Your search keyword '"Pham Thien Thanh"' showing total 6 results

1. Identification of Quantitative Trait Loci Controlling Floral Morphology of Rice Using a Backcross Population between Common Cultivated Rice, Oryza sativa and Asian Wild Rice, O. rufipogon

Author

Ryo Nishioka, Takafumi Watabe, Takashige Ishii, Pham Thien Thanh, and Ryo Ishikawa

Subjects

0106 biological sciences, 0301 basic medicine, Oryza sativa, fungi, Glume, Stamen, food and beverages, General Medicine, Biology, Quantitative trait locus, Oryza, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Plant morphology, Backcrossing, Botany, Plant breeding, 010606 plant biology & botany

Abstract

Differences in floral morphologies affect pollination behaviour in many flowering plants. In the genus Oryza, several differences in the size of floral organs are known. In this study, we focused on the differences in the size of floral organs between common cultivated rice, Oryza sativa L. and its wild ancestor, O. rufipogon. We compared floral morphologies between cultivated rice O. sativa cv. Nipponbare and O. rufipogon W630. We first evaluated temporal changes in filament and anther lengths. W630 had longer filaments with rapid elongation within 15 min after spikelet opening. W630 also had longer anthers than Nipponbare, and size of anther was consistent throughout all time examined. We also analysed other six floral traits, and found that W630 had higher stigma and style length, as well as lemma and palea length, but lower lemma and palea width. Quantitative trait locus (QTL) analysis was performed to identify the loci controlling these floral traits, using backcross recombinant inbred lines derived from a cross between Nipponbare and W630. A total of 11 significant QTLs were identified. Of these, two pairs of QTLs for lemma and palea length and one pair for lemma and palea width overlapped, suggesting that common genetic factors may be the reason for the differences in these traits. In addition, we performed QTL analysis for grain size, and found that QTLs for grain size coincided with those for lemma and palea size, indicating that grain size is partly controlled by glume capacity. The QTLs identified in this study will be informative for understanding genetic changes associated with rice domestication.

Published

2017

2. Gene interaction at seed-awning loci in the genetic background of wild rice

Author

Mitsuharu Otsuka, Phuong Dang Thai Phan, Takashige Ishii, Pham Thien Thanh, Mai Ikemoto, and Ryo Ishikawa

Subjects

0106 biological sciences, 0301 basic medicine, Quantitative Trait Loci, Quantitative trait locus, Genes, Plant, 01 natural sciences, 03 medical and health sciences, Gene interaction, Genotype, Genetics, Inbreeding, Allele, Domestication, Molecular Biology, Oryza sativa, biology, food and beverages, Epistasis, Genetic, Oryza, General Medicine, biology.organism_classification, Oryza rufipogon, 030104 developmental biology, Backcrossing, Seeds, Genetic Background, 010606 plant biology & botany

Abstract

Seed awning is one of the important traits for successful propagation in wild rice. During the domestication of rice by ancient humans, plants with awnless seeds may have been selected because long awns hindered collection and handling activities. To investigate domestication of awnless rice, QTL analysis for seed awning was first carried out using backcross recombinant inbred lines between Oryza sativa Nipponbare (recurrent parent) and O. rufipogon W630 (donor parent). Two strong QTLs were detected in the same regions as known major seed-awning loci, An-1 and RAE2. Subsequent causal mutation surveying and fine mapping confirmed that O. rufipogon W630 has functional alleles at both loci. The gene effects and interactions at these loci were examined using two backcross populations with reciprocal genetic backgrounds of O. sativa Nipponbare and O. rufipogon W630. As awn length in wild rice varied among seeds even in the same plant, awn length was measured based on spikelet position. In the genetic background of cultivated rice, the wild alleles at An-1 and RAE2 had awning effects, and plants having both wild homozygous alleles produced awns whose length was about 70% of those of the wild parent. On the other hand, in the genetic background of wild rice, the substitution of cultivated alleles at An-1 and RAE2 contributed little to awn length reduction. These results indicate that the domestication process of awnless seeds was complicated because many genes are involved in awn formation in wild rice.

Published

2016

3. QTL analysis for flowering time using backcross population between Oryza sativa Nipponbare and O. rufipogon

Author

Pham Thien Thanh, Takashige Ishii, Ryo Ishikawa, and Phuong Dang Thai Phan

Subjects

Hot Temperature, Time Factors, Oryza sativa, biology, Climate, Quantitative Trait Loci, fungi, food and beverages, Humidity, Oryza, Flowers, General Medicine, biology.organism_classification, Oryza rufipogon, Japonica, Japanese rice, Japan, Agronomy, Genetic variation, Backcrossing, Genetics, Inbreeding, Cultivar, Molecular Biology, Hybrid

Abstract

In the near future, global average temperature is expected to increase due to the accumulation of greenhouse gases, and increased temperatures will cause severe sterility in many crop species. In rice, since wild species show high genetic variation, they may have the potential to improve the flowering characters of cultivars. In this study, we investigated flowering characters under natural conditions by comparing an Asian wild rice accession of Oryza rufipogon W630 (originated from Myanmar) with a Japanese rice cultivar, O. sativa Japonica cv. Nipponbare. Further, QTL analysis for days to heading (DH) and spikelet opening time (SOT: the time of day when the spikelet opens) was carried out using BC(2)F(8) backcross population derived from the cross between them. Regarding DH, four QTLs were detected, and two of them were found to have wild alleles with strong effects leading to longer days to heading during the Japanese summer. These wild alleles may be used to produce late-heading cultivars that do not flower during the high summer temperatures anticipated in the future. As for SOT, two parameters of SOTb (beginning time when the first spikelet opens) and SOTm (median time when 50% of the spikelets open) were recorded and the time differences from Nipponbare were investigated. Two QTLs on chromosomes 5 and 10 and two QTLs on chromosomes 4 and 5 were detected for SOTb and SOTm, respectively. The wild alleles were responsible for early spikelet opening time at all loci. If the wild alleles detected in this study have the same effects in the genetic background of other cultivars, they will be very useful in producing early-flowering rice cultivars that complete fertilization in the morning before the temperature rises.

Published

2010

4. OsLG1 regulates a closed panicle trait in domesticated rice

Author

Masanori Yamasaki, Kentaro Yoshida, Koji Numaguchi, Takashi Matsumoto, Than Myint Htun, Takashige Ishii, Ryohei Terauchi, Kotaro Miura, Ryo Ishikawa, Pham Thien Thanh, Norio Komeda, and Motoyuki Ashikari

Subjects

Oryza sativa, Quantitative Trait Loci, food and beverages, High-Throughput Nucleotide Sequencing, Outcrossing, Locus (genetics), Agriculture, Oryza, Biology, Quantitative trait locus, Genes, Plant, Chromosomes, Plant, Nucleotide diversity, Phenotype, Botany, Seeds, Genetics, Selective sweep, Domestication, Genome, Plant, Panicle

Abstract

Reduction in seed shattering was an important phenotypic change during cereal domestication. Here we show that a simple morphological change in rice panicle shape, controlled by the SPR3 locus, has a large impact on seed-shedding and pollinating behaviors. In the wild genetic background of rice, we found that plants with a cultivated-like type of closed panicle had significantly reduced seed shedding through seed retention. In addition, the long awns in closed panicles disturbed the free exposure of anthers and stigmas on the flowering spikelets, resulting in a significant reduction of the outcrossing rate. We localized the SPR3 locus to a 9.3-kb genomic region, and our complementation tests suggest that this region regulates the liguleless gene (OsLG1). Sequencing analysis identified reduced nucleotide diversity and a selective sweep at the SPR3 locus in cultivated rice. Our results suggest that a closed panicle was a selected trait during rice domestication.

Published

2012

5. Allelic interaction at seed-shattering loci in the genetic backgrounds of wild and cultivated rice species

Author

Than Myint Htun, Naoto Nimura, Takashige Ishii, Pham Thien Thanh, Ryo Ishikawa, and Masanori Yamasaki

Subjects

Genetics, Oryza sativa, Quantitative Trait Loci, food and beverages, Locus (genetics), Epistasis, Genetic, Oryza, General Medicine, Biology, biology.organism_classification, Genetic analysis, Oryza rufipogon, Botany, Backcrossing, Seed Dispersal, Inbreeding, Allele, Domestication, Molecular Biology, Hybrid

Abstract

It is known that the common cultivated rice (Oryza sativa) was domesticated from Asian wild rice, O. rufipogon. Among the morphological differences between them, loss of seed shattering is one of the striking characters specific for the cultivated forms. In order to understand the genetic control on shattering habit, QTL analysis was carried out using BC(2)F(1) backcross population between O. sativa cv. Nipponbare (a recurrent parent) and O. rufipogon acc. W630 (a donor parent). As a result, two strong QTLs were detected on chromosomes 1 and 4, and they were found to be identical to the two major seed-shattering loci, qSH1 and sh4, respectively. The allelic interaction at these loci was further examined using two sets of backcross populations having reciprocal genetic backgrounds, cultivated and wild. In the genetic background of cultivated rice, the wild qSH1 allele has stronger effect on seed shattering than that of sh4. In addition, the wild alleles at both qSH1 and sh4 loci showed semi-dominant effects. On the other hand, in the genetic background of wild rice, non-shattering effects of Nipponbare alleles at both loci were examined to inspect rice domestication from a viewpoint of seed shattering. It was serendipitous that the backcross plants individually having Nipponbare homozygous alleles at either shattering locus (qSH1 or sh4) shed all the seeds. This fact strongly indicates that the non-shattering behavior was not obtained by a single mutation in the genetic background of wild rice. Probably, some other minor genes are still associated with the formation or activation of abscission layer, which enhance the seed shattering.

Published

2010

6. Wild and cultivated allele effects on rice phenotypic traits in reciprocal backcross populations between Oryza rufipogon and two cultivars, O. sativa Nipponbare and IR36.

Author

Phuong Dang Thai Phan, Akinori Nishimura, Chika Yamamoto, Pham Thien Thanh, Toshihiro Niwa, Amarasinghe, Yaddehige Priya Jayantha, Ryo Ishikawa, and Takashige Ishii

Subjects

*ORYZA, *RED rice, *LOCUS (Genetics), *CULTIVARS, *ALLELES, *PHENOTYPES, *RICE

Abstract

A total of four populations of reciprocal backcross recombinant inbred lines were produced from a cross between a wild accession of Oryza rufipogon W630 and two major cultivars, O. sativa Japonica Nipponbare and Indica IR36. Using these populations, quantitative trait locus (QTL) analysis for eight morphological traits (culm length, panicle length, days to heading, panicle shape, pericarp color, hull color, seed shattering and seed awning) was carried out, and the putative QTL regions were compared among the populations. The QTLs with strong allele effects were commonly detected for culm length, panicle shape, pericarp color and hull color in all four populations, and their peak locations were close to the major genes of sd1, Spr3, Rc and Bh4, respectively. For panicle length and days to heading, some QTL regions overlapped between two or three populations. In the case of seed shattering and seed awning, strong wild allele effects at major loci were observed only in the populations with cultivated backgrounds. Since the wild and cultivated alleles have never been evaluated in the reciprocal genetic backgrounds, the present results provide new information on gene effects in breeding and domestication studies. [ABSTRACT FROM AUTHOR]

Published

2023