative de la souche bactérienne, de l’espèce de la plante-hôte et des conditions pédoclimatiques sur ce THV, (ii) le rôle de la variabilité environnementale sur la distribution, la diversité et la sélection du trait, ainsi que (iii) les coûts et bénéfices associés pour les deux partenaires. Nous avons démontré pour la première fois que la sporulation in planta est un THV (i) spécifique de certaines lignées de Frankia, (ii) majeur pour en comprendre l'histoire évolutive et (iii) significativement corrélé à des caractéristiques génétiques des souches. Nous avons également confirmé que l’occurrence du trait varie selon l’environnement. Nous avons enfin établi un modèle de l'évolution du trait abordant sa valeur adaptative. L’ensemble des réflexions menées et des résultats obtenus nous permet de discuter de la sporulation in planta dans le cadre d’un continuum de stratégies symbiotiques, et plus généralement de discuter de l’écologie évolutive des symbioses entre microorganismes et plantes / Frankia sp. is a telluric actinobacteria able to establish a root symbiosis with actinorhizal plant such as Alnus sp. Only some Frankia strains are able to sporulate in-planta, as spores can be present in (Sp+) or absent from (Sp–) the vegetal cells of the root nodule. It is to our knowledge a unique case of endophytic sporulation. However, the description and the ecological interpretation of this original life-history trait (LHT) were scarce. Our contribution to the study of the in-planta sporulation of Alnus-infective Frankia sp. combines theoretical, descriptive and experimental approaches to precise (i) the relative effect of the bacterial strain, the host-plant species and the pedoclimatic conditions on this LHT, (ii) the effect of the of the environmental variability on the distribution, diversity and selection of the trait, and (iii) the associated costs and benefits for the two symbiotic partners. We demonstrated for the first time that the in-planta sporulation is a LHT (i) specific to some Frankia lineages, (ii) major to understand their evolutionary history and (iii) significantly correlated to particular genetic features. We also shown that the occurrence of the trait varies according to the environment We also proposed a model of the evolution of the trait taking its fitness into account. We bring all the previous considerations and results to discuss the inplanta sporulation trait within a continuum of symbiotic strategies and more generally to discuss the evolutionary ecology of plant-microbe symbioses Frankia Symbiose actinorhizienne Coopération Dépendance Sporulation in planta Sporanges Réduction des risques Bet-hedging Frankia Actinorhizal symbiosis Cooperation Dependency In-planta Sporulation Sporangia Risk reduction Bet-hedging 577
44	Étude de la fonction du gène tdd8 (SCO2368) codant pour une des protéines ayant un domaine TerD chez Streptomyces coelicolor Daigle, François January 2014 (has links) Le rôle des protéines avec un motif TerD est depuis toujours insaisissable. La séquence en acides aminés qui correspond au motif TerD est répandue dans les génomes de plusieurs espèces bactériennes. Les recherches effectuées dans le cadre de ce doctorat avaient pour objectif d’identifier le rôle du gène tdd8 (SCO2368) qui code pour une protéine avec un motif TerD chez Streptomyces coelicolor. Sur la base d’une étude comparative du transcriptome de souches présentant une expression différentielle de tdd8, il a été possible de déterminer l’implication de tdd8 dans plusieurs systèmes de régulation. Les résultats obtenus ont permis d'établir que le niveau d’expression de tdd8 peut jouer un rôle dans le mécanisme de la différenciation morphologique et de la sporulation, dans le métabolisme de l’azote et dans l’équilibre redox. La protéine Tdd8 semble avoir un rôle dans divers processus cellulaires de par son implication dans l’homéostasie du calcium intracellulaire qui a été démontrée dans cette étude. Parmi les gènes qui semblent affectés par le taux d’expression de tdd8, ces recherches ont identifié un regroupement de gènes impliqués dans la réponse au stress redox. La plupart de ces gènes sont positionnés sur deux loci et leur expression implique un système de régulation analogue au régulon DosR retrouvé chez Mycobactérium tuberculosis. La croissance de la souche M145 de S. coelicolor en conditions de stress (hypoxie et présence d’oxyde nitrique) a permis de confirmer l’induction de ces gènes et des recherches bioinformatiques ont permis d’identifier un motif de liaison DosR dans les séquences qui précèdes la région codante de plusieurs gènes situés dans les deux loci identifiés. Les recherches ont également permis une meilleure caractérisation du métabolisme de l’azote et notamment une implication de tdd8 dans la régulation de ce métabolisme. Ces travaux s’inscrivent dans un processus de recherche fondamentale qui permet de mieux comprendre le rôle des protéines avec un motif TerD. Streptomyces Différenciation Sporulation Stress redox Puce à ADN TerD Métabolisme de l’azote Signalisation calcium Tdd
45	Desenvolvimento tecnológico do Bacillus coagulans BVB5 como potencial cepa probiótica / Technological development of Bacillus coagulans BVB5 as potential probiotic strains Uono, Magali Thiyomi 30 April 2019 (has links) Introdução: O aumento da demanda por alimentos funcionais, os quais incluem os suplementados ou fermentados por microrganismos probióticos, resultou no avanço da pesquisa e desenvolvimento de novas cepas potencialmente probióticas. Os microrganismos probióticos pertencentes ao gênero Bacillus spp. são atraentes devido a sua estabilidade inerente de bactérias formadoras de esporos. Os esporos permitem uma vida de prateleira prolongada e aumentam a capacidade do microrganismo de sobreviver às barreiras gástricas, que se revelam uma vantagem sobre os lactobacilos. Objetivo: Foram realizados experimentos para o desenvolvimento tecnológico de duas cepas formadoras de esporos de Bacillus coagulans BVB1 e BVB5 como potenciais microrganismos probióticos objetivando avaliar o potencial probiótico dos mesmos. Método: Como primeira etapa, as caracterizações fenotípica e genotípica identificaram que a cepa BVB1 não era B. coagulans e sim B. subtilis. Os estudos seguiram com a cinética da fermentação/esporulação apenas da cepa de Bacillus coagulans BVB5. Conclusão: O desafio da esporulação de Bacillus coagulans BVB5 foi vencido, fato que pode ser verificado na cinética da fermentação que apresentou resultados superiores a 99% de grau de esporulação. / Introduction: The increased demand for functional foods, which include those supplemented or fermented by probiotic microorganisms, resulted in the advancement of research and development of new potentially probiotic strains. Probiotic microorganisms Bacillus spp. Are attractive because of their inherent stability of spore forming bacteria. Spores allow prolonged shelf life and increase the ability to survive gastric barriers, which prove to be an advantage over lactobacilli. Objective: Experiments were performed for the technological development of Bacillus coagulans BVB1 and BVB5 as potential probiotic microorganisms with two strains of Bacillus coagulans aiming to evaluate the efficacy of probiotic product composed of spore forming microorganism (Bacillus coagulans strains BVB1 and BVB5). Method: As a first step, phenotypic and genotypic characterization identified that the BVB1 strain was not B. coagulans but B. subtilis. Although Bacillus subtilis strain BVB1 presented a technological potential to be used as a probiotic strain in food additives, the studies followed with the kinetics of fermentation/sporulation of Bacillus coagulans BVB5, in agreement with the master\'s project originally proposed. Conclusion: The challenge of sporulation of Bacillus coagulans BVB5 was overcome, a fact that can be verified with the results of fermentation kinetic which presented sporulation degree more than 99%. Alimentos funcionais Bacillus coagulans Bacillus coagulans Esporos Esporulação Functional feed Probiotic Probiótico Spores Sporulation
46	The role of auxiliary transcription factors in the regulation of gene expression during sporulation in Saccharomyces cerevisiae. Lenardon, Megan Denise, Biotechnology & Biomolecular Sciences, Faculty of Science, UNSW January 2005 (has links) Sporulation in Saccharomyces cerevisiae includes the processes of meiosis and spore formation. The genes involved in this developmental process are tightly regulated at the level of transcription to ensure that genes are expressed at the correct time and level. The co-ordinated expression of middle sporulation genes is mediated by a key timing promoter element called the middle sporulation element (MSE). While this element sets the timing of gene expression to middle sporulation, in some cases, the level of expression is mediated by cis-acting auxiliary promoter elements. This study has addressed the role that auxiliary transcription factors play in fine-tuning of timing and level of expression of the MSE-regulated middle sporulation genes SPS18 and SPS19 and the mid-late sporulation genes DIT1 and DIT2. The MSESPS18/19 was shown previously to set the timing of expression of SPS18 and SPS19 to middle sporulation. In order to achieve the full level of meiotic activation, a novel bipartite auxiliary promoter element called the MAE (MSE-associated element) was required (Dalton, 2004). This study has revealed that proteins bind to specific regions of the MAE motif during sporulation in vitro and has attempted to isolate the proteins by affinity chromatography and identify them by mass spectrometry. The timing of expression of DIT1 and DIT2 during sporulation was of particular interest since two MSE-like elements had been identified in the promoter of the these genes (Hepworth et al., 1995). If these MSEs were functional, it was thought that auxiliary elements may delay expression of these genes until mid-late sporulation. This study has shown that the MSENRE confers a normal middle sporulation pattern of expression on a reporter gene. The DRE (DIT repressor element) previously identified by Bogengruber et al. (1998) was further characterised as an element that alters the level of expression conferred by an MSE without altering the timing. Several proteins were shown to bind to specific regions of the DIT promoter surrounding the DRE motif in vitro, with a different set of proteins binding during vegetative growth and sporulation. Attempts to isolate and identify these proteins by affinity chromatography and mass spectrometry are discussed. Sporulation Meiosis Yeast DIT1 Transcriptional Regulation MSE Saccharomyces cerevisiae Gene expression.
47	Dissecting the Role of the Jumonji Family Member Jhd2p, a Histone Lysine Demethylase Ranger, Mathieu 04 December 2012 (has links) In Saccharomyces cerevisiae, Set1p-mediated deposition of trimethylation on lysine 4 of histone H3 is a histone modification often associated with active transcription. Recently, it was discovered that members of the Jumonji family of proteins have the enzymatic ability to remove methylation on histone lysine residues. Here, I describe the function of the yeast Jumonji protein Jhd2p, the only yeast Jumonji with known demethylase activity towards histone H3 lysine 4 methylation. I find that during the development program of yeast sporulation, Jhd2p is responsible for demethylating lysine 4 on a global scale. Further, ChIP analysis examining lysine 4 methylation levels reveals that genes whose expression is dependent on JHD2 during sporulation are subject to what appears to be Jhd2p-mediated demethylation. Additionally, synthetic dosage lethality screens performed to identify genetic interactors of Jhd2p revealed that Jhd2p is a likely component of mitochondrial retrograde signaling, working alongside the transcription factors Rtg1p/Rtg3p. histone epigenetics demethylation Jumonji yeast sporulation retrograde mitochondria lysine 4 transcription 0369
48	Dissecting the Role of the Jumonji Family Member Jhd2p, a Histone Lysine Demethylase Ranger, Mathieu 04 December 2012 (has links) In Saccharomyces cerevisiae, Set1p-mediated deposition of trimethylation on lysine 4 of histone H3 is a histone modification often associated with active transcription. Recently, it was discovered that members of the Jumonji family of proteins have the enzymatic ability to remove methylation on histone lysine residues. Here, I describe the function of the yeast Jumonji protein Jhd2p, the only yeast Jumonji with known demethylase activity towards histone H3 lysine 4 methylation. I find that during the development program of yeast sporulation, Jhd2p is responsible for demethylating lysine 4 on a global scale. Further, ChIP analysis examining lysine 4 methylation levels reveals that genes whose expression is dependent on JHD2 during sporulation are subject to what appears to be Jhd2p-mediated demethylation. Additionally, synthetic dosage lethality screens performed to identify genetic interactors of Jhd2p revealed that Jhd2p is a likely component of mitochondrial retrograde signaling, working alongside the transcription factors Rtg1p/Rtg3p. histone epigenetics demethylation Jumonji yeast sporulation retrograde mitochondria lysine 4 transcription 0369
49	Proteome-wide Analysis Of The Role Of Expression Of Bacilysin Operon On Idiophase Physiology Of B. Subtilis Demir, Mustafa 01 January 2013 (has links) (PDF) The members of the genus Bacillus produce a wide variety of secondary metabolites with antimetabolic and pharmacological activities. These metabolites are mostly small peptides and have unusual components and chemical bonds. These metabolites are synthesized nonribosomally by multifunctional enzyme complexes called peptide synthetases. One of those small peptides, bacilysin, is a dipeptide antibiotic composed of L-alanine and L-anticapsin which is produced and excreted by certain strains of Bacillus subtilis. Proteins that are responsible to synthesize bacilysin are encoded by bac operon. It has been shown that the biosynthesis of bacilysin is under the control of quorum sensing global regulatory pathway through the action of ComQ/ComX, PhrC (CSF), ComP/ComA in a Spo0K (Opp)-dependent manner. The objective of the study is to identify the functional roles of bacilysin biosynthesis in the regulatory cascade and idiophase cell physiology operating in B. subtilis by using gel-based and gel-free proteomics techniques. For this, we employed comparative proteome-wide analysis of the bacilysin producer B. subtilis PY79 and its bacilysin nonproducer derivative bacA::lacz::erm OGU1 strain which was recently constructed by our group. Identification via GeLC analysis of 76 differentially expressed proteins from total soluble proteome of wild-type PY79 and bacilysin minus OGU1 strain indicated the direct or indirect multiple effects of bacilysin on metabolic pathways, global regulatory systems and sporulation. QR Bacteria 75-99.5
50	Functional Interactions and Evolution of cAMP-PKA Signaling in Saccharomyces KAYIKCI, OMUR January 2013 (has links) <p>In an attempt to gain more insight on functional evolution of cAMP-PKA pathway I have taken a comparative approach and examined functional interactions of cAMP-PKA signaling in well-studied yeast developmental programs and closely related <italic>Saccharomyces sensu stricto<italic/>. species. I have shown that variation in cAMP-PKA signaling contributes significantly to variation in developmental responses in <italic>S cerevisiae. Variation in pseudohyphal growth and sporulation, two inversely correlated developmental strategies to nutrient limitation in yeast, proportional to variation in intracellular cAMP levels. <italic>S. cerevisiae strains proficient in pseudohyphal growth have higher intracellular cAMP concentrations relative to strains that sporulate efficiently. Phenotypic, genetic and signaling data presented here suggest that the cAMP-PKA signaling underlies a phenotypic trade-off between sporulation and pseudohyphal growth in <italic>S. cerevisiae<italic/>.</p><p>Further investigation into the role of cAMP-PKA signaling in closely related <italic>S paradoxus<italic/> and <italic>S bayanus revealed an antagonistic function of cAMP-PKA signaling for developmental responses in <italic>S. bayanus. Unlike in <italic>S. cerevisiae, increased cAMP concentrations surprisingly inhibit pseudohyphal response in <italic>S. bayanus<italic/>. Another unanticipated finding in this work is that in <italic>S. bayanus<italic/>. Flo11, required for pseudohyphal differentiation in S. cerevisiae, is dispensable. Additionally, interactions of cAMP-PKA signaling and the general-stress response mechanism appear reversed in <italic>S. bayanus<italic/>. As shown by deletion mutation, gene expression and pharmacological treatment data, altered interactions and alternative targets downstream of cAMP-PKA could critically contribute to alternative regulation of nutrient-induced development in <italic>S. bayanus<italic/>.</p><p>Intracellular cAMP concentrations show decaying oscillations upon glucose replenishment in derepressed yeast cells. The quantitative characteristics of oscillations are distinct within and between Saccharomyces species. Given the tight regulation of cAMP levels and its critical role, the variation in cAMP oscillatory dynamics could be reflective of differential interactions of cAMP-PKA signaling that also underlie induction of developmental programs to changing environments. As such, intracellular cAMP levels and dynamics could potentially be used as molecular phenotypes.</p> / Dissertation Biology Genetics Evolution & development cAMP oscillations gene expression pseudohyphal growth S. bayanus sporulation variation

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