Publications by authors named "Jane L Doyle"
The accumulation of over 30 years of basic research on the biology, genetic variation, and evolution of the wild perennial relatives of soybean (Glycine max) provides a foundation to improve cultivated soybean. The cultivated soybean and its wild progenitor, G. soja, have a center of origin in eastern Asia and are the only two species in the annual subgenus Soja.
View Article and Find Full Text PDFArticle Synopsis
- Thirteen new microsatellite loci were created for the A-genome group of the legume genus Glycine, which includes closely related and compatible species.
- Primers were developed from G. canescens and successfully amplified across G. clandestina and four related species, indicating a high level of genetic variation.
- These markers will be valuable for research on genetic diversity, population dynamics, gene flow, and polyploidy in these plants.
Relationships among the various diploid and polyploid taxa that comprise Glycine tomentella have been hypothesized from crossing studies, isozyme data, and repeat length variation for the 5S nuclear ribosomal gene loci. However, several key questions have persisted, and detailed phylogenetic evidence from homoeologous nuclear genes has been lacking. The histone H3-D locus is single copy in diploid Glycine species and has been used to elucidate relationships among diploid races of G.
View Article and Find Full Text PDFHypotheses of evolutionary relationships among the Australian wild perennial relatives of soybean (Glycine subgenus Glycine) are based largely on patterns of meiotic pairing in intra- and interspecific experimental hybrids. This evidence has indicated a number of genome groupings within the subgenus but has not resolved most phylogenetic relationships. Restriction-endonuclease site variation of chloroplast DNA (cpDNA) within the perennial subgenus is reported here, representing a sampling of approximately 3% of the approximately 150-kilobase plastome.
View Article and Find Full Text PDF