2014
DOI: 10.3389/fpls.2014.00484
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Genotyping-by-sequencing (GBS), an ultimate marker-assisted selection (MAS) tool to accelerate plant breeding

Abstract: Marker-assisted selection (MAS) refers to the use of molecular markers to assist phenotypic selections in crop improvement. Several types of molecular markers, such as single nucleotide polymorphism (SNP), have been identified and effectively used in plant breeding. The application of next-generation sequencing (NGS) technologies has led to remarkable advances in whole genome sequencing, which provides ultra-throughput sequences to revolutionize plant genotyping and breeding. To further broaden NGS usages to l… Show more

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Cited by 519 publications
(399 citation statements)
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“…It indicated that P. equestris, has AT-rich genome with approximately 47,007 genes. In general, GC% in monocot plant ranges from 33.6 to 48.9% (Jiangfeng et al 2014). The GC% in the four orchids species in the present investigation indicates that they have little higher GC% that signifies complex genome architecture compared to other plant groups.…”
Section: Analysis Of Nucleotide Diversitymentioning
confidence: 54%
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“…It indicated that P. equestris, has AT-rich genome with approximately 47,007 genes. In general, GC% in monocot plant ranges from 33.6 to 48.9% (Jiangfeng et al 2014). The GC% in the four orchids species in the present investigation indicates that they have little higher GC% that signifies complex genome architecture compared to other plant groups.…”
Section: Analysis Of Nucleotide Diversitymentioning
confidence: 54%
“…Total sequence read was 553.3 Kbp in Geodorum (submitted to NCBI SRA archive with Table 1). The GC content was 35.95% in case of Phalaenopsis equestris based on whole genome sequencing report (Jiangfeng et al 2014) with genome size 1600 Mb (Diploid chromosome number 2n = 38, with 3.37 pg DNA/diploid genome). It indicated that P. equestris, has AT-rich genome with approximately 47,007 genes.…”
Section: Analysis Of Nucleotide Diversitymentioning
confidence: 99%
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“…In the latter category, individual marker loci are likely to be of limited value, as for most other forage species, due to a relative paucity of agronomic traits under simple genetic control. As genomic selection requires a very large number of sequence polymorphism evenly distributed across the entire genome, genotyping-by-sequencing (GBS) methods provide the method of choice [46]. A GBS methodology based on sampling of the expressed component of the genome by RNA-Seq has previously been reported [47].…”
Section: Applications To Genomics-assisted Breeding Of Phalarismentioning
confidence: 99%
“…These markers have been widely used for reliable and robust characterization of crop genetic resources (Godwin et al, 1997;Pejic et al, 1998;Smith et al, 2000;Wen et al, 2002;Uptmoor et al, 2003;Medraoui et al, 2007;Weerasooriya et al, 2016). With the development of high-throughput sequencing (or next-generation sequencing-NGS) technologies in recent years, marker techniques such as single nucleotide polymorphism (SNPs) and genotyping by sequencing (GBS) have become very useful for exploring the diversity within plant species, constructing haplotype maps and performing genome-wide association studies as well as genomicsassisted breeding (He et al, 2014). The exploitation of molecular markers in characterizing the variability of Ethiopian sorghums is very limited.…”
Section: Introductionmentioning
confidence: 99%