Your search keyword '"Senguttuvel, P."' showing total 35 results

1. Linkage mapping and quantitative trait loci detection for seedling vigor and grain size in advanced backcross introgression lines from wild accessions of Oryza nivara.

Author

Magudeeswari, P., Balakrishnan, Divya, Fukuta, Yoshimichi, Saito, Hiroki, Saitheja, D., Pranay, G., Padmashree, R., Barbadikar, Kalyani M, Badri, Jyothi, Senguttuvel, P., Sruthi, K., Ladhalakshmi, D., Padmavathi, G., Subbarao, L. V., Sundaram, R. M., and Sarla, N.

Abstract

Detection of beneficial genes from wild accessions of cultivated crops is becoming increasingly important for crop improvement, especially for traits lost during domestication. A set of wild introgression lines derived from advanced back cross breeding of Swarna with Oryza nivara species were characterized for grain size and seedling vigor related traits. Grain length in the population varied between 7.23 and 8.22 mm, while width varied from 2.66 to 3.13 mm. The length-to-width ratio (LWR) ranged from 2.41 to 3.06 mm, showing various grain shapes in the population. Simultaneously, seedling vigor-related traits were studied, and a significant correlation was observed between seedling vigor traits and grain size parameters. Further mapping of quantitative trait loci (QTL) using simple sequence repeat (SSR) and single nucleotide polymorphism (SNP) genotyping identified 18 QTL for seedling vigor- and grain size-related traits. Among these QTL, three major QTL (qAS7.1, qPL7.1 and qL7.1) were detected for grain size-related traits on chromosome 7, explaining 21.44%, 19.11% and 22.60% of phenotypic variation, respectively. Similarly, for seedling vigor traits, seven major QTL, viz., qSDW3.1, qTDW3.1, qSVI2-3.1, qSL3.1, qTL3.1, qSVI1-6.1, and qRDW8.1, were detected, explaining 18.3–26.38% of phenotypic variation. These QTL were on chromosomes 6 and 7 for seedling vigor and grain size traits and were collocated with common flanking markers. Hence, the results are useful for marker assisted breeding programmes for introgression and simultaneous improvement of seedling vigor and grain size, and further fine mapping of the related genes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genetic enhancement of reproductive stage drought tolerance in RPHR-1005R and derivative rice hybrids through marker-assisted backcross breeding in rice (Oryza sativa L.).

Author

Sravanraju, N., Beulah, P., Jaldhani, V., Nagaraju, P., HariPrasad, A. S., Brajendra, P., Sunitha, N., Sundaram, R. M., and Senguttuvel, P.

Abstract

Background: Drought stress is considered as one of the major production constraints in rice. RPHR-1005R is a restorer line (R-Line) with a popular, medium-slender grain type, and is the male parent of the popular Indian rice hybrid, DRR-H3. However, both the hybrid and its restorer are highly vulnerable to the drought stress, which limits the adoption of the hybrid. Therefore, the selection of the restorer line RPHR-1005R has been made with the objective of enhancing drought tolerance. Methods and results: In this study, we have introgressed a major QTL for grain yield under drought (qDTY 1.1) from Nagina22 through a marker-assisted backcross breeding (MABB) strategy. PCR based SSR markers linked to grain yield under drought (qDTY1.1 - RM431, RM11943), fertility restorer genes (Rf3-DRRM-Rf3-10, Rf4-RM6100) and wide compatibility (S5n allele) were deployed for foreground selection. At BC2F1, a single plant (RPHR6339-4-16-14) with target QTL in heterozygous condition and with the highest recurrent parent genome recovery (85.41%) and phenotypically like RPHR-1005R was identified and selfed to generate BC2F2. Fifty-eight homozygous lines were advanced to BC2F4 and six promising restorer lines and a hybrid combination (APMS6A/RPHR6339-4-16-14-3) were identified. Conclusions: In summary, the six improved restorer lines could be employed for developing heterotic hybrids possessing reproductive stage drought tolerance. The hybrid combination (APMS6A/RPHR6339-4-16-14-3) was estimated to ensure stable yields in drought-prone irrigated lowlands as well as in directly seeded aerobic and upland areas of India. [ABSTRACT FROM AUTHOR]

Published

2024

3. Physiological Changes and Evaluation of Saltol1 Introgressed Backcrossed Inbred Lines (BILs) for Early Seedling Stage Salinity Tolerance in Rice (Oryza sativa L.).

Author

Beulah, P., Manasa, Y., Karthika, G., Nagaraju, P., Jaldhani, V., Gobinath, R., Ramisetty, L., Arivin, M., Raghuraman, K. K., Sakhare, A. S., HariPrasad, A. S., Babu, V. Ravindra, Satya, A. Krishna, Sudhakar, P., Sundaram, R. M., and Senguttuvel, P.

Subjects

SALINITY, LOCUS (Genetics), SEEDLINGS, MINERAL analysis, ABIOTIC stress, RICE

Abstract

Salinity stress is a major abiotic stress to which rice is most sensitive at germination or early vegetative stages. Addressing a salinity tolerance in rice can be achieved with an effective way by employing of early seedling stage screening to narrow down a large set of germplasm with higher tolerance and key parameters can quantify tolerance level. Morpho-physiological changes were assessed for selected seven backcross inbred lines (BILs) possessing Saltol1 quantitative trait loci (QTL) of rice and their parents and checks, at early seedling stage under optimal salt concentration (120 mM NaCl). In the present study, morpho-physiological changes were assessed for selected seven backcross inbred lines (BILs) possessing Saltol1 QTL of rice and their parents and checks, at seedling stage subjected to 120 mM NaCl salt concentration. The seedling growth assessment, mineral analysis and important physiological growth characters were measured after 14 days of salt treatment to classify seven BILs into tolerant and sensitive groups. Among the screened seven ILs, IL3 showed susceptible reaction for hydroponic screening. Analysis of variance (ANOVA) revealed significant variation between improved lines, salinity treatment and their interaction for the studied traits. Salt stress affected growth parameters and important physiological traits in the studied ILs; however, the lowest reduction was observed in the tolerant groups. The tolerant group ILs also showed maintenance of low Na+, high K+ uptake and Na+/K+ ratio. The identified tolerant lines will be utilized in development of saline-tolerant heterotic hybrids and further evaluation under multi-location trial of All India Coordinated Rice Improvement Programme (AICRIP). [ABSTRACT FROM AUTHOR]

Published

2024

4. Genetic enhancement of reproductive stage drought tolerance in RPHR-1005R and derivative rice hybrids through marker-assisted backcross breeding in rice (Oryza sativa L.)

Author

Sravanraju, N., Beulah, P., Jaldhani, V., Nagaraju, P., HariPrasad, A. S., Brajendra, P., Sunitha, N., Sundaram, R. M., and Senguttuvel, P.

Abstract

Background: Drought stress is considered as one of the major production constraints in rice. RPHR-1005R is a restorer line (R-Line) with a popular, medium-slender grain type, and is the male parent of the popular Indian rice hybrid, DRR-H3. However, both the hybrid and its restorer are highly vulnerable to the drought stress, which limits the adoption of the hybrid. Therefore, the selection of the restorer line RPHR-1005R has been made with the objective of enhancing drought tolerance. Methods and results: In this study, we have introgressed a major QTL for grain yield under drought (qDTY 1.1) from Nagina22 through a marker-assisted backcross breeding (MABB) strategy. PCR based SSR markers linked to grain yield under drought (qDTY1.1 - RM431, RM11943), fertility restorer genes (Rf3-DRRM-Rf3-10, Rf4-RM6100) and wide compatibility (S5n allele) were deployed for foreground selection. At BC2F1, a single plant (RPHR6339-4-16-14) with target QTL in heterozygous condition and with the highest recurrent parent genome recovery (85.41%) and phenotypically like RPHR-1005R was identified and selfed to generate BC2F2. Fifty-eight homozygous lines were advanced to BC2F4 and six promising restorer lines and a hybrid combination (APMS6A/RPHR6339-4-16-14-3) were identified. Conclusions: In summary, the six improved restorer lines could be employed for developing heterotic hybrids possessing reproductive stage drought tolerance. The hybrid combination (APMS6A/RPHR6339-4-16-14-3) was estimated to ensure stable yields in drought-prone irrigated lowlands as well as in directly seeded aerobic and upland areas of India. [ABSTRACT FROM AUTHOR]

Published

2024

5. Improvement of bacterial blight resistance of the high yielding, fine-grain, rice variety, Gangavati sona through marker-assisted backcross breeding.

Author

Manoj, C. A., Muralidhara, B., Basavaraj, P. S., Honnappa, M., Ajitha, V., Aleena, D., Ishwaryalakshmi, V. G., Usha, G., Gireesh, C., Senguttuvel, P., Kemparaju, K. B., Rao, L. V. Subba, Basavaraj, K., Laha, G. S., Sundaram, R. M., Kumar, RMahender, Rathod, Santosha, Salimath, P. M., Lokesha, R., and Diwan, Jayateertha

Subjects

DRUG resistance in bacteria, RICE, RICE diseases & pests, MICROSATELLITE repeats, PLANT genes, GENOMES

Abstract

Gangavati sona (GS) is a high-yielding, fine-grain rice variety widely grown in the Tungabhadra command area in Karnataka, India; however, it is susceptible to bacterial blight (BB). Therefore, the present study was conducted to improve the GS variety for BB resistance. Three BB-resistant genes (xa5, xa13, and Xa21) were introgressed into the genetic background of susceptible cultivar GS through marker-assisted backcrossing (MABB) by using Improved samba Mahsuri (ISM), a popular, high-yielding, bacterial blight resistant rice variety as a donor parent. Foreground selection was carried out using gene-specific markers, viz., xa5FM (xa5), xa13prom (xa13), and pTA248 (Xa21), while background selection was carried out using well-distributed 64 polymorphic microsatellite markers. The true heterozygote F1 was used as the male parent for backcrossing with GS to obtain BC1F1. The process was repeated in BC1F1 generation, and a BC2F1 plant (IGS-5-11-5) possessing all three target genes along with maximum recurrent parent genome (RPG) recovery (86.7%) was selfed to obtain BC2F2s. At BC2F2, a single triple gene homozygote plant (IGS-5-11-5-33) with 92.6% RPG recovery was identified and advanced to BC2F5 by a pedigree method. At BC2F5, the seven best entries were selected, possessing all three resistance genes with high resistance levels against bacterial blight, yield level, and grain quality features equivalent to better than GS. The improved versions of GS will immensely benefit the farmers whose fields are endemic to BB. [ABSTRACT FROM AUTHOR]

Published

2023

6. Improvement of bacterial blight resistance of the high yielding, fine-grain, rice variety, Gangavati sona through marker-assisted backcross breeding.

Author

Manoj, C. A., Muralidhara, B., Basavaraj, P. S., Honnappa, M., Ajitha, V., Aleena, D., Ishwaryalakshmi, V. G., Usha, G., Gireesh, C., Senguttuvel, P., Kemparaju, K. B., Rao, L. V. Subba, Basavaraj, K., Laha, G. S., Sundaram, R. M., Kumar, RMahender, Rathod, Santosha, Salimath, P. M., Lokesha, R., and Diwan, Jayateertha

Subjects

DRUG resistance in bacteria, RICE, RICE diseases & pests, MICROSATELLITE repeats, PLANT genes, GENOMES

Abstract

Gangavati sona (GS) is a high-yielding, fine-grain rice variety widely grown in the Tungabhadra command area in Karnataka, India; however, it is susceptible to bacterial blight (BB). Therefore, the present study was conducted to improve the GS variety for BB resistance. Three BB-resistant genes (xa5, xa13, and Xa21) were introgressed into the genetic background of susceptible cultivar GS through marker-assisted backcrossing (MABB) by using Improved samba Mahsuri (ISM), a popular, high-yielding, bacterial blight resistant rice variety as a donor parent. Foreground selection was carried out using gene-specific markers, viz., xa5FM (xa5), xa13prom (xa13), and pTA248 (Xa21), while background selection was carried out using well-distributed 64 polymorphic microsatellite markers. The true heterozygote F1 was used as the male parent for backcrossing with GS to obtain BC1F1. The process was repeated in BC1F1 generation, and a BC2F1 plant (IGS-5-11-5) possessing all three target genes along with maximum recurrent parent genome (RPG) recovery (86.7%) was selfed to obtain BC2F2s. At BC2F2, a single triple gene homozygote plant (IGS-5-11-5-33) with 92.6% RPG recovery was identified and advanced to BC2F5 by a pedigree method. At BC2F5, the seven best entries were selected, possessing all three resistance genes with high resistance levels against bacterial blight, yield level, and grain quality features equivalent to better than GS. The improved versions of GS will immensely benefit the farmers whose fields are endemic to BB. [ABSTRACT FROM AUTHOR]

Published

2023

7. Assessment of reproductive stage drought tolerance using stress indices in improved restorer lines of KMR-3R in rice.

Author

Nagaraju, P., Beulah, P., Jaldhani, V., Manasa, Y., Madhusudan, N., Sundaram, R. M., Hariprasad, A. S., Sruthi, K., Sheshu Madhav, M., Kota, Suneetha, Kalyani, M. B., Mahender Kumar, R., Sreedevi, B., Rani, H. Surekha, Pawar, Smita C., Roja Rani, A., and Senguttuvel, P.

Subjects

HYBRID rice, DROUGHT tolerance, RICE, GRAIN yields, AGRONOMY, INTERLEUKIN-1

Abstract

Drought stress during the reproductive stage is an evident limitation of rice grain yield. The present study aimed to assess the reproductive stage drought tolerance of eight promising backcross inbred lines (BILs) with complete fertility restoration in the genetic background of KMR-3R. Various stress indices based on grain yield under Non-stress (NS) and drought-stress (DS) conditions were used to assess BILs drought tolerance potential. Based on correlation analysis, the best indices for determining drought-tolerant genotypes were K2STI, YI, HM, SNPI, GMP, and DTI. By ensuring stable performance, the indices K2STI and YI were crucial criteria in identifying DS genotypes. The stress-tolerant and susceptible genotypes were best differentiated under DS using the susceptible indices TOL and ATI, which had considerably low values. The IL-1, IL-2, and IL-7 (RP6340-NRR-5, RP6340-NRR-11, and RP 6340-NPVR-25) were identified as promising drought-tolerant genotypes based on lower grain yield reduction under DS. The improved restorers with drought tolerance performed well under DS in terms of agronomy, and it may be exploited in hybridization programs to develop elite drought-tolerant rice hybrids for unfavorable ecologies. [ABSTRACT FROM AUTHOR]

Published

2023

8. Genome-wide association studies in rice germplasm reveal significant genomic regions for root and yield-related traits under aerobic and irrigated conditions.

Author

Padmashree, Revadi, Barbadikar, Kalyani M., Honnappa, Magar, Nakul D., Balakrishnan, Divya, Lokesha, R., Gireesh, C., Siddaiah, Anantha M., Madhav, Maganti Sheshu, Ramesha, Y. M, Bharamappanavara, Muralidhara, Phule, Amol S., Senguttuvel, P., Diwan, J. R., Subrahmanyam, D., and Sundaram, Raman Menakshi

Subjects

GENOME-wide association studies, MICROSATELLITE repeats, RICE, GERMPLASM, EXCITATORY amino acids, GRAIN yields, PRINCIPAL components analysis, PHENOTYPIC plasticity

Abstract

The development of nutrient-use efficient rice lines is a priority amidst the changing climate and depleting resources viz., water, land, and labor for achieving sustainability in rice cultivation. Along with the traditional transplanted irrigated system of cultivation, the dry direct-seeded aerobic system is gaining ground nationwide. The root-related traits play a crucial role in nutrient acquisition, adaptation and need to be concentrated along with the yield-attributing traits. We phenotyped an association panel of 118 rice lines for seedling vigour index (SVI) traits at 14 and 21 days after sowing (DAS), root-related traits at panicle initiation (PI) stage in polythene bags under controlled aerobic condition, yield and yield-related traits under the irrigated condition at ICARIIRR, Hyderabad, Telangana; irrigated and aerobic conditions at ARS, Dhadesugur, Raichur, Karnataka. The panel was genotyped using simple sequence repeats (SSR) markers and genome-wide association studies were conducted for identifying marker-trait associations (MTAs). Significant correlations were recorded for root length, root dry weight with SVI, root volume at the PI stage, number of productive tillers per plant, spikelet fertility, the total number of grains per panicle with grain yield per plant under irrigated conditions, and the total number of grains per panicle with grain yield per plant under aerobic condition. The panel was divided into three sub-groups (K = 3) and correlated with the principal component analysis. The maximum number of MTAs were found on chromosomes 2, 3, and 12 with considerable phenotypic variability. Consistent MTAs were recorded for SVI traits at 14 and 21 DAS (RM25310, RM80, RM22961, RM1385), yield traits under irrigated conditions (RM2584, RM5179, RM410, RM20698, RM14753) across years at ICAR-IIRR, grain yield per plant (RM22961, RM1146) under the aerobic condition, grain yield per plant at irrigated ICAR-IIRR and SVI (RM5501), root traits at PI stage (RM2584, RM80, RM410, RM1146, RM18472). Functionally relevant genes near the MTAs through in-silico expression analysis in root and panicle tissues viz., HBF2 bZIP transcription factor, WD40 repeat-like domain, OsPILS6a auxin efflux carrier, WRKY108, OsSCP42, OsMADS80, nodulin-like domain-containing protein, amino acid transporter using various rice expression databases were identified. The identified MTAs and rice lines having high SVI traits (Langphou, TI-128, Mouli, TI-124, JBB-631-1), high yield under aerobic (Phouren, NPK-43, JBB-684, Ratnamudi, TI-112), irrigated conditions (KR-209, KR-262, Phouren, Keibi-Phou, TI-17), robust root traits like root length (MoirangPhou-Angouba, Wangoo-Phou, JBB-661, Dissi, NPK-45), root volume (Ratnachudi, KJ-221, Mow, Heimang-Phou, PUP-229) can be further employed in breeding programs for the targeted environments aimed at improving seedling vigour, yield-related traits under irrigated condition, aerobic condition as adaptability to water-saving technology. [ABSTRACT FROM AUTHOR]

Published

2023

9. Rice biofortification: breeding and genomic approaches for genetic enhancement of grain zinc and iron contents.

Author

Senguttuvel, P., G., Padmavathi, C., Jasmine, D., Sanjeeva Rao, C. N., Neeraja, V., Jaldhani, P., Beulah, R., Gobinath, J., Aravind Kumar, S. V., Sai Prasad, L. V., Subba Rao, A. S., Hariprasad, K., Sruthi, D., Shivani, R. M., Sundaram, and Govindaraj, Mahalingam

Subjects

BIOFORTIFICATION, RICE breeding, IRON, ZINC, DEFICIENCY diseases, RICE

Abstract

Rice is a highly consumed staple cereal cultivated predominantly in Asian countries, which share 90% of global rice production. Rice is a primary calorie provider for more than 3.5 billion people across the world. Preference and consumption of polished rice have increased manifold, which resulted in the loss of inherent nutrition. The prevalence of micronutrient deficiencies (Zn and Fe) are major human health challenges in the 21st century. Biofortification of staples is a sustainable approach to alleviating malnutrition. Globally, significant progress has been made in rice for enhancing grain Zn, Fe, and protein. To date, 37 biofortified Fe, Zn, Protein and Provitamin A rich rice varieties are available for commercial cultivation (16 from India and 21 from the rest of theworld; Fe > 10 mg/kg, Zn > 24mg/kg, protein > 10% in polished rice as India target while Zn > 28 mg/kg in polished rice as international target). However, understanding the micronutrient genetics, mechanisms of uptake, translocation, and bioavailability are the prime areas that need to be strengthened. The successful development of these lines through integratedgenomic technologies can accelerate deployment and scaling in future breeding programs to address the key challenges of malnutrition and hidden hunger. [ABSTRACT FROM AUTHOR]

Published

2023

10. Estimation of indica-tropical japonica genome proportion in wide compatible restorer lines derived through inter sub specific hybridization and molecular diversity analysis among rice genotypes.

Author

Ayeella, Pradeep Goud, Kanneboina, Sruthi, Senguttuvel, P., Revathi, P., Kemparaju, K. B., Balakrishnan, Divya, Madhav, Maganti Sheshu, Raman, Sundaram, Suresh, B. G., Beulah, P., Sulakunta, Aruna Sai, Krishna, Kuchibhotla Sai, and Hari Prasad, A. S.

Abstract

The present investigation was carried out to estimate indica-tropical japonica genome proportion in two newly developed wide compatible restorer lines (RP6367 and RP6368) derived through indica-tropical japonica crosses and to study the molecular diversity among 12 rice genotypes namely, five promising indica restorers (RPHR1005, RPHR1096, IBL57, DR714-1-2 and Akshayadhan), two maintainers (IR58025B and APMS6B), two newly identified wide compatible restorer lines (RP6367and RP6368), two typical tropical japonica lines (IRGC66651 and IRGC66577) and one typical indica genotype (Nagina22) using 50 SSR markers and 45 InDELs. Out of the 95 markers, 54 were found to be polymorphic. The genotypic data of 54 polymorphic markers was used to estimate indica-tropical japonica genome proportion in derived lines and molecular diversity among 12 genotypes. The percentage of tropical japonica genome proportion in derived lines RP6367 and RP6368 was found to be 50% and 55.55% respectively. Our results suggest that the proportion of tropical japonica in hybrid rice parental lines is the key to select the best parents for efficient utilization of the heterosis present between indica and tropical japonica subspecies. Out of the 54 markers, 19 markers recorded PIC value above 0.5 and can be considered as highly informative and useful to study molecular genetic diversity. In this study, the SSRs primers showed higher PIC values compared to InDels. It is concluded that the use of highly polymorphic molecular markers detected in this study gives a better understanding of genetic relationship among closely related rice genotypes. [ABSTRACT FROM AUTHOR]

Published

2023

11. Development and evaluation of introgression lines with yield enhancing genes of the Indian mega-variety of rice, MTU1010.

Author

Punniakotti, E., Kousik, MBVN., Chaitra, K., Harika, G., Kumar, T. Dilip, Vivek, G., Balachandran, S. M., Rekha, G., Aleena, D., Anila, M., Hajira, S. K., Mastanbee, S. K., Ayyappadass, M., Sinha, Pragya, Kale, Ravindra, Swapnil, K., Prasanna, B. Laxmi, Senguttuvel, P., Fiyaz, Abdul, and Kim, S. R.

Subjects

RICE, CROP improvement, PLANT yields, GENES, GRAIN yields, GENETIC transformation

Abstract

MTU 1010 is an early maturing and high-yielding mega rice variety widely grown in an area of 3 Mha. It is characterised by limited grain number and panicle branching. To improve the grain number in MTU 1010, an IRRI breeding line, IR121055-2-10-5 was utilized as donor to transfer yield-enhancing genes Gn1a and OsSPL14 (associated with increased grain number and better panicle branching, respectively) into MTU1010 by Marker-Assisted Backcross Breeding (MABB). At each backcross generation, foreground selection was carried out with Gn1a and OsSPL14- specific molecular markers, whilst background selection was done with a set of SSR markers polymorphic between the IR121055-2-10-5 and MTU1010. With the use of a gene-specific marker, homozygous BC2F2 plants carrying the yield-enhancing gene were identified and advanced through pedigree-method of selection till BC2F6 and best performing ten lines were selected and evaluated in replicated station trials for yield contributing traits, where grain number and brancing per panicle exhibited high significant and positive correlation with single plant yield. Three promising lines namely RP6353-5-8-13-24, RP6353-26-13-39-5 and RP6353-32-12-8-16 with higher grain number and yield than MTU1010 were identified and nominated for evaluation in Initial Varietal Trial-Aerobic (IVT-Aerobic) of All India Crop Improvement Programme on Rice (AICRP), of which RP6353-26-13-39-5 (IET28674), was promoted for further testing. [ABSTRACT FROM AUTHOR]

Published

2023

12. Improving blast resistance of maintainer line DRR 9B by transferring broad spectrum resistance gene Pi2 by marker assisted selection in rice.

Author

Singh, Arun Kumar, Ponnuswamy, Revathi, Srinivas Prasad, M., Sundaram, R. M., Hari Prasad, A. S., Senguttuvel, P., Kempa Raju, K. B., and Sruthi, K.

Abstract

Hybrid rice technology offers great promise to further enhance rice production and productivity for global food security. Improving hybrid rice parental lines is the first step in developing heterotic rice hybrids. To improve resistance against blast disease, a maintainer line DRR 9B was fortified with a major broad-spectrum blast resistance gene Pi2 through marker-assisted selection. The rice blast caused by Magnaporthe oryzae is a major disease and can cause severe yield losses upto 100%. The NILs of Samba Mahsuri namely BA-23-11-89-12-168 possessing Pi2 was utilized as a donor parent. The PCR-based molecular marker tightly linked to Pi2 gene was used for the foreground selection at BC1F1 generation. The molecular marker tightly linked to the major fertility restorer gene Rf4 was used for negative selection (i.e., selection of plants possessing non fertility restoring alleles) at BC1F1 generation to identify maintainer lines. The positive plants with Rf4 gene were added to the restorer pool for restorer line development. At each stage, MAS for Pi2 coupled with stringent phenotypic selection for agro-morphological and grain quality traits were exercised. At BC1F3 generation, one hundred families were screened against blast disease at uniform blast nursery (UBN) and selected resistant lines were advanced to next generations. In the BC1F5 generation plants were subjected to agro-morphological evaluation for yield and yield-contributing traits. The selected plants at BC1F5 generation were crossed with DRR 9A to assess the maintainer ability of blast resistance lines and for further CMS line conversion for hybrid rice breeding for developing blast resistance rice hybrids. [ABSTRACT FROM AUTHOR]

Published

2023

13. Genetic resources of sticky rice in India: status and prospects.

Author

Gautam, Raj K., Langyan, Sapna, Devi, S. Vimla, Singh, Rakesh, Semwal, D. P., Ali, Sharik, Mangat, G. S., Sarkar, Sutapa, Bagchi, Torit Baran, Roy, Somnath, Senguttuvel, P., Bhuvaneswari, S., Chetia, S., Tripathi, Kuldeep, Harish, G. D., Kumar, Ashok, and Singh, Kuldeep

Abstract

Glutinous rice or sticky rice (Oryza sativa L. var. glutinosa) is a special category of rice as it contains no gluten and therefore, is used as an important, gluten-free carbohydrate. The genetic resources on sticky rice are less documented due to limited consumption in India. Collection, evaluation and documentation of the glutinous rice are important for ensuring germplasm exchange, food security and sustainable agriculture across countries. Therefore, the study of glutinous rice distribution can partially fill the information gap for further policy making strategies of the nation. Therefore, the major objective of this review was to analyze and gather the information on distribution of glutinous rice, their genetic resources status and varieties released in order to map the glutinous rice heritage of the India. Therefore, this status paper documents all the comprehensive information available on sticky rice in India. [ABSTRACT FROM AUTHOR]

Published

2023

14. Studies on genetic divergence and screening of parental lines for Rf3 and Rf4 genes through molecular markers in hybrid rice (Oryza sativa L.).

Author

Prasanna, G., Eswari, K. B., Senguttuvel, P., Reddy, S. Narendar, Sundaram, R. M., Beaulah, P., and Veerendra, J.

Subjects

HYBRID rice, GENETIC testing, RICE, PLANT yields, GRAIN yields, GENETIC variation

Abstract

Sixty four parental lines of hybrid rice were evaluated for genetic divergence by taking into account of nine traits during two seasons of year 2018. By resolving the parental lines into ten groups, Ward's clustering method demonstrated the parental lines having significant genetic diversity. Cluster X had the most parental lines (13) out of all the clusters, followed by cluster II (12 genotypes). The parental line clusters IX, VIII, VII, V, and IV, which correspond to SD-5, SD-2, HSRV-16, GR-37, and SD-39, respectively, showed the significant degree of variability. Screening for fertility restoration was done in 64 parental lines with the help of SSR molecular markers. Among them, 44 potential restorers were identified (Rf4 and Rf3 present) with a hundred percentage efficiency supported molecular screening. The traits number of productive tillers per plant, length of the panicle and number of grains per panicle were significantly correlated with the trait grain yield per plant. Path analysis showed that the traits number of grains per panicle, the number of productive tillers per plant, test weight and panicle length had positive direct effects on grain yield and indicating that selection for these yield contributing traits could lead to an improvement in single plant yield as a whole. [ABSTRACT FROM AUTHOR]

Published

2022

15. Morphological and Molecular Approaches in Identification of Fertility Restorers Among Aerobic Lines of Rice (Oryza sativa L.).

Author

Srijan A., Senguttuvel P., Sundaram R. M., Jaldhani V., S., Sudheer Kumar, D., Srinivasa Chary, and Dangi, Kuldeep Singh

Subjects

GENOTYPES, RICE yields, ACREAGE allotments, HYBRID rice, SOIL fertility, POLYMERASE chain reaction

Published

2021

16. Evaluation of genotype by environment interaction and adaptability in lowland irrigated rice hybrids for grain yield under high temperature.

Author

Senguttuvel, P., Sravanraju, N., Jaldhani, V., Divya, B., Beulah, P., Nagaraju, P., Manasa, Y., Prasad, A. S. Hari, Brajendra, P., Gireesh, C., Anantha, M. S., Suneetha, K., Sundaram, R. M., Madhav, M. Sheshu, Tuti, M. D., Subbarao, L. V., Neeraja, C. N., Bhadana, V. P., Rao, P. R., and Voleti, S. R.

Subjects

RICE genetics, GENOTYPE-environment interaction, ECOLOGICAL genetics, DIFFERENTIAL susceptibility hypothesis, DEVELOPMENTAL stability (Genetics)

Abstract

Recent predictions on climate change indicate that high temperature episodes are expected to impact rice production and productivity worldwide. The present investigation was undertaken to assess the yield stability of 72 rice hybrids and their parental lines across three temperature regimes over two consecutive dry seasons using the additive main effect and multiplicative interaction (AMMI), genotype and genotype × environment interaction (GGE) stability model analysis. The combined ANOVA revealed that genotype × environment interaction (GEI) were significant due to the linear component for most of the traits studied. The AMMI and GGE biplot explained 57.2% and 69% of the observed genotypic variation for grain yield, respectively. Spikelet fertility was the most affected yield contributing trait and in contrast, plant height and tiller numbers were the least affected traits. In case of spikelet fertility, grain yield and other yield contributing traits, male parent contributed towards heat tolerance of the hybrids compared to the female parent. The parental lines G74 (IR58025B), G83 (IR40750R), G85 (C20R) and hybrids [G21 (IR58025A × KMR3); G3 (APMS6A × KMR3); G57 (IR68897A × KMR3) and G41 (IR79156A × RPHR1005)] were the most stable across the environments for grain yield. They can be considered as potential genotypes for cultivation under high temperature stress after evaluating under multi location trials. [ABSTRACT FROM AUTHOR]

Published

2021

17. Novel major QTLs associated with low soil phosphorus tolerance identified from the Indian rice landrace, Wazuhophek.

Author

Kale, Ravindra Ramrao, Durga Rani, Ch. V., Anila, M., Mahadeva Swamy, H. K., Bhadana, V. P., Senguttuvel, P., Subrahmanyam, D., Ayyappa Dass, M., Swapnil, K., Anantha, M. S., Punniakotti, E., Prasanna, B. Laxmi, Rekha, G., Sinha, P., Kousik, M. B. V. N., Dilip, T., Hajira, S. K., Brajendra, P., Mangrauthia, S. K., and Gireesh, C.

Subjects

WILD rice, PHOSPHORUS in soils, GENE mapping, PHENOTYPES, GRAIN yields, WATERLOGGING (Soils)

Abstract

With an objective of mapping novel low soil P (Phosphorus) tolerance loci in the non-Pup1 type donor rice line, Wazuhophek, we screened a recombinant inbred line (RIL) mapping population consisting of 330 lines derived from the cross Wazuhophek x Improved Samba Mahsuri (which is highly sensitive to low soil P) in a plot with low soil P for tolerance associated traits. Molecular mapping with SSR markers revealed a total of 16 QTLs (seven major and nine minor QTLs), which are associated with low soil P tolerance related traits. Interestingly, a QTL hotspot, harbouring 10 out of 16 QTLs were identified on the short arm of chromosome 8 (flanked by the makers RM22554 and RM80005). Five major QTLs explaining phenotypic variance to an extent of 15.28%, 17.25%, 21.84%, 20.23%, and 18.50%, associated with the traits, plant height, shoot length, the number of productive tillers, panicle length and yield, respectively, were located in the hotspot. Two major QTLs located on chromosome 1, associated with the traits, total biomass and root to shoot ratio, explaining 15.44% and 15.44% phenotypic variance, respectively were also identified. Complex epistatic interactions were observed among the traits, grain yield per plant, days to 50% flowering, dry shoot weight, and P content of the seed. In-silico analysis of genomic regions flanking the major QTLs revealed the presence of key putative candidate genes, possibly associated with tolerance. [ABSTRACT FROM AUTHOR]

Published

2021

18. Morphological and molecular screening of rice germplasm lines for low soil P tolerance.

Author

Kale, Ravindra Ramrao, Anila, M., Mahadeva Swamy, H. K., Bhadana, V. P., Durga Rani, Ch. V., Senguttuvel, P., Subrahmanyam, D., Hajira, S. K., Rekha, G., Ayyappadass, M., Laxmiprasanna, B., Punniakotti, E., Kousik, M. B. V. N., Kulkarni, Swapnil, Dilip, T., Sinha, Pragya, Harika, G., Pranathi, K., Chaitra, K., and Anantha., M. S.

Abstract

Phosphorus (P) is an essential macronutrient to all crops including rice and it plays a key role in various plant activities and development. Low availability of P in the soils negatively, influences rice crop growth and causes significant yield loss. In the present study, we characterized a set of 56 germplasm lines for their tolerance to low soil P by screening them at low soil P and optimum soil P levels along with low soil P tolerant and sensitive check varieties. These lines were genotyped for the presence/absence of tolerant allele with respect to the major low soil P tolerance QTL, Pup1, using a set of locus specific PCR-based markers, viz., K46-1, K46-2, K52 and K46CG-1. High genetic variability was observed for various traits associated with low soil P tolerance. The yield parameters from normal and low soil P conditions were used to calculate stress tolerance indices and classify the genotypes according to their tolerance level. Out of the total germplasm lines screened, 15 lines were found to be tolerant to low soil P condition based on the yield reduction in comparison to the tolerant check, but most of them harbored the complete or partial Pup1 locus. Interestingly, two tolerant germplasm lines, IC216831 and IC216903 were observed to be completely devoid of Pup1 and hence they can be explored for new loci underlying low soil P tolerance. [ABSTRACT FROM AUTHOR]

Published

2021

19. Identification and molecular characterization of high-yielding, blast resistant lines derived from Oryza rufipogon Griff. in the background of 'Samba Mahsuri' rice.

Author

Basavaraj, P. S., Muralidhara, Bharamappanavara, Manoj, C. A., Anantha, M. S., Rathod, Santosha, Raju, Ch. Damodar, Senguttuvel, P., Madhav, M. S., Srinivasaprasad, M., Prakasam, V., Basavaraj, K., Badri, Jyothi, Subbarao, L. V., Sundaram, R. M., and Gireesh, C.

Abstract

The wild species of rice, Oryza rufipogon, is a source of genetic variation for yield-enhancing traits and blast resistance. With the objective to genetically enhance the elite rice cultivar, 'Samba Mahsuri', a set of 192 BC2F2 and BC2F3 lines developed from O. rufipogon was characterized for yield-enhancing traits and blast resistance. The study revealed the presence of significant genetic variability and transgressive segregation for productive tillers, spikelets per panicle, and grain yield per plant. The study also identified several introgression lines superior to the recurrent parent for yield enhancing traits and blast resistance. Molecular characterization of 26 blast resistant lines identified multiple blast resistance genes in IL-136 [Pib, Pi9 (t), Pi54, Pi38, Pitp and Pi20(t)], IL-3 [Pib, Pi54, Pi38, Pitp and Pi20(t)], and IL-140 [Pib, Pi9(t), Pi54, Pi38, and Pitp]. Based on the performance of yield-enhancing traits and blast resistance, seven lines (IL-27, IL-28, IL-29, IL-72, IL-139, IL-158 and IL-171) showed merit. Estimation of the recovery of the recurrent parental genome by using 117 polymorphic SSR markers revealed that recurrent-parental genome recovery varied from 54.0 (IL-158) to 92.3% (IL-27). These promising, high-yielding introgression lines with multiple blast-resistance genes can serve as important genetic resources for yield and blast resistance improvement in rice, especially for the southern India. [ABSTRACT FROM AUTHOR]

Published

2021

20. Genetic variability, correlation and path coefficient analysis in segregating population of rice.

Author

Bhargava, K., Shivani, D., Pushpavalli, S. N. C. V. L., Sundaram, R. M., Beulah, P., and Senguttuvel, P.

Subjects

GENETIC variation, PATH analysis (Statistics), STATISTICAL correlation, PLANT yields, RICE

Abstract

A study was conducted to evaluate the genetic variability parameters, correlation and path coefficient analysis for eight yield related traits in segregating F2 population of an aerobic restorer AR 9-18 × YPK 198 (Donor for yield enhancing genes Gn1a and OsSPL14) at ICAR-IIRR, Hyderabad during the kharif, 2019. The results indicated that, productive tiller number, grain number per panicle and plant yield showed high PCV and GCV. Height of plant, productive tiller number, grain number per panicle and plant yield exhibited a high heritability and also high genetic advance as per cent of mean which indicates simple selection would be effective for enhancement of these traits. Correlation studies indicated that plant yield was associated significantly positive with height of plant, productive tiller number, length of panicle and grain number per panicle. High positive direct effect on plant yield was recorded by productive tiller number, grain number per panicle and height of plant. [ABSTRACT FROM AUTHOR]

Published

2021

21. Grain Fe and Zn content, heterosis, combining ability and its association with grain yield in irrigated and aerobic rice.

Author

Anusha, G., Rao, D. Sanjeeva, Jaldhani, V., Beulah, P., Neeraja, C. N., Gireesh, C., Anantha, M. S., Suneetha, K., Santhosha, R., Prasad, A. S. Hari, Sundaram, R. M., Madhav, M. Sheshu, Fiyaz, A., Brajendra, P., Tuti, M. D., Bhave, M. H. V., Krishna, K. V. Radha, Ali, J., Subrahmanyam, D., and Senguttuvel, P.

Subjects

MICRONUTRIENTS, PLANT breeding, GRAIN yields, HETEROSIS in plants, GERMPLASM

Abstract

Genetic improvement of rice for grain micronutrients, viz., iron (Fe) and zinc (Zn) content is one of the important breeding objectives, in addition to yield improvement under the irrigated and aerobic ecosystems. In view of developing genetic resources for aerobic conditions, line (L) × tester (T) analysis was conducted with four restorers, four CMS lines and 16 hybrids. Both hybrids and parental lines were evaluated in irrigated and aerobic field conditions for grain yield, grain Fe and Zn content. General Combining Ability (GCA) effects of parents and Specific Combining Ability (SCA) effects of hybrids were observed to be contrasting for the micronutrient content in both the growing environments. The grain Fe and Zn content for parental lines were negatively correlated with grain yield in both the contrasting growing conditions. However, hybrids exhibited positive correlation for grain Fe and Zn with grain yield under limited water conditions. The magnitude of SCA mean squares was much higher than GCA mean squares implying preponderance of dominance gene action and also role of complementary non-allelic gene(s) interaction of parents and suitability of hybrids to the aerobic system. The testers HHZ12-SAL8-Y1-SAL1 (T1) and HHZ17-Y16-Y3-Y2 (T2) were identified as good combiners for grain Zn content under irrigated and aerobic conditions respectively. [ABSTRACT FROM AUTHOR]

Published

2021

22. 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

Kulkarni, Swapnil Ravindra, Balachandran, S. M., Ulaganathan, K., Balakrishnan, Divya, Praveen, M., Prasad, A. S. Hari, Fiyaz, R. A., Senguttuvel, P., Sinha, Pragya, Kale, Ravindra R., Rekha, G., Kousik, M. B. V. N., Harika, G., Anila, M., Punniakoti, E., Dilip, T., Hajira, S. K., Pranathi, K., Das, M. Ayyappa, and Shaik, Mastanbee

Subjects

RECOMBINANT DNA, HYBRID rice, CROP yields, GENOMES, GENOTYPES

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. [ABSTRACT FROM AUTHOR]

Published

2020

23. Evaluation of genetic diversity of parental lines for development of heterotic groups in hybrid rice (Oryza sativa L.).

Author

Sruthi, K., Divya, B., Senguttuvel, P., Revathi, P., Kemparaju, K. B., Koteswararao, P., Sundaram, R. M., Singh, Vikram Jeet, Ranjith Kumar, E., Bhowmick, Prolay Kumar, Vinod, K. K., Gopala Krishnan, S., Singh, A. K., and Hari Prasad, A. S.

Abstract

Knowledge of genetic diversity and potential heterotic relationships among parental lines is of significant importance in hybrid rice breeding programs. In the present study, in order to understand the genetic diversity among 96 parental lines, they were characterized for their diversity with respect to their morphological traits (n = 12) and molecular markers using a set of 50 SSR markers. Morphological diversity was estimated using Mahalanobis D2 statistics in terms of generalized group distance. Based on morphological diversity analysis, the 96 lines were grouped into 5 major and 13 monogenotypic clusters. In molecular marker analysis, the parental lines were consistently clustered into B (Maintainer group) and R (Restorer group) groups based on distance and model based approaches. Strong correspondence was observed between the pedigree of parental lines with molecular genotyping based grouping than morphological trait based grouping. From the results of the present investigation, it is evident that the available diversity among the two groups i.e., maintainer group (B) and restorer group (R) is sufficient for developing heterotic hybrids, but within the maintainer and restorer groups, the diversity is limited, the diversity among restorers was moderate, while it was low among the maintainers and hence efforts are needed for broadening their genetic base of parental lines for development and adoption of high-yielding hybrids. [ABSTRACT FROM AUTHOR]

Published

2020

24. Marker-assisted pyramiding of major blast resistance genes in Swarna-Sub1, an elite rice variety (Oryza sativa L.).

Author

Patroti, Parashuram, Vishalakshi, B., Umakanth, B., Suresh, J., Senguttuvel, P., and Madhav, M. Sheshu

Subjects

RICE, RICE breeding, PYRAMIDS, PYRICULARIA oryzae, LIVESTOCK breeding, GENES

Abstract

Swarna-Sub1, a ruling submergence tolerant variety of rice, showed a significant decrease in the yield in major blast disease prone areas, which is caused by fungus Magnaporthe oryzae (Pyricularia oryzae). To overcome this problem, three major blast resistance genes viz., Pi1, Pi2, and Pi54 were pyramided through marker-assisted backcross breeding using donors, Swarna-LT (having Pi1 + Pi54) and Swarna-A51 (having Pi2). Foreground selection was carried out using molecular markers tightly linked to three blast resistance genes and also submergence tolerance for retaining the Sub1 gene in the recurrent parent. Based on disease resistance and agro-morphological performance of backcross-derived lines, we selected the best 25 plants of two- and three-gene pyramided BC3F2 homozygous lines with a maximum of ~ 93.5% recurrent parent genome and were further advanced to the BC3F5 generation. The stringent recurrent parent genome recovery analysis using SSR markers limited the linkage drag from a minimum of 0.2 Mb to a maximum of 2 Mb in all three-gene pyramided lines. The two and three blast resistance genes pyramided lines, i.e., SS30-24-82, SS30-24-73, and SS30-24-46, displayed a high level of blast resistance and submergence tolerance. The successful use of marker-assisted backcrossing strategy coupled with phenotypic selection helped in the development of Swarna-Sub1 lines having multiple blast resistance genes with superior agro-morphological and grain quality traits, which could serve as valuable genetic stocks in the rice breeding program. [ABSTRACT FROM AUTHOR]

Published

2019

25. Studies on root anatomy, morphology and physiology of rice grown under aerobic and anaerobic conditions.

Author

Phule, Amol S., Barbadikar, Kalyani M., Madhav, M. S., Subrahmanyam, D., Senguttuvel, P., Babu, M. B. B. Prasad, and Kumar, P. Ananda

Abstract

With the changing climate and rainfall abrasions, there is a gradual shift in the system of rice cultivation from traditional transplanted anaerobic to aerobic system. Studies on the root anatomical and morpho-physiological traits provide insights about the adaptation under aerobic conditions. We investigated the root anatomical and morpho-physiological traits in anaerobic (BPT 5204) and aerobic (CR Dhan 202) adapted rice genotypes grown under anaerobic and aerobic conditions. It was observed that the formation of fewer aerenchyma, thickened root and larger xylem area were critical anatomical traits associated with aerobic adaptation as compared to anaerobic conditions. The root length of CR Dhan 202 significantly increased under aerobic condition which may be attributed to its aerobic adaptation in terms of water acquisition. The photosynthetic rate was significantly higher in CR Dhan 202 as compared to that of BPT 5204 under the aerobic condition. The morpho-physiological results showed that the root length, total dry weight and photosynthetic rate are the key parameters for imparting aerobic adaptation. These root anatomical and morpho-physiological traits associated with the adaptation can be used as screening criteria for phenotyping and selection of genotypes suitable for aerobic system of cultivation. Such study is expected to expedite the development of rice aerobic varieties in aerobic breeding programmes. [ABSTRACT FROM AUTHOR]

Published

2019

26. A protocol for rapid screening of rice lines for seedling stage salinity tolerance.

Author

Rekha, G., Padmavathi, G., Abhilash, V., Kousik, M. B. V. N., Balachandran, S. M., Sundaram, R. M., and Senguttuvel, P.

Subjects

SOIL salinity, PLANT growth, SEEDLINGS, AGRICULTURAL productivity, CROP yields

Abstract

Identification of tolerant genotypes based on phenotypic screening is one of the foremost requirements for studying genetics and molecular mapping of salinity tolerance trait in rice. For this to be accomplished efficiently, development of an efficient, reproducible, simple mass-screening protocol is imperative. The present study involves the development and validation of a modified, rapid, and reproducible protocol using sterilized silica sand as a base for growing the rice seedlings in the nutrient media replacing the generally deployed hydroponics based screening protocol where styrofoam is used as a base for seedling growth. Pre-germinated seeds were sown on silica sand filled plastic trays in three replications and modified Yoshida nutrient solution was periodically added for the first 21 days and appropriate quantities of NaCl was added to salinize the medium in different concentrations (60mM, 80mM, 100mM and 120mM). After a week of exposure to salinity, the seedlings were scored phenotypically and parameters associated with tolerance were recorded. The protocol was initially tested with known saline tolerant and sensitive rice genotypes and further validated in a set of introgressed Improved Samba Mahsuri breeding lines, possessing the QTL Saltol, which confers seedling stage tolerance to salinity. The modified protocol was able to clearly discriminate salt tolerant rice lines from sensitive ones and was superior to the routinely adopted hydroponics based protocol in terms of being more robust, reproducible, requires less nutrient solution and facilitating easy handling in screening of genotypes. [ABSTRACT FROM AUTHOR]

Published

2018

27. Diverse Rice Landraces of North-East India Enables the Identification of Novel Genetic Resources for Magnaporthe Resistance.

Author

Umakanth, Bangale, Vishalakshi, Balija, Kumar, P. Sathish, Rama Devi, S. J. S., Bhadana, Vijay Pal, Senguttuvel, P., Kumar, Sudhir, Sharma, Susheel Kumar, Sharma, Pawan Kumar, Prasad, M. S., and Madhav, Maganti S.

Subjects

RICE blast disease, RICE genetics, DISEASE resistance of plants

Abstract

North-East (NE) India, the probable origin of rice has diverse genetic resources. Many rice landraces of NE India were not yet characterized for blast resistance. A set of 232 landraces of NE India, were screened for field resistance at two different hotspots of rice blast, viz., IIRR-UBN, Hyderabad and ICAR-NEH, Manipur in two consecutive seasons. The phenotypic evaluation as well as gene profiling for 12 major blast resistance genes (Pitp, Pi33, Pi54, Pib, Pi20, Pi38, Pita2, Pi1, Piz, Pi9, Pizt, and Pi40) with linked as well as gene-specific markers, identified 84 resistant landraces possessing different gene(s) either in singly or in combinations and also identified seven resistant landraces which do not have the tested genes, indicating the valuable genetic resources for blast resistance. To understand the molecular diversity existing in the population, distance and model based analysis were performed using 120 SSR markers. Results of both analyses are highly correlated by forming two distinct subgroups and the existence of high diversity (24.9% among the subgroups; 75.1% among individuals of each subgroup) was observed. To practically utilize the diversity in the breeding program, a robust core set having an efficiency index of 0.82 which consists of 33 landraces were identified through data of molecular, blast phenotyping, and important agro-morphological traits. The association of eight novel SSR markers for important agronomic traits which includes leaf and neck blast resistance was determined using genome-wide association analysis. The current study focuses on identifying novel resources having field resistance to blast as well as markers which can be explored in rice improvement programs. It also entails the development of a core set which can aid in representing the entire diversity for efficiently harnessing its properties to broaden the gene pool of rice. [ABSTRACT FROM AUTHOR]

Published

2017

28. Marker-assisted pyramiding of bacterial blight and gall midge resistance genes into RPHR-1005, the restorer line of the popular rice hybrid DRRH-3.

Author

Abhilash Kumar, V., Balachiranjeevi, C., Bhaskar Naik, S., Rekha, G., Rambabu, R., Harika, G., Pranathi, K., Hajira, S., Anila, M., Kousik, M., Kale, R., Dilip Kumar, T., Prasad, M., Hari Prasad, A., Padmakumari, A., Laha, G., Balachandran, S., Madhav, M., Senguttuvel, P., and Kemparajau, K.

Subjects

TRANSGENIC rice, RICE diseases & pests, XANTHOMONAS oryzae, REPEATED sequence (Genetics), GENE targeting

Abstract

Bacterial blight (BB) of rice caused by the pathogen Xanthomonas oryzae pv. oryzae and the insect gall midge (GM) ( Orseolia oryzae) are two major constraints of rice production. The present study was carried out to improve RPHR-1005, a stable restorer line of the fine-grain-type rice hybrid DRRH-3, for BB and GM resistance through marker-assisted backcross breeding (MABB). Two major GM resistance genes, Gm4 and Gm8, and a major BB resistance gene, Xa21, were selected as target genes for transfer to RPHR-1005. Two sets of backcrosses were carried out to combine either Xa21 + Gm4 or Xa21+ Gm8 into RPHR-1005 using breeding lines in the genetic background of ISM possessing either Gm4 or Gm8 along with Xa21. Foreground selection was performed for Xa21, Gm4, Gm8, and the major fertility restorer genes Rf3 and Rf4 using gene-specific markers, while 61 polymorphic simple sequence repeat (SSR) markers were used for background selection and marker-assisted backcrossing was continued until BC generation. A promising homozygous backcross-derived plant at the BCF generation possessing Xa21 + Gm4, and another possessing Xa21 + Gm8, were intercrossed to stack the target resistance genes. At ICF (inter-crossed F) , three promising lines possessing the three target resistance genes in a homozygous condition along with fine-grain type, complete fertility restoration, and better panicle exsertion than RPHR-1005 have been identified. Among these, a single line, # RPIC-16-65-125, showed better yield, was highly resistant to BB and GM, was of medium-slender grain type, and had complete fertility restoration along with better panicle exsertion and taller plant type than RPHR-1005. This is the first report of combining resistance against BB and GM in the genetic background of a hybrid rice parental line. [ABSTRACT FROM AUTHOR]

Published

2017

29. Development and validation of candidate gene-specific markers for the major fertility restorer genes, Rf4 and Rf3 in rice.

Author

Pranathi, K., Viraktamath, B. C., Neeraja, C. N., Balachandran, S. M., Hari prasad, A. S., Koteswara Rao, P., Revathi, P., Senguttuvel, P., Hajira, S. K., Balachiranjeevi, C. H., Bhaskar Naik, S., Abhilash, V., Praveen, M., Parimala, K., Kulkarni, S. R., Anila, M., Rekha, G., Koushik, M. B. V. N., Kemparaju, B., and Madhav, M. S.

Abstract

Two major nuclear genes, Rf3 and Rf4, are known to be associated with fertility restoration of wild-abortive cytoplasmic male sterility (WA-CMS) in rice. In the present study, through a comparative sequence analysis of the reported putative candidate genes, viz. PPR9-782-(M,I) and PPR762 (for Rf4) and SF21 (for Rf3), among restorer and maintainer lines of rice, we identified significant polymorphism between the two lines and developed a set of PCR-based codominant markers, which could distinguish maintainers from restorers. Among the five markers developed targeting the polymorphisms in PPR9-782-(M,I), the marker RMS-PPR9-1 was observed to show clear polymorphism between the restorer (n = 120) and maintainer lines (n = 44) analyzed. Another codominant marker, named RMS-PPR762 targeting PPR762, displayed a lower efficiency in identification of restorers and maintainers, indicating that PPR9-782-(M,I) is indeed the candidate gene for Rf4. With respect to Rf3, a codominant marker, named RMS-SF21-5 developed targeting SF21, displayed significantly lower efficiency in identification of restorers and non-restorers as compared to the Rf4-specific markers. Validation of these markers in a F2 mapping population segregating for fertility restoration indicated that Rf4 has a major influence on fertility restoration and Rf3 is a minor gene. Further, the functional marker RMS-PPR9-1 was observed to be very useful in identification of impurities in a seed lot of the popular hybrid, DRRH3. Interestingly, when RMS-PPR9-1 and RMS-SF21-5 were considered in conjunction with analysis, near-complete, marker–trait co-segregation was observed, indicating that deployment of the candidate gene-specific markers both Rf4 and Rf3, together, can be helpful in accurate identification of fertility restorer lines and can facilitate targeted transfer of the two restorer genes into elite varieties through marker-assisted breeding. [ABSTRACT FROM AUTHOR]

Published

2016

30. Comparative analysis of sequences of mitochondrial genomes of wild abortive male sterile (WA-CMS) and male fertile lines of rice, development of functional markers for WA-CMS trait and their use in assessment of genetic purity of seeds of WA-CMS lines.

Author

Pranathi, K., Viraktamath, B., Neeraja, C., Balachandran, S., Hariprasad, A., Koteswara Rao, P., Kulkarni, S., Senguttuvel, P., Hajira, S., Balachiranjeevi, C., Bhaskar Naik, S., Abhilash, V., Anila, M., Mahadevaswamy, H., Rekha, G., Madhav, M., Revathi, P., Harika, G., Dilip, T., and Kemparaju, B.

Subjects

RICE seeds, RICE breeding, GENETIC markers in plants, COMPARATIVE studies, PLANT development, PLANT genomes, PLANT mitochondria

Abstract

WA-CMS system based rice hybrids are widely adopted in many rice growing countries, including India. Even though it is well known that the trait is controlled by mitochondria, the genes underpinning the trait remain enigmatic. In the present study, a complete genome-wide comparative sequence analysis was performed using draft mitochondrial genomes of WA-CMS and male fertile lines in a step-wise manner, progressively covering 5-10 kb every time through BLASTN tool. The sequence polymorphisms identified in different mitochondrial regions were targeted to develop two different sets of dominant PCR-based markers, one consisting of six markers targeting WA-CMS mitochondria, the other set consisting of five markers targeting male fertile mitochondria in addition to development of a set of eight co-dominant PCR-based markers targeting both the genomes. When a set of candidate genes/ORFs reported earlier to be associated with WA-CMS trait in rice were analyzed through RT-PCR of RNA isolated from immature rice florets, it was observed that the chimeric ORF, WA352 is expressed only in WA-CMS line and hybrid (i.e. genotypes containing sterile mitochondria), indicating it's candidacy for the WA-CMS trait. Targeting the functional nucleotide polymorphism between WA-CMS and maintainer mitochondria with respect to WA352, two dominant markers, one targeting sterile and another targeting fertile mitochondria were developed. In addition, a robust, co-dominant functional marker targeting the candidate gene was also developed and validated for its utility in identification of genetic impurities in seed lots of WA-CMS lines. [ABSTRACT FROM AUTHOR]

Published

2016

31. Marker-assisted introgression of bacterial blight and blast resistance into DRR17B, an elite, fine-grain type maintainer line of rice.

Author

Balachiranjeevi, CH, Bhaskar, Naik S., Abhilash, V., Akanksha, S., Viraktamath, B. C., Madhav, M. S., Hariprasad, A. S., Laha, G. S., Prasad, M. S., Balachandran, S. M., Neeraja, C. N., Satendra Kumar, M., Senguttuvel, P., Kemparaju, K. B., Bhadana, V. P., Ram, T., Harika, G., Mahadeva Swamy, H. K., Hajira, S. K., and Yugander, A.

Abstract

DRR17A is a stable wild-abortive cytoplasmic male sterile line with medium-slender grain type. DRR17A and its maintainer line DRR17B are highly susceptible to two of the major rice diseases, bacterial blight (BB) and blast. To improve DRR17B for resistance against BB and blast, we have introgressed a major dominant gene each conferring resistance against BB (Xa21) and blast (Pi54) into the maintainer line through marker-assisted backcross breeding using RP-Bio-Patho-2 (a near-isogenic line of Samba Mahsuri possessing Xa21 and Pi54) as the donor parent. PCR-based molecular markers tightly linked to Xa21 and Pi54 were used for foreground selection of the resistance plants at each backcross generation, while molecular markers tightly linked to the major fertility restorer genes, Rf3 and Rf4, were used for negative selection (i.e. selection of plants possessing non-fertility-restoring alleles at the two loci) at BC1 generation. After foreground selection for the target genes at each backcross generation, the ‘positive’ plants were screened with parental polymorphic markers for identifying backcross plants possessing maximum recovery of DRR17B genome. Marker-assisted backcrossing was continued till BC3 generation, and a single BC3F1 plant possessing the target genes with ~94 % recovery of recurrent parent genome was identified and selfed to generate BC3F2s. A total of six homozygous BC3F2 plants were identified and advanced. At BC3F5, six promising, stable, backcross-derived lines possessing high level of resistance against BB and blast, high yield, short plant stature, fine-grain type, have been identified; their maintenance ability and heterotic potential validated through test crosses and these lines are being converted to CMS lines through marker-assisted breeding. [ABSTRACT FROM AUTHOR]

Published

2015

32. Differential response of rice seedlings to salt stress in relation to antioxidant enzyme activity and membrane stability index.

Author

Senguttuvel, P., Vijayalakshmi, C., Thiyagarajan, K., Sritharan, R., Geetha, S., KannanBapu, J.R., and Viraktamath, B.C.

Subjects

RICE seeds, SEEDLINGS, SOIL enzymology, SOIL salinity, ANTIOXIDANTS, NITRATE reductase, PLANT physiology

Abstract

Three rice genotypes, IR 74802, IR 73104 and IR 72593, along with FL 478 and IR 29 as resistant and susceptible controls, respectively, were subjected to 21 days' salinity stress at the seedling stage in modified yoshida solution with two salt levels (60 and 120 mM NaCl). The results indicated that there was a profound increase in proline and ascorbic acid levels, and in the activity of nitrate reductase and antioxidant enzymes, i.e. catalase, peroxidase and ascorbate peroxidase, as well as malondialdhyde and membrane stability index, which were associated with salt tolerance. Salt stress had a significant and drastic effect on all parameters when the salinity level increased to 120 mM NaCl. The increased enzyme activity was directly related to an increased membrane stability index, as in IR 72593, which is identified as the most tolerant among the genotypes tested. It is clearly confirmed that predicting tolerance at the early seedling stage is the best way to assess the salinity tolerance level by utilizing physiological parameters, especially antioxidant enzyme activities which are found to be closely associated with salinity tolerance. Physiological adaptation of the plant to NaCl salt stress resulted in enhanced activity of stress-related enzymes and low sodium uptake in tolerant genotypes. [ABSTRACT FROM PUBLISHER]

Published

2013

33. Marker-assisted pyramiding of major blast resistance genes in Swarna-Sub1, an elite rice variety (Oryza sativa L.).

Author

Patroti, Parashuram, Vishalakshi, B., Umakanth, B., Suresh, J., Senguttuvel, P., and Madhav, M. Sheshu

Subjects

RICE breeding, BLASTING, LIVESTOCK breeding, PYRICULARIA oryzae, RICE, GENES

Abstract

Swarna-Sub1, a ruling submergence tolerant variety of rice, showed a significant decrease in the yield in major blast disease prone areas, which is caused by fungus Magnaporthe oryzae (Pyricularia oryzae). To overcome this problem, three major blast resistance genes viz., Pi1, Pi2, and Pi54 were pyramided through marker-assisted backcross breeding using donors, Swarna-LT (having Pi1 + Pi54) and Swarna-A51 (having Pi2). Foreground selection was carried out using molecular markers tightly linked to three blast resistance genes and also submergence tolerance for retaining the Sub1 gene in the recurrent parent. Based on disease resistance and agro-morphological performance of backcross-derived lines, we selected the best 25 plants of two- and three-gene pyramided BC3F2 homozygous lines with a maximum of ~ 93.5% recurrent parent genome and were further advanced to the BC3F5 generation. The stringent recurrent parent genome recovery analysis using SSR markers limited the linkage drag from a minimum of 0.2 Mb to a maximum of 2 Mb in all three-gene pyramided lines. The two and three blast resistance genes pyramided lines, i.e., SS30-24-82, SS30-24-73, and SS30-24-46, displayed a high level of blast resistance and submergence tolerance. The successful use of marker-assisted backcrossing strategy coupled with phenotypic selection helped in the development of Swarna-Sub1 lines having multiple blast resistance genes with superior agro-morphological and grain quality traits, which could serve as valuable genetic stocks in the rice breeding program. [ABSTRACT FROM AUTHOR]

Published

2019

34. Expression profiling of immature florets of IR58025A, a wild-abortive cytoplasmic male sterile line of rice and its cognate, isonuclear maintainer line, IR58025B.

Author

Pranathi, K., Kalyani, M. B., Viraktamath, B. C., Balachandran, S. M., Hajira, S. K., Koteshwar Rao, P., Kulakarni, S. R., Rekha, G., Anila, M., Koushik, M. B. V. N., Senguttuvel, P., Hariprasad, A. S., Mangrautia, S. K., Madhav, M. S., and Sundaram, R. M.

Subjects

MALE sterility in plants, RESPIRATION, RICE breeding, HYBRID rice, MALE infertility, CELL respiration, RICE, GENE expression

Abstract

Interaction between gene products encoded by the cytoplasm and nucleus form the core of wild abortive cytoplasmic male sterile (WA-CMS) system of hybrid breeding in rice. Gaining insights into such interactions can be helpful in the development of better three-line rice hybrids and also identify novel male sterility systems. In the present study, the whole transcriptome profiles of immature florets of IR58025A, a WA-CMS line and its isonuclear maintainer line, IR58025B, collected at pre-anthesis stage were compared to delineate the pathways involved in pollen abortion and male sterility. Among the 774 differentially expressed transcripts (DETs), 496 were down regulated and 278 were up regulated in IR58025A compared to IR58025B. The genes associated with oxidative stress response, defense response, etc. were significantly up-regulated, while those associated with respiration, cell wall modifications, pectinesterase activity, etc. were significantly down-regulated in the WA-CMS line. Gene ontology and pathway enrichment analyses revealed the down-regulation of both nuclear and organellar genes involved in key metabolic processes of cell respiration, photosynthesis and other energy yielding metabolites in IR58025A, relative to IR58025B, indicating a general shift toward conservation of energy and other key resources in the florets of WA-CMS line. The data derived from RNA-Seq analysis were validated through qRT-PCR analysis. Based on the results obtained, it can be hypothesized that pollen abortion principally occurs due to up-regulation of pathways leading to oxidative stress leading to energy starvation conditions in consonance with reduced expression of genes associated with the cell wall formation, respiration, and other key metabolic processes. [ABSTRACT FROM AUTHOR]

Published

2019

35. Genes encoding membrane proteins showed stable expression in rice under aerobic condition: novel set of reference genes for expression studies.

Author

Phule, Amol S., Barbadikar, Kalyani M., Madhav, M. S., Senguttuvel, P., Babu, M. B. B. Prasad, and Ananda Kumar, P.

Subjects

GENE expression, RICE genetics, PROTEIN expression, MEMBRANE proteins, RICE varieties, PLANT roots, AEROBIC conditions (Biochemistry)

Abstract

A set of reference genes expressing stably under aerobic and anaerobic conditions in rice is essential to execute omics studies relating to aerobic adaptations. Stability of expression of ten rice reference genes, viz. Actin, eEF-1a, eIF-5C, Exp1, Exp2, Memp, SKP1A, TF-SUI1, TPH, and UBQ5 was validated across six experimental sets in shoot and root tissues at seedling, tillering, and panicle initiation stages. Comprehensively, Memp (Membrane protein), TPH (Tumor protein homolog), and Exp1 (Expressed protein) were revealed as the most stable set with acceptable M and V value according to the gold standards of qRT-PCR using various algorithms/tools. The identified set of reference genes was validated using root trait genes, which showed concurrence with the functional expression patterns in the aerobic and anaerobic adapted cultivars. The Memp (Membrane protein), TPH (Tumor protein homolog), and Exp1 (Expressed protein) genes are the most stable reference genes across the root and shoot at various developmental stages under aerobic and anaerobic conditions in rice. This is the first study for accurate and reliable relative gene expression analysis in rice grown in aerobic and anaerobic conditions. [ABSTRACT FROM AUTHOR]

Published

2018