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1.
Nucleic Acids Res ; 52(6): 3180-3198, 2024 Apr 12.
Artículo en Inglés | MEDLINE | ID: mdl-38407477

RESUMEN

Mobile genetic elements play an important role in the acquisition of antibiotic and biocide resistance, especially through the formation of resistance islands in bacterial chromosomes. We analyzed the contribution of Tn7-like transposons to island formation and diversification in the nosocomial pathogen Acinetobacter baumannii and identified four separate families that recognize different integration sites. One integration site is within the comM gene and coincides with the previously described Tn6022 elements suggested to account for the AbaR resistance island. We established Tn6022 in a heterologous E. coli host and confirmed basic features of transposition into the comM attachment site and the use of a novel transposition protein. By analyzing population features within Tn6022 elements we identified two potential novel transposon-encoded diversification mechanisms with this dynamic genetic island. The activities of these diversification features were confirmed in E. coli. One was a novel natural gain-of-activity allele that could function to broaden transposition targeting. The second was a transposon-encoded hybrid dif-like site that parasitizes the host dimer chromosome resolution system to function with its own tyrosine recombinase. This work establishes a highly active Tn7-like transposon that harnesses novel features allowing the spread and diversification of genetic islands in pathogenic bacteria.


Asunto(s)
Acinetobacter baumannii , Elementos Transponibles de ADN , Farmacorresistencia Bacteriana , Variación Genética , Islas Genómicas , Acinetobacter baumannii/genética , Elementos Transponibles de ADN/genética , Farmacorresistencia Bacteriana/genética , Escherichia coli/genética , Variación Genética/genética , Genoma Bacteriano/genética , Islas Genómicas/genética
2.
Protein Eng Des Sel ; 32(2): 103-108, 2019 12 13.
Artículo en Inglés | MEDLINE | ID: mdl-31390019

RESUMEN

The founding principles of protein folding introduced by Christian Anfinsen, together with the numerous mechanistic investigations that followed, assume that protein folding is a thermodynamically controlled process. On the other hand, this review underscores the fact that thermodynamic control is far from being the norm in protein folding, as long as one considers an extended chemical-potential landscape encompassing aggregates, in addition to native, unfolded and intermediate states. Here, we highlight the key role of kinetic trapping of the protein native state relative to unfolded, intermediate and, most importantly, aggregated states. We propose that kinetic trapping serves an important role in biology by protecting the bioactive states of a large number of proteins from deleterious aggregation. In the event that undesired aggregates were somehow formed, specialized intracellular disaggregation machines have evolved to convert any aberrant populations back to the native state, thus restoring a fully bioactive and aggregation-protected protein cohort.


Asunto(s)
Pliegue de Proteína , Cinética , Agregado de Proteínas , Ribosomas/metabolismo
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