|1.||Mason-Gamer, Roberta J: 1 article (01/2013)|
|2.||Rodríguez, Flor: 1 article (01/2012)|
|3.||Mueller, Lukas A: 1 article (01/2012)|
|4.||Cai, Danying: 1 article (01/2012)|
|5.||Ané, Cécile: 1 article (01/2012)|
|6.||Teng, Yuanwen: 1 article (01/2012)|
|7.||Bonierbale, Meredith: 1 article (01/2012)|
|8.||Spooner, David M: 1 article (01/2012)|
|9.||Murray, Timothy: 1 article (02/2011)|
|10.||Jones, Stephen: 1 article (02/2011)|
06/01/2009 - "Phylogenetic utility of two nuclear genes (GBSSI-2 and DHAR) was explored in genus Fragaria in order to clarify phylogenetic relationships among taxa and to elucidate the origin of the polyploid species. "
09/01/2005 - "We also used nuclear ITS and GBSSI sequence data to determine whether diploid and polyploid forms represent the same phylogenetic species, and the phylogeographic relationships among populations and ploidy levels. "
08/01/2001 - "Despite the heterozygous and polyploid character of potato it was possible to assign variation in GBSSI activity to the allelic composition at the GBSSI loci within a large population of Solanum tuberosum cultivars and Solanum breeding lines. "
01/01/2012 - "Two separate studies using the nuclear orthologs GBSSI and nitrate reductase confirmed prior hypotheses of polyploid origins in potato and have shown new origins not proposed before. "
01/01/2013 - "Diploid and polyploid relationships were estimated using four molecular data sets, including one that combines two regions of the chloroplast genome, and three from unlinked nuclear genes: phosphoenolpyruvate carboxylase, β-amylase, and granule-bound starch synthase I. Four gene trees were generated using maximum likelihood, and the phylogenetic placement of the polyploid sequences reveals extensive reticulation beyond allopolyploidy alone. "
|2.||granule-bound starch synthase I