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1.
Nucleic Acids Res ; 50(D1): D898-D911, 2022 01 07.
Artículo en Inglés | MEDLINE | ID: mdl-34718728

RESUMEN

The Eukaryotic Pathogen, Vector and Host Informatics Resource (VEuPathDB, https://veupathdb.org) represents the 2019 merger of VectorBase with the EuPathDB projects. As a Bioinformatics Resource Center funded by the National Institutes of Health, with additional support from the Welllcome Trust, VEuPathDB supports >500 organisms comprising invertebrate vectors, eukaryotic pathogens (protists and fungi) and relevant free-living or non-pathogenic species or hosts. Designed to empower researchers with access to Omics data and bioinformatic analyses, VEuPathDB projects integrate >1700 pre-analysed datasets (and associated metadata) with advanced search capabilities, visualizations, and analysis tools in a graphic interface. Diverse data types are analysed with standardized workflows including an in-house OrthoMCL algorithm for predicting orthology. Comparisons are easily made across datasets, data types and organisms in this unique data mining platform. A new site-wide search facilitates access for both experienced and novice users. Upgraded infrastructure and workflows support numerous updates to the web interface, tools, searches and strategies, and Galaxy workspace where users can privately analyse their own data. Forthcoming upgrades include cloud-ready application architecture, expanded support for the Galaxy workspace, tools for interrogating host-pathogen interactions, and improved interactions with affiliated databases (ClinEpiDB, MicrobiomeDB) and other scientific resources, and increased interoperability with the Bacterial & Viral BRC.


Asunto(s)
Bases de Datos Factuales , Vectores de Enfermedades/clasificación , Interacciones Huésped-Patógeno/genética , Fenotipo , Interfaz Usuario-Computador , Animales , Apicomplexa/clasificación , Apicomplexa/genética , Apicomplexa/patogenicidad , Bacterias/clasificación , Bacterias/genética , Bacterias/patogenicidad , Enfermedades Transmisibles/microbiología , Enfermedades Transmisibles/parasitología , Enfermedades Transmisibles/patología , Enfermedades Transmisibles/transmisión , Biología Computacional/métodos , Minería de Datos/métodos , Diplomonadida/clasificación , Diplomonadida/genética , Diplomonadida/patogenicidad , Hongos/clasificación , Hongos/genética , Hongos/patogenicidad , Humanos , Insectos/clasificación , Insectos/genética , Insectos/patogenicidad , Internet , Nematodos/clasificación , Nematodos/genética , Nematodos/patogenicidad , Filogenia , Virulencia , Flujo de Trabajo
2.
Microbiome ; 11(1): 72, 2023 04 10.
Artículo en Inglés | MEDLINE | ID: mdl-37032329

RESUMEN

BACKGROUND: Eukaryotes such as fungi and protists frequently accompany bacteria and archaea in microbial communities. Unfortunately, their presence is difficult to study with "shotgun" metagenomic sequencing since prokaryotic signals dominate in most environments. Recent methods for eukaryotic detection use eukaryote-specific marker genes, but they do not incorporate strategies to handle the presence of eukaryotes that are not represented in the reference marker gene set, and they are not compatible with web-based tools for downstream analysis. RESULTS: Here, we present CORRAL (for Clustering Of Related Reference ALignments), a tool for the identification of eukaryotes in shotgun metagenomic data based on alignments to eukaryote-specific marker genes and Markov clustering. Using a combination of simulated datasets, mock community standards, and large publicly available human microbiome studies, we demonstrate that our method is not only sensitive and accurate but is also capable of inferring the presence of eukaryotes not included in the marker gene reference, such as novel strains. Finally, we deploy CORRAL on our MicrobiomeDB.org resource, producing an atlas of eukaryotes present in various environments of the human body and linking their presence to study covariates. CONCLUSIONS: CORRAL allows eukaryotic detection to be automated and carried out at scale. Implementation of CORRAL in MicrobiomeDB.org creates a running atlas of microbial eukaryotes in metagenomic studies. Since our approach is independent of the reference used, it may be applicable to other contexts where shotgun metagenomic reads are matched against redundant but non-exhaustive databases, such as the identification of bacterial virulence genes or taxonomic classification of viral reads. Video Abstract.


Asunto(s)
Metagenoma , Microbiota , Humanos , Metagenoma/genética , Eucariontes/genética , Microbiota/genética , Bacterias/genética , Archaea/genética , Metagenómica/métodos
3.
Netw Neurosci ; 6(4): 1125-1147, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-38800465

RESUMEN

Systems neuroscience is facing an ever-growing mountain of data. Recent advances in protein engineering and microscopy have together led to a paradigm shift in neuroscience; using fluorescence, we can now image the activity of every neuron through the whole brain of behaving animals. Even in larger organisms, the number of neurons that we can record simultaneously is increasing exponentially with time. This increase in the dimensionality of the data is being met with an explosion of computational and mathematical methods, each using disparate terminology, distinct approaches, and diverse mathematical concepts. Here we collect, organize, and explain multiple data analysis techniques that have been, or could be, applied to whole-brain imaging, using larval zebrafish as an example model. We begin with methods such as linear regression that are designed to detect relations between two variables. Next, we progress through network science and applied topological methods, which focus on the patterns of relations among many variables. Finally, we highlight the potential of generative models that could provide testable hypotheses on wiring rules and network progression through time, or disease progression. While we use examples of imaging from larval zebrafish, these approaches are suitable for any population-scale neural network modeling, and indeed, to applications beyond systems neuroscience. Computational approaches from network science and applied topology are not limited to larval zebrafish, or even to systems neuroscience, and we therefore conclude with a discussion of how such methods can be applied to diverse problems across the biological sciences.

4.
Nat Commun ; 13(1): 895, 2022 02 16.
Artículo en Inglés | MEDLINE | ID: mdl-35173170

RESUMEN

Habituation is a form of learning during which animals stop responding to repetitive stimuli, and deficits in habituation are characteristic of several psychiatric disorders. Due to technical challenges, the brain-wide networks mediating habituation are poorly understood. Here we report brain-wide calcium imaging during larval zebrafish habituation to repeated visual looming stimuli. We show that different functional categories of loom-sensitive neurons are located in characteristic locations throughout the brain, and that both the functional properties of their networks and the resulting behavior can be modulated by stimulus saliency and timing. Using graph theory, we identify a visual circuit that habituates minimally, a moderately habituating midbrain population proposed to mediate the sensorimotor transformation, and downstream circuit elements responsible for higher order representations and the delivery of behavior. Zebrafish larvae carrying a mutation in the fmr1 gene have a systematic shift toward sustained premotor activity in this network, and show slower behavioral habituation.


Asunto(s)
Habituación Psicofisiológica/fisiología , Mesencéfalo/fisiología , Proteínas de Unión al ARN/metabolismo , Proteínas de Pez Cebra/metabolismo , Pez Cebra/fisiología , Animales , Animales Modificados Genéticamente , Ondas Encefálicas/fisiología , Calcio/análisis , Larva/fisiología , Neuronas/fisiología , Proteínas de Unión al ARN/genética , Reflejo de Sobresalto/fisiología , Pez Cebra/embriología , Proteínas de Pez Cebra/genética
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