| scholarly article | Q13442814 |
| P2093 | author name string | Hui Wu | |
| Dermot Cox | |||
| Steven W Kerrigan | |||
| C W Ian Douglas | |||
| Gerardene Meade | |||
| Christopher Plummer | |||
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| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 101-109 | |
| P577 | publication date | 2005-04-01 | |
| P1433 | published in | British Journal of Haematology | Q4970200 |
| P1476 | title | A serine-rich glycoprotein of Streptococcus sanguis mediates adhesion to platelets via GPIb | |
| P478 | volume | 129 |
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| Q37425015 | Antibodies Targeting Hsa and PadA Prevent Platelet Aggregation and Protect Rats against Experimental Endocarditis Induced by Streptococcus gordonii |
| Q34222214 | Asp3 mediates multiple protein-protein interactions within the accessory Sec system of Streptococcus gordonii |
| Q89820530 | Association of Novel Streptococcus sanguinis Virulence Factors With Pathogenesis in a Native Valve Infective Endocarditis Model |
| Q38390385 | Bacteria-induced intracellular signalling in platelets |
| Q39954136 | Binding of the Streptococcus gordonii DL1 surface protein Hsa to the host cell membrane glycoproteins CD11b, CD43, and CD50. |
| Q38320493 | Binding of the Streptococcus gordonii surface glycoproteins GspB and Hsa to specific carbohydrate structures on platelet membrane glycoprotein Ibalpha. |
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| Q37825598 | Cellular interactions by LPxTG-anchored pneumococcal adhesins and their streptococcal homologues |
| Q37191715 | Characterization of Streptococcus gordonii SecA2 as a paralogue of SecA. |
| Q36898397 | Characterization of the accessory Sec system of Staphylococcus aureus |
| Q38772109 | Clinical applications of bacterial glycoproteins |
| Q37410343 | Comprehensive evaluation of Streptococcus sanguinis cell wall-anchored proteins in early infective endocarditis |
| Q40544071 | Concerted functions of Streptococcus gordonii surface proteins PadA and Hsa mediate activation of human platelets and interactions with extracellular matrix. |
| Q33697939 | Development of genetic tools for in vivo virulence analysis of Streptococcus sanguinis |
| Q42910236 | Differential roles of individual domains in selection of secretion route of a Streptococcus parasanguinis serine-rich adhesin, Fap1. |
| Q92857675 | Early Host Interactions That Drive the Dysregulated Response in Sepsis |
| Q34186213 | Effect of Streptococcus sanguinis/Porphyromonas gingivalis single and combined biofilms upon platelet aggregation |
| Q33436437 | Effects of Suilysin on Streptococcus suis-Induced Platelet Aggregation |
| Q37551411 | Engineering and Dissecting the Glycosylation Pathway of a Streptococcal Serine-rich Repeat Adhesin |
| Q33428410 | Escherichia coli induces platelet aggregation in an FcγRIIa-dependent manner |
| Q43480785 | Flagellar glycosylation in Clostridium botulinum |
| Q36833053 | Gap2 promotes the formation of a stable protein complex required for mature Fap1 biogenesis |
| Q58610416 | Genomic, Phenotypic, and Virulence Analysis of Streptococcus sanguinis Oral and Infective-Endocarditis Isolates. |
| Q57132989 | Glycan recognition at the saliva - Oral microbiome interface |
| Q35879231 | Glycine residues in the hydrophobic core of the GspB signal sequence route export toward the accessory Sec pathway |
| Q43979607 | Glycoprotein Ibα and FcγRIIa play key roles in platelet activation by the colonizing bacterium, Streptococcus oralis |
| Q31047054 | Group B streptococcus GAPDH is released upon cell lysis, associates with bacterial surface, and induces apoptosis in murine macrophages |
| Q33422231 | Human platelet IgG Fc receptor FcγRIIA in immunity and thrombosis |
| Q21263061 | Identification of critical residues in Gap3 of Streptococcus parasanguinis involved in Fap1 glycosylation, fimbrial formation and in vitro adhesion |
| Q34033881 | Identification of virulence determinants for endocarditis in Streptococcus sanguinis by signature-tagged mutagenesis |
| Q58577394 | Impact of Escherichia coli K12 and O18:K1 on human platelets: Differential effects on platelet activation, RNAs and proteins |
| Q33310568 | Interaction between two putative glycosyltransferases is required for glycosylation of a serine-rich streptococcal adhesin |
| Q37765801 | Mechanisms of oral bacteria-induced platelet activation. |
| Q37232681 | Molecular dissection of the secA2 locus of group B Streptococcus reveals that glycosylation of the Srr1 LPXTG protein is required for full virulence |
| Q54735689 | Multiple sites on Streptococcus gordonii surface protein PadA bind to platelet GPIIbIIIa. |
| Q37689721 | Never take candy from a stranger: the role of the bacterial glycome in host-pathogen interactions |
| Q37338891 | New Helical Binding Domain Mediates a Glycosyltransferase Activity of a Bifunctional Protein |
| Q46969243 | Novel aspects of sialoglycan recognition by the Siglec-like domains of streptococcal SRR glycoproteins |
| Q28534331 | Novel staphylococcal glycosyltransferases SdgA and SdgB mediate immunogenicity and protection of virulence-associated cell wall proteins |
| Q34634780 | Oral streptococci utilize a Siglec-like domain of serine-rich repeat adhesins to preferentially target platelet sialoglycans in human blood. |
| Q37422974 | Platelet function beyond hemostasis and thrombosis |
| Q37678953 | Platelet-bacterial interactions. |
| Q40553193 | Platelet-borne complement proteins and their role in platelet-bacteria interactions. |
| Q35124418 | Platelets and infections - complex interactions with bacteria. |
| Q92405179 | Platelets in Sepsis: An Update on Experimental Models and Clinical Data |
| Q48452515 | Pneumococcal neuraminidase A: an essential upper airway colonization factor for Streptococcus pneumoniae. |
| Q38107228 | Pour some sugar on it: the expanding world of bacterial protein O-linked glycosylation |
| Q35618137 | Presence of Pseudomonas aeruginosa influences biofilm formation and surface protein expression of Staphylococcus aureus |
| Q33726747 | Purification and characterization of an active N-acetylglucosaminyltransferase enzyme complex from Streptococci |
| Q92984233 | Recognition of specific sialoglycan structures by oral streptococci impacts the severity of endocardial infection |
| Q34681302 | Resistance of Streptococcus gordonii to polymorphonuclear leukocyte killing is a potential virulence determinant of infective endocarditis. |
| Q41868366 | Role of Streptococcus gordonii surface proteins SspA/SspB and Hsa in platelet function. |
| Q36952127 | Role of the serine-rich surface glycoprotein GspB of Streptococcus gordonii in the pathogenesis of infective endocarditis |
| Q54247887 | Serine-Rich Repeat Adhesins Mediate Shear-Enhanced Streptococcal Binding to Platelets. |
| Q89747802 | Similar genomic patterns of clinical infective endocarditis and oral isolates of Streptococcus sanguinis and Streptococcus gordonii |
| Q90511412 | Start a fire, kill the bug: The role of platelets in inflammation and infection |
| Q33437089 | Strains of Group B streptococci from septic patients induce platelet activation via Toll-like Receptor 2. |
| Q88800258 | Streptococcal Siglec-like adhesins recognize different subsets of human plasma glycoproteins: implications for infective endocarditis |
| Q37333704 | Streptococcus adherence and colonization. |
| Q42845334 | Streptococcus gordonii Hsa environmentally constrains competitive binding by Streptococcus sanguinis to saliva-coated hydroxyapatite |
| Q37274780 | Streptococcus mitis phage-encoded adhesins mediate attachment to {alpha}2-8-linked sialic acid residues on platelet membrane gangliosides. |
| Q42319623 | Streptococcus oralis Neuraminidase Modulates Adherence to Multiple Carbohydrates on Platelets. |
| Q91900067 | Streptococcus oralis subsp. dentisani Produces Monolateral Serine-Rich Repeat Protein Fibrils, One of Which Contributes to Saliva Binding via Sialic Acid |
| Q64973509 | Streptococcus sanguinis biofilm formation & interaction with oral pathogens. |
| Q36286251 | Streptococcus sanguinis induces neutrophil cell death by production of hydrogen peroxide |
| Q36754972 | Structural Basis for Sialoglycan Binding by the Streptococcus sanguinis SrpA Adhesin. |
| Q27662848 | Structural Insights into Serine-rich Fimbriae from Gram-positive Bacteria |
| Q40522700 | Structures of the Streptococcus sanguinis SrpA Binding Region with Human Sialoglycans Suggest Features of the Physiological Ligand |
| Q40203902 | The N-terminal domain of the thermo-regulated surface protein PrpA of Enterococcus faecium binds to fibrinogen, fibronectin and platelets. |
| Q28817441 | The Plasmin-Sensitive Protein Pls in Methicillin-Resistant Staphylococcus aureus (MRSA) Is a Glycoprotein |
| Q37366269 | The Streptococcus pneumoniae adhesin PsrP binds to Keratin 10 on lung cells |
| Q38367124 | The expanding field of platelet-bacterial interconnections |
| Q35784025 | The glycan moieties and the N-terminal polypeptide backbone of a fimbria-associated adhesin, Fap1, play distinct roles in the biofilm development of Streptococcus parasanguinis |
| Q36482515 | The interaction of bacterial pathogens with platelets |
| Q40347655 | The major autolysin Acm2 from Lactobacillus plantarum undergoes cytoplasmic O-glycosylation |
| Q33387926 | The role of platelets in the pathogenesis of cerebral malaria |
| Q34297837 | The sweet tooth of bacteria: common themes in bacterial glycoconjugates. |
| Q37869349 | The thrombotic potential of oral pathogens |
| Q40140255 | Three glycosylated serine-rich repeat proteins play a pivotal role in adhesion and colonization of the pioneer commensal bacterium, Streptococcus salivarius. |
| Q34045689 | Transport of preproteins by the accessory Sec system requires a specific domain adjacent to the signal peptide |
| Q35996188 | Two Arginine Residues of Streptococcus gordonii Sialic Acid-Binding Adhesin Hsa Are Essential for Interaction to Host Cell Receptors |
| Q35634711 | Two gene determinants are differentially involved in the biogenesis of Fap1 precursors in Streptococcus parasanguis |
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