Kurniawan Rudi Trijatmiko, Kurniawan Rudi
Balai Besar Penelitian dan Pengembangan Bioteknologi dan Sumber Daya Genetik Pertanian, Jl. Tentara Pelajar 3A, Bogor 16111 Telp. (0251) 8337975

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Introduksi Konstruk Gen CsNitr1-L dengan Promotor Ubiquitin melalui Agrobacterium tumefaciens dan Deteksi Molekulernya pada Padi Kultivar Nipponbare Enngarini, Wening; Polosoro, Aqwin; Sustiprijatno, Sustiprijatno; Trijatmiko, Kurniawan Rudi
JURNAL BIOLOGI INDONESIA Vol 13, No 2 (2017): JURNAL BIOLOGI INDONESIA
Publisher : Perhimpunan Biologi Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/jbi.v13i2.3400

Abstract

ABSTRACTNitrogen based fertilizers such as urea and NPK are primary needs for rice farmers. To get significant improvement of crop yield, the more quantity of fertilizers are applied. It make negative impact for surrounding environment. Based on that, the efforts should be done to suppress the demand of fertilizers such as by developing Nitrogen Use Efficiency crops. CsNitr1-L is one of gene that related to Nitrogen Use Efficiency trait in plant. The objectives of this research are to develop the construction of CsNitr1-L gene candidate in pCAMBIA1300-Ubi1 promoter and to obtain the transformants of rice cultivar Nipponbare which contain the construction of CsNitr1-L gene candidate. The construction of pCAMBIA1300::Ubi1::CsNitr1-L has successfully assembled and was transformed to immature embryo of rice cultivar Nipponbare using Agrobacterium tumefaciens strain LBA4404. It was obtained 146 lines of T0 Nipponbare. PCR analysis of T0 Nipponbare lines showed that 66 of them was identified as positive T0 lines contained hptII and CsNitr1-L genes. Transformation efficiency obtained was 11,9%. The result of analysis copy number using Southern Hybridization in positive PCR of T0 lines randomly indicated that 4 lines have a single copy of transgene. Based on these results, it can be concluded that CsNitr1-L gene construct was successfully introduced into the genome of the rice plant cultivar Nipponbare and the positive PCR of T0 lines containing the gene of hptII and CsNitr1-L, also a single copy of the transgene was obtained.Keywords: Nitrogen use efficiency trait, gene construction, rice kultivar Nipponbare
RESPON PADI TRANSGENIK CV. NIPPONBARE GENERASI T1 YANG MENGANDUNG GEN Oryza sativa DEHYDRATION-RESPONSE ELEMENT BINDING 1A (OsDREB1A) TERHADAP CEKAMAN SALINITAS [Response of T1 Generation Transgenic Rice cv. Nipponbare Containing an Oryza sativa Dehydration-response Element Binding 1A (OsDREB1A) Gene to Salinity Stress] Santoso, Tri Joko; Apriana, Aniversari; Sisharmini, Atmitri; Trijatmiko, Kurniawan Rudi
BERITA BIOLOGI Vol 11, No 2 (2012)
Publisher : Research Center for Biology-Indonesian Institute of Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (495.332 KB) | DOI: 10.14203/beritabiologi.v11i2.494

Abstract

Salinity is one of the abiotic constraints in the cultivation of rice crop. One of the reasons agricultural land becomes saline is due to the intrusion of seawater into the mainland as a result of global climate change. Dehydration-responsive element binding (DREB) gene is a plant -specific transcription factor gene that have important role in regulating plant responses to abiotic stresses, including high salinity. Transgenic rice plants cv. Nipponbare carrying OsDREB1A gene have been generated. However, study of the response of putative transgenic plants to salinity has not been done. The research objective is to study the response of T1 generation Nipponbare-OsDREB1A transgenic rice plants to salinity stress. The result showed that the response of putative transgenic rice Nipponbare-OsDREB1A to salinity stress 25 mM and 150 mM NaCl indicated a level of tolerance varies from highly sensitive to highly tolerance. These variations were possibly occurred because of the segregation state of the T1 generation transgenic rice. Based on damage symptom scoring and PCR analysis provided information that transgenic rice plant cv. Nipponbare-OsDREB1A which showed positive PCR had a very high tolerance to salinity stress 150 mM compared with non-transgenic rice cv. Nipponbare.
Phenotypic Screening of Ds transposon and Activation-tag Insertional Mutant Rice Population for Drought and Salinity Tolerant Related Traits Nugroho, Satya; Zannati, Anky; Situmorang, Apriadi; Windiastri, Vincentia Esti; Widyajayantie, Dwi; Pantouw, Carla F.; Astuti, Dwi; Indrayani, Sri; Rahmawati, Syamsidah; Mulyaningsih, Enung Sri; Santoso, Tri Joko; Trijatmiko, Kurniawan Rudi
ANNALES BOGORIENSES Vol 15, No 1 (2011): Annales Bogorienses
Publisher : Research Center for Biotechnology - Indonesian Institute of Sciences (LIPI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.1234/56

Abstract

The studies of rice genes through functional genomics are greatly facilitated by the availability of the complete genome sequences, including the complete physical map of the japonica rice cv. nipponbare. Using the Ac and Ds transposon, that are capable of transposition in various heterologous plants including the monocotyledon rice,  combined with the enhancer element for generating activation taged lines, it is possible to discover and isolate functional genes involved in various important agronomical traits; such as those involved in abiotic stress tolerance (drought, high salt) and biotic stresses diseases and pests. We have developed 1,785 first (T0) generation of mutant nipponbare rice by transposons Ac/Ds insertions containing activation-tag, generated by transformation using Agrobacterium-mediated method. Currently, we have generated approximately 1,000 stable lines with transposon Ds and activation-tag insertion ready for screening. Efficient screening methods for mutant Nipponbare rice lines have been established for agronomically important mutant traits. Among the new phenotypes related to important agronomical traits observed were drought and salt tolerant or sensitive, stunted and robust growth, variable root penetration and other interesting traits such as reduced tillering, rolled leaf and thin tiller.   Keywords: rice, insertion mutant, gene discovery, drought, salinity
Molecular Evaluation for Drought Tolerant Using Marker Assisted Breeding Method Fatimah, Fatimah; Prasetiyono, Joko; Trijatmiko, Kurniawan Rudi; Sustiprijatno, Sustiprijatno
ANNALES BOGORIENSES Vol 22, No 2 (2018): Annales Bogorienses
Publisher : Research Center for Biotechnology - Indonesian Institute of Sciences (LIPI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/ann.bogor.2018.v22.n2.94-100

Abstract

   The sustainability and increasing the national rice production require the readiness of food and agriculture sector cope with the impacts of climate change, land degradation, drought area, sloping production and the raising of population growth. Adaptation plays an important role in ensuring the sustainability of food security. This research aimed to develop drought-tolerant variety of Inpari 30 (submergence tolerance variety) and Situ Bagendit through marker-assisted backcrossing-through pyramiding gene of identified QTLs for foreground selection and to explore SSRs and 6K SNPs for background selection distributed in 12 rice chromosome of drought tolerant donor (Cabacu) and recipient rice (Inpari 30 and Situ Bagendit). The foreground selection revealed that flanking SSRs of each QTLs (qRPF2.1, qGPP2.1, qSPP4.1 and Sub1) was less than 2 cM. The background selection through polymorphic survey of Rice 6K SNP primers revealed 2457 (53,3%) polymorphic SNPs on Inpari 30 vs Cabacu and 2563 (55,6%) polymorphic SNPs on Situ Bagendit vs Cabacu with the average distance about 0.74 cM/chromosome. The genotypic selection of F1 Inpari 30/Cabacu and F1 Situ Bagendit/Cabacu have already in heterozygote condition for these 4 QTLs target. These lines was continued for backcross breeding to develop BC1F1 Inpari 30/Cabacu and BC1F1 Situ Bagendit/Cabacu generation.
INTRODUKSI KONSTRUK GEN CSNITR1-L DENGAN PROMOTOR UBIQUITIN MELALUI AGROBACTERIUM TUMEFACIENS DAN DETEKSI MOLEKULERNYA PADA PADI KULTIVAR NIPPONBARE Enngarini, Wening; Polosoro, Aqwin; Sustiprijatno, Sustiprijatno; Trijatmiko, Kurniawan Rudi
JURNAL BIOLOGI INDONESIA Vol 13, No 2 (2017): JURNAL BIOLOGI INDONESIA
Publisher : Perhimpunan Biologi Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/jbi.v13i2.3400

Abstract

ABSTRACTNitrogen based fertilizers such as urea and NPK are primary needs for rice farmers. To get significant improvement of crop yield, the more quantity of fertilizers are applied. It make negative impact for surrounding environment. Based on that, the efforts should be done to suppress the demand of fertilizers such as by developing Nitrogen Use Efficiency crops. CsNitr1-L is one of gene that related to Nitrogen Use Efficiency trait in plant. The objectives of this research are to develop the construction of CsNitr1-L gene candidate in pCAMBIA1300-Ubi1 promoter and to obtain the transformants of rice cultivar Nipponbare which contain the construction of CsNitr1-L gene candidate. The construction of pCAMBIA1300::Ubi1::CsNitr1-L has successfully assembled and was transformed to immature embryo of rice cultivar Nipponbare using Agrobacterium tumefaciens strain LBA4404. It was obtained 146 lines of T0 Nipponbare. PCR analysis of T0 Nipponbare lines showed that 66 of them was identified as positive T0 lines contained hptII and CsNitr1-L genes. Transformation efficiency obtained was 11,9%. The result of analysis copy number using Southern Hybridization in positive PCR of T0 lines randomly indicated that 4 lines have a single copy of transgene. Based on these results, it can be concluded that CsNitr1-L gene construct was successfully introduced into the genome of the rice plant cultivar Nipponbare and the positive PCR of T0 lines containing the gene of hptII and CsNitr1-L, also a single copy of the transgene was obtained.Keywords: Nitrogen use efficiency trait, gene construction, rice kultivar Nipponbare
Identification of Quantitative Trait Loci (QTL) for Awn, Incomplete Panicle Exertion and Total Spikelet Number in an F2 Population Derived from A Backcross Inbred Line, Bio-148, and the Recurrent Parent, IR64 Herlina, Lina; Sobir,; Trijatmiko, Kurniawan Rudi
Makara Journal of Science Vol. 20, No. 1
Publisher : UI Scholars Hub

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

An F2 rice population developed from a cross between a backcross inbred line (BIO-148) and its recurrent parent (IR64) was used to identify quantitative trait loci (QTL) for awn, panicle exertion and total spikelet number. BIO-148 is a BC2F8 line derived from a cross between IR64 (a high-yielding lowland rice variety) and Gajah Mungkur (an upland tropical japonica rice variety). Two hundred plants were grown in the greenhouse, and their DNAs were isolated for genotyping using SSR markers. Panicle exertion was observed during the grain-filling stage. The awn length of the seed and the total spikelet number per panicle were observed after harvesting. A total of four QTLs were identified using single-marker regression with LOD>3, explaining 8.4-18.1% of phenotypic variation. A QTL for awn was identified on Chromosome 8. A QTL for incomplete panicle exertion was identified on Chromosome 4. Two QTLs for total spikelet number were identified on Chromosome 4, in which the BIO-148 allele contributed to a higher number of spikelets per panicle. The QTLs identified in this study will be useful in the improvement of yield potential for modern lowland indica rice varieties by harnessing the hidden useful alleles from upland tropical japonica rice varieties.
Identification of A Major Quantitative Trait Locus for Grain Weight In Rice Using Microsatellite Marker Susilowati, Mariana; Aswidinnoor, Hajrial; Enggarini, Wening; Trijatmiko, Kurniawan Rudi
Makara Journal of Science
Publisher : UI Scholars Hub

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Rice is one of the major staple foods in the world, especially in Asia. Improving yield potential of superior cultivars is important to meeting the demand for rice production, which is increasing due to human population increase, climate change, and degradation of agricultural resources, such as land and water. In this study, a BC3F2 population developed from an intraspecific cross between Ciherang and a new plant type line (B11143D) was used in a quantitative trait locus (QTL) analysis. Ciherang is a high yielding rice cultivar with good grain quality which has been planted in 37% of the irrigated rice area in Indonesia. The objective of this study was to identify QTL(s) for yield components on chromosome 12, which can be used to improve the elite cultivar Ciherang or other popular cultivars through marker-assisted breeding. A total of two hundred BC3F2 lines were evaluated in the greenhouse during this study. The population was observed for eight agronomic traits including days to heading (dth), plant height (ph), flag leaf length (fll), panicles per plant (ppl), panicle length (pl), grains per panicle (gpp), 1000-grain weight (gw), and yield (yld). Four simple sequence repeats (SSR) markers (RM3472, RM28048, RM28195, and RM1986) were used for targeted mapping on chromosome 12. Linkage analysis identified a QTL for 1000-grain weight located on chromosome 12 at position 53.5 cM–73 cM.