Add to ORKGIn this paper, a novel approach towards the prediction of hybrid performance and heterosis is presented. Here, we describe an approach based on: (i) the assessment of associations between AFLPÒ22 AFLPÒ is a registered trademark of Keygene N.V. ,33 The methylation AFLPÒ method is subject to a patent application filed by Keygene N.V. markers and hybrid performance and specific combining ability (SCA) across a set of hybrids; and (ii) the assumption that the joint effect of genetic factors (loci) determined this way can be obtained by addition. Estimated gene effects for grain yield varied from additive, partial dominance to overdominance. This procedure was applied to 53 interheterotic hybrids out of a 13 by 13 half-diallel among maize inbred...
Identification of quantitative trait loci (QTL) involved in the variation of hybrid value is of key ...
The identification of QTL involved in heterosis formation is one approach to unravel the not yet ful...
Understanding the genetic bases underlying heterosis is a major issue in maize (Zea mays L.). We ext...
In this paper, a novel approach towards the prediction of hybrid performance and heterosis is presen...
The objectives of this study were to determine the crossing performance of highland maize inbred lin...
Heterotic breeding strategies in maize (Zea mays L.) can be improved if high specific combining abil...
Heterosis is an important component of hybrid yield performance. Identifying high yielding hybrids i...
The objectives of this study were to (i) select lines from two tropical maize populations using gene...
Methylation AFLP® is a novel PCR-based method to detect methylation of restriction sites randomly ov...
Methylation AFLP® is a novel PCR-based method to detect methylation of restriction sites randomly ov...
Two sets of tropical maize inbred lines, one derived from the BR-105 population and another derived ...
Abstract We exploited the AFLP?1(AFLP? is a registered trademark of Keygene, N.V.) technique to map ...
Heterosis indicates the hybrid superiority over its parental lines and is often found for traits of ...
Dissecting the genetic basis of yield traits in hybrid populations and identifying the candidate gen...
Abstract Heterosis is widely exploited in plant breeding, although its molecular basis is still not ...
Identification of quantitative trait loci (QTL) involved in the variation of hybrid value is of key ...
The identification of QTL involved in heterosis formation is one approach to unravel the not yet ful...
Understanding the genetic bases underlying heterosis is a major issue in maize (Zea mays L.). We ext...
In this paper, a novel approach towards the prediction of hybrid performance and heterosis is presen...
The objectives of this study were to determine the crossing performance of highland maize inbred lin...
Heterotic breeding strategies in maize (Zea mays L.) can be improved if high specific combining abil...
Heterosis is an important component of hybrid yield performance. Identifying high yielding hybrids i...
The objectives of this study were to (i) select lines from two tropical maize populations using gene...
Methylation AFLP® is a novel PCR-based method to detect methylation of restriction sites randomly ov...
Methylation AFLP® is a novel PCR-based method to detect methylation of restriction sites randomly ov...
Two sets of tropical maize inbred lines, one derived from the BR-105 population and another derived ...
Abstract We exploited the AFLP?1(AFLP? is a registered trademark of Keygene, N.V.) technique to map ...
Heterosis indicates the hybrid superiority over its parental lines and is often found for traits of ...
Dissecting the genetic basis of yield traits in hybrid populations and identifying the candidate gen...
Abstract Heterosis is widely exploited in plant breeding, although its molecular basis is still not ...
Identification of quantitative trait loci (QTL) involved in the variation of hybrid value is of key ...
The identification of QTL involved in heterosis formation is one approach to unravel the not yet ful...
Understanding the genetic bases underlying heterosis is a major issue in maize (Zea mays L.). We ext...