Abstract
The actinomycete Frankia is of fundamental and ecological interests for several reasons including its wide distribution, its ability to fix nitrogen, differentiate into sporangium and vesicle (specialized cell for nitrogen-fixation), and to nodulate plants from about 24 genera. Here, we present a review on the genetics performed so far on Frankia. At the end of July 2001, 293 kbp of Frankia DNA sequences were found in the databases. Thirty five percent of these sequences corresponded to full gene or gene cluster sequences. These genes could be divided according to their role into 6 key activities: gene translation (rrnA and tRNA pro gene), proteolysis (per genes), assimilation of ammonium (glnA and glnII), protection against superoxide ions (sodF), nitrogen fixation (nif cluster), and plasmid replication. We present a review of these genetic islands; their function, expression, localization and particular properties are discussed. A comparative analysis of Frankia nif genes from various strains and species is presented. An improved nomenclature for some of these genes is suggested to avoid conflicts. Frankia plasmids DNA sequences are also presented. The novel trends in Frankia genetics are described.
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Lavire, C., Cournoyer, B. (2003). Progress on the genetics of the N2-fixing actinorhizal symbiont Frankia . In: Normand, P., Dawson, J.O., Pawlowski, K. (eds) Frankia Symbiosis. Developments in Plant and Soil Sciences, vol 100. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-1601-7_15
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