The positional cloning of genes involved in plant control of infection
and nodule formation in legumes requires the development of improved
tools for the analysis of large genomes and cloning of high molecular
weight DNA. We have used bulked segregant analysis (BSA) and DNA ampli
fication fingerprinting (DAF) with arbitrary oligonucleotide primers t
o detect polymorphisms linked to genes important to nodulation in soyb
ean (Glycine max L. Merrill). Three loci controlling legume nodulation
(nts-1, rj1 and rj6) and one involved in early nodule development (en
od2) were studied. Wild-type Bragg and EMS-induced mutants defective i
n autoregulation (nts382) or nodulation (nod49 and nod139) were crosse
d with G. soja (Sieb. and Zucc.), for the analysis of segregants in F-
2 and F-3 populations. DNA pools from wild-type and mutant individuals
, or DNA pools based on RFLP pattern, were screened with sets of struc
tured (mini-hairpin) and unstructured primers, identifying polymorphic
DNA. DAF with mini-hairpin primers, template endonuclease cleaved DAF
(tecMAAP), and arbitrary signatures from amplification profiles (ASAP
) were especially successful in detecting linked polymorphisms. Putati
ve markers were confirmed by individual analysis of segregants, and so
me of them converted into sequence-characterized amplified regions (SC
AR). These markers will be used for high density mapping of the releva
nt genomic regions and as landmarks for linking cloned soybean DNA fro
m yeast and bacterial artificial chromosome (YAC and BAG) libraries. A
t present, the partial YAC library (avg. insert size=200 kb) represent
s about 20% of the soybean genome. YAC endclones were isolated using v
ectorette PCR, and consisted of unique or repeated DNA. Together with
YAC-specific signatures generated with mini-hairpin primers, they will
be used in the construction of contigs for positional cloning.