Your search keyword '"Mastanbee Shaik"' showing total 5 results

1. Molecular mapping of QTLs for yield related traits in recombinant inbred line (RIL) population derived from the popular rice hybrid KRH-2 and their validation through SNP genotyping

Author

Kandasamy Ulaganathan, K. Pranathi, M. Anila, E Punniakoti, G. Rekha, Swapnil Ravindra Kulkarni, Manish K. Pandey, Raman Meenakshi Sundaram, M. B. V. N. Kousik, M. Ayyappa Das, Fiyaz Ra, P. Koteswara Rao, Sunil S. Gangurde, Mastanbee Shaik, G. Harika, K. Chaitra, P. Senguttuvel, R. R. Kale, Pragya Sinha, T. Dilip, M. Praveen, Divya Balakrishnan, S. K. Hajira, A. S. Hari Prasad, and Sena M. Balachandran

Subjects

Candidate gene, Genetic Linkage, Quantitative Trait Loci, Plant genetics, Population, lcsh:Medicine, Biology, Quantitative trait locus, Polymorphism, Single Nucleotide, Article, Chromosomes, Plant, Genetics, Computer Simulation, Inbreeding, education, lcsh:Science, Genotyping, Panicle, education.field_of_study, Multidisciplinary, lcsh:R, Chromosome Mapping, food and beverages, Epistasis, Genetic, Oryza, SNP genotyping, Epistasis, lcsh:Q, Plant sciences, Biotechnology, Microsatellite Repeats

Abstract

The study was undertaken to identify the quantitative trait loci (QTLs) governing yield and its related traits using a recombinant inbred line (RIL) population derived from the popular rice hybrid, KRH-2 (IR58025A/KMR3R). A genetic map spanning 294.2 cM was constructed with 126 simple sequence repeats (SSR) loci uniformly distributed across the rice genome. QTL analysis using phenotyping and genotyping information identified a total of 22 QTLs. Of these, five major effect QTLs were identified for the following traits: total grain yield/plant (qYLD3-1), panicle weight (qPW3-1), plant height (qPH12-1), flag leaf width (qFLW4-1) and panicle length (qPL3-1), explaining 20.23–22.76% of the phenotypic variance with LOD scores range of 6.5–10.59. Few genomic regions controlling several traits (QTL hotspot) were identified on chromosome 3 for total grain yield/plant (qYLD3-1) and panicle length (qPL3-1). Significant epistatic interactions were also observed for total grain yield per plant (YLD) and panicle length (PL). While most of these QTLs were observed to be co-localized with the previously reported QTL regions, a novel, major QTL associated with panicle length (qPL3-1) was also identified. SNP genotyping of selected high and low yielding RILs and their QTL mapping with 1,082 SNPs validated most of the QTLs identified through SSR genotyping. This facilitated the identification of novel major effect QTLs with much better resolution and precision. In-silico analysis of novel QTLs revealed the biological functions of the putative candidate gene (s) associated with selected traits. Most of the high-yielding RILs possessing the major yield related QTLs were identified to be complete restorers, indicating their possible utilization in development of superior rice hybrids.

Published

2020

2. Improvement of bacterial blight resistance of the popular variety, Nellore Mahsuri (NLR34449) through marker-assisted breeding

Author

Aleena, Dasari, Padma, Vemulapalli, Rekha, Gonuguntla, Dilip Kumar, Thota, Punniakotti, Elumalai, Kousik, Muppavarapu, Laxmi Prasanna, Butam, Swapnil Ravindra, Kulkarni, Pragya, Sinha, Harika, Gunukula, Ravindra Ramarao, Kale, Ayyappa Dass, Muralidhara, Hajira, Shaik, Anila, Miriyala, Pranathi, Karnati, Mastanbee, Shaik, Laha Gouri, Shankar, Srinivas Prasad, Madamsetty, Balachandran, Sena, Gireesh, Channappa, Anantha Madhavenkatapura, Siddaih, Venkata Subba Rao, Lella, Ratna Babu, Didla, Lal Ahamed, Mohammad, Venkata Ramana, Jagarlamudi, Vijay Gopal, Avula, and Raman Meenakshi, Sundaram

Subjects

Genetic Markers, Plant Breeding, Genetics, Oryza, Disease Resistance, Plant Diseases

Abstract

To combat the dreaded diseases in rice like bacterial blight (BB) and blast, host plant resistance has been advocated as the most suitable and sustainable method. Through the present study, we have successfully incorporated three major BB resistance genes, namely

Published

2022

3. Mapping novel QTLs for yield related traits from a popular rice hybrid KRH-2 derived doubled haploid (DH) population

Author

M. Anila, E Punniakoti, K. Chaitra, M. Ayyappa Das, Pragya Sinha, G. Rekha, A. S. Hari Prasad, S. K. Hajira, Raman Meenakshi Sundaram, Divya Balakrishnan, D. Aleena, Kandasamy Ulaganathan, Mastanbee Shaik, Swapnil Ravindra Kulkarni, K. Pranathi, Sena M. Balachandran, T. Dilip, Ravindra Ramarao Kale, and M. B. V. N. Kousik

Subjects

education.field_of_study, Population, Chromosome, Environmental Science (miscellaneous), Quantitative trait locus, Biology, Agricultural and Biological Sciences (miscellaneous), Horticulture, Grain weight, Inclusive composite interval mapping, Yield (chemistry), Doubled haploidy, Original Article, education, Biotechnology, Panicle

Abstract

A doubled haploid (DH) population consisting of 125 DHLs derived from the popular rice hybrid, KRH-2 (IR58025A/KMR3R) was utilized for Quantitative Trait Loci (QTL) mapping to identify novel genomic regions associated with yield related traits. A genetic map was constructed with 126 polymorphic SSR and EST derived markers, which were distributed across rice genome. QTL analysis using inclusive composite interval mapping (ICIM) method identified a total of 24 major and minor effect QTLs. Among them, twelve major effect QTLs were identified for days to fifty percent flowering (qDFF12-1), total grain yield/plant (qYLD3-1 and qYLD6-1), test (1,000) grain weight (qTGW6-1 and qTGW7-1), panicle weight (qPW9-1), plant height (qPH12-1), flag leaf length (qFLL6-1), flag leaf width (qFLW4-1), panicle length (qPL3-1 and qPL6-1) and biomass (qBM4-1), explaining 29.95–56.75% of the phenotypic variability with LOD scores range of 2.72–16.51. Chromosomal regions with gene clusters were identified on chromosome 3 for total grain yield/plant (qYLD3-1) and panicle length (qPL3-1) and on chromosome 6 for total grain yield/plant (qYLD6-1), flag leaf length (qFLL6-1) and panicle length (qPL6-1). Majority of the QTLs identified were observed to be co-localized with the previously reported QTL regions. Five novel, major effect QTLs associated with panicle weight (qPW9-1), plant height (qPH12-1), flag leaf width (qFLW4-1), panicle length (qPL3-1) and biomass (qBM4-1) and three novel minor effect QTLs for panicle weight (qPW3-1 and qPW8-1) and fertile grains per panicle (qFGP5-1) were identified. These QTLs can be used in breeding programs aimed to yield improvement after their validation in alternative populations. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s13205-021-03045-7.

Published

2021

4. QTL Mapping of Novel Genomic Regions for Yield Related Traits in Doubled Haploid (DH) Population Derived from the Popular Rice Hybrid KRH-2

Author

Swapnil Ravindra Kulkarni, Balachandran Sena Munuswamy, Ulaganathan K, Divya Balakrishnan, Hari Prasad A.S., Rekha G, Kousik MBVN, Aleena Dasari, Ravindra Ramarao Kale, Harika G, Anila M, Punniakoti E, Dilip T, Hajira SK, Pranathi K, Ayyappa Dass M, Mastanbee Shaik, Chaitra K, Pragya Sinha, Koteswara Rao P, and Sundaram RM

Subjects

fungi, food and beverages

Abstract

Background: Rice, being the principal food crop and major nutritional source for more than half of the global population, is also an important source of livelihood in many South and South-East Asian countries. Amidst diminishing natural resources and many biotic-abiotic stresses, increasing the yield of rice varieties remains a challenging task. Identification of novel and yield augmenting alleles from stable rice hybrids is crucial to facilitate their marker-assisted transfer into various genetic backgrounds. Results: Quantitative trait loci (QTL) mapping using a population of 125 doubled haploid (DH) lines developed from the cross IR58025A/KMR3R and 126 polymorphic SSR; EST-derived SSR markers led to the identification of 12 each of major-minor effect QTLs for yield related traits. Major effect QTLs were detected for traits namely days to fifty percent flowering, test (1,000) grain weight, plant height, panicle weight, panicle length, flag leaf width, flag leaf length, biomass and total grain yield/plant explaining the phenotypic variability in the range of 29.95%-56.75%. QTL hotspots were detected on chromosome 3 for the traits, panicle length and total grain yield/plant and on chromosome 6 for the traits, panicle length, flag leaf length and total grain yield/plant. Though many of these QTLs were noted to co-localize with the QTL regions reported in earlier studies, five novel and major effect QTLs for panicle length, biomass, flag leaf width, panicle weight, plant height and three novel minor effect QTLs for panicle weight and fertile grains per panicle, were identified in this study. Conclusions: Through this study, both major-minor effect novel QTLs for crucial yield related traits, viz., fertile grains per panicle, panicle length, panicle weight were identified. Further, the QTL hotspots identified on two different chromosomes for flag leaf length, panicle length and total grain yield/plant shall not only help in understanding the underlying genetic mechanisms of yield regulation but also would provide an insight into the genetic synchrony among the various yield related traits in contributing for yield heterosis. The identified QTL hotspots after their validation can be deployed in breeding programs targeted towards improvement of yield heterosis.

Published

2020

5. Improvement of bacterial blight resistance of the popular variety, Nellore Mahsuri, NLR34449 through marker-assisted breeding

Author

M. Anila, D. Aleena, S. M. Balachandran, Padma, Raman Meenakshi Sundaram, Mastanbee Shaik, Vijaya Gopal A, M. S. Prasad, Lal Ahamed M, G. Harika, R. R. Kale, Pragya Sinha, Kousik Mbvn, Hajira Sk, G. Rekha, Gouri Sankar Laha, K. Pranathi, Mira Das, L. V. Subbarao, E. Punniakotti, Ratna Babu D, T. Dilip, JV Ramana, R. K. Swapnil, and Laxmi prasanna B

Subjects

Resistance (ecology), business.industry, Bacterial blight, Biology, business, Biotechnology

Abstract

To combat the dreaded diseases in rice like bacterial blight and blast, host plant resistance has been advocated as a sustainable method. Through the present study, we have successfully incorporated three major bacterial blight (BB) resistance genes viz., Xa21, xa13 and xa5 into NLR3449, a high yielding, blast resistant, fine-grain type popular rice variety through marker-assisted backcross breeding. Foreground selection was carried out using PCR based, gene-specific markers viz., pTA248 (Xa21), xa13prom (xa13) and xa5FM (xa5) at each generation of backcrossing, while 127 polymorphic SSR markers spanning on 12 chromosomes were used for background selection and backcrossing was limited to two rounds. At BC2F1 generation, a single plant (NLR-87-10) with 89.9% recovery and possessing all the three bacterial blight resistance genes was forwarded to BC2F2 generation. A solitary BC2F2 plant viz., NLR-87-10-106 possessing all the three resistance genes and > 90% genome recovery was identified and advanced through selfing till BC2F4 generation by adopting pedigree method. Three best lines at BC2F4 lines, possessing high level of resistance against bacterial blight and blast and equivalent or superior to NLR 34449 in terms of yield, grain quality and agro-morphological traits have been identified and advanced for multi-location trials.

Published

2020