Goloenko Inna M, Lukhanina Natalia V, Shimkevich Andrey M, Aksyonova Elena A, Danilenko Nina G, Davydenko Oleg G
Institute of Genetics and Cytology, Belarus Academy of Sciences, Staroborisovski tract, 34, 220141, Minsk, Belarus.
Cell Mol Biol Lett. 2002;7(2A):483-91.
We present the effects of cytoplasm substitution on five productivity traits in an alloplasmic barley collection. 60 lines combining 5 nuclear genomes of cultivated barley varieties and 12 plasmons of two barley species (H. vulgare, H. spontaneum) displayed various effects depending on definite nuclei-cytoplasm combinations. Only four cytoplasmic genomes (W1, W4, W5, W10) significantly modified the expression of the nuclear genes controlling productivity. RAPD-PCR analysis revealed that both the mitochondrial and chloroplast DNA of the W1, W5, and W10 lines have common molecular characters distinguishing them from the cytoplasmic genomes of the other lines. The cytoplasmic genetic factors influencing the expression of "productivity" genes remain elusive.
我们展示了细胞质置换对异质大麦群体中五个生产力性状的影响。60个株系结合了栽培大麦品种的5个核基因组和两个大麦物种(H. vulgare、H. spontaneum)的12种质体,根据特定的核-质组合显示出不同的效应。只有四个细胞质基因组(W1、W4、W5、W10)显著改变了控制生产力的核基因的表达。RAPD-PCR分析表明,W1、W5和W10株系的线粒体和叶绿体DNA具有共同的分子特征,使其与其他株系的细胞质基因组区分开来。影响“生产力”基因表达的细胞质遗传因素仍然难以捉摸。