Joseph Jaffe scite author profile

SummaryGroup A streptococcus (GAS) causes diseases ranging from benign to severe infections such as necrotizing fasciitis (NF). The reasons for the differences in severity of streptococcal infections are unexplained. We developed the polymorphic-tag-lengthstransposon-mutagenesis (PTTM) method to identify virulence genes in vivo . We applied PTTM on an emm 14 strain isolated from a patient with NF and screened for mutants of decreased virulence, using a mouse model of human soft-tissue infection. A mutant that survived in the skin but was attenuated in its ability to reach the spleen and to cause a lethal infection was identified. The transposon was inserted into a small open reading frame (ORF) in a locus termed sil , s treptococcal i nvasion l ocus. sil contains at least five genes ( sil A-E) and is highly homologous to the quorum-sensing competence regulons of Streptococcus pneumoniae . sil A and sil B encode a putative two-component system whereas sil D and sil E encode two putative ABC transporters. sil C is a small ORF of unknown function preceded by a combox promoter. Insertion and deletion mutants of sil had a diminished lethality in the animal model. Virulence of a deletion mutant of sil C was restored when injected together with the avirulent emm 14-deletion mutant, but not when these mutants were injected into opposite flanks of a mouse. DNA transfer between these mutants occurred in vivo but could not account for the complementation of virulence. DNA exchange between the emm 14-deletion mutant and mutants of sil occurred also in vitro, at a frequency of ~ 10 ----8 for a single antibiotic marker. Whereas sil C and sil D mutants exchanged markers with the emm 14 mutant, sil B mutant did not. Thus, we identified a novel locus, which controls GAS spreading into deeper tissues and could be involved in DNA transfer.

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**Protein F2, a novel fibronectin‐binding protein from Streptococcus pyogenes, possesses two binding domains**

Jaffe

Natanson-Yaron

Caparon

et al. 1996

Molecular Microbiology

119

110

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Binding of the group A streptococcus (GAS) to respiratory epithelium is mediated by the fibronectin (Fn)-binding adhesin, protein F1. Previous studies have suggested that certain GAS strains express Fn-binding proteins that are different from protein F1. In this study, we have cloned, sequenced, and characterized a gene (prtF2) from GAS strain 100076 encoding a novel Fn-binding protein, termed protein F2. Insertional inactivation of prtF2 in strain 100076 abolishes its high-affinity Fn binding. prtF2-related genes exist in most GAS strains that lack prtF1 (encoding protein F1) but bind Fn with high affinity. These observations suggest that protein F2 is a major Fn-binding protein in GAS. Protein F2 is highly homologous to Fn-binding proteins from Streptococcus dysgalactiae and Streptococcus equisimilis, particularly in its carboxy-terminal portion. Two domains are responsible for Fn binding by protein F2. One domains (FBRD) consists of three consecutive repeats, whereas the other domain (UFBD) resides on a non-repeated stretch of approximately 100 amino acids and is located 100 amino acids aminoterminal of FBRD. Each of these domains is capable of binding Fn when expressed as a separate protein. In strain 100076, protein F2 activity is regulated in response to alterations in the concentration of atmospheric oxygen.

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Group G Streptococcal Bacteremia in Jerusalem

Cohen-Poradosu

Jaffe

Lavi

et al. 2004

Emerg. Infect. Dis.

108

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Pregnancy-Associated Listeriosis: Clinical Characteristics and Geospatial Analysis of a 10-Year Period in Israel

Elinav

Klement

Valinsky

et al. 2014

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Joseph Jaffe

Effect of a bacterial pheromone peptide on host chemokine degradation in group A streptococcal necrotising soft-tissue infections

A locus of group A streptococcus involved in invasive disease and DNA transfer

**Protein F2, a novel fibronectin‐binding protein from Streptococcus pyogenes, possesses two binding domains**

Group G Streptococcal Bacteremia in Jerusalem

Pregnancy-Associated Listeriosis: Clinical Characteristics and Geospatial Analysis of a 10-Year Period in Israel

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