R Bhatia1, R C Dogra, P K Sharma. 1. Department of Microbiology, CCS Haryana Agricultural University, Hisar, India.
Abstract
AIM: To introduce the gfp gene encoding green fluorescent protein (GFP) into bradyrhizobia for their identification in nodules, soil and carrier-based inoculants. METHODS AND RESULTS: Bradyrhizobium sp. strains M29 and GN7, which nodulate mungbean (Vigna radiata), were conjugated with Escherichia coli S17-1 carrying plasmid EDS 15 (a suicide plasmid carrying a promoterless gfp gene fused with Tn5). The GFP-marked strain expressed the gfp gene from a Bradyrhizobium promoter and gave green fluorescence when observed under an epifluorescent microscope or u.v. transilluminater. All the GFP-marked strains were able to nodulate mungbean and fix nitrogen. The GFP-marked bradyrhizobia were recovered at a frequency of 90-100% and 16-63% from nodules formed under sterilized and unsterilized conditions, respectively. The GFP-marked bradyrhizobia were identified from soil and from charcoal-based inoculants on the basis of green fluorescence. CONCLUSIONS: The GFP-marked Bradyrhizobium was successfully identified on the basis of green fluorescence to study its competition and survival in the soil and in charcoal-based inoculants. SIGNIFICANCE AND IMPACT OF THE STUDY: Introduction of the gfp gene into Bradyrhizobium provides a simple, specific and cost-effective method of strain identification for ecological studies.
AIM: To introduce the gfp gene encoding green fluorescent protein (GFP) into bradyrhizobia for their identification in nodules, soil and carrier-based inoculants. METHODS AND RESULTS:Bradyrhizobium sp. strains M29 and GN7, which nodulate mungbean (Vigna radiata), were conjugated with Escherichia coli S17-1 carrying plasmid EDS 15 (a suicide plasmid carrying a promoterless gfp gene fused with Tn5). The GFP-marked strain expressed the gfp gene from a Bradyrhizobium promoter and gave green fluorescence when observed under an epifluorescent microscope or u.v. transilluminater. All the GFP-marked strains were able to nodulate mungbean and fix nitrogen. The GFP-marked bradyrhizobia were recovered at a frequency of 90-100% and 16-63% from nodules formed under sterilized and unsterilized conditions, respectively. The GFP-marked bradyrhizobia were identified from soil and from charcoal-based inoculants on the basis of green fluorescence. CONCLUSIONS: The GFP-marked Bradyrhizobium was successfully identified on the basis of green fluorescence to study its competition and survival in the soil and in charcoal-based inoculants. SIGNIFICANCE AND IMPACT OF THE STUDY: Introduction of the gfp gene into Bradyrhizobium provides a simple, specific and cost-effective method of strain identification for ecological studies.