122 research outputs found
Razones trigonométricas vistas a través de múltiples lentes
En este capítulo resumimos el trabajo que realizamos durante dos años en MAD: el diseño, la implementación y el balance de la unidad didáctica titulada Razones trigonométricas vistas a través de múltiples lentes. Una unidad didáctica que, como es natural, se encuentra impregnada por las concepciones con las que cuentan sus autores. Una de estas concepciones es la de considerar las matemáticas como creación humana en constante evolución. En consonancia con esta postura, consideramos que el aprendizaje y la enseñanza de las matemáticas se desarrolla a partir de buenas preguntas que constituyen el sentido de los objetos matemáticos y, en este caso específico, de la razón trigonométrica
Becoming a Care-Tizen: Contributing to Democracy Through Forest Commoning
This paper aims to expand current understandings on the relationship between forest commoning, citizenship and democracy. For doing so, it presents a case study of a community forest in the periphery of Vigo city (Galicia, Spain). Using interviews and historical records of the city and the neighborhood, the paper tells the story of the emergence of a forest commons in relation to citizenship claims and struggles. Through time, communal practices of care for forest forge care-tizens, a self-organized form of citizenship performed through mutual care and care for the commons. This care-tizenship was enabled by commoners’ affective relations to forests and more-than-human subjectivities. The conclusion underlines the mutually reinforcing relationship between commoning forests and citizenship, suggesting the importance of community forests as arenas to nurture alternative, expanded more direct, and ecological forms of democracy
Regulation of extracellular matrix components byAmrZ is mediated by c‑di‑GMP in Pseudomonas ogarae F113
The AmrZ/FleQ hub has been identified as a central node in the regulation of environmental adaption in the plant growth-promoting rhizobacterium and model for rhizosphere colonization Pseudomonas ogarae F113. AmrZ is involved in the regulation of motility, biofilm formation, and bis-(3′-5′)-cyclic dimeric guanosine monophosphate (c-di-GMP) turnover, among others, in this bacterium. The mutants in amrZ have a pleiotropic phenotype with distinguishable colony morphology, reduced biofilm formation, increased motility, and are severely impaired in competitive rhizosphere colonization. Here, RNA-Seq and qRT-PCR gene expression analyses revealed that AmrZ regulates many genes related to the production of extracellular matrix (ECM) components at the transcriptional level. Furthermore, overproduction of c-di-GMP in an amrZ mutant, by ectopic production of the Caulobacter crescentus constitutive diguanylate cyclase PleD*, resulted in increased expression of many genes implicated in the synthesis of ECM components. The overproduction of c-di-GMP in the amrZ mutant also suppressed the biofilm formation and motility phenotypes, but not the defect in competitive rhizosphere colonization. These results indicate that although biofilm formation and motility are mainly regulated indirectly by AmrZ, through the modulation of c-di-GMP levels, the implication of AmrZ in rhizosphere competitive colonization occurs in a c-di-GMP-independent manne
Adaption of Pseudomonas ogarae F113 to the rhizosphere environment—The AmrZ-FleQ Hub
Motility and biofilm formation are two crucial traits in the process of rhizosphere colonization by pseudomonads. The regulation of both traits requires a complex signaling network that is coordinated by the AmrZ-FleQ hub. In this review, we describe the role of this hub in the adaption to the rhizosphere. The study of the direct regulon of AmrZ and the phenotypic analyses of an amrZ mutant in Pseudomonas ogarae F113 has shown that this protein plays a crucial role in the regulation of several cellular functions, including motility, biofilm formation, iron homeostasis, and bis-(3′-5′)-cyclic dimeric guanosine monophosphate (c-di-GMP) turnover, controlling the synthesis of extracellular matrix components. On the other hand, FleQ is the master regulator of flagellar synthesis in P. ogarae F113 and other pseudomonads, but its implication in the regulation of multiple traits related with environmental adaption has been shown. Genomic scale studies (ChIP-Seq and RNA-Seq) have shown that in P. ogarae F113, AmrZ and FleQ are general transcription factors that regulate multiple traits. It has also been shown that there is a common regulon shared by the two transcription factors. Moreover, these studies have shown that AmrZ and FleQ form a regulatory hub that inversely regulate traits such as motility, extracellular matrix component production, and iron homeostasis. The messenger molecule c-di-GMP plays an essential role in this hub since its production is regulated by AmrZ and it is sensed by FleQ and required for its regulatory role. This regulatory hub is functional both in culture and in the rhizosphere, indicating that the AmrZ-FleQ hub is a main player of P. ogarae F113 adaption to the rhizosphere environmentWork related to environmental adaption of pseudomonads in the authors’ laboratory is currently funded by a Spanish Ministerio de Ciencia e Innovación FEDER/EU Grant PID2021-125070OB-I0
Economic Burden of Idiopathic Pulmonary Fibrosis in Spain: A Prospective Real-World Data Study (OASIS Study)
Carga económica; Fibrosis pulmonar idiopática; EspañaCàrrega econòmica; Fibrosi pulmonar idiopàtica; EspanyaEconomic burden; Idiopathic pulmonary fibrosis; SpainBackground
Idiopathic pulmonary fibrosis (IPF) is a progressive and fatal lung disease associated with dyspnoea, cough and impaired quality of life affecting around 7500 patients in Spain.
Objective
Our aim was to estimate the economic impact of IPF according to forced vital capacity (FVC) % predicted level in adult patients.
Methods
We conducted a prospective, observational, multicentric study of patients with confirmed IPF in Spain. Total annual IPF-related costs were estimated per patient, and categorised according to the FVC% predicted value (FVC 80%) and total sample. Incurred direct health- and non-health-related costs and indirect costs were calculated considering the IPF-related healthcare resource use and the corresponding unitarian costs. Results were updated to 2023 euros.
Results
Two hundred and four consecutive patients with IPF were included: 77% male, average age (standard deviation) 70.8 (7.6) years. At baseline, FVC% was 80% of predicted value in 10.8%, 74.5% and 14.7% of patients, respectively. The final cost-evaluable population included 180 subjects. The mean (standard deviation) total annual IPF-related cost was €26,997 (17,555), with statistically significant differences (p = 0.0002) between groups: €44,412 (33,389) for the FVC 80%. Annual direct health costs had the greatest weight and included pharmacological treatments [€22,324 (13,773)] and hospitalisation days [€1659 (7362)]. 14 patients had ≥ 1 acute exacerbation of IPF during the study; mean total cost of an acute exacerbation of IPF was €10,372. According to the multivariate analysis, an impaired lung function (FVC < 50%) and use of antifibrotic treatment were determinants of cost (p < 0.0001 both).
Conclusions
We observed a significantly higher annual IPF-related cost at a lower level of predicted FVC%, the direct cost having the greatest weight to the total costs. Maintaining patients at early disease stages by slowing IPF progression is relevant to reduce the economic impact of IPF
Transcriptomic analysis of pseudomonas ogarae F113 reveals the antagonistic roles of AmrZ and FleQ during rhizosphere adaption
Rhizosphere colonization by bacteria involves molecular and cellular mechanisms, such as motility and chemotaxis, biofilm formation, metabolic versatility, or biosynthesis of secondary metabolites, among others. Nonetheless, there is limited knowledge concerning the main regulatory factors that drive the rhizosphere colonization process. Here we show the importance of the AmrZ and FleQ transcription factors for adaption in the plant growth-promoting rhizobacterium (PGPR) and rhizosphere colonization model Pseudomonas ogarae F113. RNA-Seq analyses of P. ogarae F113 grown in liquid cultures either in exponential and stationary growth phase, and rhizosphere conditions, revealed that rhizosphere is a key driver of global changes in gene expression in this bacterium. Regarding the genetic background, this work has revealed that a mutation in fleQ causes considerably more alterations in the gene expression profile of this bacterium than a mutation in amrZ under rhizosphere conditions. The functional analysis has revealed that in P. ogarae F113, the transcription factors AmrZ and FleQ regulate genes involved in diverse bacterial functions. Notably, in the rhizosphere, these transcription factors antagonistically regulate genes related to motility, biofilm formation, nitrogen, sulfur, and amino acid metabolism, transport, signalling, and secretion, especially the type VI secretion systems. These results define the regulon of two important bifunctional transcriptional regulators in pseudomonads during the process of rhizosphere colonization
The diguanylate cyclase AdrA regulates flagellar biosynthesis in Pseudomonas fluorescens F113 through SadB
Flagellum mediated motility is an essential trait for rhizosphere colonization by pseudomonads. Flagella synthesis is a complex and energetically expensive process that is tightly regulated. In Pseudomonas fluorescens, the regulatory cascade starts with the master regulatory protein FleQ that is in turn regulated by environmental signals through the Gac/Rsm and SadB pathways, which converge in the sigma factor AlgU. AlgU is required for the expression of amrZ, encoding a FleQ repressor. AmrZ itself has been shown to modulate c-di-GMP levels through the control of many genes encoding enzymes implicated in c-di-GMP turnover. This cyclic nucleotide regulates flagellar function and besides, the master regulator of the flagellar synthesis signaling pathway, FleQ, has been shown to bind c-di-GMP. Here we show that AdrA, a diguanylate cyclase regulated by AmrZ participates in this signaling pathway. Epistasis analysis has shown that AdrA acts upstream of SadB, linking SadB with environmental signaling. We also show that SadB binds c-di-GMP with higher affinity than FleQ and propose that c-di-GMP produced by AdrA modulates flagella synthesis through SadBThis work was supported by funding from MINECO/FEDER EU Grant RTI2018 093991-BI00 to R.R. and M.M. C.M. was funded by a FPI fellowship from MINECO. EB-R was the recipient of fellowships from Fundación Tatiana Pérez de Guzmán el Bueno (Medioambiente 2016) and the FPU program from MECD (FPU16/05513). Short stays of R.R. and C.M. at John Innes Centre were funded by MECD (Salvador de Madariaga and FPU, respectively
An Orphan VrgG Auxiliary Module Related to the Type VI Secretion Systems from Pseudomonas ogarae F113 Mediates Bacterial Killing
The model rhizobacterium Pseudomonas ogarae F113, a relevant plant growth-promoting bacterium, encodes three different Type VI secretion systems (T6SS) in its genome. In silico analysis of its genome revealed the presence of a genetic auxiliary module containing a gene encoding an orphan VgrG protein (VgrG5a) that is not genetically linked to any T6SS structural cluster, but is associated with genes encoding putative T6SS-related proteins: a possible adaptor Tap protein, followed by a putative effector, Tfe8, and its putative cognate immunity protein, Tfi8. The bioinformatic analysis of the VgrG5a auxiliary module has revealed that this cluster is only present in several subgroups of the P. fluorescens complex of species. An analysis of the mutants affecting the vgrG5a and tfe8 genes has shown that the module is involved in bacterial killing. To test whether Tfe8/Tfi8 constitute an effector–immunity pair, the genes encoding Tfe8 and Tfi8 were cloned and expressed in E. coli, showing that the ectopic expression of tfe8 affected growth. The growth defect was suppressed by tfi8 ectopic expression. These results indicate that Tfe8 is a bacterial killing effector, while Tfi8 is its cognate immunity protein. The Tfe8 protein sequence presents homology to the proteins of the MATE family involved in drug extrusion. The Tfe8 effector is a membrane protein with 10 to 12 transmembrane domains that could destabilize the membranes of target cells by the formation of pores, revealing the importance of these effectors for bacterial interaction. Tfe8 represents a novel type of a T6SS effector present in pseudomonadsThis work has been funded by Ministerio de Ciencia e Innovación Grant FEDER/EU Grant PID2021-125070OB-I00. DV was granted by the FPI-UAM program (SFPI/2021-00458
Razones trigonométricas
Esta cartilla pertenece a la serie Unidades didácticas en Educación Matemática de “una empresa docente” (Facultad de Educación, Universidad de los Andes) y ediciones SM. Propone el diseño de una unidad didáctica con el que se busca contribuir al aprendizaje de la noción de razón trigonométrica. Para ello, la cartilla presenta el material que el profesor de matemáticas de educación media requiere para implementar la unidad didáctica en el aula. La cartilla fue elaborada por los grupos 5 y 6 de la primera promoción de la maestría en Educación Matemática de la Universidad de los Andes. La cartilla se compone de cuatro partes. La primera presenta los aspectos que el pro fesor debe tener en cuenta antes de implementar las tareas propuestas en la unidad didáctica. La segunda contiene los objetivos de aprendizaje propuestos para los estu diantes y la metodología sugerida al profesor. La tercera describe la fundamentación y secuencia de tareas que conforman la unidad didáctica, e incluye el material foto copiable para los estudiantes. Por último, se indican sugerencias para evaluar a los estudiantes y se presentan pautas para identi car su nivel de desempeño y determinar el logro de los objetivos de aprendizaje. La secuencia de tareas busca contribuir a que los estudiantes identi quen las razones trigonométricas en los triángulos rectángulos y las utilicen para hallar medidas de la dos y ángulos en problemas matemáticos y no matemáticos; identi quen las razones trigonométricas en la circunferencia unitaria y las utilicen para hallar medidas de lados y ángulos en diferentes contextos; identi quen el triángulo rectángulo en problemas matemáticos y no matemáticos y utilicen las razones trigonométricas para solucionar los; y reconozcan la importancia de las razones trigonométricas para hallar la medida de ángulos y lados que no se pueden medir directamente y lo hagan en diferentes contextos. Su diseño se basa en dos ideas transversales: la noción de razón trigo nométrica es útil en contextos cercanos a los estudiantes y ellos pueden identi carla y comprenderla a partir de su experiencia (por ejemplo, con la medición y búsqueda de regularidades). Las tareas están elaboradas para ser implementadas con estudiantes de grado décimo. Su diseño surge de la necesidad de contribuir al logro del estándar curricular “describo y modelo fenómenos periódicos del mundo real usando relaciones y funciones trigonométricas”
Analysis of the biodegradative and adaptive potential of the novel polychlorinated biphenyl degrader Rhodococcus sp. WAY2 revealed by its complete genome sequence
The complete genome sequence of Rhodococcus sp. WAY2 (WAY2) consists of a circular chromosome, three linear replicons and
a small circular plasmid. The linear replicons contain typical actinobacterial invertron-type telomeres with the central CGTXCGC
motif. Comparative phylogenetic analysis of the 16S rRNA gene along with phylogenomic analysis based on the genome-togenome blast distance phylogeny (GBDP) algorithm and digital DNA–DNA hybridization (dDDH) with other Rhodococcus type
strains resulted in a clear differentiation of WAY2, which is likely a new species. The genome of WAY2 contains five distinct clusters of bph, etb and nah genes, putatively involved in the degradation of several aromatic compounds. These clusters are distributed throughout the linear plasmids. The high sequence homology of the ring-hydroxylating subunits of these systems with
other known enzymes has allowed us to model the range of aromatic substrates they could degrade. Further functional characterization revealed that WAY2 was able to grow with biphenyl, naphthalene and xylene as sole carbon and energy sources,
and could oxidize multiple aromatic compounds, including ethylbenzene, phenanthrene, dibenzofuran and toluene. In addition,
WAY2 was able to co-metabolize 23 polychlorinated biphenyl congeners, consistent with the five different ring-hydroxylating
systems encoded by its genome. WAY2 could also use n-alkanes of various chain-lengths as a sole carbon source, probably
due to the presence of alkB and ladA gene copies, which are only found in its chromosome. These results show that WAY2 has
a potential to be used for the biodegradation of multiple organic compoundsThis research was funded by GREENER-H2020 (EU), grant number
826312, and MICINN/FEDER EU, grant number RTI2018-0933991-
B-I00. D.G.-S. was supported by a MECD FPU fellowship program, grant
number FPU14/03965. P.S.-L. was supported by the MICINN FPU fellowship program, grant number FPU18/02169. E.B.-R. was supported by
the MECD FPU fellowship program, grant number FPU16/05513. J.S.,
T.C. and O.U. acknowledge Czech Science Foundation grant number
17–00227S, which enabled PCB co-metabolism experiments to be
undertake
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