评估向日葵(Helianthus annuus L.)的种群结构和形态分子特征,以鉴定优良种质。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-31 eCollection Date: 2024-01-01 DOI:10.7717/peerj.18205
Sampath Lavudya, Kalaimagal Thiyagarajan, Sasikala Ramasamy, Harish Sankarasubramanian, Senthivelu Muniyandi, Anita Bellie, Sushil Kumar, Susmitha Dhanapal
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引用次数: 0

摘要

向日葵(Helianthus annuus L.)以其适应性和高产潜力而著称,在全球食用油生产中至关重要。估计遗传多样性是作物育种中的一项关键的育种前活动。目前的研究包括 48 个基因型,这些基因型在 2022 年雨季期间在泰米尔纳德邦农业大学油籽系进行了生物测定。随后使用 103 个简单序列重复(SSR)标记对这些品系进行了分子多样性分析。结果表明,净核苷酸距离显示出不同的遗传差异,亚群 II 和 V 的遗传差异最大(0.056),I 和 IV 的遗传差异最小(0.014)。亚群 IV 的杂合度最高(0.352),而亚群 III 的杂合度最低,Fst 也较低(0.173)。采用主成分分析(PCA)和分层聚类分析来评估形态多样性,便于育种计划中的基因型分组和亲本选择。前四个成分累计占总变异的 86.72%。聚类分析根据遗传多样性将 48 个向日葵基因型分为三个类群。根据形态数据的平均表现,COSF 13B 以其高头径、高含油量、高出籽率和高出油率而脱颖而出。主坐标分析(PCoA)反映了邻接法的分组情况,前三个成分解释了 27.24% 的总变异。分子数据分析在种质中发现了五个不同的群组。通过将形态和分子标记数据与遗传距离分析相结合,发现了大量的多样性,其中基因型 RHA 273 和 GMU 325 始终表现出较高的单株产油量。基因型 GMU 477、GMU 450、COSF 13B、RHA 102、CMS 1103B 和 RHA GPR 58 已被确定为向日葵育种计划中提高含油量的合适亲本。这些发现还有助于选择用于基因型鉴定的 SSR 标记,以及为育种计划选择不同的亲本。
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Assessing population structure and morpho-molecular characterization of sunflower (Helianthus annuus L.) for elite germplasm identification.

Sunflower (Helianthus annuus L.), known for its adaptability and high yield potential, is vital in global edible oil production. Estimating genetic diversity is a key pre-breeding activity in crop breeding. The current study comprised of 48 genotypes which were assessed for their biometrical traits at department of Oilseeds, Tamil Nadu Agricultural University, during the rainy season of 2022. The lines were subsequently characterised using 103 simple sequence repeat (SSR) markers for molecular diversity analysis. The results indicated that the net nucleotide distances indicated varying genetic divergence, with subpopulations II and V showing the highest (0.056) and I and IV the lowest (0.014). Subpopulation IV exhibited the highest heterozygosity (0.352), while subpopulation III had the lowest heterozygosity and a low Fst (0.173). Principal components analysis (PCA) and hierarchical cluster analysis were employed for assessing the morphological diversity, facilitating genotype grouping and parent selection for breeding programs. The first four components cumulatively accounted for 86.72% of the total variation. Cluster Analysis grouped 48 sunflower genotypes into three clusters based on genetic diversity. COSF 13B stands out for its high head diameter, oil content, seed yield, and oil yield based on mean performance of morphological data. Principal coordinate analysis (PCoA) mirrored the groupings from the Neighbor Joining method, with the first three components explaining 27.24% of the total variation. Molecular data analysis identified five distinct clusters among the germplasm. By integrating morphological and molecular marker data with genetic distance analysis, substantial diversity was revealed with the genotypes RHA 273 and GMU 325 consistently demonstrated high oil yield per plant. The genotypes GMU 477, GMU 450, COSF 13B, RHA 102, CMS 1103B, and RHA GPR 58 have been identified as suitable parents for enhancing oil content in sunflower breeding programs. These findings also aid in selecting SSR markers for genotype characterization and in choosing diverse parents for breeding programs.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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