The structure of Erb1-Ytm1 complex reveals the functional importance of a high-affinity binding between two β-propellers during the assembly of large ribosomal subunits in eukaryotes

Ribosome biogenesis is one of the most essential pathways in eukaryotes although it is still not fully characterized. Given the importance of this process in proliferating cells, it is obvious that understanding the macromolecular details of the interactions that take place between the assembly factors, ribosomal proteins and nascent pre-rRNAs is essentially required for the development of new non-genotoxic treatments for cancer. Herein, we have studied the association between the WD40-repeat domains of Erb1 and Ytm1 proteins. These are essential factors for the biogenesis of 60S ribosomal subunits in eukaryotes that form a heterotrimeric complex together with the also essential Nop7 protein. We provide the crystal structure of a dimer formed by the C-terminal part of Erb1 and Ytm1 fromChaetomium thermophilum at 2.1 ˚ A resolution. Using a multidisciplinary approach we show that the -propeller domains of these proteins interact in a novel manner that leads to a high-affinity binding. We prove that a point mutation within the interface of the complex impairs the interaction between the two proteins and negatively affects growth and ribosome production in yeast. Our study suggests insights into the association of the Erb1-Ytm1 dimer with pre-ribosomal particle

Utilización de una plataforma tecnológica para el desarrollo de contenidos de la asignatura introducción a la economía II de la Facultad de Ciencias Económicas de la Universidad Francisco Gavidia para su aplicación en la enseñanza moderna

La Universidad Francisco Gavidia se fundó el 7 de marzo de 1981, en el año de 1990, en el año 2003 se comenzó a ofrecer cursos por medio de la plataforma informática U-virtual, para estar en sintonía con las nuevas tendencias de la educación en la modalidad virtual, la Plataforma Virtual de Aprendizaje es sobre el cual se sustenta tecnológicamente el ambiente virtual y que reúne las condiciones de flexibilidad y adaptabilidad necesarias para respuestas a requerimientos relacionados con el desarrollo de la labor educativa, además de soportar el diseño de recursos didácticos. Este proyecto se desarrolla partiendo de la situación actual, determinando la necesidad de la utilización de herramientas tecnológicas para la formación de los estudiantes y con este se aprovechara el nivel de tecnología implementado por la institución. CATIPULO I. Aspectos generales sobre la educación en el Salvador y antecedentes de la Historia de la UFG. CAPITULO II. Marco Teórico sobre los temas tecnología, pedagogía, didáctica, aprendizaje, plataforma virtual y herramientas de desarrollo. CAPITULO III. Presenta la investigación de campo que se realizó en la UFG con catedráticos y estudiantes activos. Ciclo II-2009. CAPITULO IV. Utilización de la plataforma tecnológica para el desarrollo de contenidos de la asignatura introducción a la economía I

Immature large ribosomal subunits containing the 7S pre-rRNA can engage in translation in Saccharomyces cerevisiae

Evolution has provided eukaryotes with mechanisms that impede immature and/or aberrant ribosomes to engage in translation. These mechanisms basically either prevent the nucleo-cytoplasmic export of these particles or, once in the cytoplasm, the release of associated assembly factors, which interfere with the binding of translation initiation factors and/or the ribosomal subunit joining. We have previously shown that aberrant yeast 40S ribosomal subunits containing the 20S pre-rRNA can engage in translation. In this study, we describe that cells harbouring the dob1–1 allele, encoding a mutated version of the exosome-assisting RNA helicase Mtr4, accumulate otherwise nuclear pre-60S ribosomal particles containing the 7S pre-rRNA in the cytoplasm. Polysome fractionation analyses revealed that these particles are competent for translation and do not induce elongation stalls. This phenomenon is rather specific since most mutations in other exosome components or co-factors, impairing the 3′ end processing of the mature 5.8S rRNA, accumulate 7S pre-rRNAs in the nucleus. In addition, we confirm that pre-60S ribosomal particles containing either 5.8S + 30 or 5.8S + 5 pre-rRNAs also engage in translation elongation. We propose that 7S pre-rRNA processing is not strictly required for pre-60S r-particle export and that, upon arrival in the cytoplasm, there is no specific mechanism to prevent translation by premature pre-60S r-particles containing 3′ extended forms of mature 5.8S rRNA

Microscopic and transcriptome analyses of early colonization of tomato roots by "Trichoderma harzianum".

The capacity of the fungus Trichoderma harzianum CECT 2413 to colonize roots and stimulate plant growth was analyzed. Tobacco seedlings (Nicotiana benthamiana) transferred to Petri dishes inoculated with T. harzianum conidia showed increased plant fresh weight (140%) and foliar area (300%), as well as the proliferation of secondary roots (300%) and true leaves (140%). The interaction between strain CECT 2413 and the tomato-root system was also studied during the early stages of root colonization by the fungus. When T. harzianum conidia were inoculated into the liquid medium of hydroponically grown tomato plants (Lycopersicum esculentum), profuse adhesion of hyphae to the plant roots as well as colonization of the root epidermis and cortex were observed. Confocal microscopy of a T. harzianum transformant that expressed the green fluorescent protein (GFP) revealed intercellular hyphal growth and the formation of plant-induced papilla-like hyphal tips. Analysis of the T. harzianum-tomato interaction in soil indicated that the contact between T. harzianum and the roots persisted over a long period of time. This interaction was characterized by the presence of yeast-like cells, a novel and previously undescribed developmental change. To study the molecular mechanism underlying fungal ability to colonize the tomato-root system, the T. harzianum transcriptome was analyzed during the early stages of the plant-fungus interaction. The expression of fungal genes related to redox reactions, lipid metabolism, detoxification, and sugar or amino-acid transport increased when T. harzianum colonized tomato roots. These observations are similar to those regarding the interactions of mycorrhiza and pathogenic fungi with plants.Comisión Europea QLK3-CT-2002-02032Ministerio de Ciencia y Tecnologia AGL2000-0524 and BIO2003-03679Junta de Andalucía PAI CVI-10

Microscopic and transcriptome analyses of early colonization of tomato roots by Trichoderma harzianum

The capacity of the fungus Trichoderma harzianum CECT 2413 to colonize roots and stimulate plant growth was analyzed. Tobacco seedlings (Nicotiana benthamiana) transferred to Petri dishes inoculated with T. harzianum conidia showed increased plant fresh weight (140%) and foliar area (300%), as well as the proliferation of secondary roots (300%) and true leaves (140%). The interaction between strain CECT 2413 and the tomato-root system was also studied during the early stages of root colonization by the fungus. When T. harzianum conidia were inoculated into the liquid medium of hydroponically grown tomato plants (Lycopersicum esculentum), profuse adhesion of hyphae to the plant roots as well as colonization of the root epidermis and cortex were observed. Confocal microscopy of a T. harzianum transformant that expressed the green fluorescent protein (GFP) revealed intercellular hyphal growth and the formation of plant-induced papilla-like hyphal tips. Analysis of the T. harzianum-tomato interaction in soil indicated that the contact between T. harzianum and the roots persisted over a long period of time. This interaction was characterized by the presence of yeast-like cells, a novel and previously undescribed developmental change. To study the molecular mechanism underlying fungal ability to colonize the tomato-root system, the T. harzianum transcriptome was analyzed during the early stages of the plant-fungus interaction. The expression of fungal genes related to redox reactions, lipid metabolism, detoxification, and sugar or amino-acid transport increased when T. harzianum colonized tomato roots. These observations are similar to those regarding the interactions of mycorrhiza and pathogenic fungi with plants. [Int Microbiol 2007; 10(1):19-27

Yeast ribosomal protein L40 assembles late into precursor 60 S ribosomes and is required for their cytoplasmic maturation

Background: The contribution of ribosomal proteins to ribosome assembly and function is often not well understood. Results: L40 assembles within the cytoplasm into pre-60 S subunits and is required for Nmd3 and Rlp24 recycling. Conclusion: L40 contributes to formation of 60 S subunits competent for subunit joining and translation elongation. Significance: Our analysis of L40 function reveals an additional step during cytoplasmic pre-60 S maturation eventsMinisterio de Ciencia e Innovación BFU2010-15690Junta de Andalucía CVI-271, P08-CVI-03508Swiss National Science Foundation PP00P3_12334

Overexpression of budding yeast protein phosphatase Ppz1 impairs translation

The Ser/Thr protein phosphatase Ppz1 from Saccharomyces cerevisiae is the best characterized member of a family of enzymes only found in fungi. Ppz1 is regulated in vivo by two inhibitory subunits, Hal3 and Vhs3, which are moonlighting proteins also involved in the decarboxylation of the 4-phosphopantothenoylcysteine (PPC) intermediate required for coenzyme A biosynthesis. It has been reported that, when overexpressed, Ppz1 is the most toxic protein in yeast. However, the reasons for such toxicity have not been elucidated. Here we show that the detrimental effect of excessive Ppz1 expression is due to an increase in its phosphatase activity and not to a plausible down-titration of the PPC decarboxylase components. We have identified several genes encoding ribosomal proteins and ribosome assembly factors as mild high-copy suppressors of the toxic Ppz1 effect. Ppz1 binds to ribosomes engaged in translation and copurifies with diverse ribosomal proteins and translation factors. Ppz1 overexpression results in Gcn2-dependent increased phosphorylation of eIF2α at Ser-51. Consistently, deletion of GCN2 partially suppresses the growth defect of a Ppz1 overexpressing strain. We propose that the deleterious effects of Ppz1 overexpression are in part due to alteration in normal protein synthesis.Ministerio de Economia, Industria y Competitividad BFU2017-82574-P, BFU2016-75352-

The ribosome assembly gene network is controlled by the feedback regulation of transcription elongation

Ribosome assembly requires the concerted expression of hundreds of genes, which are transcribed by all three nuclear RNA polymerases. Transcription elongation involves dynamic interactions between RNA polymerases and chromatin. We performed a synthetic lethal screening in Saccharomyces cerevisiae with a conditional allele of SPT6, which encodes one of the factors that facilitates this process. Some of these synthetic mutants corresponded to factors that facilitate pre-rRNA processing and ribosome biogenesis. We found that the in vivo depletion of one of these factors, Arb1, activated transcription elongation in the set of genes involved directly in ribosome assembly. Under these depletion conditions, Spt6 was physically targeted to the upregulated genes, where it helped maintain their chromatin integrity and the synthesis of properly stable mRNAs. The mRNA profiles of a large set of ribosome biogenesismutants confirmed the existence of a feedback regulatory network among ribosome assembly genes. The transcriptional response in this network depended on both the specific malfunction and the role of the regulated gene. In accordance with our screening, Spt6 positively contributed to the optimal operation of this global network. On the whole, this work uncovers a feedback control of ribosome biogenesis by fine-tuning transcription elongation in ribosome assembly factor-coding genes.Ministerio de Economía y Competitividad BFU2013-48643-C3-1-P, BFU2016-77728-C3-1-P, BFU2013-48643-C3- 3-P, BFU2013-42958-PJunta de Andalucía P12-BIO1938MO, P08-CVI-03508Comunidad Valenciana 2015/00

Discovery of Pancreatic Adenocarcinoma Biomarkers by Untargeted Metabolomics

Pancreatic ductal adenocarcinoma (PDAC) is one of the most aggressive and lethal cancers, with a 5-year survival rate of less than 5%. In fact, complete surgical resection remains the only curative treatment. However, fewer than 20% of patients are candidates for surgery at the time of presentation. Hence, there is a critical need to identify diagnostic biomarkers with potential clinical utility in this pathology. In this context, metabolomics could be a powerful tool to search for new robust biomarkers. Comparative metabolomic profiling was performed in serum samples from 59 unresectable PDAC patients and 60 healthy controls. Samples were analyzed by using an untargeted metabolomics workflow based on liquid chromatography, coupled to high-resolution mass spectrometry in positive and negative electrospray ionization modes. Univariate and multivariate analysis allowed the identification of potential candidates that were significantly altered in PDAC patients. A panel of nine candidates yielded excellent diagnostic capacities. Pathway analysis revealed four altered pathways in our patients. This study shows the potential of liquid chromatography coupled to high-resolution mass spectrometry as a diagnostic tool for PDAC. Furthermore, it identified novel robust biomarkers with excellent diagnostic capacities.This research was funded by JUNTA DE ANDALUCIA, grant number PIN-0474-2016 and PC-0549-2017 and INSTITUTO DE SALUD CARLOS III (FEDER), grant number DTS17/00081