Study of heterogeneity of chloramphenicol acetyltransferase (CAT) genes in streptococci and enterococci by polymerase chain reaction: characterization of a new CAT determinant

Section: Discussioncontrasting

confidence: 31%

Molecular Basis of Resistance to Macrolides and Other Antibiotics in Commensal Viridans Group Streptococci and Gemella spp. and Transfer of Resistance Genes to Streptococcus pneumoniae

Zolezzi

Laplana

Calvo

et al. 2004

“…The deduced amino acid sequences of these three genes are related by 47.4 to 58.5% identity. The fact that plasmid or chromosomal antibiotic re- sistance genes carried by enterococci can be transferred by conjugation in vitro into S. aureus recipients (9,11,33,46), as well as the fact that closely related genes or transposons are present in enterococci and staphylococci (4,7,18,31,37,45,56,61,65), suggests that genetic exchange may occur between these two genera in vivo. The three SgA r genes described to date may be distant derivatives of a parental gene inherited long ago by a staphylococcal or an enterococcal isolate.…”

Section: Discussionmentioning

confidence: 99%

Diversity among the gram-positive acetyltransferases inactivating streptogramin A and structurally related compounds and characterization of a new staphylococcal determinant, vatB

Allignet

Solh

1995

100

A gene encoding an acetyltransferase inactivating streptogramin A (SgA) and structurally similar compounds was isolated from a staphylococcal plasmid and sequenced. This gene, designated vatB, potentially encodes a 212-amino-acid protein, VatB, of 23,320 Da with 47.4 and 58.4% amino acid identities with two other enzymes with the same activity, Vat and SatA, respectively, which are encoded by a staphylococcal plasmid and an enterococcal plasmid, respectively. The C-terminal parts of these three enzymes share significant homology with the C-terminal parts of 10 other acetyltransferases modifying various substrates. A pair of degenerate primers representing the conserved motifs shared by VatB, Vat, and SatA was designed to detect the three genes encoding these SgA acetyltransferases. Five of 12 clinical SgA r Staphylococcus aureus isolates tested carried neither these genes nor the gene vga, which confers resistance to SgA by a different mechanism, suggesting that another gene(s) and possibly another mechanism of resistance to SgA in staphylococci remains to be characterized.

“…The novelty of the gene combination was further enhanced by the fact that mef(I) was a newly detected mef subclass with an adjacent new msr(D) gene variant (2), and catQ had until then been described only in Clostridium perfringens (3,4), even if a catQ-like gene was previously reported in a single isolate of Streptococcus agalactiae (5). mef(I) and catQ were found in the so-called IQ element, a module-containing two identical tnp1 transposase genes at either end, which represented a moiety of a composite structure (5216IQ complex, ϳ30.5 kb); the other moiety was formed by fragments of transposons Tn5252 and Tn916, with Tn916 containing a silent tet(M) gene (1).…”

mentioning

confidence: 99%

Tn 5253 Family Integrative and Conjugative Elements Carrying mef (I) and catQ Determinants in Streptococcus pneumoniae and Streptococcus pyogenes

Mingoia

Morici

Morroni

et al. 2014

The linkage between the macrolide efflux gene mef(I) and the chloramphenicol inactivation gene catQ was first described in Streptococcus pneumoniae (strain Spn529), where the two genes are located in a module designated IQ element. Subsequently, two different defective IQ elements were detected in Streptococcus pyogenes (strains Spy029 and Spy005). The genetic elements carrying the three IQ elements were characterized, and all were found to be Tn5253 family integrative and conjugative elements (ICEs). The ICE from S. pneumoniae (ICESpn529IQ) was sequenced, whereas the ICEs from S. pyogenes (ICESpy029IQ and ICESpy005IQ, the first Tn5253-like ICEs reported in this species) were characterized by PCR mapping, partial sequencing, and restriction analysis. ICESpn529IQ and ICESpy029IQ were found to share the int Sp23FST81 integrase gene and an identical Tn916 fragment, whereas ICESpy005IQ has int 5252 and lacks Tn916. All three ICEs were found to lack the linearized pC194 plasmid that is usually associated with Tn5253-like ICEs, and all displayed a single copy of a toxin-antitoxin operon that is typically contained in the direct repeats flanking the excisable pC194 region when this region is present. Two different insertion sites of the IQ elements were detected, one in ICESpn529IQ and ICESpy029IQ, and another in ICESpy005IQ. The chromosomal integration of the three ICEs was site specific, depending on the integrase (int Sp23FST81 or int 5252 ). Only ICESpy005IQ was excised in circular form and transferred by conjugation. By transformation, mef(I) and catQ were cotransferred at a high frequency from S. pyogenes Spy005 and at very low frequencies from S. pneumoniae Spn529 and S. pyogenes Spy029.