Browsing by Author "Anuragi, Hirdayesh"
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ThesisItem Open Access Morphological, Biochemical and Molecular Characterization of Different Genotypes of Annona species”(AAU, Anand, 2015) Anuragi, Hirdayesh; Dr. H. L. DhadukAnnona belongs to the family Annonaceae, which is mostly known for its edible fruits. Annona fruits are of the world's best tasting fruits due to their sweet, delicious, creamy flesh and fragrant flavor when fully ripe. Fruits contain proteins, fatty acids, fibres, carbohydrates, vitamin C, antioxidants and minerals such as calcium, phosphorous and potassium. Leaves and seeds are also potential source of secondary metabolites and antioxidants. A good amount of oil is present in seeds which can be useful for industrial purpose. Looking at the importance of Annona species, the present study was conducted with the aim of assessment of genetic variability in different genotypes of Annona species by morphological parameters, estimation of various biochemical parameters from fruits and seeds of Annona species and to study the molecular polymorphism in different genotypes of Annona species through RAPD and SSR markers.ThesisItem Open Access Studies on induced mutations in mungbean [Vigna radiata (L.) Wilczek] and identification of MYMIV resistant mutants using molecular makers(CCSHAU, Hisar, 2020-11) Anuragi, Hirdayesh; Yadav, RajeshMungbean (Vigna radiata L. Wilczek) is an economically important pulse crop of South-East Asia It is mostly liked in Indian diets due to its good palatability, easy digestibility and high nutritional quality. Unavailability of sufficient genetic variability is a major challenge for mungbean breeders. In this study, dry seeds of two mungbean varieties viz., MH 2-15 and MH 318 were mutagenized by 300, 400, 500 Gy of γ-rays and 0.2, 0.4 % EMS as well as their combination treatments and variability for various parameters were studied in M1, M2 and M3 populations during 2017-18 at CCS HAU, Hisar. In M1 generation, seed germination parameters like seed germination per cent, shoot and root length, seedling length, seedling fresh and dry weight, SVI-I and II, mean germination rate, synchronization index, germination index, coefficient of velocity of germination and speed of germination decreased whereas seed/seedling mortality, mean germination time and days to 50 % germination increased with the increase in concentration of both the mutagens under controlled lab and natural field conditions. LD50 values for γ-rays ranged from 488.47 to 694.28 Gy in MH 2-15 and 519.77 to 715.15 Gy in MH 318 and 0.35 to 0.69 % in MH 2-15 and 0.37 to 0.74 % in MH 318 for EMS under controlled lab and natural field conditions. The M2 population of 24,464 mutants were screened and a broad spectrum of chlorophyll mutants (1.08 %) like xantha>viridis>chlorina>albina and morphological mutants (1.98 %) with compact, bushy, erect, spreading, tall, dwarf nature, tetra-foliate, penta-foliate, elliptic, lanceolate, lobbed, wrinkled, round leaves, early maturing, late maturing, sterile plants and large, small, lobbed pods were observed. Mutagen exhibited non-linear reduction in effectiveness and efficiency with increase in concentration. Mutagenesis generated significant variability in seed yield and attributing traits. Based on correlation and path coefficient studies, number of pods plant-1, number of seeds pod-1 and 100-seed weight were observed to be important parameters for increasing seed yield plant-1. Overall, MH 2-15 was found to be more sensitive for mutagenic changes as compared to MH 318, whereas among mutagens, the combination treatments (γ-rays + EMS) have exhibited more shift in magnitude of all the parameters followed by EMS and γ-rays. In M3 generation, 64 MYMIV resistant mutants were identified with <1 % PDI through phenotypic screening which were further confirmed by amplification of YMD linked SSR markers viz., YR4, CYR1 and CEDG180. Twenty-two mutants were identified with true resistance based on marker assisted screening.