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9 results on '"Tragoonrung S"'

3. The Chloroplast Genome Sequence of Mungbean (Vigna radiata) Determined by High-throughput Pyrosequencing: Structural Organization and Phylogenetic Relationships.

Author

Tangphatsornruang, S., Sangsrakru, D., Chanprasert, J., Uthaipaisanwong, P., Yoocha, T., Jomchai, N., and Tragoonrung, S.

Abstract

Mungbean is an economically important crop which is grown principally for its protein-rich dry seeds. However, genomic research of mungbean has lagged behind other species in the Fabaceae family. Here, we reported the complete chloroplast (cp) genome sequence of mungbean obtained by the 454 pyrosequencing technology. The mungbean cp genome is 151 271 bp in length which includes a pair of inverted repeats (IRs) of 26 474 bp separated by a small single-copy region of 17 427 bp and a large single-copy region of 80 896 bp. The genome contains 108 unique genes and 19 of these genes are duplicated in the IR. Of these, 75 are predicted protein-coding genes, 4 ribosomal RNA genes and 29 tRNA genes. Relative to other plant cp genomes, we observed two distinct rearrangements: a 50-kb inversion between accD/rps16 and rbcL/trnK-UUU, and a 78-kb rearrangement between trnH/rpl14 and rps19/rps8. We detected sequence length polymorphism in the cp homopolymeric regions at the intra- and inter-specific levels in the Vigna species. Phylogenetic analysis demonstrated a close relationship between Vigna and Phaseolus in the phaseolinae subtribe and provided a strong support for a monophyletic group of the eurosid I. [ABSTRACT FROM PUBLISHER]

Published
2010
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4. Small GTP-Binding Protein Gene Is Associated with QTL for Submergence Tolerance in Rice.

Author

Ruanjaichon, V., Sangsrakru, D., Kamolsukyunyong, W., Siangliw, M., Toojinda, T., Tragoonrung, S., and Vanavichit, A.

Subjects
GENETIC polymorphisms, PROTEIN binding, BIOCHEMISTRY, PROTEIN analysis, MICROBIAL genetics, NUCLEIC acids
Abstract

Small GTP-binding proteins play critical roles in signal transduction in mammalian and plant systems. In this study, sequence variation of a small GTP-binding protein identified in the subgenomic region was analyzed. The major quantitative trait locus (QTL) controlling submergence tolerance on the 6.5-cM region of chromosome 9 was previously mapped, sequenced, and annotated. One of the most interesting candidate genes located in this QTL was a 5.2-kb sequence, which included a coding sequence consisting of two exons and a promoter. The deduced amino acid sequence corresponded to a 24.8 kD protein consisting of 226 amino acids, with 98% identity to RGP1, a small GTP-binding protein involved in a signal pathway responding to hormones, such as cytokinin and ethylene. According to the amino acid sequence, a putative small G-protein was classified as a small Ras-related GTP-binding protein. DNA gel blot analysis showed that the putative gene encoding the Ras-related GTP-binding protein was present as a single copy in the rice genome. Comparison of genomic sequences from several rice cultivars tolerant to submergence identified single nucleotide polymorphisms located in the TATA box of the Ras promoter region. Linkage analysis showed that the putative gene for GTP-binding protein was tightly linked to the peak of the QTL previously mapped on the long arm of chromosome 9. The single strand conformation polymorphism of the putative GTP-binding protein gene can be used for allele discrimination and marker assisted selection for tolerance to flash flooding. [ABSTRACT FROM AUTHOR]

Published
2004
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5. Microsatellite Markers Flanking the tms2 Gene Facilitated Tropical TGMS Rice Line Development.

Author

Lopez, M.T., Toojinda, T., Vanavichit, A., and Tragoonrung, S.

Subjects
HYBRID rice, PLANT genetics, PLANT breeding
Abstract

The use of thermosensitive genetic male sterility (TGMS) in the development and production of rice (Oryza sativa L.) hybrids is an alternative to the cytoplasmic-genetic male sterility (CMS) system. This study aimed to develop TGMS lines with aromatic Thai rice background by molecular marker-aided breeding. Four microsatellite markers (RM2, RM10, RM11, and RM214) on chromosome 7 in the vicinity of the TGMS gene tms2 and showing polymorphism between the two parents were used in genotyping the mapping population consisting of 157 F[sub 2] plants derived from a cross between Norin PL12 (a TGMS line from Japan) and KDML 105 (a popular aromatic Thai rice cultivar). The RM11 marker was approximately 5 centimorgans (cM) from tms2 while RM2 was approximately 16 cM from it. In this F[sub 2] population, the accuracy of selecting sterile plants with RM2 and RM11 markers was 92 and 97%, respectively. In three backcrosses, the accuracy of selection with markers for either homozygous or heterozygous plants was higher than 90% with RM2. Using RM11, we obtained 89% accuracy for selecting homozygous fertile plants and 59% accuracy for selecting heterozygous plants. The results demonstrated that microsatellite markers were powerful in screening large breeding populations, and these markers facilitated selection for plants possessing the tms2 in an early stage of the crop and without exposing the materials to the required temperature for TGMS gene expression. Three TGMS lines with aromatic Thai rice background were developed and showed complete pollen sterility when maximum temperature was higher than 30°C, 1 to 2 wk after panicle initiation. Up to 77% spikelet fertility was observed when these lines were exposed at temperature below 30°C during the critical stage. [ABSTRACT FROM AUTHOR]

Published
2003
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6. Thai Jasmine Rice Carrying QTLch9 (SubQTL) is Submergence Tolerant.

Author

SIANGLIW, M., TOOJINDA, T., TRAGOONRUNG, S., and VANAVICHIT, A.

Subjects
RICE varieties, ORYZA, CULTIVARS, AGRICULTURAL industries, PLANT genetics
Abstract

Submergence tolerance is an important agronomic trait for rice grown in South‐East Asia, where flash flooding occurs frequently and unpredictably during the monsoons. Although mapping locations of one major and several minor quantitative trait loci (QTL) were known previously, improving submergence tolerance in agronomically desirable types of rice has not been achieved. KDML105 is jasmine rice widely grown in rain‐fed lowland regions of Thailand. This cultivar is very intolerant of submergence stress. To improve submergence tolerance in this cultivar, three submergence‐tolerant cultivars, FR13A, IR67819F2‐CA‐61 and IR49830‐7‐1‐2‐2, were cross‐pollinated with KDML105. Transferring the major QTL for submergence tolerance was facilitated by four back‐crossings to the recipient KDML105. Molecular markers tightly linked to the gene(s) involved were developed to facilitate molecular genotyping. We demonstrated that individuals of a BC4F3 line that retained a critical region on chromosome 9 transferred from tolerant lines were also tolerant of complete submergence while retaining all the agronomically desirable traits of KDML105. In addition, effects of secondary QTLch2 were detected statistically in back‐cross progenies. Effects of secondary QTLch7 were not statistically significant. The close association between tightly linked markers of the tolerance locus on chromosome 9 and submergence tolerance in the field demonstrates the considerable promise of using these markers in lowland rice breeding programmes for selecting increased submergence tolerance. [ABSTRACT FROM PUBLISHER]

Published
2003
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7. Molecular Genetics of Submergence Tolerance in Rice: QTL Analysis of Key Traits.

Author

TOOJINDA, T., SIANGLIW, M., TRAGOONRUNG, S., and VANAVICHIT, A.

Subjects
RICE, MOLECULAR genetics, CROPPING systems, SEEDLINGS, ORYZA
Abstract

Flash flooding of young rice plants is a common problem for rice farmers in south and south‐east Asia. It severely reduces grain yield and increases the unpredictability of cropping. The inheritance and expression of traits associated with submergence stress tolerance at the seedling stage are physiologically and genetically complex. We exploited naturally occurring differences between certain rice lines in their tolerance to submergence and used quantitative trait loci (QTL) mapping to improve understanding of the genetic and physiological basis of submergence tolerance. Three rice populations, each derived from a single cross between two cultivars differing in their response to submergence, were used to identify QTL associated with plant survival and various linked traits. These included total shoot elongation under water, the extent of stimulation of shoot elongation caused by submergence, a visual submergence tolerance score, and leaf senescence under different field conditions, locations and years. Several major QTL determining plant survival, plant height, stimulation of shoot elongation, visual tolerance score and leaf senescence each mapped to the same locus on chromosome 9. These QTL were detected consistently in experiments across all years and in the genetic backgrounds of all three mapping populations. Secondary QTL influencing tolerance were also identified and located on chromosomes 1, 2, 5, 7, 10 and 11. These QTL were specific to particular traits, environments, or genetic backgrounds. All identified QTL contributed to increased submergence tolerance through their effects on decreased underwater shoot elongation or increased maintenance of chlorophyll levels, or on both. These findings establish the foundations of a marker‐assisted scheme for introducing submergence tolerance into agriculturally desirable cultivars of rice. [ABSTRACT FROM PUBLISHER]

Published
2003
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9. Sequence-tagged-site-facilitated PCR for barley genome mapping.

Author

Tragoonrung, S., Kanazin, V., Hayes, P., and Blake, T.

Abstract

Speed, efficiency, and safety considerations have led many genome mapping projects to evaluate polymerase chain reaction (PCR) sequence amplification as an alternative to Southern blot analysis. However, the availability of informative primer sequences can be a limiting factor in PCR-based mapping. An alternative to random amplified polymorphism detection (RAPD) is the sequence-tagged-site (STS) approach. If informative primer sequences could be derived from known sequences, then current maps, which are based on both known function and anonymous clones, might be easily converted to maps utilizing PCR technology. In this paper, four pairs of primer sequences were obtained from published sequences, and four pairs were obtained by sequencing portions of DNA clones from genomic clones derived from a random genomic library used in the North American Barley Genome Mapping Project (NABGMP). These primers were used to screen for polymorphisms in the progeny of a winter x spring and a spring x spring barley cross. Two types of polymorphisms were distinguished using these primer sets: (1) insertion/deletion events that could be read directly from agarose gels, and (2) point mutation events. The latter were identified using polyacrylamide-gel electrophoresis of PCR products following digestion with restriction endonucleases (four-base cutters). To determine whether the PCR-based polymorphisms were allelic to polymorphisms identified by the clones from which the primer sequences derived, chromosomal assignments and (when possible) co-segregation analysis was performed. [ABSTRACT FROM AUTHOR]

Published
1992
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