Add to ORKGDoubled haploid (DH) lines are used in maize breeding to accelerate the breeding cycle and create homogenous inbred lines in as little as two seasons. These pure inbred lines allow breeders to quickly evaluate new cross combinations. There are two important steps in creating DH lines: 1) generation and selection of haploid progeny, and 2) genome doubling to create fertile, diploid inbreds. Colchicine is widely used to artificially double genomes in haploid plants, which is hazardous, expensive, and time consuming. In this study, three public inbred lines A427, A637, and NK778 were found to have substantial haploid male fertility (HMF). A six-parent full diallel between these three HMF lines and three non-HMF lines was created and HMF was sc...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
The maize in vivo maternal doubled haploid (DH) system is an important tool used by maize breeders a...
Doubled haploid (DH) technology has changed the maize-breeding landscape in recent years. Traditiona...
The doubled haploid technology is now an integral component of modern maizebreeding programs. In thi...
Haploid genome doubling is a key limiting step of haploid breeding in maize. Spontaneous restoration...
The present study was carried out to develop doubled haploid lines using in-vivo maternal haploid in...
The creation of homozygous parental lines for hybrid development is one of the key components of com...
Maize breeding lines developed using doubled haploids produced through in vivo induction of maternal...
The implementation of modern inducer lines in maize breeding can substantially decrease the time req...
International audienceDoubled haploid (DH) technology produces strictly homozygous fertile plant tha...
The optimized method showed on average 5.6 times higher overall success rate (OSR) compared to the s...
haploid inducer line can be transferred (DH) technology can not only shorten the breeding process bu...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
The maize in vivo maternal doubled haploid (DH) system is an important tool used by maize breeders a...
Doubled haploid (DH) technology has changed the maize-breeding landscape in recent years. Traditiona...
The doubled haploid technology is now an integral component of modern maizebreeding programs. In thi...
Haploid genome doubling is a key limiting step of haploid breeding in maize. Spontaneous restoration...
The present study was carried out to develop doubled haploid lines using in-vivo maternal haploid in...
The creation of homozygous parental lines for hybrid development is one of the key components of com...
Maize breeding lines developed using doubled haploids produced through in vivo induction of maternal...
The implementation of modern inducer lines in maize breeding can substantially decrease the time req...
International audienceDoubled haploid (DH) technology produces strictly homozygous fertile plant tha...
The optimized method showed on average 5.6 times higher overall success rate (OSR) compared to the s...
haploid inducer line can be transferred (DH) technology can not only shorten the breeding process bu...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
<p>Large-scale application of the doubled haploid (DH) technology by in vivo haploid induction has g...
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