Thumbnail Image

Thesis

Browse

Reset filters
Subject: Genetics and Plant Breeding × End date: 2021 × Type: Thesis × Thesis Type: M.Sc ×
Reset filters

Search Results

Now showing 1 - 9 of 73
  • Thumbnail Image
    ThesisItemOpen Access
    Marker assisted development of high yielding wheat combining disease resistance and premium quality
    (Punjab Agricultural University, Ludhiana, 2021) Pradeep Kumar; Sharma, Achla
    Development of end product specific wheat germplasm is the comparatively newer objective in wheat breeding programme. Wheat breeding programme in our country has mainly focused on yield and resistance breeding. There has been no dedicated chapati quality breeding programme in until recent past. The present study aimed to decipher the basis of chapati quality and to develop premium quality wheat germplasm carrying high levels of stripe rust resistance and leaf rust resistance through pyramiding of Lr57/Yr40 and Yr15 rust resistance genes in premium chapati quality background. Analysis of chapati quality traits in specially constituted core set of wheat genotypes at multilocations of the state revealed that the environment in which wheat is grown has significant effect on grain quality. The major components of chapati making quality include various components such as dough handling, chapati colour, texture, flavor, taste, sweetness pliability etc. and should be given due weightage for deriving a composite chapati score. Chapati quality traits protein content (0.143), hectoliter weight (0.278), thousand grain weight (0.474), sedimentation volume (0.194), gluten index (0.260), water absorption (0.359), puffing height (0.302) were found to be positively correlated with overall chapati score. The negative correlation was found for phenol score (-0.149), water loss after baking (-0.198) and water loss after 4 hour (-0.380) with chapati score. The farinographic traits showed genotypic difference among genotypes. Identification and selection based on quick and reliable traits in segregating populations of targeted crosses is very important to develop germplasm with specific quality traits. In the segregating population, the F2 and F3 homozygous pyramided plants were identified for both the genes Lr57/Yr40 and Yr15 using KASP and SSR markers, respectively. The plants homozygous for both of the genes were further analyzed for agronomic and quality traits.
  • Thumbnail Image
    ThesisItemOpen Access
    Characterization of celery (Apium graveolens L.) genotypes for economic traits
    (Punjab Agricultural University, Ludhiana, 2021) Mandeep Singh; Nara, Usha
    Celery (Apium graveolens L.) is one of the important crops in Apiaceae family. It is cultivated worldwide for food as well as for use in pharmaceutics as it is an excellent source of vitamins, phenolic compounds, volatile oils and other nutrients. Identification of superior genotypes with improved biochemical and agronomic traits is essential to develop varieties for commercial cultivation. The present study focused on characterization of celery genotypes for economic traits. The performance of 20 celery genotypes over two locations during rabi 2019-20 and 2020-21 was investigated using GGE biplot analysis. The major factors influencing traits were genotypes, locations, as well as their interactions. Correlation analysis revealed a positive and significant association of seed yield with secondary branches and the number of umbels per plant. Biochemical profiling of microgreens, leaves, stalks and seeds of celery genotypes was carried out. Antioxidant activity (40.95 to 60.49%) and crude protein (28.81 to 39.94%) contents were highest in microgreens. The study revealed high content of total phenols (7.59 to 13.93 mg/g FW), total soluble sugars (20.49 to 27.77 mg/g FW), reducing sugars (10.24 to 14.83 mg/g FW), phosphorus (5.2 to 6.8 mg/g DW), iron (0.40 to 0.54 mg/g DW), copper (0.015 to 0.026 mg/g DW), ascorbic acid (0.70 to 1.77 mg/g DW), total soluble proteins (173.54 to 201.54 mg/g FW) and tocopherol (10.45 to 14.89 mg/g FW) in seeds. The concentration of total chlorophyll (1.03 to 1.54 mg/g FW), Chl a (0.80 to 1.45 mg/g FW), carotenoids (0.29 to 0.43 mg/g FW), non-reducing sugars (14.41 to 19.42 mg/g FW), and potassium (20.3 to 26.1 mg/g DW) were found highest in leaves harvested 60 DAT while that of Chl b (0.28 to 0.61 mg/g FW), zinc (0.11 to 0.19 mg/g DW), manganese (0.017 to 0.028 mg/g DW) were observed highest in leaves harvested 90 DAT. Highest contents of sodium (5.2 to 8.0 mg/g DW) and calcium (41.5 to 51.3 mg/g DW) were found in stalks harvested 60 DAT whereas crude fibre content (16.39 to 20.86%) was highest in stalks harvested 90 DAT. The study revealed the presence of total oil (17.30 to 24.05%) and essential oil (1.27 to 2.47%) in seeds of celery genotypes. Based on biochemical profiling and agronomic traits, four genotypes, namely, PAU3, PAU8, PAU16 and PAU18 were found superior in terms of seed yield and biochemical composition. Characterization of celery genotypes based on biochemical composition and yield components clustered them into four different groups.
  • Thumbnail Image
    ThesisItemOpen Access
    Identification of chromosomal regions associated with ear placement and related traits in maize (Zea mays L.)
    (Punjab Agricultural University, Ludhiana, 2021) Tejinder Singh; Gagandeep Singh
    In the present investigation, the genetic studies of ear height and its related traits were carried out by making crosses between two contrasting parents for ear height i.e, AKON40A (high ear placement) and LM23 (low ear placement) during spring 2020. The F1 hybrids were selfed to produce F2 population and backcrossed with both parents to generate BC1.1 and BC1.2 generations. Generation mean analysis was performed on all six generations i.e., P1, P2, F1, F2, BC1.1 and BC1.2 for the traits viz., plant height, ear height, no. of leaves, leaf width, node count, no. of cobs, days to anthesis, days to silking, 75% husk brown and internodal length. The significance of scaling tests for the all traits showed the presence of epistatic interactions. The genetic components revealed the presence of additive gene action, additive × additive and additive × dominance gene interaction for ear height and plant height. The variance due to environment was prevalent in both ear height and plant height. The numbers of factors governing ear height were estimated to be 236.0. Bulk segregant analysis was performed using 284 SSR markers spanning all 10 chromosomes of maize genome. Out of 146 SSR parental polymorphic markers, 9 markers were found to be polymorphic in contrasting bulks. On the basis of segregation analysis of these markers on F2 population linkage map was constructed. Three linkage groups were formed; first and third linkage group i.e., LG1 and LG3, consisted of 2 markers each, while the second linkage group consisted of 5 markers. LG1 spanned 26.9 cM on chromosome 3 while LG2 and LG3 spanned 42.1 and 6.7 cM on chromosome 6 and 7, respectively. In case of ear height, LOD score near 3 was observed on chromosome 6 between marker and phenotypic variance (R2) was 8.5, which revealed that there is a minor QTL between the SSR markers umc1979 and umc2317. On the basis of present study, recurrent selection can be utilized to improve source population for reducing ear placement by accumulating favorable alleles. Improved source population then can be utilized for inbred line development leading to maize hybrids having medium to low ear placement.
  • Thumbnail Image
    ThesisItemOpen Access
    Mapping of the Stripe rust resistance gene(s) in a nested RIL population of wheat
    (Punjab Agricultural University, Ludhiana, 2021) Harjap Singh; Mavi, Gurvinder Singh
    Wheat stripe rust, caused by the fungal pathogen Puccinia striiformis f. sp. tritici, is one of the most devastating diseases of wheat in China and causes serious yield losses. Resistance genes are urgently needed by wheat breeding programs to combat this disease. In the present study, genetic analysis of stripe rust resistance was conducted on segregated F3 and F4 populations derived from the cross of susceptible parent PBW 621 and resistant line IC529090 and IC445316. The results showed that the resistance of stripe rust was controlled by 2 genes. In addition, GBS of the parental lines PBW 621 and IC 445316 and the corresponding bulked pools derived from homozygous resistant or susceptible F4 lines was implemented to identify single-nucleotide polymorphism (SNPs).DNA was normalized and the pool of 10 resistant and the 10 susceptible plants was made. QTSeqR package (available in R) was utilized for the bulk-segregant analysis of yellow rust using two different methods GPrime and DeltaSNP. A straightforward pipeline for analysis has been designed with the plant breeder and geneticist in mind: (i) import SNP data, (ii) filter SNPs that may complicate analysis, (iii) perform BSAs, (iv) plot results, and (v) export the data. A vignette with a stepby-step guide is available at https://github.com/bmansfeld/QTLseqr/blob/master vignettes/ QTLseqr.pdf. Nineteen (19) significant SNPs were identified by the Gprime method and 3 significant SNPs by the Delta SNP method and the 3 significant SNPs by both the Gprime and the delta SNP method. Novelty of the identified genes an be confirmed with further genetic analysis which can then be useful to broaden the narrow rust resistance spectrum in hexaploid wheat.
  • Thumbnail Image
    ThesisItemOpen Access
    Marker assisted development of high yielding wheat combining disease resistance and premium quality
    (Punjab Agricultural University, Ludhiana, 2021) Pradeep Kumar; Sharma, Achla
    Development of end product specific wheat germplasm is the comparatively newer objective in wheat breeding programme. Wheat breeding programme in our country has mainly focused on yield and resistance breeding. There has been no dedicated chapati quality breeding programme in until recent past. The present study aimed to decipher the basis of chapati quality and to develop premium quality wheat germplasm carrying high levels of stripe rust resistance and leaf rust resistance through pyramiding of Lr57/Yr40 and Yr15 rust resistance genes in premium chapati quality background. Analysis of chapati quality traits in specially constituted core set of wheat genotypes at multilocations of the state revealed that the environment in which wheat is grown has significant effect on grain quality. The major components of chapati making quality include various components such as dough handling, chapati colour, texture, flavor, taste, sweetness pliability etc. and should be given due weightage for deriving a composite chapati score. Chapati quality traits protein content (0.143), hectoliter weight (0.278), thousand grain weight (0.474), sedimentation volume (0.194), gluten index (0.260), water absorption (0.359), puffing height (0.302) were found to be positively correlated with overall chapati score. The negative correlation was found for phenol score (-0.149), water loss after baking (-0.198) and water loss after 4 hour (-0.380) with chapati score. The farinographic traits showed genotypic difference among genotypes. Identification and selection based on quick and reliable traits in segregating populations of targeted crosses is very important to develop germplasm with specific quality traits. In the segregating population, the F2 and F3 homozygous pyramided plants were identified for both the genes Lr57/Yr40 and Yr15 using KASP and SSR markers, respectively. The plants homozygous for both of the genes were further analyzed for agronomic and quality traits.
  • Thumbnail Image
    ThesisItemRestricted
    Fine mapping of known QTL region for yellow mosaic disease resistance in soybean (Glycine max L. Merrill)
    (Punjab Agricultural University, Ludhiana, 2021) Meghana D P; Gill, B.S.
    A set of one hundred and forty-eight RILs were derived from the cross of SL958 (R) × AGS456 (S) with an aim to fine map the known QTL region for yellow mosaic disease resistance and to evaluate for grain yield and component traits were grown in the field during kharif, 2020. The experimental material was sown in randomised block design in three replications. Observations on yield and its component characters were recorded along with the YMD score. All the 148 RILs segregated in all YMD infection categories. Analysis of variance showed the presence of significant variation in RILs for all the characters recorded. Seed yield was found to have highest GCV, PCV and genetic advance. Plant height was found to be highly heritable. Seed yield recorded significant and positive correlation with number of seeds per pod, number of pods per plant, harvest index, 100-seed weight, days to 50% flowering and plant height. The results of path coefficient analysis indicated that number of pods per plant and number of seeds per pod have highest and positive direct effect on seed yield. For fine mapping of known QTL region, a total of 187 SSR markers within the known QTL region were used for parental polymorphic studies and 43 markers were found to be polymorphic. Bulk segregant analysis was conducted with 43 polymorphic markers. Out of 43 markers, 20 markers showed polymorphic on both the resistant and susceptible bulks. One major QTL explaining 58% variation for YMD resistance was observed between the markers BARCSOYSSR_06_0718 and BARCSOYSSR_06_0684 (located at a distance of 2 cM on either sides of QTL region). Gene annotation revealed that begomovirus resistance associated genes i.e; SGS3 was present in the identified QTL. The SGS3 gene along with another begomovirus resistance gene i.e; RdRp1 were amplified on genomic DNA of AGS456 and SL958. The role of differential expression of these genes in compatible and incompatible soybean-MYMV interaction is further needed to be studied. The identified markers in chromosome 6 can facilitate marker assisted selection, provide a base for cloning of YMD resistance in soybean and also help in introgressing of YMD resistance into susceptible but well adapted and popular soybean varieties.
  • Thumbnail Image
    ThesisItemOpen Access
    Identification of maize genotypes tolerant to waterlogging and their characterization using rice orthologs
    (Punjab Agricultural University, Ludhiana, 2021) Thapa, Sittal; Garg, Tosh
    Waterlogging, second most important abiotic constraint after drought, leads to around 25-30% of production losses each year. Identification of suitable donor lines with tolerance against waterlogging and their genetic and morphological characterization is essential to develop varieties that can overcome the ill effects posed by excess soil moisture. The present study focused on identification of maize genotypes tolerant to waterlogging and their characterization using rice orthologs. A set of 119 different genotypes belonging to different heterotic pools along with Zea mays spp parviglumis were screened at pre-emergence and seedling stage (V2) against different duration of waterlogging. In response to waterlogging all morphological parameters showed significant decline over increased duration of waterlogging. Based on selection indices, multi trait stability index (MTSI) and survival data after nine days of waterlogging, lines selected for tolerance against waterlogging are EML 153, SE 503, EML 125, AVL13119, VL 1010764, I 168, I 204, AVL13056, PML 368, LM 17, Z. mays spp parviglumis, PML 373, PML 387, EML 285, JCY 20, I 170, I 185, I 172, PML 1228, PML 243, PML 28, EML 124, LM 6, I 185 and I 192.Waterlogging tolerance coefficient (WTC) for tolerant lines lies near or above one. Broadened anthesis silking interval (>5 days) was recorded for susceptible lines, while for tolerant lines it lie within the normal range of 3-5 days. Search for ortholog genes responsible for submergence tolerance in rice revealed no significant region for SNORKEL, but significant sequence similarity for two out of three coding sequences for Sub1A. Synthesis of gene specific primers and allelic survey study showed no significant allelic variation for these genes in studied genotypes. Gene expression study revealed significantly higher fold expression of these genes in tolerant lines (up to 15 folds) during early stage of waterlogging (3 days of waterlogging) suggesting their involvement in conferring tolerance against anaerobic growth condition. Population structure analysis revealed presence of three sub-populations in our available germplasm. An average Polymorphism Information Content (PIC) value of 0.503 was obtained for SSR markers used for the genetic diversity study. Marker Trait Association (MTA) revealed two markers umc-1021 and umc-2340 to be significantly associated with both root area (-log10p of 3.91) and root volume (-log10p of 11.34).
  • Thumbnail Image
    ThesisItemOpen Access
    Exploiting the Indian dwarf wheat (Triticum sphaerococcum) as an alternate height reducing system
    (Punjab Agricultural University, Ludhiana, 2021) Rushali; Srivastava, Puja
    The present investigation entitled as “Exploiting the Indian dwarf wheat (Triticum sphaerococcum) as an alternate height reducing system” was conducted with the overall goal to exploit the dwarfing genes available in T. sphaerococcum genotypes. The current study involved the morpho-physiological and molecular characterisation of the 31 T. sphaerococcum genotypes along with Sugar-free, Sonamoti and Nanhe Samrat and 11 other standard genotypes/cultivars from diverse eco-geographic regions. All the genotypes were evaluated for plant height and yield related traits. To study the effect of gibberellic acid (GA3) on seedling growth, all the genotypes were grown using cigar roll method in half MS media enriched with four different concentrations of GA3 0.1 μM, 1 μM, and 10 μM and data on 12 different seedling traits was recorded. Most of genotypes showed increase in seedling growth at 10 μM GA3. Based on response indexes for different sets of traits such as roots, shoots and coleoptile lengths, different sets of genotypes giving differential responses to GA3 were selected. Genotypes that showed maximum increase in seedling length may contain GA3 sensitive dwarfing gene and the genotypes which showed no or minimum response to GA3 may contain GA3 insensitive dwarfing gene or absence of dwarfing gene. Based on SSRs molecular diversity analysis among all the genotypes, 45 out of 76 primers showed high polymorphism giving a total of 167 alleles. Clustering analysis was performed on the basis of molecular analysis by preparing a dendrogram using UPGMA method of DARwin version 6.0.16. All the genotypes were clustered into two major clusters and one independent genotype (TS14). First major cluster was divided into three sub-clusters and one independent genotype (TS21). Second major cluster involved 8 genotypes. Based on the plant height data, genotypes of T. sphaerococcum (TS10, TS13, TS16, TS24 and Nanhe Samrat) were selected for genetic segregation study. Genetic inheritance studies were then conducted using F2 populations derived from 10 different crosses which showed different phenotypic ratios including 1:4:6:4:1 and 1:2:1 inferring the segregation of different sets of genes regulating plant height in the genotypes studied. Further genetic studies can be planned to identify the novel dwarfing genes (both sensitive and insensitive to GA3) present in these genotypes.
  • Thumbnail Image
    ThesisItemOpen Access
    Induction of somaclonal variation in bajra (Pennisetum glaucum (L.) R. Br.) x napier grass (Pennisetum purpureum Schum.) hybrid through tissue culture
    (Punjab Agricultural University, Ludhiana, 2021) Sidhu, Navjot Singh; Tarvinder Pal Singh
    The present study was conducted with a major objective of standardization of protocol for callus induction, shoot and root induction and elongation in Bajra × Napier grass hybrids and parents and regeneration of plants from long maintained calli and further molecular, morphological and biochemical characterization of regenerated plants. Optimal medium identified for callus induction and its sub culture was MS + 2,4-D (2 mg/l) + BAP (0.5 mg/l). For shoot regeneration and elongation MS + BAP (2 mg/l) + NAA (0.1 mg/l) was found to be most effective. Optimal medium for root induction was ½ MS containing 25 ml stock I, 10 ml of stock II and stock III each and remaining supplements according to 1 litre medium composition. Calli were sub cultured at 21 days interval for 6 months. Maximum callus induction was 75.60% in PCB 164 whereas Capricorn showed least callus response towards callusing (12.64). BNH 11 produced maximum (50%) embryogenic callus whereas minimum embryogenic callus was observed in PCB 164 (11.29%). Plantlets were then regenerated from long maintained calli and hardening was performed for 7 days and plants transferred to field in and augmented design. PCB 164 showed maximum per cent of shoot and root induction with values 33.33 and 100% respectively. Albino plants were only seen for PBN 346 (12.04%). DNA was isolated from field grown regenerated plants and amplified using 17 SSR primers of Pearl millet. Somaclones were identified on the basis of change in banding pattern from parental checks. Total of 32 somaclones were identified based upon 5 primers viz. Xcump010, Xctm10, Psmp2085, Psmp2008 and Xpsmp2248 that were polymorphic. PBN 346-7 showed change in banding pattern for maximum number (3) of markers. ANOVA analysis revealed significant mean sum of squares for control versus augmented. Correlation was calculated using Pearson coefficient method and significant correlation was found among different traits. Principle component analysis (PCA) revealed that PC1 and PC 2 accounted for 96.9% variability. Clustering of 103 genotypes was performed using Euclidean dissimilarity index on ‘R’ software that revealed high variation among PBN 346 and BNH 11 genotypes. Based on significant difference of value of different traits from their respective checks; Somaclones identified on the basis of NOL, NOT, SG and IVDMD were 34, 51, 33 and 2 respectively in case of PBN 346 and 2, 2, 3 and 6 in case of BNH 11 somaclones. Somaclones showing maximum values for traits NOL, NOT, SG and IVDMD were PBN 346-56 (237.08), PBN 346-48 (54.83), PBN 346-22 (10.27 mm) and BNH 11-98 (53.71%) respectively. Among somaclones that were identified based on molecular data, number of somaclones showing significantly higher values than respective checks for specific traits were 12, 17, 10, 3 for NOL, NOT, SG, and IVDMD respectively. Common somaclones that were identified as somaclones on both molecular and phenotypic basis were 23 in number.