564 research outputs found
Extreme N-emitters at high-redshift: signatures of supermassive stars and globular cluster or black hole formation in action?
[Abridged] Using the JWST/NIRSpec observations from CEERS we found an extreme
N-emitter, CEERS-1019 at z=8.6782 showing intense NIV and NIII emission. From
the observed rest-UV and optical lines we conclude that it is compatible with
photoionization from stars and we determine accurate abundances for C, N, O,
and Ne, relative to H, finding a highly supersolar ratio log(N/O) =
-0.18+/-0.11, and normal log(C/O) = -0.75+/-0.11 and log(Ne/O) = -0.63+/-0.07,
for its low metallicity, 12+log(O/H)= 7.70+/-0.18. We also analyze other
N-emitters from the literature. All show strongly enhanced N/O ratios and two
of them normal C/O. Massive star ejecta from WR stars are needed to explain the
galaxies with enhanced C/O (Lynx arc and Mrk 996). On the other hand,
supermassive stars (>1000 Msun, SMS) in the ``conveyer-belt model'' put forward
to explain globular clusters (GCs), predict a high N/O and small changes in
C/O, compatible with CEERS-1019, the Sunburst cluster, SMACS2031, and GN-z11.
Based on the chemical abundances, possible enrichment scenarios, compactness,
and high ISM density, we suggest that CEERS-1019, SMACS2031, and the Sunburst
cluster could contain proto-GCs. Finally, we propose that some N-emitters
enriched by SMS could also have formed intermediate-mass black holes, and we
suggest that this might be the case for GN-z11. Our observations and analysis
reinforce the suggested link between some N-emitters and proto-GC formation,
which is supported both by empirical evidence and quantitative models.
Furthermore, the observations provide possible evidence for the presence of
supermassive stars in the early Universe (z>8) and at z~2-3. Our analysis also
suggests that the origin and nature of the N-emitters is diverse, including
also objects like GN-z11 which possibly host an AGN.Comment: Submitted to A&A, 19 pages, 8 figures, 4 table
Effect of Fermentation on the Protein Digestibility and Levels of Non-Nutritive Compounds of Pea Protein Concentrate
Radi utvrđivanja utjecaja fermentacije na kakvoću proteina u koncentratu proteina graška ispitani su sljedeći parametri: udjel ukupnih fenola i tanina, aktivnost inhibitora proteaze, sastav aminokiselina i probavljivost proteina in vitro nakon 11 sati fermentacije s pomoću bakterije Lactobacillus plantarum. Maseni se udjel fenola u koncentratu proteina graška, izražen kao ekvivalent katehina, povećao na bazi suhe tvari s 2,5 pri 0 h na 4,9 mg/g nakon 11 sati fermentacije. Udjel tanina se povećao s 0,14 pri 0 h na maksimalnih 0,96 mg/g koncentrata nakon 5 h fermentacije, a zatim se smanjio na 0,79 mg/g nakon 11 h fermentacije. Nakon 9 h fermentacije smanjila se aktivnost inhibitora tripsina, međutim, pri svim ostalim vremenima fermentacije dobivene su vrijednosti slične onima pri 0 h. Aktivnost se inhibitora kimotripsina smanjila s 3,7 na 1,1 jedinicu inhibicije kimotripsina po mg nakon 11 sati fermentacije. Probavljivost je proteina dosegla maksimalnu vrijednost od 87,4 % nakon 5 sati fermentacije, međutim vrijednost aminokiselina koje sadržavaju sumpor smanjila se s 0,84 pri 0 h na 0,66 nakon 11 h fermentacije. Smanjenjem udjela sumpora promijenila se vrijednost aminokiselina korigirana probavljivošću proteina in vitro s 67,0 pri 0 h na 54,6 % nakon 11 h fermentacije. Dobiveni podaci potvrđuju da je, iako je fermentacija valjana metoda za smanjenje udjela nekih nenutritivnih sastojaka u koncentratu proteina graška, potrebno odabrati odgovarajuće bakterije koje nemaju izraženu sposobnost razgradnje aminokiselina što sadržavaju sumpor.In order to determine the impact of fermentation on protein quality, pea protein concentrate (PPC) was fermented with Lactobacillus plantarum for 11 h and total phenol and tannin contents, protease inhibitor activity, amino acid composition and in vitro protein digestibility were analyzed. Phenol levels, expressed as catechin equivalents (CE), increased on dry mass basis from 2.5 at 0 h to 4.9 mg CE per 1 g of PPC at 11 h. Tannin content rose from 0.14 at 0 h to a maximum of 0.96 mg CE per 1 g of PPC after 5 h, and thereafter declined to 0.79 mg/g after 11 h. After 9 h of fermentation trypsin inhibitor activity decreased, however, at all other fermentation times similar levels to the PPC at time 0 h were produced. Chymotrypsin inhibitor activity decreased from 3.7 to 1.1 chymotrypsin inhibitory units (CIU) per mg following 11 h of fermentation. Protein digestibility reached a maximum (87.4 %) after 5 h of fermentation, however, the sulfur amino acid score was reduced from 0.84 at 0 h to 0.66 at 11 h. This reduction in sulfur content altered the in vitro protein digestibility-corrected amino acid score from 67.0 % at 0 h to 54.6 % at 11 h. These data suggest that while fermentation is a viable method of reducing certain non-nutritive compounds in pea protein concentrate, selection of an alternative bacterium which metabolises sulfur amino acids to a lesser extent than L. plantarum should be considered
HIV Types, Groups, Subtypes and Recombinant Forms: Errors in Replication, Selection Pressure and Quasispecies
HIV-1 is a chimpanzee virus which was transmitted to humans by several zoonotic events resulting in infection with HIV-1 groups M P, and in parallel transmission events from sooty mangabey monkey viruses leading to infections with HIV-2 groups A H. Both viruses have circulated in the human population for about 80 years. In the infected patient, HIV mutates, and by elimination of some of the viruses by the action of the immune system individual quasispecies are formed. Along with the selection of the fittest viruses, mutation and recombination after superinfection with HIV from different groups or subtypes have resulted in the diversity of their patterns of geographic distribution. Despite the high variability observed, some essential parts of the HIV genome are highly conserved. Viral diversity is further facilitated in some parts of the HIV genome by drug selection pressure and may also be enhanced by different genetic factors, including HLA in patients from different regions of the world. Viral and human genetic factors influence pathogenesis. Viral genetic factors are proteins such as Tat, Vif and Rev. Human genetic factors associated with a better clinical outcome are proteins such as APOBEC, langerin, tetherin and chemokine receptor 5 (CCR5) and HLA B27, B57, DRB1{*}1303, KIR and PARD3B. Copyright (C) 2012 S. Karger AG, Base
Enhancing the sensitivity of magnetic sensors by 3D metamaterial shells
Magnetic sensors are key elements in our interconnected smart society. Their sensitivity becomes essential for many applications in fields such as biomedicine, computer memories, geophysics, or space exploration. Here we present a universal way of increasing the sensitivity of magnetic sensors by surrounding them with a spherical metamaterial shell with specially designed anisotropic magnetic properties. We analytically demonstrate that the magnetic field in the sensing area is enhanced by our metamaterial shell by a known factor that depends on the shell radii ratio. When the applied field is non-uniform, as for dipolar magnetic field sources, field gradient is increased as well. A proof-of-concept experimental realization confirms the theoretical predictions. The metamaterial shell is also shown to concentrate time-dependent magnetic fields upto frequencies of 100 kHz
Defining functional distances over Gene Ontology
<p>Abstract</p> <p>Background</p> <p>A fundamental problem when trying to define the functional relationships between proteins is the difficulty in quantifying functional similarities, even when well-structured ontologies exist regarding the activity of proteins (i.e. 'gene ontology' -GO-). However, functional metrics can overcome the problems in the comparing and evaluating functional assignments and predictions. As a reference of proximity, previous approaches to compare GO terms considered linkage in terms of ontology weighted by a probability distribution that balances the non-uniform 'richness' of different parts of the Direct Acyclic Graph. Here, we have followed a different approach to quantify functional similarities between GO terms.</p> <p>Results</p> <p>We propose a new method to derive 'functional distances' between GO terms that is based on the simultaneous occurrence of terms in the same set of Interpro entries, instead of relying on the structure of the GO. The coincidence of GO terms reveals natural biological links between the GO functions and defines a distance model <it>D</it><sub><it>f </it></sub>which fulfils the properties of a Metric Space. The distances obtained in this way can be represented as a hierarchical 'Functional Tree'.</p> <p>Conclusion</p> <p>The method proposed provides a new definition of distance that enables the similarity between GO terms to be quantified. Additionally, the 'Functional Tree' defines groups with biological meaning enhancing its utility for protein function comparison and prediction. Finally, this approach could be for function-based protein searches in databases, and for analysing the gene clusters produced by DNA array experiments.</p
On Evaluating MHC-II Binding Peptide Prediction Methods
Choice of one method over another for MHC-II binding peptide prediction is typically based on published reports of their estimated performance on standard benchmark datasets. We show that several standard benchmark datasets of unique peptides used in such studies contain a substantial number of peptides that share a high degree of sequence identity with one or more other peptide sequences in the same dataset. Thus, in a standard cross-validation setup, the test set and the training set are likely to contain sequences that share a high degree of sequence identity with each other, leading to overly optimistic estimates of performance. Hence, to more rigorously assess the relative performance of different prediction methods, we explore the use of similarity-reduced datasets. We introduce three similarity-reduced MHC-II benchmark datasets derived from MHCPEP, MHCBN, and IEDB databases. The results of our comparison of the performance of three MHC-II binding peptide prediction methods estimated using datasets of unique peptides with that obtained using their similarity-reduced counterparts shows that the former can be rather optimistic relative to the performance of the same methods on similarity-reduced counterparts of the same datasets. Furthermore, our results demonstrate that conclusions regarding the superiority of one method over another drawn on the basis of performance estimates obtained using commonly used datasets of unique peptides are often contradicted by the observed performance of the methods on the similarity-reduced versions of the same datasets. These results underscore the importance of using similarity-reduced datasets in rigorously comparing the performance of alternative MHC-II peptide prediction methods
Prediction of Peptide Reactivity with Human IVIg through a Knowledge-Based Approach
The prediction of antibody-protein (antigen) interactions is very difficult due to the huge variability that characterizes the structure of the antibodies. The region of the antigen bound to the antibodies is called epitope. Experimental data indicate that many antibodies react with a panel of distinct epitopes (positive reaction). The Challenge 1 of DREAM5 aims at understanding whether there exists rules for predicting the reactivity of a peptide/epitope, i.e., its capability to bind to human antibodies. DREAM 5 provided a training set of peptides with experimentally identified high and low reactivities to human antibodies. On the basis of this training set, the participants to the challenge were asked to develop a predictive model of reactivity. A test set was then provided to evaluate the performance of the model implemented so far
TRIM5 Suppresses Cross-Species Transmission of a Primate Immunodeficiency Virus and Selects for Emergence of Resistant Variants in the New Species
Cross-species transmission of simian immunodeficiency virus from sooty mangabeys (SIVsm) into rhesus macaques, and subsequent emergence of pathogenic SIVmac, required adaptation to overcome restriction encoded by the macaque TRIM5 gene
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