RESUMO
The Xanthomonadaceae family comprises the genera Xanthomonas and Xylella, which include plant pathogenic species that affect economically important crops. The family also includes the plant growth-promoting bacteria Pseudomonas geniculata and Stenotrophomonas rhizophila, and some other species with biotechnological, medical, and environmental relevance. Previous work identified molecular signatures that helped to understand the evolutionary placement of this family within gamma-proteobacteria. In the present study, we investigated whether insertions identified in highly conserved proteins may also be used as molecular markers for taxonomic classification and identification of members within the Xanthomonadaceae family. Four housekeeping proteins (DNA repair and replication-related and protein translation enzymes) were selected. The insertions allowed discriminating phytopathogenic and plant growth-promoting groups within this family, and also amino acid sequences of these insertions allowed distinguishing different genera and, eventually, species as well as pathovars. Moreover, insertions in the proteins MutS and DNA polymerase III (subunit alpha) are conserved in Xylella fastidiosa, but signatures in DNA ligase NAD-dependent and Valyl tRNA synthetase distinguish particular subspecies within the genus. The genus Stenotrophomonas and Pseudomonas geniculata could be distinguishable based on the insertions in MutS, DNA polymerase III (subunit alpha), and Valyl tRNA synthetase, although insertion in DNA ligase NAD-dependent discriminates these bacteria at the species level. All these insertions differentiate species and pathovars within Xanthomonas. Thus, the insertions presented support evolutionary demarcation within Xanthomonadaceae and provide tools for the fast identification in the field of these bacteria with agricultural, environmental, and economic relevance.
Assuntos
Proteínas de Bactérias/genética , DNA Bacteriano , Pseudomonas , Stenotrophomonas , Marcadores Genéticos , Mutagênese Insercional , Filogenia , Pseudomonas/classificação , Stenotrophomonas/classificaçãoRESUMO
Se efectuó un estudio con el empleo de la metodología de Gupta, en el Departamento de Biología y Geografía de la Universidad de Oriente en Santiago de Cuba, para determinar marcadores moleculares de tipo inserción en secuencias de las proteínas ADN polimerasa I y ADN polimerasa III (subunidad alfa), obtenidas de bases de datos internacionales y posteriormente alineadas con el programa ClustalX2. Las familias Moraxellaceae y Helicobacteraceae han sido ampliamente estudiadas, porque comprenden agentes patógenos causantes de numerosas enfermedades en humanos, pero pocas investigaciones han estado dirigidas a la identificación de las características moleculares que puedan distinguir a sus miembros de otros grupos de bacterias; de manera que los presentes resultados constituyen un aporte al conocimiento de la genética y la bioquímica de estas familias y proveen herramientas moleculares para la clasificación taxonómica y el diagnóstico de especies patógenas(AU)
A study with the use of Gupta methodology was carried out in the Biology and Geography Department of Oriente University in Santiago de Cuba, to determine molecular markers of insertion type in sequences of the DNA polimerase I proteins and DNA polimerase III (alpha subunity), obtained from international databases and later on aligned with the ClustalX2 program. The Moraxellaceae and Helicobacteraceae families have been broadly studied, because they comprise pathogen agents that cause numerous diseases in humans, but few investigations have been directed to the identification of the molecular characteristics that can distinguish their members from other groups of bacterias; so these results constitute a contribution to the knowledge of genetics and biochemistry of these families and provide molecular tools for the taxonomic classification and the diagnosis of pathogen species(AU)
Assuntos
Humanos , Helicobacter/citologia , Moraxellaceae/citologia , Estruturas Celulares , Biologia CelularRESUMO
Se efectuó un estudio con el empleo de la metodología de Gupta, en el Departamento de Biología y Geografía de la Universidad de Oriente en Santiago de Cuba, para determinar marcadores moleculares de tipo inserción en secuencias de las proteínas ADN polimerasa I y ADN polimerasa III (subunidad alfa), obtenidas de bases de datos internacionales y posteriormente alineadas con el programa ClustalX2. Las familias Moraxellaceae y Helicobacteraceae han sido ampliamente estudiadas, porque comprenden agentes patógenos causantes de numerosas enfermedades en humanos, pero pocas investigaciones han estado dirigidas a la identificación de las características moleculares que puedan distinguir a sus miembros de otros grupos de bacterias; de manera que los presentes resultados constituyen un aporte al conocimiento de la genética y la bioquímica de estas familias y proveen herramientas moleculares para la clasificación taxonómica y el diagnóstico de especies patógenas
A study with the use of Gupta methodology was carried out in the Biology and Geography Department of Oriente University in Santiago de Cuba, to determine molecular markers of insertion type in sequences of the DNA polimerase I proteins and DNA polimerase III (alpha subunity), obtained from international databases and later on aligned with the ClustalX2 program. The Moraxellaceae and Helicobacteraceae families have been broadly studied, because they comprise pathogen agents that cause numerous diseases in humans, but few investigations have been directed to the identification of the molecular characteristics that can distinguish their members from other groups of bacterias; so these results constitute a contribution to the knowledge of genetics and biochemistry of these families and provide molecular tools for the taxonomic classification and the diagnosis of pathogen species
