Your search keyword '"Rf4"' showing total 7 results

1. Efficiency of molecular markers in identifying fertility restoration trait of WA-CMS system in rice

Author

Revathi, P., Medoju, Pavani, Singh, Arun Kumar, Sundaram, R. M., Raju, Sravan, Senguttuvel, P., Kemparaju, K. B., Hariprasad, A. S., Ramesha, M. S., Neeraja, C. N., Rani, N. Shobha, and Viraktamath, B. C.

Published

2013

2. Marker-assisted improvement of the elite restorer line of rice, RPHR-1005 for resistance against bacterial blight and blast diseases.

Author

KUMAR, V., BALACHIRANJEEVI, C., NAIK, S., RAMBABU, R., REKHA, G., HARIKA, G., HAJIRA, S., PRANATHI, K., VIJAY, S., ANILA, M., MAHADEVASWAMY, H., KOUSIK, M., YUGANDER, A., ARUNA, J., HARI PRASAD, A., MADHAV, M., LAHA, G., BALACHANDRAN, S., PRASAD, M., and BABU, V.

Subjects

*RICE blast disease, *RICE breeding, *REPEATED sequence (Genetics), *HYBRID rice, RICE genetics

Abstract

This study was carried out to improve the RPHR-1005, a stable restorer line of the popular medium slender grain type rice hybrid, DRRH-3 for bacterial blight (BB) and blast resistance through marker-assisted backcross breeding (MABB). Two major BB resistance genes, Xa21 and Xa33 and a major blast resistance gene, Pi2 were transferred to RPHR-1005 as two individual crosses. Foreground selection for Xa21, Xa33, Pi2, Rf3 and Rf4 was done by using gene-specific functional markers, while 59 simple sequence repeat (SSR) markers polymorphic between the donors and recipient parents were used to select the best plant possessing target resistance genes at each backcross generation. Backcrossing was continued till BC F and a promising homozygous backcross derived line possessing Xa21 + Pi2 and another possessing Xa33 were intercrossed to stack the target resistance genes into the genetic background of RPHR-1005. At ICF , 10 promising lines possessing three resistance genes in homozygous condition along with fine-grain type, complete fertility restoration, better panicle exertion and taller plant type (compared to RPHR-1005) were identified. [ABSTRACT FROM AUTHOR]

Published

2016

3. 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

4. Marker-assisted introgression of the major bacterial blight resistance gene, Xa21 and blast resistance gene, Pi54 into RPHR-1005, the restorer line of the popular rice hybrid, DRRH3.

Author

Kumar, V., Balachiranjeevi, C., Naik, S., Rambabu, R., Rekha, G., Madhavi, K., Harika, G., Vijay, S., Pranathi, K., Hajira, S., Srivastava, A., Mahadevaswamy, H., Anila, M., Yugander, A., Aruna, J., Prasad, A., Madhav, M., Laha, G., Viraktamath, B., and Balachandran, S.

Abstract

The elite Indian rice hybrid, DRRH3 is highly susceptible to two major diseases, bacterial blight (BB) and blast, which limit its productivity significantly. In the present study, we have introgressed two major genes, viz., Xa21 and Pi54 conferring resistance against BB and blast, respectively into RPHR-1005, the male parent of DRRH3 through marker-assisted backcross breeding (MABB) and analyzed the backcross derived plants for their resistance against BB and blast. RPBio Patho-2 was used as a donor for both the resistance genes. Gene-specific markers were used for the foreground selection of Xa21 and Pi54 at each stage of backcrossing and markers specific for the major fertility restorer genes, Rf3 and Rf4 were used only at BCF generation for foreground selection . Background selection was done using 62 polymorphic SSR markers and marker-assisted backcrossing was continued till BC generation. At BCF, through intensive phenotype-based selections 15 promising lines (ABLs) possessing high level of resistance against BB and blast, high yield, fine-grain type, complete fertility restoration along with better panicle exsertion and taller plant type as compared to RPHR-1005 were identified and test crossed with APMS 6 A, the female parent of DRRH3. The newly derived hybrids (i.e. improved versions of DRRH3) were observed to possess high level of resistance against BB and blast along with medium-slender grain type and yield level better than or equivalent to that of DRRH3. Our study exemplifies the utility of MABB for targeted improvement of multiple traits in hybrid rice. [ABSTRACT FROM AUTHOR]

Published

2016

5. Development of Gene-Pyramid Lines of the Elite Restorer Line, RPHR-1005 Possessing Durable Bacterial Blight and Blast Resistance.

Author

Kumar, V. Abhilash, Balachiranjeevi, C. H., Naik, S. Bhaskar, Rambabu, R., Rekha, G., Harika, G., Hajira, S. K., Pranathi, K., Anila, M., Kousik, M., Kumar, S. Vijay, Yugander, A., Aruna, J., Kumar, T. Dilip, Rao, K. Vijaya Sudhakara, Prasad, A. S. Hari, Madhav, M. S., Laha, G. S., Balachandran, S. M., and Prasad, M. S.

Subjects

HYBRID rice, BLIGHT diseases (Botany), PLANT fertility

Abstract

RPHR-1005, the stable restorer line of the popular medium slender (MS) grain type rice hybrid, DRRH-3 was improved in this study for resistance against bacterial blight (BB) and blast diseases through marker-assisted backcross breeding (MABB). In this study, four major resistance genes (i.e., Xa21 and Xa33 for BB resistance and Pi2 and Pi54 for blast resistance) have been transferred to RPHR-1005 using RPBio Patho-1 (possessing Xa21 + Pi2), RPBio Patho-2 (possessing Xa21 + Pi54) and FBR1-15EM (possessing Xa33) as the donors. Foreground selection was carried out using PCR-based molecular markers specific for the target resistance genes and the major fertility restorer genes, Rf3 and Rf4, while background selection was carried out using a set of parental polymorphic rice SSR markers and backcrossing was continued uptoBC2 generation. At BC2F2, plants possessing the gene combination- Xa21 + Pi2, Xa21 + Pi54 and Xa33 in homozygous condition and with >92% recovery of the recurrent parent genome (RPG) were identified and intercrossed to combine all the four resistance genes. Twenty-two homozygous, pyramid lines of RPHR-1005 comprising of three single-gene containing lines, six 2-gene containing lines, eight 3-gene containing lines, and five 4-gene containing lines were identified among the double intercross lines at F3 generation (DICF3). They were then evaluated for their resistance against BB and blast, fertility restoration ability and for key agro-morphological traits. While single gene containing lines were resistant to either BB or blast, the 2-gene, 3-gene, and 4-gene pyramid lines showed good level of resistance against both and/or either of the two diseases. Most of the 2-gene, 3-gene, and 4-gene containing pyramid lines showed yield levels and other key agro-morphological and grain quality traits comparable to the original recurrent parent and showed complete fertility restoration ability, with a few showing higher yield as compared to RPHR-1005. Further, the experimental hybrids derived by crossing the gene-pyramid lines of RPHR-1005 with APMS6A (the female parent of DRRH-3), showed heterosis levels equivalent to or higher than DRRH-3. The results of present study exemplify the utility of MABB for targeted improvement of multiple traits in hybrid rice. [ABSTRACT FROM AUTHOR]

Published

2016

6. Molecular mapping of the fertility-restoration gene Rf4 for WA-cytoplasmic male sterility in rice.

Author

Ahmadikhah, A. and Karlov, G. I.

Subjects

*HYBRID rice, *MALE sterility in plants, *RICE varieties, *GENETICS, *CELL nuclei, *CHROMOSOMES

Abstract

The wild abortive cytoplasmic male sterility (CMS-WA) system, an ideal type of sporophytic CMS in indica rice, is used for the large-scale commercial production of hybrid rice. Searching for restorer genes is a good approach when phenotyping is very time-consuming and requires the determination of spikelet sterility in testcross progeny. To establish more precisely the genetical and physical maps of the Rf4 gene, high-resolution mapping of this locus was carried out using simple sequence repeat (SSR) markers and newly designed markers in a F2 population. The genetic linkage analysis indicated that five SSR markers (RM6737, RM304, RM171, RM5841 and RM228) on the long arm of chromosome 10 were linked with the Rf4 gene. Rf4 was flanked by two SSR markers RM171 and RM6737 at distances of 3.2 and 1.6 cM, respectively. Also, within the region between Rf4 gene and RM171, a newly designed primer pair, AB443, produced two sterile-specific markers, AB443-400 and AB443-500, 0.5 and 1.03 cM from the gene. The flanking markers identified give promise for their application in molecular marker-assisted selection (MAS) and they are also suitable for starting chromosome walking to clone Rf4 gene in the near future. [ABSTRACT FROM AUTHOR]

Published

2006

7. Development of Gene-Pyramid Lines of the Elite Restorer Line, RPHR-1005 Possessing Durable Bacterial Blight and Blast Resistance

Author

M. S. Madhav, S. K. Hajira, M. B. V. N. Kousik, A. Yugander, G. Harika, Madhav Sharan Prasad, C. H. Balachiranjeevi, S. M. Balachandran, K. Vijaya Sudhakara Rao, V. Ravindra Babu, R. Rambabu, A. S. Hari Prasad, R. M. Sundaram, M. Anila, V. Abhilash Kumar, G. Rekha, G. S. Laha, S. Vijay Kumar, J. Aruna, S. Bhaskar Naik, B. C. Viraktamath, K. Pranathi, and T. Dilip Kumar

Subjects

0106 biological sciences, 0301 basic medicine, Heterosis, bacterial blight resistance (Xa21 + Xa33), blast resistance (Pi2 + Pi54), Plant Science, Biology, lcsh:Plant culture, marker-assisted backcross breeding, 01 natural sciences, Genome, 03 medical and health sciences, Rf3, Rf4, Pyramid, Grain quality, lcsh:SB1-1110, RPHR-1005, Gene, fertility restoration, Hybrid, Original Research, Genetics, food and beverages, Background selection, Retraction, 030104 developmental biology, Backcrossing, DRRH-3, 010606 plant biology & botany

Abstract

RPHR-1005, the stable restorer line of the popular medium slender (MS) grain type rice hybrid, DRRH-3 was improved in this study for resistance against bacterial blight (BB) and blast diseases through marker-assisted backcross breeding (MABB). In this study, four major resistance genes (i.e., Xa21 and Xa33 for BB resistance and Pi2 and Pi54 for blast resistance) have been transferred to RPHR-1005 using RPBio Patho-1 (possessing Xa21 + Pi2), RPBio Patho-2 (possessing Xa21 + Pi54) and FBR1-15EM (possessing Xa33) as the donors. Foreground selection was carried out using PCR-based molecular markers specific for the target resistance genes and the major fertility restorer genes, Rf3 and Rf4, while background selection was carried out using a set of parental polymorphic rice SSR markers and backcrossing was continued uptoBC2 generation. At BC2F2, plants possessing the gene combination- Xa21 + Pi2, Xa21 + Pi54 and Xa33 in homozygous condition and with >92% recovery of the recurrent parent genome (RPG) were identified and intercrossed to combine all the four resistance genes. Twenty-two homozygous, pyramid lines of RPHR-1005 comprising of three single-gene containing lines, six 2-gene containing lines, eight 3-gene containing lines, and five 4-gene containing lines were identified among the double intercross lines at F3 generation (DICF3). They were then evaluated for their resistance against BB and blast, fertility restoration ability and for key agro-morphological traits. While single gene containing lines were resistant to either BB or blast, the 2-gene, 3-gene, and 4-gene pyramid lines showed good level of resistance against both and/or either of the two diseases. Most of the 2-gene, 3-gene, and 4-gene containing pyramid lines showed yield levels and other key agro-morphological and grain quality traits comparable to the original recurrent parent and showed complete fertility restoration ability, with a few showing higher yield as compared to RPHR-1005. Further, the experimental hybrids derived by crossing the gene-pyramid lines of RPHR-1005 with APMS6A (the female parent of DRRH-3), showed heterosis levels equivalent to or higher than DRRH-3. The results of present study exemplify the utility of MABB for targeted improvement of multiple traits in hybrid rice.

Published

2016