Mutation breeding

About: Mutation breeding is a research topic. Over the lifetime, 531 publications have been published within this topic receiving 6730 citations. The topic is also known as: variation breeding.

Development of source material for pea breeding through chemical mutagenesis and evaluation of its genetic diversity using SSR markers

Abstract: Background. Pea (Pisum sativum L.) is a valuable leguminous crop of worldwide importance. The main problem of modern plant breeding is a decrease in the genetic diversity of crops, including pea. One of the ways to increase genetic polymorphism is the use of chemically induced mutagenesis. Sodium azide (NaN3) is a highly effective chemical mutagen successfully used in mutation breeding to increase the productivity of cultivated plants and enrich them with new useful traits. We used it to obtain new pea breeding material.Materials and methods. Experiments were carried out to obtain pea mutants using sodium azide at the concentrations of 1, 5 and 10 mM and the exposure time of 3 and 9 h. Molecular genetic polymorphism of the М2 plants and the original cultivar was assessed using 10 SSR markers from the microsatellite genomic library (Agrogene®, France).Results. Optimal concentrations of sodium azide and the duration of seed treatment with it were identified: 1–5 mM for 3 h. Sixteen mutant populations were obtained; in ten of them a change in the leaf type was found. An analysis of the yield structure components revealed a significant superiority (p < 0.05) over the initial cultivar ‘Pamyati Khangildina’ in the mutant populations No. 1, No. 5, No. 9, No. 10, No. 15 and No. 16 in the number of seeds per pod, No. 9 and No. 16 in the weight of 1000 seeds, and No. 16 in the weight of seeds per plant. A dendrogram constructed on the basis of the SSR analysis data showed the degree of differences between the M2 populations of pea plants and the initial cultivar ‘Pamyati Khangildina’.Conclusion. The obtained mutant populations are planned to be used in pea breeding as sources of high seed numbers in pods, seed yield, seed weight per plant, and large seed size. A microsatellite analysis with 10 SSR markers revealed differences among the M2 mutant populations at the genetic level and made it possible to identify them.

Principal Component and Path Analysis for Trait Selection Based on the Assessment of Diverse Lentil Populations Developed by Gamma-Irradiated Physical Mutation

Abstract: Lentil is a notable legume crop valued for its high protein, vitamin, mineral, and amino acid (lysine and tryptophan) content. This crop has a narrow genetic base due to the formation of gene pool barriers during interspecific hybridization within and across species. Mutagenesis may be seen as a novel and alternative breeding technique for the production of new diversity. For the identification of new alleles, the creation of mutants followed by selection in subsequent generations would be necessary. Induction of mutation in lentil cv. Moitree by gamma rays therefore produced high variation for the majority of quantitative measures examined. Henceforth, principal component analysis (PCA) and path coefficient analysis were conducted to identify and exclude redundant mutant genotypes with similar traits as the success of breeding is dependent on understanding the relationship between morpho-agronomic traits and seed yield. As shown by the findings of this research, the total quantity of pods per mutant plant should be given considerable priority. The identified mutant genotypes, such as lines 24, 43, 28, 33, and 10, may be used as parents in future breeding or released directly following trials.

Induction of Chlorophyll and Morphological Mutations through Gamma Ray in Traditional Aromatic Cultivar Tulaipanja

Abstract: The induced mutation of the traditional aromatic cultivar may provide useful alternative or complement to natural variation which may be used directly in mutation breeding or as a source of germ plasm in hybridization programme. Induced mutations irradiated through gamma ray in aromatic cultivar Tulaipanja were studied for chlorophyll and other morphological characters in the M2 generation. The frequency of chlorophyll mutations was high in higher doses. Among the chlorophyll mutants studied, albina was the most frequent, followed by alboxantha, alboviridis, xantha, viridis and striata. The mutation efficiency and the mutagenic effectiveness of the mutagen is more in the lower dose. The semi-dwarf mutants were more prevalent followed by dwarf and semitall-I mutants. The number of height mutants is much more in lower dose than that of higher dose. Among the morphological mutants, a number of mutants with broom stick leaf and few mutants with grassy leaf, rolled leaf, striped leaf were obtained. Besides these, delayed flowering mutants were obtained in low frequency in both the doses while the early flowering mutants were obtained only in the lower dose. The desirable dwarf or semi-dwarf early flowering mutants may be utilized directly or for recombination breeding, whereas the high yielding lines screened may be used directly as aromatic cultivar provided if the performance in the later generation is good.