The plant growth-promoting soil bacterium Azospirillum brasilense enhances growth of economically important crops, such as wheat, corn and rice. In order to improve plant growth, a close bacterial association with the plant roots is needed. Genes encoded on a 90-MDa plasmid, denoted pRhico plasmid, present in A. brasilense Sp7, play an important role in plant root interaction. Sequencing, annotation and in silico analysis of this 90-MDa plasmid revealed the presence of a large collection of genes encoding enzymes involved in surface polysaccharide biosynthesis. Analysis of the 90-MDa plasmid genome provided evidence for its essential role in the viability of the bacterial cell.
SummaryHere we report on the presence of sulfated lipopolysaccharide molecules in Azospirillum brasilense , a plant growth-promoting rhizosphere bacterium. Chemical analysis provided structural data on the Oantigen composition and demonstrated the possible involvement of the nodPQ genes in O-antigen sulfation.
This paper presents the complete sequencing and annotation of the pLAFR1 vector. pLAFR is a tetracycline-resistant "cosmid" cloning vector, which is derived from the 20 kb plasmid pRK290, a RK2-derivative. Due to its broad host range, the pLAFR1 vector has been widely used in the genetic analysis of a broad number of gram-negative bacterial species. The availability of the complete pLAFR1 sequence will most definitely help in the construction and analysis of clone librares based on pRK290 or pLAFR vectors.
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