Qualidade fisiológica e associação de Fusarium spp. a sementes de sorgo sacarino / Physiological quality and association of Fusarium spp. With seeds of sweet sorghum

Müller, Juceli

07 April 2017

The present work aims to determine the physiological and sanitary quality of Sweet sorghum (Sorghum bicolor (L.) Moench) seeds, as well as to identify pathogens associated with seed, their transmission to seedlings and the subsequent pathogenicity of isolates obtained, In addition, molecularly identify the fungal species pathogenic to this crop. The experiments were carried out in the Teaching and Seed Research Laboratory (TSRL), of the Plant Engineering Department; In the Elocy Minussi Phytopathology Laboratory, Department of Plant Protection, and at the Biological Institute of São Paulo. Sweet sorghum seeds were used, all without chemical treatment. Sanitary quality was evaluated by sanity test, and physiological characteristics by germination and vigor tests (seedling length, dry mass, emergence, rate of emergence and accelerated aging). It was performed the test of transmission of the pathogens associated to the seeds and the subsequent pathogenicity of the obtained isolates, culminating with the molecular characterization of the identified pathogens, in which were sequenced the Internal Transcribed Spacer (ITS) genomic regions and the Elongation Factor 1 - alpha (TEF1-α) gene. The design used was the completely randomized design, with four cultivars of Sweet sorghum (BRS 506, F19, BRS 511 and BRS 509); For the evaluation of pathogenicity, the factorial scheme is represented by four cultivars and three isolates of Fusarium spp., besides the witness. The seeds of the BRS 509 cultivar were considered to have lower physiological quality than the other cultivars. The DNA sequencing allowed identifying the Fusarium thapsinum species as a pathogenic agent in the sweet sorghum crop, and proven its transmission via seeds. / O presente trabalho teve como objetivo determinar a qualidade fisiológica e sanitária de sementes de cultivares de sorgo sacarino (Sorghum bicolor (L.) Moench), bem como identificar os patógenos associados à semente, sua transmissão às plântulas e a posterior patogenicidade de isolados obtidos, além disso, identificar molecularmente as espécies fúngicas patogênicas a esta cultura. Os experimentos foram realizados no Laboratório Didático e de Pesquisas em Sementes (LDPS), do Departamento de Fitotecnia; no Laboratório de Fitopatologia Elocy Minussi, do Departamento de Defesa Fitossanitária e, no Instituto Biológico de São Paulo. Foram utilizadas sementes de sorgo sacarino, todas sem tratamento químico. A qualidade sanitária foi avaliada pelo teste de sanidade, e as características fisiológicas por meio dos testes de germinação e de vigor (comprimento de plântulas, massa seca, emergência, índice de velocidade de emergência e envelhecimento acelerado). Foi realizado o teste de transmissão dos patógenos associados à semente e a posterior patogenicidade dos isolados fúngicos obtidos, culminando com a caracterização molecular dos patógenos identificados, na qual foram sequenciadas as regiões genômicas Internal Transcribed Spacer (ITS) e o gene do fator de elongação 1-α (TEF1α). O delineamento utilizado foi o inteiramente casualizado com quatro cultivares de sorgo sacarino (BRS 506, Fepagro 19, BRS 511 e BRS 509); já para a avaliação da patogenicidade, o esquema fatorial foi representado pelas quatro cultivares e três isolados de Fusarium sp., além da testemunha. As sementes da cultivar BRS 509 foram consideradas de qualidade fisiológica inferior as demais cultivares. O sequenciamento de DNA permitiu identificar a espécie Fusarium thapsinum como agente patogênico na cultura do sorgo sacarino, sendo comprovada sua transmissão via sementes.

Sorghum bicolor (L.) Moench

Teste de transmissão

Fusarium thapsinum

Fator de elongação 1-α

Transmission test

Fusarium thapsinum

Elongation factor 1-α

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

HIV-1 Gene Expression: Transcriptional Regulation and RNA Interference Studies: a Dissertation

Chiu, Ya-Lin

10 January 2003

Gene expression of human immunodeficiency virus type-1 (HIV-1), which causes Acquired Immunodeficiency Syndrome (AIDS), is regulated at the transcriptional level, where negative factors can block elongation that is overcome by HIV Tat protein and P-TEFb. P-TEFb, a positive elongation transcription factor with two subunits, CDK9 and Cyclin T1 (CycT1), catalyzes Tat-dependent phosphorylation of Ser-5 in the Pol II C-terminal domain (CTD), allowing production of longer mRNAs. Ser-5 phosphorylation enables the CTD to recruit mammalian mRNA capping enzyme (Mce1) and stimulate its guanylyltransferase activity. This dissertation demonstrates that stable binding of Mce1 and cap methyltransferase to template-engaged Pol II depends on CTD phosphorylation, but not on nascent RNA. Capping and methylation doesn't occur until nascent pre-mRNA become 19-22 nucleotides long. A second and novel pathway for recruiting and activating Mce1 involved direct physical interaction between the CTD, Tat and Mce1. Tat stimulated the guanylyltransferase and triphosphatase activities of Mce1, thereby enhancing the otherwise low efficiency of cotranscriptional capping of HIV mRNA. These findings imply that multiple mechanisms exist for coupling transcription elongation and mRNA processing at a checkpoint critical to HIV gene expression. To elucidate P-TEFb's function in human (HeLa) cells, RNA interference (RNAi) was used to degrade mRNA for hCycT1 or CDK9. Down-regulation of P-TEFb expression by RNAi can be achieved without causing major toxic or lethal effects and can control Tat transactivation and HIV replication in host cells. High-density oligonucleotide arrays were used to determine the effect of P-TEFb knockdown on global gene expression. Of 44,928 human genes analyzed, 25 were down-regulated and known or likely to be involved in cell proliferation and differentiation. These results provide new insight into P-TEFb function, its potent role in early embryonic development and strong evidence that P-TEFb is a new target for developing AIDS and cancer therapies. To fulfill the promise of RNAi for treating infectious and human genetic diseases, structural and functional mechanisms underlying RNAi in human cells were studied. The status of the 5' hydroxyl terminus of the antisense strand of short interfering RNA (siRNA) duplexes determined RNAi activity, while a 3' terminus block was tolerated in vivo. A perfect A-form helix in siRNA was not required for RNAi, but was required for antisense-target RNA duplexes. Strikingly, crosslinking siRNA duplexes with psoralen did not completely block RNAi, indicating that complete unwinding of the siRNA helix is not necessary for RNAi in vivo. These results suggest that RNA amplification by RNA-dependent RNA polymerase is not essential for RNAi in human cells.

Gene Expression Regulation

Viral

Gene Products

tat

HIV-1

RNA Interference

RNA

Small Interfering

Amino Acids, Peptides, and Proteins

Genetic Phenomena

Immune System Diseases

Virus Diseases

Viruses

Analyse de la localisation génomique et identification de nouvelles fonctions des sous-unités Rpb4/Rpb7 de l’ARN polymérase II et des facteurs TFIIF, TFIIS et UBR5

Cojocaru, Marilena

07 1900

Grâce à un grand nombre d’études biochimiques, génétiques et structurales effectuées dans les dernières années, des avancements considérables ont été réalisés et une nouvelle vision du processus par lequel la machinerie transcriptionnelle de l’ARN polymérase II (Pol II) décode l’information génétique a émergé. De nouveaux indices ont été apportés sur la diversité des mécanismes de régulation de la transcription, ainsi que sur le rôle des facteurs généraux de transcription (GTFs) dans cette diversification. Les travaux présentés dans cette thèse amènent de nouvelles connaissances sur le rôle des GTFs humains dans la régulation des différentes étapes de la transcription. Dans la première partie de la thèse, nous avons analysé la fonction de la Pol II et des GTFs humains, en examinant de façon systématique leur localisation génomique. Les patrons obtenus par immunoprécipitation de la chromatine (ChIP) des versions de GTFs portant une étiquette TAP (Tandem-Affinity Purification) indiquent de nouvelles fonctions in vivo pour certains composants de cette machinerie et pour des éléments structuraux de la Pol II. Nos résultats suggèrent que TFIIF et l’hétérodimère Rpb4–Rpb7 ont une fonction spécifique pendant l’étape d’élongation transcriptionnelle in vivo. De plus, notre étude amène une première image globale de la fonction des GTFs pendant la réaction transcriptionnelle dans des cellules mammifères vivantes. Deuxièmement, nous avons identifié une nouvelle fonction de TFIIS dans la régulation de CDK9, la sous-unité kinase du facteur P-TEFb (Positive Transcription Elongation Factor b). Nous avons identifié deux nouveaux partenaires d’interaction pour TFIIS, soit CDK9 et la E3 ubiquitine ligase UBR5. Nous montrons que UBR5 catalyse l’ubiquitination de CDK9 in vitro. De plus, la polyubiquitination de CDK9 dans des cellules humaines est dépendante de UBR5 et TFIIS. Nous montrons aussi que UBR5, CDK9 and TFIIS co-localisent le long du gène  fibrinogen (FBG) et que la surexpression de TFIIS augmente les niveaux d’occupation par CDK9 de régions spécifiques de ce gène, de façon dépendante de UBR5. Nous proposons que TFIIS a une nouvelle fonction dans la transition entre les étapes d’initiation et d’élongation transcriptionnelle, en régulant la stabilité des complexes CDK9-Pol II pendant les étapes précoces de la transcription. / Biochemical, genetic and structural studies made over the last years bring a new view on the RNA polymerase II (Pol II) machinery and the process by which it decodes the genetic information. They provided new insights into the diversity of the transcriptional regulation mechanisms, and on the role played by the general transcription factors (GTFs). The studies presented in this thesis provide new evidence on the role of human GTFs in the regulation of different stages of transcription. In the first part of the thesis, we investigated the function of the human Pol II and GTFs in living cells, by systematically analyzing their genomic location. The location profiles obtained by chromatin immunoprecipitation (ChIP) of TAP (tandem-affinity purification) tagged versions of these factors indicate new in vivo functions for several components of this machinery, and for structural elements of the Pol II. These results suggest that TFIIF and the heterodimer Rpb4–Rpb7 have a specific function during the elongation stage in vivo. Additionally, our study offers for the first time a general picture of GTFs function during the Pol II transcription reaction in live mammalian cells, and provides a framework to uncover new regulatory hubs. Secondly, we report on the identification of a new function of the factor TFIIS in the regulation of CDK9, the kinase subunit of the Positive Transcription Elongation Factor b (P-TEFb). We identify two interaction partners for TFIIS, namely CDK9 and the E3 ubiquitin ligase UBR5. We show that UBR5 catalyzes the ubiquitination of CDK9 in vitro. Moreover, the polyubiquitination of CDK9 in human cells is dependent upon both UBR5 and TFIIS, and does not signal its degradation. We also show that UBR5, CDK9 and TFIIS co-localize along specific regions of the  fibrinogen (FBG) gene, and that the overexpression of TFIIS increases the occupancy of CDK9 along this gene in a UBR5 dependant manner. We propose a new function of TFIIS in the transition between initiation and elongation stages, by regulating the stability of the early CDK9-Pol II transcribing complexes. Key words: chromatin immunoprecipitation, general transcription factors, tandem-affinity purification, RNA polymerase II, Rpb4–Rpb7 heterodimer, transcription factor IIF (TFIIF), transcription factor IIS (TFIIS), UBR5 ubiquitin ligase, Positive Transcription Elongation Factor b (P-TEFb), CDK9 ubiquitination.

Immmnoprécipitation de la chromatine

Facteurs généraux de transcription

Tandem-affinity purification

ARN polymérase II

Hétérodimère Rpb4-Rpb7

Facteur de transcription IIF (TFIIF)

Facteur de transcription IIS (TFIIS)

Ubiquitine ligase UBR5

Ubiquitination de CDK9

Analyse de la localisation génomique et identification de nouvelles fonctions des sous-unités Rpb4/Rpb7 de l’ARN polymérase II et des facteurs TFIIF, TFIIS et UBR5

Cojocaru, Marilena

07 1900

Grâce à un grand nombre d’études biochimiques, génétiques et structurales effectuées dans les dernières années, des avancements considérables ont été réalisés et une nouvelle vision du processus par lequel la machinerie transcriptionnelle de l’ARN polymérase II (Pol II) décode l’information génétique a émergé. De nouveaux indices ont été apportés sur la diversité des mécanismes de régulation de la transcription, ainsi que sur le rôle des facteurs généraux de transcription (GTFs) dans cette diversification. Les travaux présentés dans cette thèse amènent de nouvelles connaissances sur le rôle des GTFs humains dans la régulation des différentes étapes de la transcription. Dans la première partie de la thèse, nous avons analysé la fonction de la Pol II et des GTFs humains, en examinant de façon systématique leur localisation génomique. Les patrons obtenus par immunoprécipitation de la chromatine (ChIP) des versions de GTFs portant une étiquette TAP (Tandem-Affinity Purification) indiquent de nouvelles fonctions in vivo pour certains composants de cette machinerie et pour des éléments structuraux de la Pol II. Nos résultats suggèrent que TFIIF et l’hétérodimère Rpb4–Rpb7 ont une fonction spécifique pendant l’étape d’élongation transcriptionnelle in vivo. De plus, notre étude amène une première image globale de la fonction des GTFs pendant la réaction transcriptionnelle dans des cellules mammifères vivantes. Deuxièmement, nous avons identifié une nouvelle fonction de TFIIS dans la régulation de CDK9, la sous-unité kinase du facteur P-TEFb (Positive Transcription Elongation Factor b). Nous avons identifié deux nouveaux partenaires d’interaction pour TFIIS, soit CDK9 et la E3 ubiquitine ligase UBR5. Nous montrons que UBR5 catalyse l’ubiquitination de CDK9 in vitro. De plus, la polyubiquitination de CDK9 dans des cellules humaines est dépendante de UBR5 et TFIIS. Nous montrons aussi que UBR5, CDK9 and TFIIS co-localisent le long du gène  fibrinogen (FBG) et que la surexpression de TFIIS augmente les niveaux d’occupation par CDK9 de régions spécifiques de ce gène, de façon dépendante de UBR5. Nous proposons que TFIIS a une nouvelle fonction dans la transition entre les étapes d’initiation et d’élongation transcriptionnelle, en régulant la stabilité des complexes CDK9-Pol II pendant les étapes précoces de la transcription. / Biochemical, genetic and structural studies made over the last years bring a new view on the RNA polymerase II (Pol II) machinery and the process by which it decodes the genetic information. They provided new insights into the diversity of the transcriptional regulation mechanisms, and on the role played by the general transcription factors (GTFs). The studies presented in this thesis provide new evidence on the role of human GTFs in the regulation of different stages of transcription. In the first part of the thesis, we investigated the function of the human Pol II and GTFs in living cells, by systematically analyzing their genomic location. The location profiles obtained by chromatin immunoprecipitation (ChIP) of TAP (tandem-affinity purification) tagged versions of these factors indicate new in vivo functions for several components of this machinery, and for structural elements of the Pol II. These results suggest that TFIIF and the heterodimer Rpb4–Rpb7 have a specific function during the elongation stage in vivo. Additionally, our study offers for the first time a general picture of GTFs function during the Pol II transcription reaction in live mammalian cells, and provides a framework to uncover new regulatory hubs. Secondly, we report on the identification of a new function of the factor TFIIS in the regulation of CDK9, the kinase subunit of the Positive Transcription Elongation Factor b (P-TEFb). We identify two interaction partners for TFIIS, namely CDK9 and the E3 ubiquitin ligase UBR5. We show that UBR5 catalyzes the ubiquitination of CDK9 in vitro. Moreover, the polyubiquitination of CDK9 in human cells is dependent upon both UBR5 and TFIIS, and does not signal its degradation. We also show that UBR5, CDK9 and TFIIS co-localize along specific regions of the  fibrinogen (FBG) gene, and that the overexpression of TFIIS increases the occupancy of CDK9 along this gene in a UBR5 dependant manner. We propose a new function of TFIIS in the transition between initiation and elongation stages, by regulating the stability of the early CDK9-Pol II transcribing complexes. Key words: chromatin immunoprecipitation, general transcription factors, tandem-affinity purification, RNA polymerase II, Rpb4–Rpb7 heterodimer, transcription factor IIF (TFIIF), transcription factor IIS (TFIIS), UBR5 ubiquitin ligase, Positive Transcription Elongation Factor b (P-TEFb), CDK9 ubiquitination.

Immmnoprécipitation de la chromatine

Facteurs généraux de transcription

Tandem-affinity purification

ARN polymérase II

Hétérodimère Rpb4-Rpb7

Facteur de transcription IIF (TFIIF)

Facteur de transcription IIS (TFIIS)

Ubiquitine ligase UBR5

Ubiquitination de CDK9

Identification of novel regulatory pathways involved in non-enzymatic resistance to aminoglycosides in Pseudomonas aeruginosa / Identifications de nouvelles voies de régulation impliquées dans la résistance non enzymatique aux aminosides chez Pseudomonas aeruginosa

Bolard, Arnaud

05 July 2019

Les antibiotiques sont des molécules incontournables dans le traitement des infections bactériennes. L’émergence et la dissémination de la résistance aux antibiotiques chez la pathogène opportuniste Pseudomonas aeruginosa, ont amené l’Organisation Mondiale de la Santé à déclarer indispensable le développement de nouvelles approches thérapeutiques pour lutter contre cette bactérie. Bien que certaines alternatives aient été envisagées, la préservation de l’activité d’antibiotiques majeurs tels que les aminosides et la colistine est primordiale. La caractérisation des mécanismes de résistance à ces médicaments est nécessaire pour la mise au point de nouvelles molécules et mieux prendre en charge les patients. Dans ce contexte, nous montrons que des mutations dans le gène fusA1 (codant le facteur d’élongation EF-G1A) et dans l’opéron pmrAB (système à deux composants PmrAB) entrainent une augmentation de la résistance aux aminosides chez des mutants isolés au laboratoire et des souches issues de patients, atteints ou non, de mucoviscidose. Certaines substitutions d’acide aminé dans EF-G1A accroissent les niveaux de résistance de 2 à 16 fois aux quatre sous-classes d’aminosides. Par ailleurs, des changements d’acide aminé dans le système à deux composants PmrAB activent l’expression des gènes PA4773-PA4774-PA4775, et la production de norspermidine et de spermidine. La synthèse de ces polyamines va de pair avec une baisse de 4 à 16 fois de la sensibilité aux aminosides à noyan 2-désoxystreptamine bisubstitué en 4,6 (gentamicine, amikacine et tobramycine). De plus, il apparaît que la résistance des mutants pmrB à la colistine est en partie dépendante de la pompe d’efflux MexXY(OprM), un système impliqué dans la résistance naturelle, adaptative ou acquise aux aminosides. Enfin, nous montrons que les mutants pmrB surproduisent des alcaloïdes contenant un motif azétidine, par une voie de synthèse non-ribosomale et dépendante du quorum sensing. Ces alcaloïdes diminuent la virulence de P. aeruginosa dans le modèle Galleria mellonella. / Antibiotics are invaluable drugs to combat bacterial infections. Emergence and spread of antibiotic resistance in the opportunistic pathogen Pseudomonas aeruginosa have led the World Health Organization to consider as a crucial priority the development of new therapeutic approaches to fight this bacterium. In addition to other alternatives, preservation of activity of major antibiotics such as aminoglycosides and colistin is primordial. Consequently, characterization of the resistance mechanisms to these drugs is a prerequisite to design novel molecules, and improve patient care. In this context, we show that mutations in gene fusA1 (encoding elongation factor EF-G1A) and in operon pmrAB (two-component system PmrAB) lead to an increased resistance to aminoglycosides in in vitro-selected mutants and strains isolated from cystic fibrosis (CF) and non-CF patients. Certain amino acid substitutions in EF-G1A confer a 2- to 16-fold increased resistance to the four aminoglycoside subclasses. On the other hand, amino acid variations in two-component system PmrAB activate the expression of genes PA4773-PA4774-PA4775, and production of norspermidine and spermidine. This upregulated polyamine biosynthesis is associated with a 4- to 16-fold decreased susceptibility to 4,6-di-substituted deoxystreptamine aminoglycosides (gentamicin, amikacin and tobramycin). Moreover, our work reveals that the acquired resistance of pmrB mutants to colistin partially depends upon pump MexXY(OprM), a system that otherwise mediates intrinsic, adaptive and acquired resistance to aminoglycosides. Finally, we show that pmrB mutants overproduce azetidine-containing alkaloids by a quorum-sensing-regulated, nonribosomal peptide synthetase pathway. These alkaloids impair the virulence of P. aeruginosa in a Galleria mellonella infection model.

Pseudomonas aeruginosa

Facteur d'élongation EF-G1A

Système à deux composants PmrAB

Pompe d'efflux MexXY(OprM)

Synthèse peptidique non-Ribosomale

Pseudomonas aeruginosa

Elongation factor EF-G1A

Two-Component system PmrAB

Efflux pump MexXY(OprM)

Nonribosomal peptide synthesis

616