P. Simonet et al., MOLECULAR CHARACTERIZATION OF FRANKIA MICROSYMBIONTS FROM SPORE-POSITIVE AND SPORE-NEGATIVE NODULES IN A NATURAL ALDER STAND, Applied and environmental microbiology, 60(4), 1994, pp. 1335-1341
Among the Frankia strains capable of establishing a nitrogen-fixing sy
mbiosis with actinorrhizal plants, in planta sporangial formation is n
ot universal and has led to the distinction between spore-positive (Sp
+) and spore-negative (Sp -) nodules. Numerous Frankia strains have be
en isolated in pure culture from Sp+ nodules of different host plants,
but, although they were able to reinfect their respective host plant,
none of them was able to differentiate endophytic sporangia under lab
oratory conditions. The first step of this study was to demonstrate, a
t the molecular level, the existence of specific Sp+ strain genotypes
differing from Sp- strain genotypes in a single alder stand. In a seco
nd step, by way of PCR amplification and sequencing of the PCR product
s, we have characterized oligonucleotide primers specific for the genu
s Frankia and for each of the two types of Frankia microsymbionts able
, or not, to differentiate sporangia inside natural green alder nodule
s. These primers applied in PCRs with DNA extracted from nodules confi
rmed the morphological identification and revealed the presence of nod
ules colonized by both types of actinomycetes. Finally, a preliminary
PCR study was conducted with DNA extracted directly from soil samples
which permitted checking the rhizosphere of Sp+ and Sp- nodules for th
e presence of the corresponding strains.