about
Interactions between glycopeptides and beta-lactams against isogenic pairs of teicoplanin-susceptible and -resistant strains of Staphylococcus haemolyticusGenetic basis of the association of resistance genes mef(I) (macrolides) and catQ (chloramphenicol) in streptococciMapping B-cell epitopes of hepatitis C virus E2 glycoprotein using human monoclonal antibodies from phage display librariesDiverging Effects of Human Recombinant Anti-Hepatitis C Virus (HCV) Antibody Fragments Derived from a Single Patient on the Infectivity of a Vesicular Stomatitis Virus/HCV PseudotypeNonneutralizing human antibody fragments against hepatitis C virus E2 glycoprotein modulate neutralization of binding activity of human recombinant Fabs.Phim46.1, the main Streptococcus pyogenes element carrying mef(A) and tet(O) genes.In vitro antibacterial activities of AF 3013, the active metabolite of prulifloxacin, against nosocomial and community Italian isolates.Inhibitory activity by barley coffee components towards Streptococcus mutans biofilm.Heterogeneity of Tn5253-like composite elements in clinical Streptococcus pneumoniae isolatesPhenotypes and genotypes of erythromycin-resistant pneumococci in Italy.Transduction of the Streptococcus pyogenes bacteriophage Φm46.1, carrying resistance genes mef(A) and tet(O), to other Streptococcus speciesTwo distinct genetic elements are responsible for erm(TR)-mediated erythromycin resistance in tetracycline-susceptible and tetracycline-resistant strains of Streptococcus pyogenesEpidemiology of methicillin-resistant staphylococci in Europe.Presence of the tet(O) gene in erythromycin- and tetracycline-resistant strains of Streptococcus pyogenes and linkage with either the mef(A) or the erm(A) gene.Genetic elements carrying erm(B) in Streptococcus pyogenes and association with tet(M) tetracycline resistance gene.Composite structure of Streptococcus pneumoniae containing the erythromycin efflux resistance gene mefI and the chloramphenicol resistance gene catQ.An improved phage display vector for antibody repertoire cloning by construction of combinatorial libraries.Streptococcus suis, an Emerging Drug-Resistant Animal and Human PathogenA novel efflux system in inducibly erythromycin-resistant strains of Streptococcus pyogenes.Persistence of erythromycin-resistant group a streptococci in cultured respiratory cells.ICESp2905, the erm(TR)-tet(O) element of Streptococcus pyogenes, is formed by two independent integrative and conjugative elements.Epidemiology of Staphylococcus aureus in Italy: First nationwide survey, 2012.Genetic diversity of cell-invasive erythromycin-resistant and -susceptible group A streptococci determined by analysis of the RD2 region of the prtF1 gene.Streptococcus pneumoniae transposon Tn1545/Tn6003 changes to Tn6002 due to spontaneous excision in circular form of the erm(B)- and aphA3-containing macrolide-aminoglycoside-streptothricin (MAS) element.Characterization of a Streptococcus suis tet(O/W/32/O)-carrying element transferable to major streptococcal pathogens.Characterization of Tn5801.Sag, a variant of Staphylococcus aureus Tn916 family transposon Tn5801 that is widespread in clinical isolates of Streptococcus agalactiae.Composite SCCmec element in single-locus variant (ST217) of epidemic MRSA-15 clone.ICESp1116, the genetic element responsible for erm(B)-mediated, inducible erythromycin resistance in Streptococcus pyogenes, belongs to the TnGBS family of integrative and conjugative elements.New Tn916-related elements causing erm(B)-mediated erythromycin resistance in tetracycline-susceptible pneumococci.Cross-reactive pseudovirus-neutralizing anti-envelope antibodies coexist with antibodies devoid of such activity in persistent hepatitis C virus infection.Clonal spread of macrolide- and tetracycline-resistant [erm(A) tet(O)] emm77 Streptococcus pyogenes isolates in Italy and Norway.Unconventional circularizable bacterial genetic structures carrying antibiotic resistance determinants.Genetic determinants and elements associated with antibiotic resistance in viridans group streptococci.Molecular analysis of Tn1546-like elements mediating high-level vancomycin resistance in Enterococcus gallinarum.Clearance of HIV-1 viraemia after seroconversion.Prophage association of mef(A) elements encoding efflux-mediated erythromycin resistance in Streptococcus pyogenes.Synergistic potential of ceftazidime plus amikacin or levofloxacin against Pseudomonas aeruginosa as determined using a checkerboard and a disk diffusion technique.Quantitative evaluation of the recombinant HIV-1 phenotype to protease inhibitors by a single-step strategy.Antistaphylococcal and antistreptococcal killing kinetics of ciprofloxacin, ofloxacin, sparfloxacin, and trovafloxacin.Survey of clinical isolates of Staphylococcus aureus for borderline susceptibility to antistaphylococcal penicillins.
P50
Q24549505-B3E704F1-A1D8-4550-96A1-358840A33D6FQ26828740-E91F2CC5-E4D2-4B13-8411-E044FABEEDD4Q27469875-EFD19439-04AA-48BD-9A01-24B31BCF1D62Q27472930-739550C0-E751-4CB7-BA24-3C62C7E8D8DEQ30711927-88EF2B00-40B2-49D9-8447-CBE1403947E5Q33558887-7F91CA38-D89B-4507-806E-96EE4BDB8685Q33983727-56394722-8BA3-4107-BE13-F516A1514300Q34107987-7027BB33-26F3-41AC-89C8-45244BF4FACDQ34737570-F3786FD5-5A43-4722-AE63-2371A12323D9Q34749258-B0CB70C2-E2EF-4CC9-B795-3C44DDBE8864Q34881530-58993AE2-9538-4F99-9958-E38D028EE653Q34933219-42602D3A-BF57-4603-9C89-AB82C50DCDA8Q35612051-4145C612-A3E8-4C6F-9244-2A561BA7DD9AQ35685611-C09354C4-FAB3-4A6E-B295-695119E56663Q35758910-D4950548-6AB4-495C-84E4-4FB55D89C331Q36295426-A283127B-0B42-4ED2-830F-067D2CE40F9AQ36854759-752C5FC3-120E-45DA-A800-8E8796EB447DQ39356815-29CA82A1-9001-4278-9488-D95DBC20A51EQ39671215-DE117A25-84FF-4BE0-8E73-5C8A8845E500Q40226653-85453C18-C186-4450-86B3-610E5DED43B3Q40327655-955002AB-5DCA-4337-A5CB-E9F5CE29307BQ40452606-EBB8FD28-E589-4EE9-8CC5-884D8BFC15D8Q40585272-96172A1D-2F09-4A1B-8742-BFE2B3AB14D2Q41572204-AB76B705-5B19-41ED-8C7E-5F755D481641Q41789013-CB84FC3C-960F-4A42-AEB8-877FD8A05106Q42080431-B4E9AEF6-4A9A-449B-B457-7A3C5BA2045EQ42558506-479B5452-F23C-49B9-AA23-5E09A8555BBAQ42575649-8A80479A-8984-4FD0-92B1-9847D3A9C22AQ42619506-08E854F0-30C6-4E3D-927D-031CDCB0DD3AQ42987364-E64C1793-056C-4EA5-8328-EBDA359ECD62Q43130863-F06C75B6-E1A2-4836-A9E7-40983E91B6EDQ43188095-08EF9656-CF83-47E7-9D82-70349BE4C0EBQ44033419-7A59AFF9-B866-48C1-A398-BBA77942CE46Q44602942-5268EEF3-635C-4E99-962E-47F4157A3F1CQ45144469-167E079E-FF41-45F0-8760-A9D8D09FE030Q46384236-4477AA19-34A3-4AEA-AC96-B25A0BB448E3Q46708021-4529B33F-FEB1-40CA-A8D7-7AA7E04CFF3FQ54044685-EC6D7079-592B-4214-AFD1-087C45B46273Q54106984-093BC035-22D6-4DBE-A91D-0ACB6F562C48Q54232274-0260F54D-11B2-429A-90F2-44FC37FDDFDB
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Pietro Emanuele Varaldo
@ast
Pietro Emanuele Varaldo
@en
Pietro Emanuele Varaldo
@es
Pietro Emanuele Varaldo
@nl
type
label
Pietro Emanuele Varaldo
@ast
Pietro Emanuele Varaldo
@en
Pietro Emanuele Varaldo
@es
Pietro Emanuele Varaldo
@nl
prefLabel
Pietro Emanuele Varaldo
@ast
Pietro Emanuele Varaldo
@en
Pietro Emanuele Varaldo
@es
Pietro Emanuele Varaldo
@nl
P106
P1153
7005276859
P31
P496
0000-0002-4131-487X