1,650 research outputs found
Network-based approaches to explore complex biological systems towards network medicine
Network medicine relies on different types of networks: from the molecular level of proteinâprotein interactions to gene regulatory network and correlation studies of gene expression. Among network approaches based on the analysis of the topological properties of proteinâprotein interaction (PPI) networks, we discuss the widespread DIAMOnD (disease module detection) algorithm. Starting from the assumption that PPI networks can be viewed as maps where diseases can be identified with localized perturbation within a specific neighborhood (i.e., disease modules), DIAMOnD performs a systematic analysis of the human PPI network to uncover new disease-associated genes by exploiting the connectivity significance instead of connection density. The past few years have witnessed the increasing interest in understanding the molecular mechanism of post-transcriptional regulation with a special emphasis on non-coding RNAs since they are emerging as key regulators of many cellular processes in both physiological and pathological states. Recent findings show that coding genes are not the only targets that microRNAs interact with. In fact, there is a pool of different RNAsâincluding long non-coding RNAs (lncRNAs) âcompeting with each other to attract microRNAs for interactions, thus acting as competing endogenous RNAs (ceRNAs). The framework of regulatory networks provides a powerful tool to gather new insights into ceRNA regulatory mechanisms. Here, we describe a data-driven model recently developed to explore the lncRNA-associated ceRNA activity in breast invasive carcinoma. On the other hand, a very promising example of the co-expression network is the one implemented by the software SWIM (switch miner), which combines topological properties of correlation networks with gene expression data in order to identify a small pool of genesâcalled switch genesâcritically associated with drastic changes in cell phenotype. Here, we describe SWIM tool along with its applications to cancer research and compare its predictions with DIAMOnD disease genes
"DISTAL EMBOLIZATION OF MACROSCOPIC DEBRIS DURING CAROTID ARTERY STENTING IS PREDICTED BY CIRCULATING LEVELS OF LDL CHOLESTEROL AND C-REACTIVE PROTEIN. A PIVOTAL STUDY FOR THE ROSPREC TRIAL"
Sono state studiate retrospettivamente le caratteristiche clinico-strumentali di una popolazione di pazienti, con stenosi carotidea severa, sottoposti a procedura di rivascolarizzazione mediante CAS con sistema di protezione embolica distale. Sulla base dei risultati ottenuti Ăš stato possibile ipotizzare che un trattamento con statine nel periodo preprocedurale possa ridurre il rischio di embolizzazione cerebrale durante la procedura di Stenting carotideo. Questa ipotesi verrĂ valutata estesamente dallo Studio ROSPREC, attualmente in corso
SAveRUNNER: a network-based algorithm for drug repurposing and its application to COVID-19
The novelty of new human coronavirus COVID-19/SARS-CoV-2 and the lack of
effective drugs and vaccines gave rise to a wide variety of strategies employed
to fight this worldwide pandemic. Many of these strategies rely on the
repositioning of existing drugs that could shorten the time and reduce the cost
compared to de novo drug discovery. In this study, we presented a new
network-based algorithm for drug repositioning, called SAveRUNNER (Searching
off-lAbel dRUg aNd NEtwoRk), which predicts drug-disease associations by
quantifying the interplay between the drug targets and the disease-specific
proteins in the human interactome via a novel network-based similarity measure
that prioritizes associations between drugs and diseases locating in the same
network neighborhoods. Specifically, we applied SAveRUNNER on a panel of 14
selected diseases with a consolidated knowledge about their disease-causing
genes and that have been found to be related to COVID-19 for genetic
similarity, comorbidity, or for their association to drugs tentatively
repurposed to treat COVID-19. Focusing specifically on SARS subnetwork, we
identified 282 repurposable drugs, including some the most rumored off-label
drugs for COVID-19 treatments, as well as a new combination therapy of 5 drugs,
actually used in clinical practice. Furthermore, to maximize the efficiency of
putative downstream validation experiments, we prioritized 24 potential
anti-SARS-CoV repurposable drugs based on their network-based similarity
values. These top-ranked drugs include ACE-inhibitors, monoclonal antibodies,
and thrombin inhibitors. Finally, our findings were in-silico validated by
performing a gene set enrichment analysis, which confirmed that most of the
network-predicted repurposable drugs may have a potential treatment effect
against human coronavirus infections.Comment: 42 pages, 9 figure
Game related statistics discriminate national and foreign players according to playing position and team ability in the women's basketball EuroLeague
The aim of the present study was to examine the differences in game-related statistics between national and foreign female basketball players in the Womenâs EuroLeague, according to playing positions and team ability. The official box-scores of 112 games from the 2016â2017 season of the Womenâs EuroLeague (FIBA) were examined. Players were categorised based upon country of nationality versus competition (i.e., foreign or national), playing positions (i.e., Guards, Forwards, Centers), and team ability (i.e., four groups using a cluster of k-means analysis according to the winning percentage of each team during the competition). A structural coefficient (SC) above |0.30| was used to identify the variables that best differentiated the national and foreign players. Results showed that foreign players had a better performance according to team ability and playing position for most of the performance indicators, with higher values for minutes played, percentage of successful 2-point field-goals, percentage of successful free-throws, and percentage of assists. Moreover, foreign players performed better in variables associated with offensive situations, while national players were prevailing with indicators associated with defensive actions. These results have highlighted the unique contributions of foreign and national players, based upon playing position and team ability, to team success in the Euroleague. This information will assist the recruitment process of national and foreign athletes for coaches to develop successful elite female basketball teams
Improved semiclassical dynamics through adiabatic switching trajectory sampling
We introduce an improved semiclassical dynamics approach to quantum vibrational spectroscopy. In this method, a harmonic-based phase space sampling is preliminarily driven toward non-harmonic quantization by slowly switching on the actual potential. The new coordinates and momenta serve as initial conditions for the semiclassical dynamics calculation, leading to a substantial decrease in the number of chaotic trajectories to deal with. Applications are presented for model and molecular systems of increasing dimensionality characterized by moderate or high chaoticity. They include a bidimensional Henon-Heiles potential, water, formaldehyde, and methane. The method improves accuracy and precision of semiclassical results and it can be easily interfaced with all pre-existing semiclassical theories
Long-Term Analysis of Elite Basketball Playersâ Game-Related Statistics Throughout Their Careers
The aim of the present study was to analyze the changes of game-related statistics in expert players across their whole sports careers. From an initial sample including 252 professional basketball players competing in Spanish first division basketball league (ACB) in the 2017â2018 season, 22 met the inclusion criteria. The following game-related statistics were studied: average points, assist, rebounds (all normalized by minute played), 3-point field goals percentage, 2-point field goals percentage, and free throws percentage per season. Each variable was individually investigated with a customized excel spreadsheet assessing individual variations and career trends were calculated. The results showed a positive trend in most of the investigated players in assists (91% of cases) and free throw percentages (73% of cases). Similar percentages of positive and negative trends were observed for all the other game-related statistics (range: 41â59% for negative and positive, respectively). In conclusion, an increase in assist and free throw performance was shown in the investigated players across their playing career. This information is essential for basketball coaches suggesting the use of most experienced players in the final moments of the game
New isobaric lignans from refined olive oils as quality markers for virgin olive oils.
Herein we describe the influence of olive oil refining processes on the lignan profile. The detection of new
isobaric lignans is suggested to reveal frauds in commercial extra-Virgin Olive Oils. We analyzed five
commercial olive oils by HPLC-DAD-TOF/MS to evaluate their lignan content and detected, for the first
time, some isobaric forms of natural (+)-pinoresinol and (+)-1-acetoxypinoresinol. Then we analyzed
partially and fully-refined oils from Italy, Tunisia and Spain. The isobaric forms occur only during the
bleaching step of the refining process and remain unaltered after the final deodorizing step. Molecular
dynamic simulation helped to identify the most probable chemical structures corresponding to these
new isobars with data in agreement with the chromatographic findings. The total lignan amounts in commercial
olive oils was close to 2 mg/L. Detection of these new lignans can be used as marker of undeclared
refining procedures in commercial extra-virgin and/or Virgin Olive Oils
Speckle-Tracking Imaging, Principles and Clinical Applications: A Review for Clinical Cardiologists
Evaluation of myocardial mechanics, although complex, has now entered the clinical arena, thanks to the introduction of bedside imaging techniques, such as speckle-tracking echocardiography
phyBWT: Alignment-Free Phylogeny via eBWT Positional Clustering
Molecular phylogenetics is a fundamental branch of biology. It studies the evolutionary relationships among the individuals of a population through their biological sequences, and may provide insights about the origin and the evolution of viral diseases, or highlight complex evolutionary trajectories.
In this paper we develop a method called phyBWT, describing how to use the extended Burrows-Wheeler Transform (eBWT) for a collection of DNA sequences to directly reconstruct phylogeny, bypassing the alignment against a reference genome or de novo assembly. Our phyBWT hinges on the combinatorial properties of the eBWT positional clustering framework. We employ eBWT to detect relevant blocks of the longest shared substrings of varying length (unlike the k-mer-based approaches that need to fix the length k a priori), and build a suitable decomposition leading to a phylogenetic tree, step by step. As a result, phyBWT is a new alignment-, assembly-, and reference-free method that builds a partition tree without relying on the pairwise comparison of sequences, thus avoiding to use a distance matrix to infer phylogeny.
The preliminary experimental results on sequencing data show that our method can handle datasets of different types (short reads, contigs, or entire genomes), producing trees of quality comparable to that found in the benchmark phylogeny
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