The tail fiber adhesins are the primary determinants of host range in the T4-type bacteriophages. Among the indispensable virion components, the sequences of the long tail fiber genes and their associated adhesins are among the most variable. The predominant form of the adhesin in the T4-type phages is not even the version of the gene encoded by T4, the archetype of the superfamily, but rather a small unrelated protein (gp38) encoded by closely related phages such as T2 and T6. This gp38 adhesin has a modular design: its N-terminal attachment domain binds at the tip of the tail fiber, whereas the C-terminal specificity domain determines its host receptor affinity. This specificity domain has a series of four hypervariable segments (HVSs) that are separated by a set of highly conserved glycine-rich motifs (GRMs) that apparently form the domain’s conserved structural core. The role of gp38’s various components was examined by a comparative analysis of a large series of gp38 adhesins from T-even superfamily phages with differing host specificities. A deletion analysis revealed that the individual HVSs and GRMs are essential to the T6 adhesin’s function and suggests that these different components all act in synergy to mediate adsorption. The evolutionary advantages of the modular design of the adhesin involving both conserved structural elements and multiple independent and easily interchanged specificity determinants are discussed.
The replicative potential of HIV-1 strains in a well-characterized group of eight HIV controllers was investigated. Replication-competent viruses were detected in CD4 T-cell co-culture supernatants from all HIV controllers. The phylogenetic analysis of C2V4 suggested viral evolution or co-infection or superinfection in two out of the four patients analysed. The vif and vpr genes were normal. Infection with HIV-1 variants with attenuated replicative capacity cannot be a general factor accounting for undetectable viraemia in HIV controllers.
The outer membrane (OM) of Gram-negative bacteria is an essential organelle that protects cells from external aggressions and mediates the secretion of virulence factors. Efficient assembly of integral OM β-barrel proteins (OMPs) is crucial for the correct functioning of the OM. Biogenesis of OMPs occurs in a stepwise manner that is finalized by the β-barrel assembly machinery (BAM complex). Some OMPs further require the translocation and assembly module (TAM) for efficient and correct integration into the OM. Both the BAM complex and the TAM contain a protein of the Omp85 superfamily and distinct interacting factors. Their mechanism of action, however, remains largely elusive. We summarize and discuss recent structural and biochemical analyses that are helping to elucidate the molecular pathways of OMP assembly.
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