Marino Lara, Altabe Silvia, Colono Carolina Marta, Podio Maricel, Ortiz Juan Pablo Amelio, Balaban David, Stein Juliana, Spoto Nicolás, Acuña Carlos, Siena Lorena Adelina, Gerde José, Albertini Emidio, Pessino Silvina Claudia
Instituto de Investigaciones en Ciencias Agrarias de Rosario (IICAR-CONICET-UNR), Parque Villarino S/N, Z2125ZAA Zavalla, Rosario, Santa Fe, Argentina.
Instituto de Biología Molecular y Celular de Rosario (IBR-CONICET-UNR), 27 de Febrero 27 Bis, 2000, Rosario, Argentina.
Theor Appl Genet. 2024 Dec 8;138(1):2. doi: 10.1007/s00122-024-04788-6.
Transcriptomics- and FAME-GC-MS-assisted apomixis breeding generated Paspalum notatum hybrids with clonal reproduction and increased α-linolenic acid content, offering the potential to enhance livestock product's nutritional quality and reduce methane emissions A low omega-6:omega-3 fatty acid ratio is considered an indicator of the nutritional impact of milk fat on human health. In ruminants, major long-chain fatty acids, such as linoleic acid (18:2, omega-6) and α-linolenic acid (18:3, omega-3), originate from dietary sources and reach the milk via the bloodstream. Since forages are the primary source of long-chain fatty acids for such animals, they are potential targets for improving milk lipid composition. Moreover, a high 18:3 content in their diet is associated with reduced methane emissions during grazing. This work aimed to develop genotypes of the forage grass Paspalum notatum with high leaf 18:3 content and the ability for clonal reproduction via seeds (apomixis). We assembled diploid and polyploid Paspalum notatum leaf transcriptomes and recovered sequences of two metabolism genes associated with the establishment of lipid profiles, namely SUGAR-DEPENDENT 1 (SDP1) and PEROXISOMAL ABC TRANSPORTER 1 (PXA1). Primers were designed to amplify all expressed paralogs in leaves. qPCR was used to analyse SDP1 and PXA1 expression in seven divergent genotypes. Reduced levels of SDP1 and PXA1 were found in the polyploid sexual genotype Q4188. Fatty acid methyl esters/gas chromatography/mass spectrometry (FAME/GC/MS) assays confirmed an increased percentage of 18:3 in this genotype. Crosses between Q4188 and the obligate apomictic pollen donor Q4117 resulted in two apomictic F hybrids (JS9 and JS71) with reduced SDP1 and PXA1 levels, increased 18:3 content, and clonal maternal reproduction. These materials could enhance milk and meat quality while reducing greenhouse gas emissions during grazing.
转录组学和脂肪酸甲酯-气相色谱-质谱联用辅助的无融合生殖育种培育出了具有克隆繁殖能力且α-亚麻酸含量增加的巴哈雀稗杂交种,这为提高畜产品的营养品质和减少甲烷排放提供了潜力。低ω-6:ω-3脂肪酸比率被认为是乳脂肪对人体健康营养影响的一个指标。在反刍动物中,主要的长链脂肪酸,如亚油酸(18:2,ω-6)和α-亚麻酸(18:3,ω-3),来源于饮食,并通过血液循环进入乳汁。由于牧草是此类动物长链脂肪酸的主要来源,它们是改善乳脂成分的潜在目标。此外,它们饮食中高含量的18:3与放牧期间甲烷排放减少有关。这项工作旨在培育具有高叶片18:3含量且能通过种子进行克隆繁殖(无融合生殖)的牧草巴哈雀稗基因型。我们组装了二倍体和多倍体巴哈雀稗叶片转录组,并获得了与脂质谱建立相关的两个代谢基因的序列,即糖依赖型1(SDP1)和过氧化物酶体ABC转运蛋白1(PXA1)。设计引物以扩增叶片中所有表达的旁系同源物。使用定量聚合酶链反应(qPCR)分析了七个不同基因型中SDP1和PXA1的表达。在多倍体有性基因型Q4188中发现SDP1和PXA1水平降低。脂肪酸甲酯/气相色谱/质谱联用(FAME/GC/MS)分析证实该基因型中18:3的百分比增加。Q4188与专性无融合生殖花粉供体Q4117杂交产生了两个无融合生殖的F杂交种(JS9和JS71),其SDP1和PXA1水平降低,18:3含量增加,且具有克隆母本繁殖能力。这些材料可以提高牛奶和肉类质量,同时减少放牧期间温室气体排放
