scholarly article | Q13442814 |
P819 | ADS bibcode | 2020NatCo..11.6106B |
P356 | DOI | 10.1038/S41467-020-19826-2 |
P932 | PMC publication ID | 7704634 |
P698 | PubMed publication ID | 33257684 |
P50 | author | Billel Benmimoun | Q103803887 |
Florentia Papastefanaki | Q103803897 | ||
Bruno Périchon | Q103803908 | ||
Katerina Segklia | Q103803916 | ||
Nicolas Roby | Q103803924 | ||
Vivi Miriagou | Q103803925 | ||
Pauline Spéder | Q59564404 | ||
Shaynoor Dramsi | Q89736972 | ||
Rebecca Matsas | Q93118560 | ||
P2093 | author name string | Christine Schmitt | |
P2860 | cites work | Mechanisms of Pathogen Invasion into the Central Nervous System | Q93124202 |
Genome analysis of multiple pathogenic isolates of Streptococcus agalactiae: implications for the microbial "pan-genome" | Q22066389 | ||
The biological significance of brain barrier mechanisms: help or hindrance in drug delivery to the central nervous system? | Q26753140 | ||
Development, maintenance and disruption of the blood-brain barrier | Q26829668 | ||
Pathogens penetrating the central nervous system: infection pathways and the cellular and molecular mechanisms of invasion | Q27027234 | ||
Drosophila Lipophorin Receptors Recruit the Lipoprotein LTP to the Plasma Membrane to Mediate Lipid Uptake | Q27310760 | ||
Lipoproteins in Drosophila melanogaster--assembly, function, and influence on tissue lipid composition | Q27332377 | ||
Global analysis of protein localization in budding yeast | Q27653962 | ||
Barrier mechanisms in the Drosophila blood-brain barrier | Q28083620 | ||
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Understanding the regulation of Group B Streptococcal virulence factors | Q28237019 | ||
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Using FlyAtlas to identify better Drosophila melanogaster models of human disease | Q29615721 | ||
Tubular endocytosis drives remodelling of the apical surface during epithelial morphogenesis in Drosophila | Q30543671 | ||
The carnegie protein trap library: a versatile tool for Drosophila developmental studies | Q33267863 | ||
Group B streptococcus | Q33534378 | ||
Surface proteins of Streptococcus agalactiae and related proteins in other bacterial pathogens | Q33719415 | ||
Conditional modification of behavior in Drosophila by targeted expression of a temperature-sensitive shibire allele in defined neurons | Q33941654 | ||
Glycosaminoglycan binding facilitates entry of a bacterial pathogen into central nervous systems | Q33951943 | ||
The serotype of type Ia and III group B streptococci is determined by the polymerase gene within the polycistronic capsule operon | Q33994470 | ||
A Gateway MultiSite recombination cloning toolkit | Q34023607 | ||
Long-term outcomes of group B streptococcal meningitis | Q34280729 | ||
Delivery of circulating lipoproteins to specific neurons in the Drosophila brain regulates systemic insulin signaling | Q34411310 | ||
The Drosophila surface glia transcriptome: evolutionary conserved blood-brain barrier processes | Q34471851 | ||
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Physiologic and anatomic characterization of the brain surface glia barrier of Drosophila | Q35089539 | ||
Bacterial Pili exploit integrin machinery to promote immune activation and efficient blood-brain barrier penetration | Q35366734 | ||
Immunity in Drosophila melanogaster--from microbial recognition to whole-organism physiology. | Q35447547 | ||
Late repression of NF-κB activity by invasive but not non-invasive meningococcal isolates is required to display apoptosis of epithelial cells | Q35586928 | ||
Molecular pathogenesis of neonatal group B streptococcal infection: no longer in its infancy | Q35905526 | ||
High-efficiency gene inactivation and replacement system for gram-positive bacteria | Q36101936 | ||
Global research priorities for infections that affect the nervous system | Q36420840 | ||
Lipoprotein receptors – an evolutionarily ancient multifunctional receptor family | Q36486210 | ||
Entry of Listeria monocytogenes in mammalian epithelial cells: an updated view | Q36526600 | ||
Versatility in ligand recognition by LDL receptor family proteins: advances and frontiers | Q36942847 | ||
Host glycosaminoglycan confers susceptibility to bacterial infection in Drosophila melanogaster | Q37075486 | ||
Trojan Horse Transit Contributes to Blood-Brain Barrier Crossing of a Eukaryotic Pathogen. | Q37617655 | ||
Microbes' roadmap to neurons | Q37876692 | ||
In vitro and in vivo models to study human listeriosis: mind the gap. | Q38154361 | ||
The Drosophila blood-brain barrier: development and function of a glial endothelium | Q38276387 | ||
A journey into the brain: insight into how bacterial pathogens cross blood-brain barriers | Q38558472 | ||
Cerebrospinal fluid lactic acidosis in bacterial meningitis | Q38925448 | ||
Metabolite transport across the mammalian and insect brain diffusion barriers | Q39150805 | ||
Lactic acid is a potential virulence factor for group B Streptococcus | Q39916694 | ||
Efficient transfer of receptor-associated protein (RAP) across the blood-brain barrier | Q40512598 | ||
Brain acidosis in experimental pneumococcal meningitis | Q40774794 | ||
The streptococcal Blr and Slr proteins define a family of surface proteins with leucine-rich repeats: camouflaging by other surface structures | Q42137491 | ||
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Construction of the mobilizable plasmid pMV158GFP, a derivative of pMV158 that carries the gene encoding the green fluorescent protein | Q44442833 | ||
E-cadherin is the receptor for internalin, a surface protein required for entry of L. monocytogenes into epithelial cells | Q45345430 | ||
Unrestricted synaptic growth in spinster-a late endosomal protein implicated in TGF-beta-mediated synaptic growth regulation. | Q45974621 | ||
Evasion of macrophage scavenger receptor A-mediated recognition by pathogenic streptococci | Q46314181 | ||
Evolutionarily Conserved Roles for Blood-Brain Barrier Xenobiotic Transporters in Endogenous Steroid Partitioning and Behavior | Q46365946 | ||
Putative lipoproteins of Streptococcus agalactiae identified by bioinformatic genome analysis | Q47930196 | ||
Lipoprotein particles cross the blood-brain barrier in Drosophila | Q48100042 | ||
Use of LDL receptor-targeting peptide vectors for in vitro and in vivo cargo transport across the blood-brain barrier | Q48347138 | ||
Perineurial Barrier Glia Physically Respond to Alcohol in an Akap200-Dependent Manner to Promote Tolerance | Q49997218 | ||
Perlecan participates in proliferation activation of quiescent Drosophila neuroblasts. | Q52115466 | ||
Group B Streptococcal Colonization, Molecular Characteristics, and Epidemiology. | Q52624533 | ||
Invasion of the Brain by Listeria monocytogenes Is Mediated by InlF and Host Cell Vimentin. | Q52682461 | ||
Blood-brain-barrier organoids for investigating the permeability of CNS therapeutics | Q58090261 | ||
FlyBase 2.0: the next generation | Q58547595 | ||
Review Article: Capturing the physiological complexity of the brain's neuro-vascular unit | Q58551285 | ||
In-vitro blood-brain barrier modeling: A review of modern and fast-advancing technologies | Q90605371 | ||
Model systems for studying the blood-brain barrier: Applications and challenges | Q92407348 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 1 | |
P921 | main subject | blood–brain barrier | Q221694 |
P304 | page(s) | 6106 | |
P577 | publication date | 2020-11-30 | |
P1433 | published in | Nature Communications | Q573880 |
P1476 | title | An original infection model identifies host lipoprotein import as a route for blood-brain barrier crossing | |
P478 | volume | 11 |
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