Your search keyword '"Gihwan Yi"' showing total 8 results

1. Molecular characterization of OsPAP2: transgenic expression of a purple acid phosphatase up-regulated in phosphate-deprived rice suspension cells.

Author

Yeon Jae Hur, Byung Rae Jin, Jaesung Nam, Young Soo Chung, Jai Heon Lee, Hong Kyu Choi, Dae Jin Yun, Gihwan Yi, Yong Hwan Kim, and Doh Hoon Kim

Subjects

PLANT genetics, ARABIDOPSIS, TRANSGENIC rice, PLANT physiology, AMINO acid sequence

Abstract

A phosphate starvation-induced, purple, acid phosphatase cDNA was cloned from rice, Oryza sativa. The cDNA encoding the phosphatase ( OsPAP2) has 1,893 bp with an open reading frame of 630 amino acid residues. The deduced amino acid sequence of OsPAP2 shows identities of 60–63% with other plant purple acid phosphatases and appears to have five conserved motifs containing the residues involved in metal binding. OsPAP2 expression is up-regulated in the rice plant and in cell cultures in the absence of phosphate (P i). The induced expression of OsPAP2 is a specific response to P i starvation, and is not affected by the deprivation of other nutrients. OsPAP2 expression was responsive to the level of P i-supply, and transcripts of OsPAP2 were abundant in P i-deprived roots. The OsPAP2 cDNA was expressed as a 69 kDa polypeptide in baculovirus-infected insect Sf9 cells. In addition, the OsPAP2 gene was introduced into Arabidopsis via an Agrobacterium-mediated transformation. Functional expression of the OsPAP2 gene in the transgenic Arabidopsis line was confirmed by northern and western blot analyses, as well as by phosphatase activity assays. These results suggest that the OsPAP2 gene can be used to develop new transgenic dicotyledonous plants that are able to adapt to P i-deficient conditions. [ABSTRACT FROM AUTHOR]

Published

2010

2. Genetic variation through Dissociation ( Ds) insertional mutagenesis system for rice in Korea: progress and current status.

Author

Dong-Soo Park, Soo-Kwon Park, Sang-Ik Han, Hoe-Jeong Wang, Nam-Soo Jun, Manigbas, Norvie L., Young-Min Woo, Byoung-Ohg Ahn, Doh-Won Yun, Ung-Han Yoon, Yong-Hwan Kim, Myung-Chul Lee, Doh-Hoon Kim, Min-Hee Nam, Chang-Deok Han, Hang-Won Kang, and Gihwan Yi

Subjects

ORYZA, RICE, CHLOROPLAST pigments, PLANT genetics, TERATOGENESIS

Abstract

A gene detection strategy using two-component Ac/Ds construct, with the mobile Ds transposon, has been developed to better understand gene functions in crops. Currently, 115,000 Ds insertion lines have been generated through the Ac/Ds gene trap system in Korea using japonica rice Dongjin as donor. Four hundred and thirty-seven mutants from 12,162 Ds-tagged lines were catalogued, including physiological and agronomic traits. Different traits were identified with distinct characteristics in terms of tillers, panicles, leaves, flowers, seed, chlorophyll content, and height. Culm and panicle length, number of panicles, and days to flowering of the Dongjin Ds population revealed high standard deviations compared with the donor cultivar. An evaluation of the Ds distribution on the chromosome revealed that 74.5% of the Ds were reinserted into gene-rich regions, making this Ac/Ds-mediated gene trap system useful in helping to gain an understanding of the function of genes and thus improve the gene-tagging system in rice. [ABSTRACT FROM AUTHOR]

Published

2009

3. Molecular tagging of the Bph1 locus for resistance to brown planthopper ( Nilaparvata lugens Stål) through representational difference analysis.

Author

Dong-Soo Park, Min-Young Song, Soo-Kwon Park, Sang-Kyu Lee, Jong-Hee Lee, Song-Yi Song, Moo Eun, Tae-Ryong Hahn, Jae-Keun Sohn, Gihwan Yi, Min-Hee Nam, and Jong-Seong Jeon

Subjects

PLANTHOPPERS, PLANTING, RICE, RICE genetics, PLANT genetics, PLANT clones

Abstract

Abstract  During brown planthopper (BPH) feeding on rice plants, we employed a modified representational difference analysis (RDA) method to detect rare transcripts among those differentially expressed in SNBC61, a BPH resistant near-isogenic line (NIL) carrying the Bph1 resistance gene. This identified 3 RDA clones: OsBphi237, OsBphi252 and OsBphi262. DNA gel-blot analysis revealed that the loci of the RDA clones in SNBC61 corresponded to the alleles of the BPH resistant donor Samgangbyeo. Expression analysis indicated that the RDA genes were up-regulated in SNBC61 during BPH feeding. Interestingly, analysis of 64 SNBC NILs, derived from backcrosses of Samgangbyeo with a BPH susceptible Nagdongbyeo, using a cleaved amplified polymorphic sequence (CAPS) marker indicated that OsBphi252, which encodes a putative lipoxygenase (LOX), co-segregates with BPH resistance. Our results suggest that OsBphi252 is tightly linked to Bph1, and may be useful in marker-assisted selection (MAS) for resistance to BPH. [ABSTRACT FROM AUTHOR]

Published

2008

4. Analysis of gene-trap Ds rice populations in Korea.

Author

Sung Park, Nam Jun, Chul Kim, Tae Oh, Jin Huang, Yuan-hu Xuan, Soon Park, Byoung Je, Hai Piao, Soo Park, Young Cha, Byung Ahn, Hyeon Ji, Myung Lee, Seok Suh, Min-Hee Nam, Moo Eun, Gihwan Yi, Doh Yun, and Chang-deok Han

Abstract

Abstract  Insertional mutagen-mediated gene tagging populations have been essential resources for analyzing the function of plant genes. In rice, maize transposable elements have been successfully utilized to produce transposant populations. However, many generations and substantial field space are required to obtain a sufficiently sized transposant population. In rice, the japonica and indica subspecies are phenotypically and genetically divergent. Here, callus cultures with seeds carrying Ac and Ds were used to produce 89,700 lines of Dongjin, a japonica cultivar, and 6,200 lines of MGRI079, whose genome is composed of a mixture of the genetic backgrounds of japonica and indica. Of the more than 3,000 lines examined, 67% had Ds elements. Among the Ds-carrying lines, 81% of Dongjin and 63% of MGRI079 contained transposed Ds, with an average of around 2.0 copies. By examining more than 15,000 lines, it was found that 12% expressed the reporter gene GUS during the early-seedling stage. GUS was expressed in root hairs and crown root initials at estimated frequencies of 0.78% and 0.34%, respectively. The 5,271 analyzed Ds loci were found to be randomly distributed over all of the rice chromosomes. [ABSTRACT FROM AUTHOR]

Published

2007

5. A phosphate starvation-induced acid phosphatase from Oryza sativa: phosphate regulation and transgenic expression.

Author

Yeon Jae Hur, Han Gil Lee, Eun Ji Jeon, Yun Young Lee, Min Hee Nam, Gihwan Yi, Moo Young Eun, Jaesung Nam, Jai Heon Lee, and Doh Hoon Kim

Subjects

RICE, PHOSPHATASES, AMINO acids, PLANT genetics, TRANSGENIC rice

Abstract

A phosphate starvation-induced acid phosphatase cDNA was cloned from the rice, Oryza sativa. The cDNA encoding O. sativa acid phosphatase ( OsACP1) has 1100 bp with an open reading frame of 274 amino acid residues. The deduced amino acid sequence of OsACP1 cDNA showed 53% identity to tomato acid phosphatase and 46–50% identity to several other plant phosphatases. OsACP1 expression was up-regulated in the rice plant and in cell culture in the absence of phosphate (Pi). The induced expression of OsACP1 was a specific response to Pi starvation, and was not affected by the deprivation of other nutrients. OsACP1 expression was responsive to the level of Pi supply, with transcripts of OsACP1 being abundant in Pi-deprived root. The OsACP1 cDNA was expressed as a 30 kDa polypeptide in baculovirus-infected insect Sf9 cells. In addition, the OsACP1 gene was introduced into Arabidopsis via Agrobacterium-mediated transformation. Functional expression of the OsACP1 gene in the transgenic Arabidopsis lines was confirmed by Northern blot and Western blot analyses, as well as phosphatase activity assays. These results suggest that the OsACP1 gene can be used to develop new transgenic dicotyledonous plants able to adapt to Pi-deficient conditions. [ABSTRACT FROM AUTHOR]

Published

2007

6. Rice Immature Pollen 1 (RIP1) is a Regulator of Late Pollen Development.

Author

Min-Jung Han, Ki-Hong Jung, Gihwan Yi, Dong-Yeon Lee, and Gynheung An

Subjects

POLLEN, GAMETOGENESIS, MUTAGENESIS, RICE, REVERSE transcriptase, PLANT genetics

Abstract

We isolated a pollen-preferential gene, RICE IMMATURE POLLEN 1 (RIP1), from a T-DNA insertional population of japonica rice that was trapped by a promoterless β-glucuronidase (GUS) gene. Semi-quantitative reverse transcription–PCR (RT–PCR) analyses confirmed that the RIP1 transcript was abundant at the late stages of pollen development. Transgenic plants carrying a T-DNA insertion in the RIP1 gene displayed the phenotype of segregation distortion of the mutated rip1 gene. Moreover, rip1/rip1 homozygous progeny were not present. Reciprocal crosses between Rip1/rip1 heterozygous plants and the wild type showed that the rip1 allele could not be transmitted through the male. Microscopic analysis demonstrated that development in the rip1 pollen was delayed, starting at the early vacuolated stage. Close examination of that pollen by transmission electron microscopy also showed delayed formation of starch granules and the intine layer. In addition, development of the mitochondria, Golgi apparatus, lipid bodies, plastids and endoplasmic reticulum was deferred in the mutant pollen. Under in vitro conditions, germination of this mutant pollen did not occur, whereas the rate for wild-type pollen was >90%. These results indicate that RIP1 is necessary for pollen maturation and germination. This gene encodes a protein that shares significant homology with a group of proteins containing five WD40 repeat sequences. The green fluorescent protein (GFP)–RIP1 fusion protein is localized to the nucleus. Therefore, RIP1 is probably a nuclear protein that may form a functional complex with other proteins and carry out essential cellular and developmental roles during the late stage of pollen formation. [ABSTRACT FROM PUBLISHER]

Published

2006

7. Rapid, large-scale generation of Ds transposant lines and analysis of the Ds insertion sites in rice.

Author

Chu Min Kim, Hai Long Piao, Soon Ju Park, Nan Soo Chon, Byoung II Je, Bingyao Sun, Sung han Park, Jin Young Park, Eun Jin Lee, Min Jung Kim, Woo Sik Chung, Kon Ho Lee, Young Suk Lee, Jeung Joo Lee, Young Jae Won, GiHwan Yi, Min Hee Nam, Young Soon Cha, Doh Won Yun, and Moo Young Eun

Subjects

RICE, TISSUES, NUCLEOTIDE sequence, PLANT genetics, CROP genetics, GENETICS

Abstract

Rapid, large-scale generation of a Ds transposant population was achieved using a regeneration procedure involving tissue culture of seed-derived calli carrying Ac and inactive Ds elements. In the F2 progeny from genetic crosses between the same Ds and Ac starter lines, most of the crosses produced an independent germinal transposition frequency of 10–20%. Also, many Ds elements underwent immobilization even though Ac was expressed. By comparison, in a callus-derived regenerated population, over 70% of plants carried independent Ds insertions, indicating transposition early in callus formation. In the remaining population, the majority of plants carried only Ac. Most of the new Ds insertions were stably transmitted to a subsequent generation. An exceptionally high proportion of independent transposants in the regenerated population means that selection markers for transposed Ds and continual monitoring of Ac/ Ds activities may not necessarily be required. By analyzing 1297 Ds-flanking DNA sequences, a genetic map of 1072 Ds insertion sites was developed. The map showed that Ds elements were transposed onto all of the rice chromosomes, with preference not only near donor sites (36%) but also on certain physically unlinked arms. Populations from both genetic crossing and tissue culture showed the same distribution patterns of Ds insertion sites. The information of these mapped Ds insertion sites was deposited in GenBank. Among them, 55% of Ds elements were on predicted open-reading frame (ORF) regions. Thus, we propose an optimal strategy for the rapid generation of a large population of Ds transposants in rice. [ABSTRACT FROM AUTHOR]

Published

2004

8. Rice Immature Pollen 1 (RIP1) is a Regulator of Late Pollen Development.

Author

Min-Jung Han, Ki-Hong Jung, Gihwan Yi, Dong-Yeon Lee, and Gynheung An

Published

2007