Творческий подход студентов в изучении гистологии

Denna rapport innehåller texter som presenterats vid en konferens arrangerad inom ramen för Nätverk för barnomsorgsforskningi . Syftet med konferensen var att lyfta upp begreppet omsorg, diskutera dess innebörd, rädda det från retorisk förflackning och samtidigt via dess koppling till verksamheter belysa ett vidare sammanhang. När bamforskning diskuteras har jag på senare tid funnit det väsentligt att peka på att den har en kapacitet att kasta ljus över centrala samhällsfrågor. Forskning om barn bör inte bara vara en forskning om en viss grupp i samhället. Den nyare bamdomsforskningen söker tillämpa ett bamperspektiv. Detta innebär att fenomen studeras såsom de framstår från barnens perspektiv och att inverkan av olika sociala reformer, politiska förändringar och produktion av varor på barns liv belyses. Det handlar alltså både om att söka efter barnens perspektiv och att söka efter konsekvenserna för barnen av olika samhälleliga förändringar. Nya fålt som t.ex. barndomshistoria, barndomssociologi och barndomsantropologi har uppstått och begreppet generation har införts för att markera vikten av att anlägga ett generationsperspektiv på frågor som vanligtvis grupperats på annat sätt

A Systematic Evaluation of Factors Associated With Nocturia—The Population-based FINNO Study

In a case-control study with prevalence sampling, the authors explored the correlates for nocturia and their population-level impact. In 2003–2004, questionnaires were mailed to 6,000 subjects (aged 18–79 years) randomly identified from the Finnish Population Register (62.4% participated; 53.7% were female). Questionnaires contained items on medical conditions, medications, lifestyle, sociodemographic and reproductive factors, urinary symptoms, and snoring. Nocturia was defined as ≥2 voids/night. In age-adjusted analyses, factors associated with nocturia were entered into a multivariate model. Backward elimination was used to select variables for the final model, with adjustment for confounding. Although numerous correlates were identified, none affected ≥50% of nocturia cases of both sexes. The factors with the greatest impact at the population level were (urinary) urgency (attributable number/1,000 subjects (AN) = 24), benign prostatic hyperplasia (AN = 19), and snoring (AN = 16) for men and overweight and obesity (AN = 40), urgency (AN = 24), and snoring (AN = 17) for women. Moreover, correlates included prostate cancer and antidepressant use for men, coronary artery disease and diabetes for women, and restless legs syndrome and obesity for both sexes. Although several correlates were identified, none accounted for a substantial proportion of the population burden, highlighting the multifactorial etiology of nocturia

A two-component protease in Methylorubrum extorquens with high activity toward the peptide precursor of the redox cofactor pyrroloquinoline quinone

Pyrroloquinoline quinone is a prominent redox cofactor in many prokaryotes, produced from a ribosomally synthesized and post-translationally modified peptide PqqA via a pathway comprising four conserved proteins PqqB?E. These four proteins are now fairly well-characterized and span radical SAM activity (PqqE), aided by a peptide chaperone (PqqD), a dual hydroxylase (PqqB), and an eight-electron, eight-proton oxidase (PqqC). A full description of this pathway has been hampered by a lack of information regarding a protease/peptidase required for the excision of an early, cross-linked di-amino acid precursor to pyrroloquinoline quinone. Herein, we isolated and characterized a two-component heterodimer protein from the ?-proteobacterium Methylobacterium (Methylorubrum) extorquens that can rapidly catalyze cleavage of PqqA into smaller peptides. Using pulldown assays, surface plasmon resonance, and isothermal calorimetry, we demonstrated the formation of a complex PqqF/PqqG, with a K-D of 300 nm. We created a molecular model of the heterodimer by comparison with the Sphingomonas sp. A1 M16B Sph2681/Sph2682 protease. Analysis of time-dependent patterns for the appearance of proteolysis products indicates high specificity of PqqF/PqqG for serine side chains. We hypothesize that PqqF/PqqG initially cleaves between the PqqE/PqqD-generated cross-linked form of PqqA, with nonspecific cellular proteases completing the release of a suitable substrate for the downstream enzyme PqqB. The finding of a protease that specifically targets serine side chains is rare, and we propose that this activity may be useful in proteomic analyses of the large family of proteins that have undergone post-translational phosphorylation at serine.National Institutes of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USA [GM118117, GM124002, 1S10OD020062-01

Adaptations and constraints associated with autotrophy in microbial metabolism

Carbon dioxide (CO2) emissions from human activities are driving climate change, but the pending crisis could be mitigated by a circular carbon economy where released CO2 is recycled into commodity chemicals. Autotrophic microbes can make a contribution by producing chemicals, such as biofuels, from CO2 and renewable energy. The primary natural CO2 fixation pathway is the Calvin cycle, in which the enzyme Rubisco carboxylates ribulose-1,5-bisphosphate. The present investigation used computational systems biology methods to map adaptations and constraints in autotrophic microbial metabolism based on the Calvin cycle. First, the metabolic network of the Calvin cycle-capable photoautotrophic cyanobacterium Synechocystis was contrasted with that of heterotrophic E. coli. Intracellular metabolite concentration ranges differed, leading to different capacity to provide thermodynamic driving forces to chemical production pathways. Second, the Calvin cycle in Synechocystis was modeled kinetically, showing that certain enzyme saturation and metabolite levels, for example high ribulose-1,5-bisphosphate concentration, were detrimental to stability. Control over reaction rates was distributed, but making certain enzymes faster, for example fructose-1,6-bisphosphatase, could increase overall carbon fixation rate. Third, Synechocystis was starved of CO2 and ribosome profiling was used to track the effect on translation. Stress response and CO2 uptake were upregulated, but constant Rubisco expression and ribosome pausing in 5' untranslated regions indicated readiness for reappearance of CO2. Finally, microbial genomes with and without the Calvin cycle were contrasted, revealing metabolic, energetic, and regulatory adaptations that describe the properties of a functional autotroph. These findings provide a background for future study and engineering of autotrophs for direct conversion of CO2 into commodity chemicals.Utsläpp av koldioxid (CO2) från mänskliga aktiviteter driver klimatförändringarna, men den stundande krisen skulle kunna mildras av en cirkulär kolekonomi där CO2 som släpps ut återvinns till råvarukemikalier. Autotrofa mikrober kan bidra genom att producera kemikalier, såsom biobränslen, från CO2 och förnybar energi. Den primära naturliga syntesvägen för CO2-fixering är calvincykeln, i vilken enzymet Rubisco karboxylerar ribulos-1,5-bisfosfat. Undersökningen som ligger till grund för denna avhandling använde systembiologiska beräkningsmetoder för att kartlägga anpassningar och begränsningar i autotrof mikrobiell metabolism baserad på calvincykeln. För det första kontrasterades det metaboliska nätverket hos den calvincykelkapabla fotoautotrofa cyanobakterien Synechocystis med det hos heterotrofen E. coli. De intracellulära metabolitkoncentrationerna var olika, vilket ledde till olika kapacitet att bistå med termodynamisk drivkraft till kemiska syntesvägar. För det andra modellerades calvincykeln i Synechocystis kinetiskt, vilket visade att vissa enzymsatureringsnivåer och metabolitkoncentrationer, bland annat hög ribulos-1,5-bisfosfatkoncentration, motverkade stabiliteten. Kontroll över reaktionshastigheter var distribuerad, men ökning av hastigheten hos vissa enzymer, till exempel fruktos-1,6-bisfosfatas, skulle kunna öka den generalla kolfixeringshastigheten. För det tredje svältes Synechocystis på CO2 och ribosomprofilering användes för att följa effekten på translationen. Stressrespons och CO2-upptag uppreglerades, men konstant uttryck av Rubisco och pausning av ribosomer i de icketranslaterade 5'-regionerna indikerade beredskap för ett återuppträdande av CO2. Slutligen jämfördes mikrobiella genom med och utan calvincykeln, vilket avslöjade metaboliska, energetiska, och regulatoriska anpassningar som beskriver egenskaperna hos en funktionell autotrof. Dessa upptäckter ger en bakgrund för framtida studier och ingenjörsmässig design av autotrofer för direkt omvandling av CO2 till råvarukemikalier.QC 2021-04-07</p

Adaptations and constraints associated with autotrophy in microbial metabolism

Carbon dioxide (CO2) emissions from human activities are driving climate change, but the pending crisis could be mitigated by a circular carbon economy where released CO2 is recycled into commodity chemicals. Autotrophic microbes can make a contribution by producing chemicals, such as biofuels, from CO2 and renewable energy. The primary natural CO2 fixation pathway is the Calvin cycle, in which the enzyme Rubisco carboxylates ribulose-1,5-bisphosphate. The present investigation used computational systems biology methods to map adaptations and constraints in autotrophic microbial metabolism based on the Calvin cycle. First, the metabolic network of the Calvin cycle-capable photoautotrophic cyanobacterium Synechocystis was contrasted with that of heterotrophic E. coli. Intracellular metabolite concentration ranges differed, leading to different capacity to provide thermodynamic driving forces to chemical production pathways. Second, the Calvin cycle in Synechocystis was modeled kinetically, showing that certain enzyme saturation and metabolite levels, for example high ribulose-1,5-bisphosphate concentration, were detrimental to stability. Control over reaction rates was distributed, but making certain enzymes faster, for example fructose-1,6-bisphosphatase, could increase overall carbon fixation rate. Third, Synechocystis was starved of CO2 and ribosome profiling was used to track the effect on translation. Stress response and CO2 uptake were upregulated, but constant Rubisco expression and ribosome pausing in 5' untranslated regions indicated readiness for reappearance of CO2. Finally, microbial genomes with and without the Calvin cycle were contrasted, revealing metabolic, energetic, and regulatory adaptations that describe the properties of a functional autotroph. These findings provide a background for future study and engineering of autotrophs for direct conversion of CO2 into commodity chemicals.Utsläpp av koldioxid (CO2) från mänskliga aktiviteter driver klimatförändringarna, men den stundande krisen skulle kunna mildras av en cirkulär kolekonomi där CO2 som släpps ut återvinns till råvarukemikalier. Autotrofa mikrober kan bidra genom att producera kemikalier, såsom biobränslen, från CO2 och förnybar energi. Den primära naturliga syntesvägen för CO2-fixering är calvincykeln, i vilken enzymet Rubisco karboxylerar ribulos-1,5-bisfosfat. Undersökningen som ligger till grund för denna avhandling använde systembiologiska beräkningsmetoder för att kartlägga anpassningar och begränsningar i autotrof mikrobiell metabolism baserad på calvincykeln. För det första kontrasterades det metaboliska nätverket hos den calvincykelkapabla fotoautotrofa cyanobakterien Synechocystis med det hos heterotrofen E. coli. De intracellulära metabolitkoncentrationerna var olika, vilket ledde till olika kapacitet att bistå med termodynamisk drivkraft till kemiska syntesvägar. För det andra modellerades calvincykeln i Synechocystis kinetiskt, vilket visade att vissa enzymsatureringsnivåer och metabolitkoncentrationer, bland annat hög ribulos-1,5-bisfosfatkoncentration, motverkade stabiliteten. Kontroll över reaktionshastigheter var distribuerad, men ökning av hastigheten hos vissa enzymer, till exempel fruktos-1,6-bisfosfatas, skulle kunna öka den generalla kolfixeringshastigheten. För det tredje svältes Synechocystis på CO2 och ribosomprofilering användes för att följa effekten på translationen. Stressrespons och CO2-upptag uppreglerades, men konstant uttryck av Rubisco och pausning av ribosomer i de icketranslaterade 5'-regionerna indikerade beredskap för ett återuppträdande av CO2. Slutligen jämfördes mikrobiella genom med och utan calvincykeln, vilket avslöjade metaboliska, energetiska, och regulatoriska anpassningar som beskriver egenskaperna hos en funktionell autotrof. Dessa upptäckter ger en bakgrund för framtida studier och ingenjörsmässig design av autotrofer för direkt omvandling av CO2 till råvarukemikalier.QC 2021-04-07</p

Wide range of metabolic adaptations to the acquisition of the Calvin cycle revealed by comparison of microbial genomes

Knowledge of the genetic basis for autotrophic metabolism is valuable since it relates to both the emergence of life and to the metabolic engineering challenge of incorporating CO2 as a potential substrate for biorefining. The most common CO2 fixation pathway is the Calvin cycle, which utilizes Rubisco and phosphoribulokinase enzymes. We searched thousands of microbial genomes and found that 6.0% contained the Calvin cycle. We then contrasted the genomes of Calvin cycle-positive, non-cyanobacterial microbes and their closest relatives by enrichment analysis, ancestral character estimation, and random forest machine learning, to explore genetic adaptations associated with acquisition of the Calvin cycle. The Calvin cycle overlaps with the pentose phosphate pathway and glycolysis, and we could confirm positive associations with fructose-1,6-bisphosphatase, aldolase, and transketolase, constituting a conserved operon, as well as ribulose-phosphate 3-epimerase, ribose-5-phosphate isomerase, and phosphoglycerate kinase. Additionally, carbohydrate storage enzymes, carboxysome proteins (that raise CO2 concentration around Rubisco), and Rubisco activases CbbQ and CbbX accompanied the Calvin cycle. Photorespiration did not appear to be adapted specifically for the Calvin cycle in the non-cyanobacterial microbes under study. Our results suggest that chemoautotrophy in Calvin cycle-positive organisms was commonly enabled by hydrogenase, and less commonly ammonia monooxygenase (nitrification). The enrichment of specific DNA-binding domains indicated Calvin-cycle associated genetic regulation. Metabolic regulatory adaptations were illustrated by negative correlation to AraC and the enzyme arabinose-5-phosphate isomerase, which suggests a downregulation of the metabolite arabinose-5-phosphate, which may interfere with the Calvin cycle through enzyme inhibition and substrate competition. Certain domains of unknown function that were found to be important in the analysis may indicate yet unknown regulatory mechanisms in Calvin cycle-utilizing microbes. Our gene ranking provides targets for experiments seeking to improve CO2 fixation, or engineer novel CO2-fixing organisms.QC 20210406</p

Från görande till lärande och förståelse; En studie av lärares lärande inom estetik

&lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;The aim of this article is to analyse teachers’ changing ways of talking about children’s aesthetic learn-&lt;span style="font: 12.0px Helvetica;"&gt; &lt;/span&gt;&lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;ing in the early years as a result of a research and development project. With a point of departure in developmen-&lt;span style="font: 12.0px Helvetica;"&gt; &lt;/span&gt;&lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;tal and variation theory, a praxis oriented project was designed with the aim of finding out whether collaborative &lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;talk and meta-cognitive dialogues could contribute to children’s learning of music, dance and poetry. The partici-&lt;span style="font: 12.0px Helvetica;"&gt; &lt;/span&gt;&lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;pating teachers were offered in-service training in order to develop a new way of teaching and new ways of think-&lt;span style="font: 12.0px Helvetica;"&gt; &lt;/span&gt;&lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;ing about the curriculum and children’s learning. Interviews with the teachers were carried out at the beginning &lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;and the end of the project. The teachers’ learning was expressed in changed ways of talking about aesthetics and &lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;learning. From an emphasis on personality development and the teacher’s lack of expertise with the aesthetic sub-&lt;span style="font: 12.0px Helvetica;"&gt; &lt;/span&gt;&lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;jects as an obstacle, the teachers expressed a view of having become more aware of the concept of learning objects &lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;in the aesthetics, of their own role as teachers in directing children’s attention and to listen to children. The teach-&lt;span style="font: 12.0px Helvetica;"&gt; &lt;/span&gt;&lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;ers thus gained a new way of talking about themselves as teachers and about children’s learning within music, &lt;/p&gt; &lt;p style="margin: 0.0px 0.0px 0.0px 0.0px; font: 10.0px Times;"&gt;dance and poetry. &lt;/p&gt