Your search keyword '"transposon"' showing total 2 results

1. A system for transposon mutagenesis of Bartonella bacilliformis.

Author

Andrew, Finley J., Hicks, Linda D., and Minnick, Michael F.

Subjects

*MUTAGENESIS, *BARTONELLA, *MOLECULAR biology, *RHIZOBIACEAE, *PHENOTYPES, *ELECTROPORATION

Abstract

Bartonella bacilliformis is the etiologic agent of Carrión's disease in South America. Lack of a system for random mutagenesis has significantly hampered research on the pathogen's molecular biology. Here, we describe a transposon (Tn)-based mutagenesis strategy for B. bacilliformis using pSAM_Rl; a Tn- mariner delivery vector originally constructed for members of the Rhizobiaceae family. Following electroporation of the vector, five candidate mutant strains were selected based on aberrant colony morphologies, and four mutations confirmed and identified using arbitrarily-primed PCR coupled with Sanger sequencing. One mutant strain, 4B2, was found to have a disrupted flgI gene, encoding the P-ring component of the flagellar motor. We therefore investigated the flgI strain's motility phenotype in a novel motility medium and found that insertional mutagenesis produced a non-motile mutant. Taken as a whole, the results show that: 1) pSAM_R1 is a practical Tn delivery vector for B. bacilliformis , 2) the plasmid can be used to create random Tn mariner mutants, 3) arbitrarily-primed PCR coupled with Sanger sequencing is a rapid and simple method for identifying and locating mutations generated by this Tn, and 4) in silico-predicted mutant phenotypes can be verified in vitro following mutagenesis. This system of Tn mutagenesis and mutation identification provides a novel and straightforward approach to investigate the molecular biology of B. bacilliformis. • Utility of the pSAM_R1 Tn mariner system was examined in Bartonella bacilliformis. • Arbitrarily-primed PCR and Sanger sequencing were used to identify Tn mutations. • This combined approach provides an effective mutagenesis system for B. bacilliformis. [ABSTRACT FROM AUTHOR]

Published

2022

2. Adaptive horizontal transfer of a bacterial gene to an invasive insect pest of coffee.

Author

Acuña, Ricardo, Padilla, Beatriz E., Flórez-Ramos, Claudia P., Rubio, José D., Herrera, Juan C., Benavides, Pablo, Sang-Jik Lee, Yeats, Trevor H., Egan, Ashley N., Doyle, Jeffrey J., and Rose, Jocelyn K. C.

Subjects

*PROKARYOTES, *GENETIC transformation, *GALACTOMANNANS, *POLYSACCHARIDES

Abstract

Horizontal gene transfer (HGT) involves the nonsexual transmission of genetic material across species boundaries. Although often detected in prokaryotes, examples of HGT involving animals are relatively rare, and any evolutionary advantage conferred to the recipient is typically obscure. We identified a gene (HhMAN1) from the coffee berry borer beetle, Hypothenemus hampei, a devastating pest of coffee, which shows clear evidence of HGT from bacteria. HhMAN1 encodes a mannanase, representing a class of glycosyl hydrolases that has not previously been reported in insects. Recombinant HhMAN1 protein hydrolyzes coffee berry galactomannan, the major storage polysaccharide in this species and the presumed food of H. hampei. HhMAN1 was found to be widespread in a broad biogeographic survey of H. hampei accessions, indicating that the HGT event occurred before radiation of the insect from West Africa to Asia and South America. However, the gene was not detected in the closely related species H. obscurus (the tropical nut borer or "false berry borer"), which does not colonize coffee beans. Thus, HGT of HhMAN1 from bacteria represents a likely adaptation to a specific ecological niche and may have been promoted by intensive agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2012