Newly Developed Restorer Lines of Sorghum [Sorghum bicolor (L.) Moench] Resistant to Greenbug.

Eight lines of grain sorghum [Sorghum bicolor (L.) Moench], which can be used as a promising source material in heterotic hybrid breeding as pollen fertility restorers and donors of resistance to the greenbug (Schizaphis graminum Rondani), are characterized. The new restorer lines (R-lines) were developed by crossing the maternal sterile line Nizkorosloe 81s (CMS A1) with two lines selected from the grain sorghum collection accessions VIR-928 and VIR-929 as the paternal forms. The R-lines were genotyped using PCR markers, and also characterized by height, duration of the seedling-flowering period, and some of the technological properties of flour. With the use of microsatellite markers linked to the Rf genes and by hybridological analysis, it was shown that the new lines carry the dominant allele of the gene Rf2. The PCoA analysis demonstrated clear differences of each R-line from the parents. The genotypes of the new lines and their parental forms for the Rf2 locus were confirmed by applying three allele-specific codominant CAPS markers which detected SNPs in the candidate Rf2 gene. All new lines were highly fertile, as demonstrated by cytological analysis of acetocarmine-stained pollen preparations. A high resistance to the greenbug was demonstrated for each new R-line both in the laboratory and field conditions against a severe aphid infestation. Grain quality parameters such as protein content and dough rheological properties varied widely and were quite satisfactory in some R-lines. Characteristics common to all eight sorghum lines studied, such as the ability to restore pollen fertility in the F1 generation, good pollen quality, greenbug resistance, early ripening, spreading panicle, and low stature, allow us to recommend them for producing commercial F1 hybrids with satisfactory grain quality for both fodder and food purposes.

Genotyping and lipid profiling of 601 cultivated sunflower lines reveals novel genetic determinants of oil fatty acid content.

BACKGROUND: Sunflower is an important oilseed crop domesticated in North America approximately 4000 years ago. During the last century, oil content in sunflower was under strong selection. Further improvement of oil properties achieved by modulating its fatty acid composition is one of the main directions in modern oilseed crop breeding. RESULTS: We searched for the genetic basis of fatty acid content variation by genotyping 601 inbred sunflower lines and assessing their lipid and fatty acid composition. Our genome-wide association analysis based on the genotypes for 15,483 SNPs and the concentrations of 23 fatty acids, including minor fatty acids, revealed significant genetic associations for eleven of them. Identified genomic regions included the loci involved in rare fatty acids variation on chromosomes 3 and 14, explaining up to 34.5% of the total variation of docosanoic acid (22:0) in sunflower oil. CONCLUSIONS: This is the first large scale implementation of high-throughput lipidomic profiling to sunflower germplasm characterization. This study contributes to the genetic characterization of Russian sunflower collections, which made a substantial contribution to the development of sunflower as the oilseed crop worldwide, and provides new insights into the genetic control of oil composition that can be implemented in future studies.

Nucleotide sequence polymorphism in the RFL-PPR genes of potato.

Cytoplasmic male sterility (CMS) is widely used for hybrid seed production in cultivated Solanaceae species. However, there is very limited information about CMS-Rf genetic systems in potato (Solanum tuberosum). Studying the CMS-Rf systems in potato is both of theoretical and practical significance due to the emergence of a new revolutionary strategy of reinventing potato as adiploid inbred line-based crop to develop F1 hybrid seed potato breeding (Lindhout et al. 2011; Jansky et al. 2016). To search for potato Rf gene candidates, the comparative genetic approach was applied. Based on similarity to petunia Rf-PPR592 gene, 38 fragments were identified in five loci of the whole-genome nucleotide sequence of the accession DM 1-3 516 R44 S. tuberosum Phureja group (https://blast.ncbi.nlm.nih.gov/Blast.cgi). The putative encoded mitochondrial proteins have 589-597 amino acid residues, similarto RF-PPR proteins of petunia and chili pepper and contain 14 or 15 PPR motifs. Primers have been developed flanking the most variable 782-865 bp regions of the selected loci, and polymorphism of the cloned fragments has been investigated in a subset of nine potato genotypes. The amplified fragments included seven or eight PPR motifs and lacked introns. The SNP frequencies ranged from 7.0 to 19.8% depending on the locus, while the ratio of nonsynonymous to synonymous substitutions varied between 0.9 and 2.1. Positions 1, 3 and 6 were the most variable in the studied PPR motifs. Our results demonstrated that the analysed sequences belong to the RFL-PPR gene subfamily and may be considered as Rf gene candidates in potato.