|1.||Liu, Bao: 3 articles (05/2015 - 08/2011)|
|2.||Zhang, Huakun: 3 articles (05/2015 - 08/2011)|
|3.||Zhu, Bo: 3 articles (05/2015 - 08/2011)|
|4.||Kashkush, Khalil: 3 articles (07/2014 - 04/2002)|
|5.||Liu, Chang: 2 articles (05/2015 - 07/2014)|
|6.||Dong, Yuzhu: 2 articles (05/2015 - 07/2014)|
|7.||Wang, Xutong: 2 articles (05/2015 - 07/2014)|
|8.||Shcherban, Andrey B: 2 articles (01/2015 - 01/2011)|
|9.||Salina, Elena A: 2 articles (01/2015 - 01/2011)|
|10.||Xu, Chunming: 2 articles (07/2014 - 08/2011)|
05/01/2015 - "Together, our results suggest that genome evolution at the allohexaploid level has caused extensive genetic and DNA methylation modifications to the BBAA subgenomes of common wheat, which are distinctive from those accumulated at the tetraploid level in both wild and cultivated T. "
05/01/2015 - "We have reported recently that extensive and distinct modifications of transcriptome expression occurred to the BBAA component of common wheat relative to the evolution of gene expression at the tetraploid level in Triticum turgidum. "
05/01/2015 - "Whether the two ploidy levels (tetraploidy and hexaploidy) have impacted the BBAA subgenomes differentially remains largely unknown. "
01/01/2015 - "In order to clarify the origin of spring growth habit in modern domesticated wheat, allelic variability of the VRN-1 gene was investigated in a wide set of accessions of the wild tetraploid species Triticum dicoccoides (BBAA), together with diploid species T. "
07/01/2014 - "The availability of such a ploidy-reversed wheat (extracted tetraploid wheat [ETW]) provides a unique opportunity to address whether and to what extent the BBAA component of bread wheat has been modified in phenotype, karyotype, and gene expression during its evolutionary history at the allohexaploid level. "
|4.||Chromosomal Instability (Chromosome Stability)
|5.||Body Weight (Weight, Body)