Despite heterosis contributing to genetic improvements in crops, root growth heterosis in rapeseed plants is poorly understood at the molecular level. The current study was performed to discover key differentially expressed genes (DEGs) related to heterosis in two hybrids with contrasting root growth performance (FO; high hybrid and FV; low hybrid) based on analysis of the root heterosis effect. Based on comparative transcriptomic analysis, we believe that the overdominance at the gene expression level plays a critical role in hybrid roots’ early biomass heterosis. Our findings imply that a considerable increase in up-regulation of gene expression underpins heterosis. In the FO hybrid, high expression of DEGs overdominant in the starch/sucr...
Heterosis, or hybrid vigor, contributes to superior agronomic performance of hybrids compared to the...
Heterosis-associated cellular and molecular processes were analyzed in seeds and seedlings of Arabid...
In order to study Brassica napus fatty acid (FA) metabolism and relevant regulatory networks, a syst...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Breeders are empirically exploiting the phenomenon of heterosis, also described as hybrid vigor, for...
Although much research has been conducted, the genetic architecture of heterosis remains ambiguous. ...
Abstract: 【Objective 】 The purpose of this study is to probe the mechanism of heterosis of Brassica ...
Although utilization of heterosis has largely improved the yield of many crops worldwide, the underl...
Heterosis, the generally superior performance in hybrids compared to their inbred parents, is one of...
Plant hybrids are extensively used in agriculture to deliver increases in yields, yet the molecular ...
Heterosis refers to the superior performance of F1 hybrids over their respective parental inbred lin...
Heterosis is most frequently manifested by the substantially increased vigorous growth of hybrids co...
Background Heterosis is biologically important but the molecular basis of the phenomenon is poorly ...
Roots are complicated quantitative characteristics that play an essential role in absorbing water an...
Abstract Background Breeding rubber tree seedling with growth heterosis is vital for natural rubber ...
Heterosis, or hybrid vigor, contributes to superior agronomic performance of hybrids compared to the...
Heterosis-associated cellular and molecular processes were analyzed in seeds and seedlings of Arabid...
In order to study Brassica napus fatty acid (FA) metabolism and relevant regulatory networks, a syst...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
Breeders are empirically exploiting the phenomenon of heterosis, also described as hybrid vigor, for...
Although much research has been conducted, the genetic architecture of heterosis remains ambiguous. ...
Abstract: 【Objective 】 The purpose of this study is to probe the mechanism of heterosis of Brassica ...
Although utilization of heterosis has largely improved the yield of many crops worldwide, the underl...
Heterosis, the generally superior performance in hybrids compared to their inbred parents, is one of...
Plant hybrids are extensively used in agriculture to deliver increases in yields, yet the molecular ...
Heterosis refers to the superior performance of F1 hybrids over their respective parental inbred lin...
Heterosis is most frequently manifested by the substantially increased vigorous growth of hybrids co...
Background Heterosis is biologically important but the molecular basis of the phenomenon is poorly ...
Roots are complicated quantitative characteristics that play an essential role in absorbing water an...
Abstract Background Breeding rubber tree seedling with growth heterosis is vital for natural rubber ...
Heterosis, or hybrid vigor, contributes to superior agronomic performance of hybrids compared to the...
Heterosis-associated cellular and molecular processes were analyzed in seeds and seedlings of Arabid...
In order to study Brassica napus fatty acid (FA) metabolism and relevant regulatory networks, a syst...