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Published: 4 June 2021
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1

Meanwell, Richard J. L. "Streptomycin production from chitin using Streptomyces griseus." Thesis, Loughborough University, 2004. https://dspace.lboro.ac.uk/2134/12949.

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The production of streptomycin using Streptomyces griseus using two types of chitin as a substrate was studied using a variety of fermentation techniques. Commercial chitin was obtained (Sigma) and comprised chemically purified crab shell. Pre-fermented chitin was the solid product from the lactic acid fermentation of shrimp waste using Lactobacillus paracasei A3. Bioassay, HPLC and FTIR methods were developed during this project for the quantification of streptomycin both in liquid phase and adsorbed on solid chitin surfaces. Shake flask experiments were carried out to determine basic production kinetics, as well as to establish if commercial and pre-fermented chitins produced different quantities of streptomycin. Shake flasks were also used to evaluate any effect of chitin concentration on streptomycin production. A range of submerged fermentations were undertaken in a standard 2 L bioreactor fitted with Rushton Turbines, at chitin concentrations from 0.4 %w/v to 10 %w/v, to study the effect on streptomycin yield. At concentrations of 5 %w/v and over, it was necessary to use an alternative, V-shaped agitator, as the Rushton Turbines did not provide adequate mixing. The V-shaped agitator was designed and produced as part of this project. The submerged fermenter was also used to determine if the re-use of .chitin remaining post-fermentation was possible. A solid state fermentation packed bed bioreactor was also developed, with a recycle loop for produced liquor. Four experiments evaluated the use of commercial and pre-fermented chitins, and different liquid media used for inoculation. In order to encompass the advantages of submerged and solid state fermentations, a vertical basket reactor was designed and manufactured, which used gentle fluidisation for the agitation of chitin particles contained inside the basket.Shake flask experimentation showed that pre-fermented chitin produced approximately 3 times the streptomycin yield than that of commercial chitin. Both systems reached a maximum liquid phase yield after 8 days of fermentation. Maximum streptomycin yields were obtained at a chitin concentration of 10 %w/v. The total streptomycin yields from submerged fermentation were fairly consistent over the range of chitin concentrations used. The amount of streptomycin adsorbed on the chitin surface, however, increased with increasing chitin concentration. Total streptomycin yields varied from 2 to 3.5 mglL. The re-use of chitin remaining post-fermentation was found to be possible in two series of three experiments. In both cases (at approximately 7.5 %w/v and 10 %w/v chitin) the lag phase and time to reach maximum biomass concentration decreased. Particle size analysis and mathematical modelling suggest that this is due to increasing specific surface of chitin particles during the course of fermentation. Both shake flask and submerged fermentation showed a bioassay inhibition peak in the tropophase, removable using 2 kDa membrane filters. Although it was not possible to determine the exact nature of the inhibiting component(s), streptomycin was eliminated through FTIR. A study of chitosan oligomers showed that short chain oligosaccharides inhibit Bacillus subtilis in a similar manner to streptomycin. Solid state fermentation using a salts solution liquid medium, with intermittent aeration and recirculation proved to be the most effective, giving a streptomycin yield of 3.8 mg/L. The vertical basket reactor obtained higher streptomycin yields of 4.6 mg/L. Post-fermentation washing with pH 3 buffer was also successfully used in this fermenter for the in-situ extraction of streptomycin, before the addition of fresh sterile liquid medium and fermentation re-start.
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2

Coyne, Vernon Errol. "Genetic studies of Streptomyces cattleya and Streptomyces olivaceus." Doctoral thesis, University of Cape Town, 1985. http://hdl.handle.net/11427/17599.

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Bibliography: pages 243-259.
Actinophage VCll is able to virulently infect 11 of the 20 Streptomyces strains tested. Examination of VCll infection of Streptomyces cattleya, Streptomyces olivaceus and Streptomyces lividans TC10 indicated the absence of restriction-modification systems which affect VCll infectivity of these Streptomyces strains.
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3

Murad, Fatima. "Etude de la résistance aux macrolides chez Streptomyces ambofaciens et Streptomyces lividans." Paris 11, 2003. http://www.theses.fr/2003PA112172.

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Les antibiotiques macrolides inhibent la synthèse protéique en se liant aux ribosomes. Streptomyces ambofaciens produit la spiramycine et possède plusieurs mécanismes de résistance à la spiramycine et aux macrolides. J'ai caractérisé, le déterminant de résistance srmC et montré qu'il était constitué des trois gènes srmC1, srmC2 et srmC3. SrmC1 et srmC2 codent les sous-unités d'un transporteur de la famille ABC (ATP Binding Cassette) et confèrent la résistance à certains macrolides, dont la spiramycine, mais aussi à la daunorubicine. SrmC1/C2 sont co-transcrits et leur expression est réprimée par SrmC3, un répresseur transcriptionnel de la famille TetR. Les gènes srmC ne sont pas localisés parmi les gènes, de biosynthèse de la spiramycine et ne sont pas indispensables chez S. Ambofaciens. En étudiant chez Streptomyces lividans le mécanisme d'induction de l'expression de srmC1/C2, j'ai mis en évidence l'existence dans cette souche d'un nouveau mécanisme de résistance aux macrolides et à d'autres antibiotiques, inductible par un macrolide, la rosaramicine. Des orthologues de srmC1/C2, désignés sclA et sclB, codant les sous-unités d'un transporteur ABC, sont impliqués dans cette résistance. Ils confèrent une résistance multi-drogue (macrolides, daunorubicine, bromure d'éthidium). Leur expression est réprimée par SclR (répresseur transcriptionnel de la famille TetR. ). L'étude d'un mutant SclA ̄ SclR ̄suggère qu'un ou plusieurs autres déterminants participent également à la résistance multi-drogue inductible par la rosaramicine. Parmi les gènes de résistance aux macrolides de S. Ambofaciens, certains ont des orthologues chez S. Lividans, un non-producteur de macrolide, d'autres non. Ceci suggère que certains déterminants de résistance de S. Ambofaciens sont liés à la biosynthèse de spiramycine et jouent un rôle crucial dans la protection de la souche. D'autres, dont srmC, protégeraient la souche contre des produits toxiques présents dans l'environnement
Macrolide antibiotics inhibit protein synthesis by binding to ribosomes. Streptomyces ambofaciens produces spiramycin and possesses several resistance mechanisms to spiramycine and other macrolides. The srmC determinant was studied in the work reported here. It is comprised of three genes: srmC1, srmC2 and srmC3. SrmC1/srmC2 encode the two sub-units of an ABC (ATP Binding Cassette) transporter. They confer resistance to several macrolides, including spiramycin, and to daunorubicin. The two genes srmC1/srmC2 are co-transcribed and their expression is repressed by SrmC3, a repressor of the TetR family. The srmC genes are not localized in the spiramycin biosynthetic gene cluster and are dispensable in S. Ambofaciens. During the study of the induction of srmCl/C2 expression in S. Lividans, a new mechanism of resistance to macrolides and other antibiotics, inducible by the macrolide rosaramicin was discovered in this strain. Genes sclA and sclB, orthologous to srmC1/C2, encoding an ABC transporter are involved in this resistance. SclA and sclB confer multidrug resistance (resistance to macrolides daunorubicin and ethidium bromide). Their expression is controlled by SclR (a TetR-like repressor). The study of a SclA ̄SclR ̄mutant strain suggested that other resistance determinant(s) might be involved in the rosaramicin-inducible resistance. Among macrolide resistance genes from S. Ambofaciens, some have homologues in S. Lividans, others do not. This suggests that some S. Ambofaciens resistant determinants could be directly linked to spiramycin biosynthesis and important for self-protection against spiramycin. Others, including srmC might protect the strain against other toxic compounds encountered in the environment
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4

Carter, T. P. "Keratinase from Streptomyces fradiae." Thesis, Cranfield University, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.280938.

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5

Calcutt, Michael John. "Pactamycin resistance in Streptomyces." Thesis, University of Leicester, 1987. http://hdl.handle.net/2381/35191.

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The coupled transcription-translation system previously developed for Streptomyces lividans was modified such that it functioned using purified ribosomal subunits, a crude initiation factor preparation and a high speed supernatant fraction. This system was used to investigate antibiotic resistance mechanisms in two Streptomyces which synthesise inhibitors of translation. Resistance to either pactamycin in Streptomyces pactum or celesticetin in Streptomyces caelestis was due to ribosome modification. In each case, high level resistance was attributed solely to one ribosomal subunit, the 30S subunit of the S. pactum ribosome and the 50S subunit of the S. caelestis ribosome. Shotgun cloning experiments have enabled a pactamycin resistance determinant from S. pactum to be isolated in S. lividans. However, in the original pactamycin resistant clone the plasmid was unstable and in the absence of pactamycin selection pressure, only a deleted form could be recovered. When ribosomes from resistant subclones were analysed, it appeared that a ribosome modification system from S. pactum had been cloned. Ribosome reconstitution studies indicated that a property of 16S rRNA was responsible for resistance. Since the cloned resistance determinant was not homologous to 16S rRNA (as judged by Southern analysis), pactamycin resistance in S. pactum is probably due to post-transcriptional modification of 16S rRNA.
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6

Bourn, William Richard. "Investigation of Streptomyces promoters." Doctoral thesis, University of Cape Town, 1995. http://hdl.handle.net/11427/9651.

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Bibliography: leaves 221-[234].
[The work described here had multiple aims: to create a promoter probe that was suitable for the isolation of developmentally regulated Strepcomyces promoters, to isolate such promoters, to develop a computer assisted analysis system whereby potential promoter sequences could be determined and to use this in the analysis of the cloned promoters. Initially the suitability of the Streptomyces antibioticus me1C operon for use as a reporter system in Streptomyces was investigated. It was established that late-expressed promoters could be identified and that it was possible to use the me1C2 gene alone for this purpose. However, it was shown that the use of both me1C1 and me1C2 resulted in a more sensitive reporter system. High copy number promoter probe vectors were constructed and tested. A low copy number promoter probe (which used the Streptomyces penemefaciens pSPN1 origin of replication) was also constructed. The characteristics (copy number, stability and mobility) of the probe were established. The conditions in which sporulation was induced by phosphate limitation were identified. Under such conditions late expressing, phosphate dependent promoters were isolated, using the promoter probes previously developed. The expression of these promoters was tested in Streptomyces coelicolor bldA mutants, and the bldA dependent promoters identified. These were sequenced. Computer assisted analysis of DNA sequence bias was conducted, with the intention of using bias patterns to identify potential regulatory regions. The initial approach of using the sequence bias of protein coding regions (based on the premise that regulatory sites are likely to be under represented in these regions) was unsuccessful. Further analysis in which the positional preference of sequences that were over represented in regulatory regions was conducted. Based on this the known promoters of Streptomyces were partially classified. The sequence bias of protein coding DNA regions was used to develop a novel method to identify the protein coding regions of Streptomyces DNA. The computer programs were then used to identify protein coding and potential regulatory regions.
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7

Genay, Magali Decaris Bernard Dary Annie. "Impact de la réponse stringente sur la mutabilité de Streptomyces coelicolor et Streptomyces ambofaciens au cours de la différenciation." [S.l.] : [s.n.], 2006. http://www.scd.uhp-nancy.fr/docnum/SCD_T_2006_0123_GENAY.pdf.

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8

Schindl, Kathrin geb Schmidt [Verfasser]. "Characterisation of Interspecies Interactions between Streptomyces violaceoruber and Streptomyces aburaviensis / Kathrin, geb. Schmidt Schindl." Konstanz : KOPS Universität Konstanz, 2017. http://d-nb.info/1218971711/34.

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9

Moss, Steven J. "Fluorometabolite biosynthesis in Streptomyces cattleya." Thesis, Durham University, 1999. http://etheses.dur.ac.uk/4603/.

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Nature has evolved the ability to form a C-F bond, as exemplified by the bacterium Streptomyces cattleya, which elaborates fluoroacetate (FAc) and 4-fluorothreomne (4- FT). The mechanism of this bond formation are unknown. This thesis probes the biosynthesis of fluoroacetate and 4-fiuorothreonine and in doing so explores the C-F bond forming process. Feeding stable isotope enriched primary metabolites to S. cattleya, followed by (^19)F NMR and GCMS analysis of the resultant fluorometabolites, highlights the role of the glycolytic pathway in delivering a substrate for fluorination. 3-Fluoro-l- hydroxypropan-2-one was synthesised and feeding studies eliminate this as the initial product of fluorination. Fluoroacetaldehyde was identified as a common fluorinated intermediate in the biosynthesis of both FAc and 4-FT. Whole cell studies demonstrate the rapid oxidation of fluoroacetaldehyde to FAc. 4-FT is produced in low quantities by S. cattleya incubated with fluoroacetaldehyde. The synthesis and feeding of [1-(^2)H]- fluoroacetaldehyde provide evidence that the resultant 4-FT is biosynthesised from fluoroacetaldehyde. The biotransformation from fluoroacetaldehyde to FAc was shown in cell free studies to be mediated by an aldehyde dehydrogenase, requiring NAD(^4) as a co-factor. The substrate specificity of fluoroacetaldehyde dehydrogenase was probed by spectrophotometrically monitoring the production of NADH in the presence of different aldehydes. Further cell free experiments probed the biosynthetic origins of fluoroacetaldehyde. Glycolaldehyde phosphate and various phosphorylated glycolytic intermediates were incubated with cell free extracts of S. cattleya and a plethora of co-factors. In the absence of observing fluorination activity, it was shown that the cell free extract acts to dephosphorylate the substrates. The putative role of glycolaldehyde phosphate was explored by feeding isotopically labelled glycolaldehydes to whole cells of the bacterium. The results were not consistent with direct conversion from glycolaldehyde phosphate to fluoroacetaldehyde.
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10

Hussain, Haitham Ali. "Plasmid transformation in streptomyces niveus." Thesis, University of Liverpool, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.306525.

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11

Cooper, Howard N. "Tetronasin biosynthesis in Streptomyces longisporoflavus." Thesis, University of Cambridge, 1992. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.240902.

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12

Keenan, Tessa. "Protein O-glycosylation in Streptomyces." Thesis, University of York, 2016. http://etheses.whiterose.ac.uk/16889/.

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Previously, a protein O-mannosyl transferase (Pmt, SCO3154) and a polyprenol phosphate mannose synthase (Ppm1, SCO1423) were found to be required for the glycosylation of PstS, a phosphate binding protein, in the bacterium Streptomyces coelicolor. Bacteria in this genus are prolific producers of antibiotics and are often phenotypically resistant to multiple antibiotics. S. coelicolor pmt and ppm1 deficient mutants were hypersusceptible to cell-wall active antibiotics, suggesting that the protein modification could be required for cell wall and membrane homeostasis. The aim of this project was to investigate the S. coelicolor glycoproteome in order to better understand the physiological role of protein O-glycosylation in this model actinobacterium. Glycoproteins were detected in, and enriched from the membrane and culture filtrate proteomes of the S. coelicolor parent strain, J1929 and these were absent from the glycosylation deficient pmt (DT1025) and ppm1 (DT3017) mutants. Liquid chromatography coupled to mass spectrometry was used to characterise the membrane glycoproteome from the S. coelicolor parent strain, J1929 and 37 new glycoproteins were identified. Glycopeptides were modified on Ser/Thr residues with up to 3 hexoses; consistent with previous observations that the glycoprotein PstS is modified with a trihexose. The S. coelicolor glycoprotein glycans were shown to consist of Hex₂ and Hex₃ oligosaccharides. A carbohydrate linkage analysis led to the observation of 2-substituted, 4-substituted and terminal mannose residues, suggesting presence of (1->2) and (1->4) linkages in S. coelicolor glycoprotein glycans. The S. coelicolor glycoproteome comprises glycoproteins with various biological roles including solute binding, transport and cell wall biosynthesis. The genes encoding two S. coelicolor glycoproteins with putative roles in cell wall biosynthesis, an L, D transpeptidase (SCO4934) and a D-Ala-D-Ala, carboxypeptidase (SCO4847) were disrupted. Both mutants were hypersusceptible to β-lactam antibiotics, while the sco4847 mutant was hypersusceptible to lysozyme. These findings suggest that both proteins could be required for cell wall biosynthesis. As the phenotypes of the knockout mutants are reminiscent of the glycosylation deficient strains, we propose that glycosylation might be required for enzyme function.
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13

Hughes, Lee E. (Lee Everette). "Pyrimidine Metabolism in Streptomyces griseus." Thesis, University of North Texas, 1994. https://digital.library.unt.edu/ark:/67531/metadc278710/.

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Salvage of pyrimidine nucleosides and bases by S. griseus and the regulation of aspartate transcarbamoylase (ATCase) were studied. The velocity-substrate curve for S. griseus ATCase was hyperbolic for both aspartate and carbamoylphosphate. The enzyme activity was diminished in the presence of ATP, CTP, or UTP. The synthesis of ATCase was repressed in cells grown in the presence of exogenous uracil. The specific activity of cells grown with uracil was 43 percent of that for cells grown in minimal medium only. Maximal ATCase and dihydroorotase activities were found in the same column fraction after size-exclusion chromatography, suggesting that both activities could reside in the same polypeptide. The pyrimidine salvage enzymes cytosine deaminase and uridine phosphorylase were identified in S. griseus using HPLC reversed-phase chromatography.
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14

Soror, Sameh. "Characterisation of esterase genes in the genomes of Streptomyces coelicolor A3(2) and Streptomyces avermitilis." [S.l.] : [s.n.], 2007. http://deposit.ddb.de/cgi-bin/dokserv?idn=983770069.

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15

Cattini, Nicola. "Phosphate regulation in Streptomyces coelicolor and Streptomyces lividans : transcriptomic analysis of phoP and Ppk mutants." Thesis, University of Surrey, 2007. http://epubs.surrey.ac.uk/843545/.

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Nutritional limitation and other stresses are known to induce the production of secondary metabolites in Streptomyces. The two-component regulatory system (PhoR/PhoP) and the enzyme polyphosphate kinase, Ppk, play an important role in adaptation of growth in conditions of phosphate limitation and mutations in both systems have been linked to increased production of antibiotics in Streptomyces lividans. To further characterize the above mentioned links phoP and ppk null mutations were generated in the prototrophic wild-type strain, MT1110, of the model streptomycete, Streptomyces coelicolor A(3)2. All strains were cultivated in 1.5 L batch fermenters using a chemically defined phosphate-limited minimal medium; metabolite and antibiotic assays were conducted alongside the transcriptomic analysis, sampling at several time points throughout cultivation. Parallel studies were performed with S. lividans TK24, a closely related streptomycete, using equivalent phoP and ppk mutant derivatives. However, the S. lividans studies were conducted with surface grown cultures, on complex R2YE medium, either phosphate limited or replete. Qualitative assessment of pigmented antibiotic production by the S. lividans mutants agreed with previous published results, with both mutants displaying enhanced pigmented antibiotic synthesis relative to the wild-type. In contrast, the S. coelicolor ppk mutant displayed significantly reduced production of pigmented antibiotics relative to the wild-type parent strain, irrespective of whether the mutant was cultivated in the minimal medium or complex R2YE medium. In the S. coelicolor experiments metabolite assays confirmed that cultures became phosphate-depleted during the batch cultivation, with the ppk mutant showing the slowest rate of depletion. From the microarray-based transcriptomic analysis, certain members of the PhoP regulon (phoR, phoP, pstS and pstC) were down-regulated in the phoP mutants, alongside ppk, consistent with their regulation by PhoP. A potential link between phosphate and nitrogen metabolism in S. coelicolor is suggested by the finding that a number of genes involved in glutamine synthesis and regulation (including glnA, glnD, glnR and glnRII) were transiently up-regulated in a phoP mutant. Furthermore, some genes involved in ATP generation (the atp operon) were also transiently up-regulated in the phoP mutant. A novel two component regulatory system (SCO4155 and SCO4156) was massively over expressed in the S. coelicolor phoP mutant, in addition to an adjacent gene, SCO4157, which encodes a homologue of the DegP/HtrA protease. A SCO4157 disruption mutant was shown to precociously hyper-produce undecylprodigiosin under phosphate limited conditions. It is speculated that the up-regulation of this system represents a PhoP-independent compensatory response to phosphate starvation. The transcriptomic analysis has enabled a greater understanding of the potential roles of PhoP and Ppk during phosphate limitation, and their involvement in antibiotic synthesis. This study has identified a large number of novel genes potentially involved in phosphate metabolism and scavenging and opens the way for a more focussed functional analysis of their respective roles.
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16

Mersinias, Vassilios. "DNA microarray-based analysis of gene expression in Streptomyces coelicolor A3(2) and Streptomyces lividans." Thesis, University of Manchester, 2004. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.488026.

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17

Nezbedová, Šárka. "Métabolisme secondaire chez Streptomyces ambofaciens et Streptomyces lividans et sa régulation : nouvelles voies de biosynthèse." Paris 11, 2010. http://www.theses.fr/2010PA112369.

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Le travail que j’ai réalisé porte sur le métabolisme secondaire et sa régulation chez Streptomyces ambofaciens et Streptomyces lividans, avec un intérêt particulier pour la caractérisation de nouvelles voies de biosynthèse de métabolites secondaires. Le séquençage des génomes bactériens a révélé la présence de nombreux groupes de gènes potentiellement capables de diriger la biosynthèse métabolites secondaires. Le nombre de ces groupes de gènes, et donc le nombre de métabolites secondaires potentiels, dépasse largement le nombre de métabolites secondaires connus pour être produits par les souches étudiées. Ces groupes de gènes sont appelés cryptiques car on ne sait pas s’ils sont exprimés et aucun métabolite ne leur est associé. Les conditions d'expression de certains de ces groupes de gènes cryptiques ont pu être trouvées, ce qui a conduit à la biosynthèse de métabolites secondaires nouveaux et présentant des activités biologiques intéressantes. Par conséquent, ces groupes de gènes cryptiques sont considérés comme un réservoir prometteur pour la découverte de nouvelles molécules bioactives. En utilisant différentes approches, j'ai étudié les groupes de gènes cryptiques de S. Ambofaciens. Dans la deuxième partie de ce travail, je me suis intéressée à des régulateurs susceptibles d’agir sur la biosynthèse des métabolites secondaires avec l’objectif de pouvoir manipuler ces voies de régulations pour activer l'expression de gènes cryptiques. La troisième partie de ce travail a porté sur l'effet de l'inactivation du gène ppk, codant la polyphosphate kinase, sur la production de métabolites secondaires et sur le profil global d'expression de protéines chez S. Lividans
The presented work is focused on secondary metabolism and its regulation in Streptomyces ambofaciens and Streptomyces lividans with special interest in new biosynthetic pathways. The sequencing of bacterial and fungal genomes revealed that the number of their secondary metabolite biosynthetic gene clusters greatly exceeds the number of produced secondary metabolites. Further studies showed that at least some of the newly discovered clusters, called cryptic since no product had been associated to them, were expressed in certain conditions and that they directed the biosynthesis of exploitable secondary metabolites. Therefore, these cryptic clusters have been considered as one of the promising reservoirs of new bioactive molecules. Using different approaches I studied the cryptic secondary metabolite biosynthetic gene clusters of Streptomyces ambofaciens, a strain exploited industrially for the production of the antibiotic spiramycin. In the second part of this work, I was interested in the regulation of secondary metabolite biosynthesis and in manipulating regulatory proteins in order to activate the expression of cryptic clusters. The third part of this work studied the effect of the inactivation of the ppk gene, encoding the enzyme polyphosphate kinase, on the production of secondary metabolites and on the whole protein expression pattern in Streptomyces lividans
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Kim, Wonyong. "The Streptomyces violaceoruber clade : a model system for defining a post-genomic species concept for streptomycetes." Thesis, University of Newcastle Upon Tyne, 2004. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.398996.

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19

Egan, Sharon. "Analysis of the distribution and diversity of streptomycin biosynthetic and resistance genes in populations of Streptomyces." Thesis, University of Warwick, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.343828.

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20

O'Connor, Tamara J. Nodwell J. R. "Establishing cell fate in the multicellular bacterium Streptomyces coelicolor." *McMaster only, 2005.

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21

NERYS, Laís Ludmila de Albuquerque. "Avaliação das atividades antimicrobiana e anticâncer de metabólitos produzidos por Streptomyces sp UFPEDA 3407." Universidade Federal de Pernambuco, 2015. https://repositorio.ufpe.br/handle/123456789/18542.

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Actinobactérias são bactérias Gram-positivas que se destacam pela sua grande potencialidade de produzir diversos metabólitos secundários bioativos de interesse científico e industrial. Mais de 50% dos metabólitos microbianos bioativos descobertos são produzidos, tais como antimicrobianos e antitumorais, pelas actinobactérias principalmente pelo gênero Streptomyces.O câncer é considerado um importante problema de saúde pública em países desenvolvidos e em desenvolvimento, sendo a segunda causa de morte no Brasil e no mundo. Diante da diversidade de tecnologias e pesquisas aplicadas no campo das neoplasias, ainda não há uma terapia eficaz para o tratamento de todos os tipos de câncer e os quimioterápicos utilizados atualmente apresentam elevada toxicidade. Neste contexto, o presente projeto objetivou avaliar o potencial antimicrobiano e anticâncer dos extratos brutos produzidos pela por Streptomyces UFPEDA 3407. Após fermentação e extração dos metabólitos com diferentes solventes, foram realizados ensaios para avaliar a atividade antimicrobiana e citotóxica nas diferentes linhagens de células cancerígenas humanas (HL- 60, HT-29 e MCF- 7) e em eritrócitos murinos. Os resultados obtidos demonstraram que os extratos da biomassa extraídos com acetona, etanol e metanol apresentaram um bom espectro de ação contra bactérias Gram-positivas e leveduras. Nos ensaios de citotoxicidade, os mesmos extratos reduziram de maneira significativa a viabilidade das linhagens tumorais, mostrando resultados bastante promissores.
Actinomycetes are Gram-positive bacteria with high potential to produce various bioactive secondary metabolites of scientific and industrial interest. More than 50% of bioactive microbial metabolites discovered to date are produced by actinomycetes mainly by gender Streptomyces. Cancer is considered a major public health problem in developed and developing countries, and the second cause of death in Brazil and in the world. Given the diversity of technologies and applied research in the field of cancer, there is still no effective therapy for the treatment of all types of cancer and the chemotherapy drugs used today have high toxicity. In this context, this project aimed to evaluate the antimicrobial potential anticancer and crude extracts produced by Streptomyces actinobacteria UFPEDA 3407. After fermentation and extraction of metabolites with different solvents, tests were conducted to evaluate the antimicrobial and cytotoxic activity in different strains of human cancer cells (HL- 60, HT-29 and MCF-7) and murine erythrocytes. Partial results showed that the extracts of biomass extracted with acetone, ethanol and methanol had a good spectrum of action against Gram-positive bacteria and yeasts. In the cytotoxicity assays, the same extracts significantly reduced the viability of tumor cell lines, showing promising results.
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Hooten, Jody J. (Jody Jeran). "Identification and Characterization of the Pyrimidine Biosynthetic Operon in Streptomyces griseus." Thesis, University of North Texas, 1998. https://digital.library.unt.edu/ark:/67531/metadc277975/.

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To further understand the ATCase/DHOase bifunctional complex formed in Streptomyces, the genes encoding these and other pyrimidine enzymes were identified and characterized. Polymerase chain reaction (PCR) was utilized in this effort. Primers were constructed by selecting conserved regions of pyrimidine genes from known gene and protein sequences of a wide variety of organisms. These sequences were then optimized to Streptomyces codon usage. PCR products were obtained from internal sites within pyrimidine genes and also from primer combinations of different genes. The size, orientation, and partial sequence of the resulting products shows that Streptomyces has a gene organization of pyrR followed by pyrB, pyrC, carA, carB, and pyrF in an operon similar to that found in other Gram-positive bacteria.
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23

KYRIAKIDIS, XENOPHON. "Contribution a l'etude du systeme d'excretion des proteines chez streptomyces : clonage d'un gene codant pour une protease extracellulaire d'une souche de streptomyces sp. chez streptomyces violaceoniger." Toulouse 3, 1989. http://www.theses.fr/1989TOU30027.

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Comprehension du systeme d'excretion des proteines existant chez les streptomyces, bacteries filamenteuses gram-positives. Chez streptomyces lividans, le clonage des genes codant pour trois differentes enzymes extracellulaires (chitinase, amylase et protease) a partir de l'adn chromosomique de ces cinq souches. La protease extracellulaire a ete ensuite produite a partir d'une culture en fermenteur de la souche streptomyces violaceoniger porteuse du plasmide put280 et une etude preliminaire des proprietes physico-chimiques de l'enzyme a pu etre realisee a partir de l'extrait brut du fermenteur
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24

Cong, Lina. "Identification of the midecamycin biosynthetic gene cluster in Streptomyces mycarofaciens UC189B (ATCC 21454) and analysis of the enzymes for dTDP-D-mycaminose biosynthesis." [S.l. : s.n.], 2000. http://deposit.ddb.de/cgi-bin/dokserv?idn=959140468.

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25

Naeimpoor, Fereshteh. "Metabolic flux analysis in streptomyces coelicolor." Thesis, University of Manchester, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.488430.

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26

Peacock, Lynn Miranda. "Lipid metabolism is Streptomyces lividans TK24." Thesis, University College London (University of London), 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.267659.

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27

Sotirios, Papas. "The extracellular lipases of thermophilic Streptomyces." Thesis, University of Liverpool, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.264786.

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28

Bhatt, Apoorva M. "Gene transfer from Streptomyces to Mycobacterium." Thesis, University of East Anglia, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.323246.

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29

Burke, Frances Mary. "Fermentation development of Streptomyces thermonitrificans ISP5579." Thesis, University of Glasgow, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.245820.

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30

Iqbal, Muhammad. "The extracellular proteases of Streptomyces thermoviolaceus." Thesis, University of Liverpool, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.333503.

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31

Tilley, Emma Jayne. "The metabolic engineering of Streptomyces sp." Thesis, University of Strathclyde, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.417330.

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32

Buttner, M. "RNA polymerase - DNA interactions in Streptomyces." Thesis, University of Bristol, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.354445.

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33

Wu, Katherine A. (Katherine Ann). "Inhibition of Hsp90 in Streptomyces coelicolor." Thesis, Massachusetts Institute of Technology, 2005. http://hdl.handle.net/1721.1/36280.

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Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2005.
Includes bibliographical references (leaves 20-21).
Inhibition of the chaperone protein Hsp90 in plants and insects has been found to result in drastic changes in phenotype. We investigated the effect of Hsp90 inhibition on the bacteria Streptomyces coelicolor. These changes were studied by growing S. coelicolor in the presence of Hsp90 inhibitors, extracting the growth media, and subjecting the extractions to HPLC and MS analysis. It has been found that reproducibility is difficult to achieve. Since the genome of S. coelicolor has been sequenced, attention was turned to studying changes in mRNA expression levels, which gave more reproducible results, as well as insight to the specific genes being affected.
by Katherine A. Wu.
S.B.
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34

Paiva, Nancy L. (Nancy Louise). "Biosynthesis of rapamycin by streptomyces hygroscopicus." Thesis, Massachusetts Institute of Technology, 1988. http://hdl.handle.net/1721.1/14725.

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35

Miah, Farzana. "Glucan metabolism in Mycobacterium and Streptomyces." Thesis, University of East Anglia, 2014. https://ueaeprints.uea.ac.uk/52065/.

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α-Glucans are typically used for carbon storage in bacteria, however, they are also a major component of the mycobacterial capsule. In this context, glucans have been implicated in the evasion of recognition by macrophages. A novel α-glucan synthesis pathway, called the GlgE pathway, is a potential source of the capsular glucan in mycobacteria. The pathway converts the disaccharide trehalose into α-glucan by the action of four enzymes: TreS, Pep2, GlgE and GlgB. Functional redundancy between other glucan synthesis pathways has made characterising the GlgE pathway difficult in mycobacteria. The genes encoding the enzymes of the pathway are found in 14% of sequenced bacterial genomes, suggesting the pathway is relatively wide-spread amongst bacteria. α-Glucans have also been isolated in a number of streptomycetes, which are distant relatives of mycobacteria. In this study Streptomyces venezuelae was used to show for the first time that the GlgE pathway is responsible for glucan synthesis in vivo, as was predicted by the annotations in the genome. A ΔglgE mutant was devoid of α-glucan and instead accumulated α-maltose 1-phosphate, which was associated with a developmental phenotype. The spores produced by the ΔglgE strain had normal levels of trehalose and had compromised resistance to abiotic stresses, with the exception of desiccation resistance, which was comparable to wild-type. In this study, another mutant from S. venezuelae ΔotsA was also investigated, which was hypothesised to be feeding the substrate trehalose into the GlgE pathway from glucose. However, under normal laboratory growth conditions, no phenotype was observed and the strain was able to accrue α-glucan. Surprisingly, a developmental phenotype arose when ΔotsA was grown on a galactose carbon source. This developmental phenotype was associated with the accumulation of GDP-glucose. Recombinant S. venezuelae OtsA was produced heterologously and the substrate preference for this enzyme was found to be GDP-glucose, as predicted by the phenotypic study of the ΔotsA strain. The crystal structure of S. venezuelae OtsA was solved to a resolution of 1.95 Å and the unusual substrate specificity was rationalised by comparison with a solved Escherichia coli OtsA structure, which has substrate specificity for UDP-glucose, and a pseudo-glycosyltransferase VldE, which uses GTP during catalysis. Four key resides were identified as being important for the substrate specificity of S. venezuelae OtsA: Ser345, Phe342, Glu341 and Asp340. Finally, TreS was found to be stereospecific for the α anomer of maltose, the appropriate anomer for Pep2, which confirms the prediction of an α-retaining mechanism.
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36

Silva, Ingrid Reis da. "Compostos antimicrobianos produzidos por Streptomyces Spp." Universidade Federal do Amazonas, 2012. http://tede.ufam.edu.br/handle/tede/4263.

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The increasing number of antibiotic-resistant bacteria encourages the search for new antibacterial substances. Therefore, the selection of microorganisms with potential for production of new antimicrobial compounds have been extensively studied. Among these organisms a special attention is given to the actinomycetes that have the capacity to produce a variety of bioactive compounds such as antibiotics, antifungal, antitumor and other compounds that can be applied in various industry segments. The genus Streptomyces is considered of great industrial importance due to its ability to produce many secondary metabolites, accounting for 80% of currently used antibiotics. Considering the importance of actinomycetes and existing biodiversity in the Amazon, this study aims to isolate and select actinomycetes producing antibiotics and optimize their production. In this sense, he was made an initial screening to detect the antimicrobial activity of 371 actinomycetes isolated from soil from different localities in the Amazon region. Antibiosis trials were conducted to evaluate the antimicrobial activity against the indicator microorganisms isolated Gram-positive and Gram-negative. From these preliminary results, three isolates were considered promising because it showed inhibitory activity against Staphylococcus aureus ATCC 25923, Streptococcus pneumoniae ATCC 49619 and Enterococcus faecalis ATCC 292123. These were selected for the study of production, using the response surface model to assess the best physical and chemical conditions that might interfere with production of the antibiotic of interest. The results presented here demonstrate that the isolate No. 01 is a potential producer of new bioactive metabolites. Morphological characterization and partial sequence analysis of 16S rDNA, demonstrate the great diversity of this group of microorganisms, and can thus identify the genus level. It has been shown that environmental conditions and the substrate are critical in the production of secondary metabolites, especially antibiotics.
O aumento crescente de bactérias resistentes a antibióticos incentiva à pesquisa por novas substâncias antibacterianas. Diante disso, a seleção de microrganismos com potencial para a produção de novos compostos antimicrobianos tem sido amplamente estudada. Dentre estes microrganismos uma especial atenção é dada aos actinomicetos que apresentam capacidade de produzir uma variedade de compostos bioativos como antibióticos, antifúngicos, antitumorais entre outros compostos que podem ser aplicados nos mais diversos segmentos da indústria. O gênero Streptomyces é considerado de grande importância industrial devido à sua capacidade de produzir muitos metabólitos secundários, respondendo por 80% dos antibióticos utilizados atualmente. Considerando a importância dos actinomicetos e a biodiversidade existente na Amazônia, este trabalho tem como objetivo isolar e selecionar actinomicetos produtores de antibióticos e otimizar a produção dos mesmos. Neste sentido, foi feito uma triagem inicial para detectar a atividade antimicrobiana dos 371 actinomicetos isolados de solo de diferentes localidades da região Amazônica. Foram realizados ensaios de antibiose para avaliar a atividade antimicrobiana dos isolados frente aos microrganismos indicadores Gram-positivos e Gram-negativos. A partir desses resultados preliminares, 3 isolados foram considerados promissores, pois apresentaram atividade inibitória frente a Staphylococcus aureus ATCC 25923, Streptococcus pneumoniae ATCC 49619 e Enterococcus faecalis ATCC 292123. Estes,foram selecionados para o estudos de produção, utilizando o modelo de superfície de resposta, para avaliar as melhores condições físicas e químicas que possam interferir na produção do antibiótico de interesse. Os resultados apresentados neste trabalho demonstraram que o isolado n° 01 é um potencial produtor de novos metabólitos bioativos. A caracterização morfológica e a análise da seqüência parcial da região 16S do rDNA, demonstram a grande diversidade deste grupo de microrganismos, sendo possível assim, a identificação a nível de gênero. Foi demonstrado que as condições ambientais e do substrato são fundamentais na produção de metabólitos secundários, principalmente antimicrobianos.
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37

Lorenzi, Jean-Noël. "Dynamique des génomes du genre Streptomyces." Thesis, université Paris-Saclay, 2020. http://www.theses.fr/2020UPASS097.

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Les streptomyces possèdent un grand chromosome linéaire (8-12 Mb) constitué d'une région centrale conservée, bordée de bras variables représentant jusqu’à plusieurs mégabases. Afin d'étudier l'évolution du chromosome au de l'évolution, un panel représentatif de souches et d'espèces de Streptomyces (110 génomes) dont les chromosomes sont complètement séquencés a été identifié. Le pangénome du genre a été modélisé et s'est révélé ouvert et présente un core-génome de 803 gènes. L'évolution du chromosome de Streptomyces a été analysée en effectuant des comparaisons entre paire de chromosome, grâce à des indices mesurant la conservation de l'ordre des gènes et du taux d'orthologie. Cette méthode, appliquée au niveau global, a également été appliquée au niveau local, permettant de mesurer l'intensité de la recombinaison le long du chromosome. Grâce à la profondeur phylogénétique offerte par le panel choisi, il a été possible de déduire que les bras chromosomiques ont évolué plus rapidement que la région centrale sous l'effet combiné des réarrangements et de l'ajout de nouvelles informations provenant du transfert horizontal
Streptomyces possess a large linear chromosome (8-12 Mb) consisting of a conserved central region flanked by variable arms covering several megabases. In order to study the evolution of the chromosome across evolutionary times, a representative panel of Streptomyces strain and species (110) whose chromosome are completely sequenced was identified. The pangenome of the genus was modelized and shown to be open with a core-genome reaching 803 genes. The evolution of the Streptomyces chromosome was analyzed by carrying out pairwise comparisons, and by monitoring indexes measuring the conservation of gene order and the rate of orthology. This method, applied at the global level, was also applied at the local level, making it possible to measure recombination intensity along the chromosome. Using the phylogenetic depth offered by the chosen panel, it was possible to infer that the chromosomal arms evolved faster than the central region under the combined effect of rearrangements and the addition of new information from the horizontal transfer
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38

Haddache, Nabila. "Biosynthèse du peptidoglycane de Streptomyces coelicolor." Paris 6, 2011. http://www.theses.fr/2011PA066310.

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Le peptidoglycane, composant essentiel de la paroi bactérienne, est constitué de chaînes glycanes reliées entre elles par des tiges peptidiques. Sa synthèse est la cible des antibiotiques appartenant à la famille des beta-lactamines et des glycopeptides. Ces antibiotiques sont généralement produits par le genre Streptomyces. Nous avons analysé la structure du peptidoglycane de Streptomyces coelicolor A3(2) qui ne produit ni beta-lactamines ni glycopeptides mais présente des niveaux de résistance modérés à ces antibiotiques. Nous avons montré que la polymérisation du peptidoglycane était réalisée par des transpeptidases de spécificité D,D et L,D. La croissance en présence de bêta-lactamine n’a pas entraîné de modification significative de la structure du peptidoglycane, ce qui implique que des D,D-transpeptidases sensibles à l’action des -lactamines ont un rôle essentiel dans la synthèse de la paroi. Malgré la présence des gènes de résistance aux glycopeptides van dans le génome de S. Coelicolor et la synthèse exclusive de précurseurs terminés par le D-lactate en conditions d’induction, le peptidoglycane de la souche cultivée en présence de vancomycine contient des tiges pentapeptidiques classiques et des tiges terminées par une glycine. Nous proposons que le niveau modéré de résistance aux glycopeptides exprimé par S. Coelicolor résulte du remplacement de D-Lac par D-Ala ou Gly par les D,D-transpeptidases. Un mutant résistant à la vancomycine qui dérive de la souche sauvage contenait plus de tiges terminées par une glycine que la souche parentale permettant ainsi de légèrement diminuer la fixation des glycopeptides
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39

Macedo, Juliana Alves 1982. "Produção, purificação, caracterização e aplicação de transglutaminase de Streptomyces sp. CBMAI 837." [s.n.], 2009. http://repositorio.unicamp.br/jspui/handle/REPOSIP/254362.

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Orientadores: Helia Harumi Sato , Lara Durães Sette
Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos
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Resumo: A transglutaminase (TGase) (EC 2.3.2.13; proteina-glutamina ?-glutaminiltransferase) é uma enzima capaz de catalisar reações de transferência de grupos acil utilizando resíduos de glutamina das ligações peptídicas de proteínas como doadores de grupos acil, e diversas aminas primárias como receptores. As ligações covalentes cruzadas entre inúmeras proteínas e peptídeos pela transglutaminase promovem mudanças nas propriedades de proteínas de alimentos. Por essa razão, a transglutaminase é amplamente utilizada nas indústrias de processamento de alimentos para o desenvolvimento de novos produtos e modificação de características como: viscosidade, capacidade emulsificante e valores nutricionais. Uma cepa de Actinomyceto, isolada de amostras de solo brasileiro, foi investigada taxonomicamente por uma combinação de técnicas moleculares e morfológicas, resultando na conclusão de que a cepa pertence ao gênero Streptomyces sp. A cepa, chamada de Streptomyces sp. CBMAI 837 produziu transglutaminase quando cultivada a 30°C por cinco dias, em agitador rotatório, no meio de fermentação otimizado, composto por: 0,2% KH2PO4, 0,1% MgSO4.7H2O, 2% farinha de soja, 2% amido de batata, 0,2% glicose, e 2% peptona, atingindo uma atividade enzimática de 1,37 U.mL-1. A transglutaminase foi purificada cerca de 5 vezes através de duas passagens cromatográficas sucessivas em uma coluna de filtração em gel Sephadex G-75, com 17% de recuperação. A purificação da proteína foi comprovada por homogeneidade eletroforética em SDS-PAGE. A massa molar da TGase foi estimada em cerca de 45 kDa. A transglutaminase de Streptomyces sp CBMAI 837, tanto na forma bruta quanto purificada, apresentou atividade enzimática ótima em pH 6,0-6,5, e em 35-40°C. Um segundo pico de atividade ótima foi observado em pH 10,0 na enzima no estado bruto. Ambas as formas da enzima foram estáveis na faixa de pH de 4,5 a 8,0 e até 45°C. A transglutaminase na forma bruta e purificada mostrou-se independente de íons cálcio, mas foi ativada na presença de K+, Ba2+, e Co2+; e inibida por Cu2+ e Hg2; o que sugere a presença de um grupo tiol no sítio ativo da enzima. A TGase purificada apresentou um Km de 6,37 mM e um Vmax de 1,70 U/mL, enquanto a enzima bruta apresentou Km de 6,52 mM e um Vmax de 1,35 U/mL para o substrato N-carbobenzoxi-L-glutaminil-glicina. A influência da transglutaminase de Streptomyces sp CBMAI 837 bruta, nas propriedades de géis ácidos de caseinato de sódio foi investigada, tendo como parâmetro géis preparados com a TGase comercial (Ajinomoto Inc.). Os géis com a enzima comercial tiveram um valor de módulo de elasticidade maior, porém, dependendo da concentração de proteína, estes foram menos deformáveis. Os géis com enzima bruta de Streptomyces sp. CBMAI 837 se mostraram muito mais rígidos e menos elásticos. Resultados da eletroforese indicaram que a enzima comercial promoveu a formação de polímeros de proteínas de massa molecular mais alta do que a enzima de Streptomyces sp. CBMAI 837. Os testes de microscopia eletrônica de varredura e da capacidade de retenção de água mostraram que características particulares de cada um dos géis poderiam estar associadas ao tipo específico de interação promovida por cada uma das amostras enzimáticas testadas
Abstract: Transglutaminase (EC 2.3.2.13; protein-glutamine ?-glutaminyltransferase) is an enzyme that catalysis an acyl transfer reaction using protein or peptide-bond glutamine residues as acyl donors and several primary amines as receptors. The covalent cross-links between a number of proteins and peptides introduced by transglutaminase promote modification of the functional properties of the food proteins. Therefore, transglutaminase are widely used by food-processing industries for the purpose of new product development, modification of the product properties such as viscosity, emulsification foaming and nutritional values. An actinomycete strain, isolated from Brazilian soil, was taxonomically investigated using a combination of molecular and morphological basedmethods, resulting on the conclusion that the strain belongs to the genus Streptomyces sp. The strain, named Streptomyces sp. CBMAI 837, produce transglutaminase when cultivated at 30°C for 5 days at 200 rpm in a rotatory shaker, on the optimized fermentation medium composed of 0.2% KH2PO4, 0.1% MgSO4.7H2O, 2% soybean flour, 2% potato starch, 0.2% glucose, and 2% peptone, with a enzymatic activity of 1.37 U.mL-1. The enzyme purification was performed by of two successive chromatographies on Sephadex G-75 columns with yields of 48% and 17%, respectively. The protein purification was successfully achieved to electrophoretical homogeneity on SDS-PAGE. The molecular mass of the MTGase was estimated to be about 45 kDa. The enzyme from Streptomyces sp., in both crude and pure forms, exhibited optimal activity in the 6.0-6.5 pH range and at 35-40°C. A second maximum of activity was observed at pH 10.0 on the crude Streptomyces sp. enzyme. Both forms of transglutaminase were stable over the pH range from 4.5 to 8.0 and up to 45°C. The activities of all the TGase samples were independent of Ca+2 concentration, but they were elevated in the presence of K+, Ba2+, and Co2+ and inhibited by Cu2+ and Hg2+, which suggests the presence of a thiol group in the TGase¿s active site. The purified enzyme presented Km of 6.37 mM and Vmax of 1.7 U/mL, while the crude enzyme demonstrated Km of 6.52 mM and Vmax of 1.35 U/mL. The influence of the transglutaminase on acid-gel properties was studied. Texture parameters showed that the commercial TGase (Ajinomoto Inc.) gels had greater values of elasticity modulus and could promote the formation of more elastic and soft food systems, while addition of the crude TGase of Streptomyces sp. CBMAI 837 to the gel led to the formation of more rigid and less elastic gels. The electrophoresis showed that the commercial TG enzyme in this system promoted higher molecular mass protein polymers than the enzyme from Streptomyces sp. CBMAI 837. Microscopy and water holding capacity (WHC) observations showed that all the gel characteristics could be associated to specific interactions promoted by each TGase tested
Doutorado
Doutor em Ciência de Alimentos
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40

Hudson, Michael E. J. Nodwell J. R. "The central role of RamC in Streptomyces coelicolor development /." *McMaster only, 2004.

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41

Rebois, Rolando. "Étude de la production de biomolécules par AFM-IR." Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLS517.

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Le sujet de thèse porte sur l’étude de l’accumulation de vésicules de TriAcylGlycérol (TAG) chez Streptomyces, une bactérie du sol filamenteuse utilisée dans l’industrie pour sa production d’antibiotiques. Le TAG est un précurseur direct du bio-diesel puisqu’il permet, suite à une transestérification, l’obtention de glycérol et de bio-diesel.L’objectif principal de la thèse est de regarder l’effet de la source de carbone présente dans le milieu nutritif sur la production de TAG par la bactérie lors d’études cinétiques afin de trouver des souches sur-productrices. Deux sources de carbone sont utilisés : Le glucose, source de carbone classique généralement utilisé en microbiologie, et le glycérol qui est un « déchet » de l’industrie. Afin de suivre le contenu lipidique, une première étude globale utilisant un spectrophotomètre infra-rouge (IR), nous a permis de suivre l’évolution de la production de TAG par la bactérie au sein de notre milieu de culture lors d’études cinétiques de 96h. Il a été montré, par exemple, que pour la souche sauvage S. lividans, la source de carbone introduite (glucose ou glycérol) n’a pas d’influence observable sur la production de TAG par la bactérie au cours de la cinétique. Cependant, la technique FTIR nous donne uniquement une information globale sur la production de TAG mais ne nous donne aucune indication sur l’évolution des vésicules à l’intérieur de la bactérie au cours du temps. C’est pourquoi une deuxième étude, plus locale, à l’aide d’un nanoIR, couplage entre un Microscope à Force Atomique (AFM) et un laser IR pulsé permet de localiser au sein de la bactérie les vésicules lipidiques. Cela permet d'observer la dynamique de production du TAG et d'obtenir des pistes sur le métabolisme de production par la bactérie
Streptomyces is a genus of Gram+ filamentous soil bacteria well known for their ability to produce antibiotics and other molecules useful as therapeutic or phytosanitary agents in medicine or agriculture. Under specific growth conditions some strains can store an excess of carbon into TriAcylGlycerols (TAGs), a direct Bio-diesel precursor. Streptomyces is thus an interesting canditate to generate bio-oils by fermentation. In this study, our goal is to evaluate, at the subcellular scale, the size/shape and localization of storage lipid inclusions in different Streptomyces strains (such as Streptomyces lividans (TK24), Streptomyces coelicolor (M145)…).In a previous study, the global TAGs content of those strains was easily and precisely quantified using infrared (IR) spectroscopy and thin layer chromatography revealing among other things that S. coelicolor has a very low TAGs content whereas S. lividans has an high TAG content. This was possible since TAG molecules show a specific response in the mid-infrared (IR) region, quite distinct from that of the other cellular constituants.Triacylglycerols posses several absorption bands in IR. In particular we can easily distinguish the band of the C=O stretching of the esters at 1741 cm-1 from the amide I band (protein signature) of the bacterium.For the study of the local repartition of TAG inside the cells, a combination of atomic force microscopy and infrared spectroscopy was employed in order to create sub-cellular chemical maps that allow label-free identification of TAG inclusions in Streptomyces cytoplasm using their specific absorption properties at 1741 cm-1. AFM-IR is a user-friendly benchtop technique that enables infrared spectroscopy with a spatial resolution well below conventional optical diffraction limits. It acquires IR absorption imaging with lateral resolution down to 100 nm.This technique coupled with classical FTIR measurements constitutes a powerful tool to study TAG metabolism in Streptomyces and can be easily used to control the rate of lipid accumulation during the fermentation process. Hence, the AFM-IR technique is likely to provide new insights into the constitution of the fatty inclusions and the role of TAGs in the morphological and metabolic differentiation processes that characterize Streptomyces developmental cell cycle
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42

Genay, Magali. "Impact de la réponse stringente sur la mutabilité de Streptomyces coelicolor et Streptomyces ambofaciens au cours de la différenciation." Nancy 1, 2006. http://docnum.univ-lorraine.fr/public/SCD_T_2006_0123_GENAY.pdf.

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Dans la nature, les organismes sont constamment soumis à des variations de l'environnement, de nature chimique, physique ou nutritionnelle. La modulation du taux de mutation constitue un des mécanismes contribuant à l'adaptation des espèces bactériennes à de rapides changements environnementaux. L'objectif de ce travail a été de mettre en évidence l'action de facteurs environnementaux sur l'instabilité génétique caractérisée chez Streptomyces. Au travers de l'étude de mutants de S. Ambofaciens et S. Coelicolor, dépigmentés et non sporulants, produits lors de la formation du mycélium aérien, nous avons montré qu'une limitation en acides aminés constituait une condition mutagène. En effet, sur des milieux pauvres en acides aminés, la production de ces mutants était fortement augmentée. Une mutation dans leurs gènes whiG ou whiH, deux gènes intervenant dans les premières étapes du processus de sporulation, a fréquemment été détectée. Nous avons pu mettre en évidence, via l'étude du mutant relA de S. Coelicolor, l'existence d'un lien entre réponse stringente, réponse physiologique induite lors d'une limitation en acides aminés, et augmentation de la mutabilité de ces gènes. Il existe ainsi une relation entre une limitation nutritive et une augmentation de l'instabilité génétique via l'établissement d'un état mutateur global ou localisé, initié par le déclenchement de la réponse stringente. Les mutants produits pourraient contribuer à la survie de la colonie lors d'une limitation en acides aminés en métabolisant des substances différentes du reste de la colonie ou en permettant le relargage de nutriments, nourriture pour les cellules voisines
In nature, organisms are constantly subjected to chemical, physical or nutritional variations of the environment. The modulation of the mutation rate constitutes one of the mechanisms contributing to the adaptation of bacterial species to rapid environmental modifications. The aim of this work was to highlight the influence of environmental factors on the genetic instability characterized in Streptomyces species. Through the study of S. Ambofaciens and S. Coelicolor mutants, not pigmented, unable to sporulate and produced during the aerial mycelium growth, we showed that a limitation in amino acids constituted a mutagen condition. Indeed, on amino acid-limited media, the production of these mutants was strongly increased. A mutation in their whiG or whiH genes, two genes intervening in the first stages of the sporulation process, was frequently detected. We could highlight, via the study of the relA mutant of S. Coelicolor, the existence of a link between stringent response, the physiological response induced during an amino acid limitation, and increase in the mutability of these genes. There is thus a relation between a nutritive limitation and an increase in genetic instability via the establishment of a local or global mutator state, initiated by the induction of the stringent response. The produced mutants could contribute to the survival of the colony during an amino acid limitation metabolising substances different from the rest of the colony or allowing the release of nutrients, food for the neighbour cells
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43

Deubel, Denise [Verfasser], and Andreas [Akademischer Betreuer] Bechthold. "Untersuchungen zur Biosynthese von Foxicin aus Streptomyces diastatochromogenes Tü6028 und Analysen von ähnlichen Biosynthese-Genclustern aus Streptomyces sp." Freiburg : Universität, 2018. http://d-nb.info/1158495587/34.

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44

Ahmed, Yousra [Verfasser], and Andriy [Akademischer Betreuer] Luzhetskyy. "Engineering of Streptomyces albus J1074 and Streptomyces lividans TK24 for natural products production / Yousra Ahmed ; Betreuer: Andriy Luzhetskyy." Saarbrücken : Saarländische Universitäts- und Landesbibliothek, 2019. http://d-nb.info/1205735208/34.

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45

Surowitz, Kenneth Gene. "Carbon source metabolism and differentiation in Streptomyces alboniger /." The Ohio State University, 1985. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487262513409327.

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46

Bagagli, Marcela Pavan 1981. "Produção de transglutaminase de Streptomyces sp. P20 = caracterização da enzima bruta." [s.n.], 2009. http://repositorio.unicamp.br/jspui/handle/REPOSIP/254327.

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Orientador: Helia Harumi Sato
Dissertação (mestrado) - Universidade Estadual de Campinas. Faculdade de Engenharia de Alimentos
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Resumo: A transglutaminase (TGase, EC 2.3.2.13) é uma enzima que catalisa a formação de ligações cruzadas entre resíduos de glutamina e aminas livres de proteínas formando agregados protéicos. Foi estudado o aumento da escala de produção da transglutaminase de Streptomyces sp. P20, de frascos Erlenmeyer agitados de 50 mL contendo 15 mL de meio de cultivo para fermentador de bancada de 6 L com volume útil de 3 L. Para a fermentação em frascos agitados foi utilizado o meio de cultivo otimizado por MACEDO et al. (2007) e para a fermentação do microrganismo em reator de bancada foi utilizado esse útimo meio de cultivo modificado, composto de extrato de 2,5% de farinha de soja, 2% de amido de batata, 1% de peptona, 0,1% de glicose, 04% de KH2PO4 e 0,2% de MgSO4, ajustado para pH 7,0. Foi estudado, através de delineamento fatorial, os efeitos da temperatura, agitação e aeração na fermentação da linhagem de Streptomyces sp. P20 no reator de bancada e a produção de transglutaminase. O aumento da escala de 200 vezes proporcionou uma elevação na atividade enzimática de 7,2 vezes, e o tempo para obtenção desta atividade foi reduzido de 120 horas para 42 horas de fermentação, utilizando dois estágios de temperatura. A atividade máxima obtida em reator de bancada foi de 2,05 U/mL de caldo fermentado. No estudo da produção da transglutaminase de Streptomyces sp. P20, por fermentação em meio semi-sólido, utilizando-se como substratos farinha de feijão branco e farinha de amendoim, foram obtidos, respectivamente, atividade de transglutaminase iguais a 0,88 U/g de substrato seco e 0,77 U/g de substrato seco. A caracterização bioquica da transglutaminase bruta de Streptomyces sp. P20 foi estudada, bem como a aplicação da enzima em carne bovina e proteína texturizada de soja. Os valores de temperatura ótima e pH ótimo desta enzima foram avaliados, sendo verificado que a temperatura ótima de atividade foi de 35°C e o pH 6,5, sendo encontrada uma segunda faixa de pH ótimo em 9,0, o que pode indicar a presença de isoenzimas. A MTGase mostrou-se estável na faixa de pH 6,0 ¿ 9,0, e at·a temperatura de 35°C em pH 6,0 por 30 minutos. O aminoácido L-cisteína aumentou a estabilidade térmica da MTGase de Streptomyces sp. P20. O efeito de íons metálicos, do EDTA, L-cisteína, L-glutationa e PEG 6000 na atividade da MTGase foram avaliados. Os íons Hg2+, Cu2+, Zn2+ e Mn2+, inativaram a enzima, sugerindo a presença de grupos tiol no seu sítio ativo. O íon Mg2+ aumentou a atividade da MTGase cerca de 100%. A aplicação da MTGase de Streptomyces sp. P20 em carne bovina e em prote?a texturizada de soja foi eficiente quando comparada a aplicação da enzima comercial Activa TG-BP aplicada nas mesmas condições
Abstract: Transglutaminase (TGase, EC 2.3.3.13) is an enzyme that catalyzes cross-linking between the glutamine and free amine residues of proteins leading to the formation of protein aggregates. The scale up of the production of transglutaminase by Streptomyces sp. P20 from shaken flasks to a bench fermenter was studied. Initially, the effect of temperature and agitation on the microorganism was studied in 50 mL conical flasks containing 15 mL of culture medium previously optimized by MACEDO et al. (2007). The production in 250 mL conical flasks containing 50 mL of the same culture medium was then studied. For fermentation in the bench reactor the same medium was used, modified, containing extract of 2.5% powdered soy, 2% potato starch, 1% peptone, 0.1% glucose, 0.4% KH2PO4 and 0.2% MgSO4, pH 7.0. A factorial design was used to study the effects of temperature, agitation and aeration on the fermentation of the strain Streptomyces sp. P20 in a 6L bench fermenter. The x200 scale up led to a x7.2 enhancement in enzymatic activity, and the fermentation time decreased from 120 h to 42 h using two temperature (from 34°C during the first 24 hours to 26°C for the remaining time) and agitation (from 350 rpm during the first 24 hours to 150 rpm for the remaining time) shifts. The maximum transglutaminase activity obtained was 2.05 U/mL. In the solid state fermentation study using semi-solid media containing white bean flour and peanut flour, transglutaminase activities of 0.88 U/mg dried substrate and 0.77 U/mg dried substrate, respectively, were obtained. The biochemical characterization of the crude transglutaminase obtained from Streptomyces sp. P20 and its application in beef and texturized soy protein were studied. The optimum temperature and pH values for MTGase activity were investigated, exhibiting optimum activity at 35°C and at both pH 6.5 and pH 9.0, probably due to the presence of an isoenzyme. The enzyme was stable in the pH range from 6.0 ¿ 9.0, and at temperatures of up to 35?C it was stable for 30 minutes at pH 6.0. The amino acid Lcysteine enhanced the thermal stability of the MTGase from Streptomyces sp. P20. The effects of metal ions, EDTA, L-cysteine, L-glutathione and PEG 6000 on the activity of MTGase were investigated. The ions Hg2+, Cu2+, Zn2+ and Mn2+ inhibited enzyme activity, suggesting the presence of a thiol group at the active site of the enzyme. The ion Mg2+ increased MTGase activity by 100%. The application of MTGase from Streptomyces sp. P20 in beef and texturized soy protein was efficient when compared to the application of commercial Activa TG-BP under the same conditions
Mestrado
Mestre em Ciência de Alimentos
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47

Sairre, Mirela Inês de. "Estudos sobre a síntese de butirolactonas auto-reguladoras de bactérias Streptomyces." Universidade de São Paulo, 2007. http://www.teses.usp.br/teses/disponiveis/59/59138/tde-14052007-083437/.

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Streptomycetes são bactérias filamentosas Gram-positivas bastante conhecidas pela capacidade de produzir uma grande variedade de metabólitos secundários e substâncias biologicamente ativas. Essas atividades são controladas por alguns compostos de baixo peso molecular, denominados butirolactonas autoreguladoras. A maioria desses compostos com propriedades autoreguladoras possuem como característica estrutural comum a presença de um esqueleto g-butirolactônico 2,3-dissubstituído, mas mostram pequenas diferenças estruturais na cadeia lateral. Essas moléculas, cujas estruturas são mostradas abaixo, são classificadas nos tipos: virginiae butanolidas (VB) A-E, fatores de Gräfe, butanolida IM-2, o fator-I e o fator-A. Neste trabalho foram desenvolvidos estudos visando testar um novo caminho sintético para a obtenção de análogos do fator-A e, através da redução enantiosseletiva da carbonila da cadeia lateral dos compostos obtidos, seria possível sintetizar também as outras butirolactonas autoreguladoras. Inicialmente, o intermediário necessário para a síntese dos compostos desejados foi preparado através de uma reação de transesterificação, a qual foi amplamente estudada. Em seguida, uma reação de ciclização intramolecular deste intermediário daria origem aos análogos do fator-A de interesse. Entretanto, após várias tentativas empregando diferentes condições reacionais, não foi possível obter tais compostos. Com intuito de explicar e confirmar os resultados experimentais obtidos realizou-se cálculos teóricos que possibilitaram concluir este estudo de maneira apropriada. Outras duas abordagens sintéticas para a preparação de análogos do fator-A foram também desenvolvidas e testadas. No entanto, apresentaram dificuldades no decorrer da execução e, consequentemente, não forneceram resultados promissores. Então, um novo estudo de reações químicas, baseado em um método de síntese de butirolactonas através de uma reação intermolecular, foi desenvolvido. Esta nova estratégia sintética possibilitaria a obtenção de análogos do fator-A em apenas 3 etapas, constituindo-se de uma reação de abertura de um anel oxirano, seguida de uma reação de ozonólise e de uma redução seletiva de um grupo aldeído. Os diferentes substituintes presentes nos epóxidos testados apresentaram efeitos bastante distintos, os quais foram mais bem entendidos com o auxílio de cálculos teóricos. A obtenção, com 52% de rendimento, da butirolactona desejada, um produto intermediário contendo uma olefina terminal em uma das cadeias laterais, demonstra o sucesso desta nova estratégia sintética. Entretanto, com os reagentes utilizados até o momento, a reação de ozonólise que forneceria o aldeído desejado não apresentou resultados satisfatórios. Provavelmente, a dificuldade encontrada nesta etapa está relacionada com a volatilidade, a solubilidade em água e/ou a degradação do aldeído formado, tornando difícil o seu isolamento. No entanto, como esse tipo de reação já foi descrito com sucesso na literatura empregando-se K2OsO4, N-óxido de N-metilmorfolina (NMO) e NaIO4 como reagentes da reação de clivagem da dupla ligação olefínica, temos a convicção de que o nosso objetivo será alcançado em breve com as modificações das condições reacionais e/ou dos reagentes necessários para efetuar com sucesso essa última etapa.
Streptomycetes are Gram-positive filamentous bacteria well known for the ability to produce a wide variety of secondary metabolites and biologically active substances. These activities are controlled by low-molecular-weight compounds called butyrolactone autoregulators. The greater number of these compounds with autoregulators properties have as common characteristic a 2,3-disubstituted-g-butyrolactone sketeton, but show minor structural differences in the side chain. These molecules, whose structures are shown below, are classified following the types: virginiae butanolides (VB) A-E, Gräfe\'s factors, IM-2 butanolide, I-factor and A-factor. In this work, studies were developed with aim to test a new synthetic pathway to obtain A-factor analogous, which by enantioselective reduction of the carbonyl group of the side chain can be converted into others butyrolactone autoregulators. First of all, the necessary intermediary for the synthesis of the desired compounds was prepared by a transesterification reaction, which was widely studied. After that, an intramolecular cyclization reaction of this intermediary could to produce the A-factor analogous. However, after several attempts employing different reactional conditions, the desired compounds were not obtained. Theoretical calculation was realized as an attempt to explain the experimental results obtained and should possible to conclude this study adequately. Two other two synthetic approaches for the preparation A-factor analogous were developed and tested, but the results were not good enough. Thus, a new study based on a method of intermolecular synthesis of butyrolactones was developed. This new synthetic strategy would allow to obtain the A-factor in only 3 steps: a reaction of oxirane ring opening, followed by an ozonolysis reaction and a selective reduction of an aldehyde group. The different groups present in the epoxides tested showed different effects, which were better understood with the aid of theoretical calculation. The attainment of the desired butyrolactone with 52% yield, a product containing a terminal olefin, confirm the success of this new synthetic strategy. However, up to this moment, the ozonolysis reaction was not giving good results. The difficulty for this step is probably associated with the volatileness, the high solubility in water and/or the degradation of the aldehyde formed, making difficult its isolation. However, as this type of reaction is already reported in the literature employing the reagents K2OsO4, N-methylmorpholine N-oxide (NMO) and NaIO4 to cleave the terminal double, we have the conviction that our aim could be accomplished with modifications on the reactional conditions and/or of the reagents which are necessary to realize with success this final step.
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48

Previdi, Daniel. "Estudos sobre a síntese de derivados de cyclophostin inibidores da acetilcolinesterase (AChE)." Universidade de São Paulo, 2014. http://www.teses.usp.br/teses/disponiveis/59/59138/tde-31072014-155044/.

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Bactérias do gênero Streptomyces produzem diversos tipos de butirolactonas, cujos exemplos importantes são o cyclophostin, os compostos da família cyclipostin e as -butirolactonas autorreguladoras. O cyclophostin é um potente inibidor da enzima acetilcolinesterase, os compostos da família cyclipostin são inibidores de lipases, enquanto que as -butirolactonas autorreguladoras estimulam a produção de antibióticos em culturas de bactérias do gênero Streptomyces. Neste trabalho foram realizados estudos para a obtenção de derivados do cyclophostin e de derivados das -butirolactonas autorreguladoras. Para isso foram propostos dois planejamentos sintéticos mostrados nos esquemas 8 e 10 (Seção: III. Planejamento Sintético). Os estudos realizados de acordo com o planejamento sintético mostrado no esquema 8 tiveram como etapa chave uma reação de Barbier entre a butenolida 43, diversos aldeídos e um metal (zinco ou índio), em meio aquoso. Apesar dessa reação ser bem conhecida, em nenhum dos testes realizados foram obtidos os compostos de interesse, sendo que o principal produto obtido foi o composto 56, proveniente da redução da butenolida 43. Diante disso, foi proposta uma explicação para esses resultados com foco em possíveis mecanismos para a reação de Barbier, comparando com substratos similares a butenolida 43 que foram utilizados com sucesso na reação de Barbier. Os estudos realizados de acordo com o planejamento sintético mostrado no esquema 10 forneceram resultados satisfatórios. A reação entre o monóxido de butadieno e diferentes -cetoésteres possibilitou a obtenção de -butirolactonas 2,3-dissubstituídas na forma de um único diastereoisômero e -butirolactonas 2,4-dissubstituídas na forma de mistura de diastereoisômeros (mostradas na Tabela 7). Através das análises de NOEDiff-RMN, juntamente com dados da literatura e cálculos computacionais das constantes de acoplamento, foi possível determinar a configuração relativa dos grupos substituintes das -butirolactonas 2,3-dissubstituídas como sendo trans. Com três -butirolactonas 2,3-dissubstituídas foram realizadas reações de ozonólise, com clivagem redutiva do ozonídeo por boro-hidreto de sódio, fornecendo três compostos na forma de misturas de diastereoisômeros com estruturas análogas ao IM-2 e às virginiae butanolidas (mostrados na Tabela 8). Com a -butirolactona 54a foi realizada a formação do enol-fosfato 55a, utilizando dietil-clorofosfato como agente de fosforilação (reação mostrada no Esquema 23). Com este composto foram realizadas reações de ozonólise, utilizando boro-hidreto de sódio ou sulfeto de dimetila para a clivagem do ozonídeo, porém em nenhuma dessas tentativas foram obtidos resultados satisfatórios (reação mostrada no Esquema 24). Outras tentativas foram realizadas com intuito de obter derivados do cyclophostin utilizando outros materiais de partidas, porém todas as tentativas falharam, seja na etapa de ozonólise ou na etapa de ciclização para a formação do esqueleto de enol-fosfato cíclico presente no cyclophostin. Apesar dos resultados insatisfatórios descritos acima, alguns intermediários obtidos foram submetidos a um ensaio biológico em que foi monitorada a produção do antibiótico nigericina em culturas de actinobactérias do gênero Streptomyces. Nesse ensaio biológico foram obtidos resultados satisfatórios, sendo que alguns compostos estimularam a produção do antibiótico nigericina, outros inibiram e outros não mostraram efeitos significativos, indicando a existência de uma relação estrutura-atividade dos compostos testados.
Bacteria of the genus Streptomyces produce many kinds of butyrolactones; e.g., cyclophostin, compounds belonging to the cyclipostin family, and -butyrolactones autoregulators. Cyclophostin is a potent inhibitor of the enzyme acetylcholinesterase, the compounds of the cyclipostin family inhibit lipases, and -butyrolactones autoregulators stimulate antibiotics production in bacterial cultures of the genus Streptomyces. This work aimed to obtain cyclophostin derivatives and -butyrolactones autoregulators derivatives via two proposed synthesis designs as illustrated in schemes 8 and 10 (Section: III. Synthetic Planning). The key step in the design shown in scheme 8 consisted of a Barbier reaction between butenolide 43, several aldehydes, and a metal (zinc or indium), in aqueous medium. Although this reaction has long been known, the tests performed here did not afford any of the target compounds. The main product was compound 56, arising from the reduction of butenolide 43. An explanation for the results was proposed on the basis of possible mechanisms for the Barbier reaction and of comparison with similar compounds of butenolide 43, which have been successfully used in the Barbier reaction. Studies carried out according to the synthesis design presented in scheme 10 provided satisfactory results. The reaction between butadiene monoxide and various -ketoesters furnished 2,3-disubstituted--butyrolactones as a single diastereoisomer and 2,4-disubstituted--butyrolactones as a mixture of diastereoisomers (shown in Table 7). NOEDiff-NMR analysis together with literature data and computer calculations of coupling constants helped to determine the relative configuration of the 2,3-disubstituted--butyrolactones substituent groups as trans. Three 2,3-disubstituted--butyrolactones ozonolysis reactions were conducted by reductive cleavage of the ozonide with sodium borohydride, which afforded three compounds as diastereoisomers mixtures bearing structures analogous to those of IM-2 and virginiae butanolides (shown in Table 8). Reaction of -butyrolactone 54a with diethyl chlorophosphate as phosphorylating agent produced the enol-phosphate 55a (reaction shown in Scheme 23). Ozonolysis reactions of this compound using sodium borohydride or dimethyl sulfide to cleave the ozonide did not provide satisfactory results (reaction shown in Scheme 24). Other attempts to achieve cyclophostin derivatives using different starting materials failed during the ozonolysis step or the cyclization to form the cyclic enol-phosphate skeleton present in cyclophostin. Despite the poor results described above, some of the intermediates were submitted to a biological assay to monitor production of the antibiotic nigericin in Streptomyces actinomycetes cultures. Some of the tested compounds stimulated, others inhibited, and others did not affect nigericin production, indicating existence of a structure-activity relationship.
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49

Galey, Laurent. "Géosmine, sesquiterpènes, alkylpyrazines et dérivés aromatiques chez "Streptomyces griseus" : étude génétique et biochimique." Paris 5, 1989. http://www.theses.fr/1989PA05P619.

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50

Hughes, Lee E. (Lee Everette). "Pyrimidine Biosynthesis in the Genus Streptomyces : Characterization of Aspartate Transcarbamoylase and Its Interaction with Other Pyrimidine Enzymes." Thesis, University of North Texas, 1998. https://digital.library.unt.edu/ark:/67531/metadc278797/.

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