Results 261 to 270 of about 1,882,386 (316)
Prophage φEr670 and Genomic Island GI_Er147 as Carriers of Resistance Genes in <i>Erysipelothrix rhusiopathiae</i> Strains. [PDF]
Int J Mol SciDec M +3 more
europepmc +1 more source
Reply to: Giant virus genomes are unlikely to be reservoirs of antibiotic resistance genes. [PDF]
Nat CommunYi X, Liang JL, Li JT.
europepmc +1 more source
Some of the next articles are maybe not open access.
Related searches:
Related searches:
Current Opinion in Microbiology, 1999
Integrons are the primary mechanism for antibiotic-resistance gene capture and dissemination among Gram-negative bacteria. The recent finding of super-integron structures in the genomes of several bacterial species has expanded their role in genome evolution and suggests that they are the source of mobile multi-resistant integrons.
D A, Rowe-Magnus, D, Mazel
openaire +2 more sources
Integrons are the primary mechanism for antibiotic-resistance gene capture and dissemination among Gram-negative bacteria. The recent finding of super-integron structures in the genomes of several bacterial species has expanded their role in genome evolution and suggests that they are the source of mobile multi-resistant integrons.
D A, Rowe-Magnus, D, Mazel
openaire +2 more sources
Evolving disease resistance genes
Current Opinion in Plant Biology, 2005Defenses against most specialized plant pathogens are often initiated by a plant disease resistance gene. Plant genomes encode several classes of genes that can function as resistance genes. Many of the mechanisms that drive the molecular evolution of these genes are now becoming clear.
Blake C, Meyers +2 more
openaire +2 more sources
PLANT DISEASE RESISTANCE GENES
Annual Review of Plant Physiology and Plant Molecular Biology, 1997▪ Abstract In “gene-for-gene” interactions between plants and their pathogens, incompatibility (no disease) requires a dominant or semidominant resistance (R) gene in the plant, and a corresponding avirulence (Avr) gene in the pathogen. Many plant/pathogen interactions are of this type.
Kim E., Hammond-Kosack +1 more
openaire +2 more sources
Nonhost resistance genes and race-specific resistance
Trends in Microbiology, 1993Apart from physical barriers, plants have two major types of defense against potential pathogens. In 'race-specific' resistance, plants match single mendelian resistance genes with the 'avirulence' genes possessed by races of a pathogen. Plants also employ the more complex and evolutionarily more robust system of 'nonhost resistance' against a broad ...
L A, Hadwiger, D E, Culley
openaire +2 more sources
Current Opinion in Plant Biology, 1998
Plant resistance genes are highly polymorphic and have diverse recognition specificities. These genes often occur as members of clustered gene families that have evolved through duplication and diversification. Regions of nucleotides conserved between family members and flanking sequences facilitate equal or unequal recombination events.
openaire +2 more sources
Plant resistance genes are highly polymorphic and have diverse recognition specificities. These genes often occur as members of clustered gene families that have evolved through duplication and diversification. Regions of nucleotides conserved between family members and flanking sequences facilitate equal or unequal recombination events.
openaire +2 more sources
Plant nematode resistance genes
Current Opinion in Plant Biology, 1999Root-knot and cyst nematodes cause severe damage to crops throughout the world. Genes conferring resistance against nematodes have been identified in many plant species and several of these have been, or soon will be, cloned. Nematode biotypes that can infect resistant plants have been identified.
openaire +2 more sources