Your search keyword '"Pill-Soon Song"' showing total 367 results

1. Evidence that phytochrome functions as a protein kinase in plant light signalling

Author

Ah-Young Shin, Yun-Jeong Han, Ayoung Baek, Taeho Ahn, Soo Young Kim, Thai Son Nguyen, Minky Son, Keun Woo Lee, Yu Shen, Pill-Soon Song, and Jeong-Il Kim

Subjects

Science

Abstract

Phytochromes regulate plant responses to environmental light conditions but despite extensive research the initial events in phytochrome signaling remain uncertain. Here, Shin et al. provide evidence that phytochrome phosphorylates target proteins via kinase activity in the N-terminal core domain.

Published

2016

2. In Vivo Assessment of Cold Tolerance through Chlorophyll-a Fluorescence in Transgenic Zoysiagrass Expressing Mutant Phytochrome A.

Author

Mayank Anand Gururani, Jelli Venkatesh, Markkandan Ganesan, Reto Jörg Strasser, Yunjeong Han, Jeong-Il Kim, Hyo-Yeon Lee, and Pill-Soon Song

Subjects

Medicine, Science

Abstract

Chlorophyll-a fluorescence analysis provides relevant information about the physiology of plants growing under abiotic stress. In this study, we evaluated the influence of cold stress on the photosynthetic machinery of transgenic turfgrass, Zoysia japonica, expressing oat phytochrome A (PhyA) or a hyperactive mutant phytochrome A (S599A) with post-translational phosphorylation blocked. Biochemical analysis of zoysiagrass subjected to cold stress revealed reduced levels of hydrogen peroxide, increased proline accumulation, and enhanced specific activities of antioxidant enzymes compared to those of control plants. Detailed analyses of the chlorophyll-a fluorescence data through the so-called OJIP test exhibited a marked difference in the physiological status among transgenic and control plants. Overall, these findings suggest an enhanced level of cold tolerance in S599A zoysiagrass cultivars as reflected in the biochemical and physiological analyses. Further, we propose that chlorophyll-a fluorescence analysis using OJIP test is an efficient tool in determining the physiological status of plants under cold stress conditions.

Published

2015

3. Pollen-mediated flow of bar gene in transgenic herbicide-resistant turf grass Zoysia japonica

Author

Jaechun Lee, Pill-Soon Song, Tae-Woong Bae, Hong-Gyu Kang, In-Ja Song, Pyung Ok Lim, Hyo-Yeon Lee, Ok-Chul Chung, Kee Woong Park, Yong-Eok Lee, and Hyeon-Jin Sun

Subjects

0106 biological sciences, 0301 basic medicine, Zoysia japonica, Transgene, food and beverages, Context (language use), Plant Science, Biology, medicine.disease_cause, Weed control, 01 natural sciences, Gene flow, 03 medical and health sciences, Horticulture, 030104 developmental biology, Anthesis, Germination, Pollen, medicine, 010606 plant biology & botany, Biotechnology

Abstract

Weed control can be most effectively achieved through the use of herbicide-resistance transgene. A preliminary study bar-transgenic Zoysia japonica posed no serious risk on the unintended escape of the transgene from its cultivation site. The present follow-up investigation of the dispersion of pollen and its short-distance escape outside of the bar-transgenic Zoysia japonica habitats were ascertained in terms of environmental factors affecting anthesis and pollen viability. In a 24-h day cycle, zoysiagrass pollen was released predominantly between 08:00 and 10:00, and the pollen was most viable during the same time interval. Optimal temperature and humidity for pollen viability was 15–20 °C and 80–90%, respectively. The pollen germinated in 120 min after anthesis, but under cloudy conditions germination time doubled. No differences in pollen viability/longevity between the transgenic and non-transgenic plants were observed. The pollen-mediated gene flow of transgenic Zoysia japonica to wild-type non-transgenic zoysiagrass species was monitored by measuring the cross-over rate of the bar gene in the context of three different models. At distances within 5 m, the rate of gene flow ranged from 3 to 5.7% according to the models used. The greater the distance from the transgenic plant site, the lower the gene flow rate. The furthest transgene detected was 38 m away and exhibited a 0.25% gene flow rate. The radial model yielded a 3.7% escape rate within a 3 m radius and was wind direction dependent. The distance- and direction-dependent gene flow events were influenced by wind direction and velocity during flowering season.

Published

2021

4. Overexpression of ATHG1/AHL23 and ATPG3/AHL20, Arabidopsis AT-hook motif nuclear-localized genes, confers salt tolerance in transgenic Zoysia japonica

Author

Zhi-Fang Zuo, Hana Jeong, Pill-Soon Song, Hyo-Yeon Lee, Hong-Gyu Kang, Hyeon-Jin Sun, and Dong Hee Lee

Subjects

0106 biological sciences, 0301 basic medicine, Zoysia japonica, biology, Transgene, fungi, food and beverages, Plant Science, Genetically modified crops, AT-hook, biology.organism_classification, 01 natural sciences, Molecular biology, Japonica, 03 medical and health sciences, 030104 developmental biology, Arabidopsis, Gene family, Gene, 010606 plant biology & botany, Biotechnology

Abstract

Zoysia japonica Steud. is a native turfgrass in the Korean peninsula and is used worldwide. Abnormal conditions of soil salinity inhibit plant growth and adversely affect the quality of the turfgrass. AT-hook motif nuclear-localized (AHL) family proteins known to co-regulate the transcription of genes as a chromatin remodeling factor play a role in plant developmental processes and stress responses. In this study, AT-Hook Protein of Genomine 1 (ATHG1)/AT-Hook motif nuclear-Localized protein 23 (AHL23) and AT-hook Protein of Genomine 3 (ATPG3)/AT-Hook motif nuclear-Localized protein 20 (AHL20), two AHL genes from A. thaliana, were transformed into Z. japonica under the control of a constitutive ubiquitin promoter. Southern blot analysis proved that ATHG1/AHL23 and ATPG3/AHL20 were introduced into the ATHG1/AHL23-transgenic plants and ATPG3/AHL20-transgenic plants, respectively. Overexpression of each ATHG1/AHL23 and ATPG3/AHL20 in all of the transgenic plants was confirmed by quantitative real-time PCR (qRT-PCR). To evaluate a tolerant response to salt stress of the transgenic plants, 4 transgenic plants including ATHG1-overexpressing line 1 (ATHG1-OE1) and ATHG1-OE2, and ATPG3-overexpressing line 1 (ATPG3-OE1) and ATPG3-OE2 were selected, respectively. All the transgenic plants showed higher salt-tolerant phenotype with higher chlorophyll and lower malondialdehyde (MDA) contents under salt treatment, compared to the wild types. Also, under salt treatment, the transgenic plants revealed higher activities of catalase (CAT) and peroxidase (POD), reactive oxygen species (ROS)-scavenging enzymes, than those of the wild-type plant. These results suggest that overexpression of ATHG1/AHL23 or ATPG3/AHL20 belonging to the AHL gene family confers salt tolerance to the transgenic zoysiagrass plants.

Published

2020

5. A novel basic helix-loop-helix transcription factor, ZjICE2 from Zoysia japonica confers abiotic stress tolerance to transgenic plants via activating the DREB/CBF regulon and enhancing ROS scavenging

Author

Hyo-Yeon Lee, Pill-Soon Song, Mi-Young Park, Jeongsik Kim, Hyeon-Jin Sun, Hong-Gyu Kang, Quan-Chun Hong, and Zhi-Fang Zuo

Subjects

Transcriptional Activation, 0106 biological sciences, 0301 basic medicine, Transgene, Arabidopsis, Plant Science, Poaceae, Regulon, 01 natural sciences, Japonica, 03 medical and health sciences, Gene Expression Regulation, Plant, Stress, Physiological, Basic Helix-Loop-Helix Transcription Factors, Genetics, Transcription factor, Phylogeny, Plant Proteins, Abiotic component, Zoysia japonica, biology, Arabidopsis Proteins, Abiotic stress, Cold-Shock Response, fungi, food and beverages, Salt Tolerance, General Medicine, Plants, Genetically Modified, biology.organism_classification, Droughts, Cell biology, Cold Temperature, 030104 developmental biology, Reactive Oxygen Species, Agronomy and Crop Science, Transcription Factors, 010606 plant biology & botany

Abstract

ZjICE2 works as a positive regulator in abiotic stress responses and ZjICE2 is a valuable genetic resource to improve abiotic stress tolerance in the molecular breeding program of Zoysia japonica. The basic helix-loop-helix (bHLH) family transcription factors (TFs) play an important role in response to biotic or abiotic stresses in plants. However, the functions of bHLH TFs in Zoysia japonica, one of the warm-season turfgrasses, remain poorly understood. Here, we identified ZjICE2 from Z. japonica, a novel MYC-type bHLH transcription factor that was closely related to ICE homologs in the phylogenetic tree, and its expression was regulated by various abiotic stresses. Transient expression of ZjICE2-GFP in onion epidermal cells revealed that ZjICE2 was a nuclear-localized protein. Also, ZjICE2 bound the MYC cis-element in the promoter of dehydration responsive element binding 1 of Z. japonica (ZjDREB1) using yeast one-hybrid assay. A phenotypic analysis showed that overexpression of the ZjICE2 in Arabidopsis enhanced tolerance to cold, drought, and salt stresses. The transgenic Arabidopsis and Z. japonica accumulated more transcripts of cold-responsive DREB/CBFs and their downstream genes than the wild type (WT) after cold treatment. Furthermore, the transgenic plants exhibited an enhanced Reactive oxygen species (ROS) scavenging ability, which resulted in an efficient maintenance of oxidant-antioxidant homeostasis. In addition, overexpression of the ZjICE2 in Z. japonica displayed intensive cold tolerance with increases in chlorophyll contents and photosynthetic efficiency. Our study suggests that ZjICE2 works as a positive regulator in abiotic stress responses and the ICE-DREB/CBFs response pathway involved in cold stress tolerance is also conserved in Z. japonica. These results provide a valuable genetic resource for the molecular breeding program especially for warm-season grasses as well as other leaf crop plants.

Published

2020

6. Overexpression of Zoysia ZjCIGR1 gene confers cold stress resistance to zoysiagrass

Author

Mi-Young Park, Seok-Cheol Suh, Hong-Gyu Kang, Dae-Hwa Yang, Yong-Eok Lee, Yang-Ji Kim, Pill-Soon Song, Hyeon-Jin Sun, and Hyo-Yeon Lee

Subjects

0106 biological sciences, 0301 basic medicine, biology, Zoysia japonica, Phylogenetic tree, Transgene, fungi, food and beverages, Plant Science, Meristem, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, Horticulture, 030104 developmental biology, Rapid amplification of cDNA ends, Gene, 010606 plant biology & botany, Biotechnology, Zoysia, Southern blot

Abstract

Zoysia japonica Steud. is a warm-season lawn grass popular in Korea and elsewhere. They are cultivated in many places such as river banks, roadside, and play grounds. However, there still is a disadvantage of frequent mowing, and the grass grows poorly under the chilly conditions. To develop a grass variety that circumvents these drawbacks, we cloned the chitin-inducible gibberellins-responsive1 gene (CIGR1) from zoysiagrass. The full length of the ZjCIGR1 (Zj; Zoysia japonica Steud.) gene was obtained by 5′/3′ RACE PCR and the phylogenetic tree showed that it belonged to the CIGR1-subgroup in the PAT1-group of GRAS protein family. Expression of the ZjCIGR1 in wild-type plants was confirmed in roots, meristems, leaves, and flowers, especially high in the flowers. The transgenic zoysiagrass was confirmed by PCR using gene-specific primers, phosphinothricin-acetyl-transferase (PAT) strip test, and Southern blot analysis. ZjCIGR1-overexpressing plants acquired tolerance to cold stress displaying morphological phenotypes characteristic of stress resistance. In addition, in the transformants, expression of the ZjCIGR1 as well as cold-regulated (COR) gene was increased compared to the wild-type plants under cold stress condition. These results suggest that ZjCIGR1 gene is an important candidate for regulating cold stress resistance.

Published

2019

7. Overexpression of ICE1, a Regulator of Cold-Induced Transcriptome, Confers Cold Tolerance to Transgenic Zoysia japonica

Author

Hana Jeong, Hyeon-Jin Sun, Yong-Eok Lee, Hyo-Yeon Lee, Zhi-Fang Zuo, Dae-Hwa Yang, Hong-Gyu Kang, Pill-Soon Song, and Mi-Young Park

Subjects

0106 biological sciences, 0301 basic medicine, biology, Zoysia japonica, Transgene, fungi, food and beverages, Plant Science, Genetically modified crops, biology.organism_classification, 01 natural sciences, Molecular biology, Japonica, Transcriptome, 03 medical and health sciences, Transformation (genetics), 030104 developmental biology, Arabidopsis, Arabidopsis thaliana, 010606 plant biology & botany

Abstract

Numerous genes are known to regulate the cold response in plants. The ICE1 gene is a regulator of coldinduced transcriptome playing an important role in cold tolerance in Arabidopsis thaliana. Here, the Arabidopsis ICE1 gene was cloned and transformed into A. thaliana and Korean lawn grass (Zoysia japonica) respectively, under the control of a maize ubiquitin promoter. The transgenic Arabidopsis plants showed higher survival rate, less MDA content, and higher levels of proline, SOD, and POD after freezing treatment. In the case of Z. japonica, 43 transgenic plants were produced by Agrobacterium-mediated transformation. Southern blot analysis showed that 9 transgenic lines selected by phosphinothricin (PPT) were transformed with ICE1 independently. Cold treatment significantly induced the transcripts abundant in the up-regulated ZjCBF and ZjDREB1 in transgenic lines OE-18 and OE-19. Meanwhile, transgenic plants showed increased proline level but decreased MDA content and with higher activities of SOD and POD compared with wild type under cold stress. These results suggest that overexpression of the ICE1 gene could improve the antioxidative capacity in conferring cold tolerance to the transgenic zoysiagrass plants.

Published

2019

8. Phytochrome-specific type 5 phosphatase controls light signal flux by enhancing phytochrome stability and affinity for a signal transducer

Author

Jong Sang Ryu, Jeong-II Kim, Dae Shik Cho, Byung Chul Kim, Kunkel, Tim, Sung Hyun Hong, Fernandez, Aurora Pinas, Seong-Hee Kim, Kim, Yumi, Ecke, Joseph R., Alonso, Jose M., Nagy, Ferenc, Hong Gil Nam, Schafer, Eberhard, Pill-Soon Song, and Pyung Ok Lim

Subjects

Phytochrome -- Research, Transduction -- Research, Protein research, Biological sciences

Abstract

A type 5-protein phosphatase specifically dephosphorylates biologically active Pfrphytochromes and that it enhances phytochrome-mediated photoresponses. Phytochrome photoreceptors are found to develop an elaborate bio-chemical tuning mechanism for modulating the flux of light signal.

Published

2005

9. Light and brassinosteroid signals are integrated via a dark-induced small G protein in etiolated seedling growth

Author

Jeong-Gu Kang, Ju Yun, Dae-Hwan Kim, Kyung-Sook Chung, Fujioka, Shozo, Jeong-ll Kim, Hye-Won Dae, Yoshida, Shigeo, Takatsuto, Suguru, Pill-Soon Song, and Chung-Mo Park

Subjects

Plant cell development -- Physiological aspects, Photochemical research -- Analysis, G proteins -- Physiological aspects, Growth -- Regulation, Biological sciences

Abstract

Research demonstrates that a G-protein, Pra2, is dark-induced and regulates the dark-induced P450 that is involved in the brassinosteroid biosynthesis. Data suggest that Pra2 integrates light and brasinosteroid signals during hypocotyl elongation in dark grown plants.

Published

2001

10. Development of transgenic crops based on photo-biotechnology

Author

Hyo-Yeon Lee, Pill-Soon Song, Markkandan Ganesan, and Jeong-Il Kim

Subjects

0106 biological sciences, 0301 basic medicine, Abiotic component, Phototropin, Phytochrome, Physiology, Transgene, fungi, food and beverages, Plant Science, Genetically modified crops, Photosynthetic efficiency, Biology, 01 natural sciences, 03 medical and health sciences, Shade avoidance, 030104 developmental biology, Agronomy, Botany, Photomorphogenesis, sense organs, 010606 plant biology & botany

Abstract

The phenotypes associated with plant photomorphogenesis such as the suppressed shade avoidance response and de-etiolation offer the potential for significant enhancement of crop yields. Of many light signal transducers and transcription factors involved in the photomorphogenic responses of plants, this review focuses on the transgenic overexpression of the photoreceptor genes at the uppermost stream of the signalling events, particularly phytochromes, crytochromes and phototropins as the transgenes for the genetic engineering of crops with improved harvest yields. In promoting the harvest yields of crops, the photoreceptors mediate the light regulation of photosynthetically important genes, and the improved yields often come with the tolerance to abiotic stresses such as drought, salinity and heavy metal ions. As a genetic engineering approach, the term photo-biotechnology has been coined to convey the idea that the greater the photosynthetic efficiency that crop plants can be engineered to possess, the stronger the resistance to biotic and abiotic stresses. Development of GM crops based on photoreceptor transgenes (mainly phytochromes, crytochromes and phototropins) is reviewed with the proposal of photo-biotechnology that the photoreceptors mediate the light regulation of photosynthetically important genes, and the improved yields often come with the added benefits of crops' tolerance to environmental stresses.

Published

2017

11. Development of Dwarf Type Cultivar ‘Halla Green 2’ in Zoysia japonica Steud

Author

Hyo-Yeon Lee, Yong-Ik Kwon, Il-Doo Jin, Suk-Min Ko, Hong-Gyu Kang, Pill-Soon Song, In-Ja Song, Ok-Cheol Jeong, Dae-Hwa Yang, Hyeon-Jin Sun, and Tae-Woong Bae

Subjects

0106 biological sciences, 0301 basic medicine, Zoysia japonica, Stolon, Dwarfism, Biology, medicine.disease, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Type (biology), Plant morphology, Botany, medicine, Cultivar, 010606 plant biology & botany, Plant stem

Published

2017

12. Mutational analysis of the pea phytochrome A chromophore pocket: chromophore assembly with apophytochrome A and photoreversibility

Author

Deforce, Lily, Furuya, Masaki, and Pill-Soon Song

Subjects

Mutation (Biology) -- Analysis, Phytochrome -- Analysis, Peas -- Research, Photochemistry -- Analysis, Biological sciences, Chemistry

Abstract

Mutational analysis of single amino acid substitutions of residues adjacent to Cys-323 in the mutants of pea apophytochrome A revealed the interactions between the chromophore and the apoprotein which led to photoreversible absorbance changes. Results derived from the analysis of the mutants for kinetics of chromophore adherence and spectral features of phycocyanobilin (PCB)-holophytochromes were consistent with the theoretical results of phytochrome structural models. The autocatalytic potential of apophytochromes to attach PCB indicates the non-occurrence of major disturbances/changes in the apoproteins.

Published

1993

13. Recombinant bovine heart mitochondrial F1-ATPase inhibitor protein: overproduction in Escherichia coli, purification, and structural studies

Author

Heeke, Gino Van, Deforce, Lily, Schnizer, Richard A., Shaw, Regina, Couton, Judy M., Shaw, Gerry, Pill-Soon Song, and Schuster, Sheldon M.

Subjects

Escherichia coli -- Physiological aspects, Adenosine triphosphatase -- Physiological aspects, Mitochondria -- Observations, Proteins -- Structure, Biological sciences, Chemistry

Abstract

Beef heart mitochondrial F1I is coded by a synthetic gene observed in Escherichia Coli which is studied on the basis of its pattern, structure and cloning. The outer membrane protein A (ompA) signal series and the gene are joined together. A powerful Escherichia coli promoter governs the gene. The outer space of Escherichia coli yields biologically active recombinant bmF1I which is purified almost to homogeneity in a solitary step. The initial conformation in subjected to theoretical studies and detail circular dichroism examinations yield results which add to the results obtained from theoretical studies.

Published

1993

14. Ultrafast pump-probe spectroscopy of native etiolated oat phytochrome

Author

Savikhin, Sergei, Wells, Todd, Pill-Soon Song, and Struve, Walter S.

Subjects

Atomic absorption spectroscopy -- Usage, Phytochrome -- Research, Biological sciences, Chemistry

Abstract

The primary photoprocesses in the Pr to Pfr changes in native oat phytochrome were studied to derive the absorption difference profiles between wavelengths 640 and 700 nm with 1-2 ps resolution. The analysis used low-intensity laser pulses at high repetition rates. All phytochrome species were excited from the Pr ground state due to fast sample recycling. The photoexcitation of lumi-R resulted in the fluorescing of Pr phytochrome which was spectroscopically and kinetically similar to the phytochrome produced by the ground-state Pr. Studies in anisotrophy revealed that Pr and lumi-R absorption transition moments were similar.

Published

1993

15. Dwarf Zoysiagrass (Zoysia japonica) Cultivar 'Halla Green 1' Developed Through Mutation Breeding

Author

Hong-Gyu Kang, Hyo-Yeon Lee, Tae-Woong Bae, Suk-Min Ko, Il-Doo Jin, In-Ja Song, Yong-Ik Kwon, Ok-Cheol Jeong, Dae-Hwa Yang, Hyeon-Jin Sun, and Pill-Soon Song

Subjects

Mutation breeding, Zoysia japonica, Plant morphology, Stolon, Mutant, Botany, Cultivar, Biology, Trichome

Published

2016

16. Evidence that phytochrome functions as a protein kinase in plant light signalling

Author

Yu Shen, Pill-Soon Song, Yun-Jeong Han, Keun Woo Lee, Taeho Ahn, Jeong-Il Kim, Soo Young Kim, Thai Son Nguyen, Ayoung Baek, Minky Son, and Ah-Young Shin

Subjects

0106 biological sciences, 0301 basic medicine, Light Signal Transduction, Avena, Science, General Physics and Astronomy, Biology, MAP3K7, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, MAP2K7, 03 medical and health sciences, Phytochrome A, Protein Domains, Basic Helix-Loop-Helix Transcription Factors, c-Raf, Phosphorylation, Kinase activity, Protein kinase A, MAPK14, Multidisciplinary, Phytochrome, food and beverages, General Chemistry, Plants, Genetically Modified, Cell biology, 030104 developmental biology, Biochemistry, Mutation, 010606 plant biology & botany

Abstract

It has been suggested that plant phytochromes are autophosphorylating serine/threonine kinases. However, the biochemical properties and functional roles of putative phytochrome kinase activity in plant light signalling are largely unknown. Here, we describe the biochemical and functional characterization of Avena sativa phytochrome A (AsphyA) as a potential protein kinase. We provide evidence that phytochrome-interacting factors (PIFs) are phosphorylated by phytochromes in vitro. Domain mapping of AsphyA shows that the photosensory core region consisting of PAS-GAF-PHY domains in the N-terminal is required for the observed kinase activity. Moreover, we demonstrate that transgenic plants expressing mutant versions of AsphyA, which display reduced activity in in vitro kinase assays, show hyposensitive responses to far-red light. Further analysis reveals that far-red light-induced phosphorylation and degradation of PIF3 are significantly reduced in these transgenic plants. Collectively, these results suggest a positive relationship between phytochrome kinase activity and photoresponses in plants., Phytochromes regulate plant responses to environmental light conditions but despite extensive research the initial events in phytochrome signaling remain uncertain. Here, Shin et al. provide evidence that phytochrome phosphorylates target proteins via kinase activity in the N-terminal core domain.

Published

2016

17. Time-resolved absorption studies of native etiolated oat phytochrome

Author

Chian-Fan Zhang, Farrens, David L., Bjorling, Sofie C., Pill-Soon Song, and Kliger, David S.

Subjects

Phytochrome -- Research, Oats -- Composition, Chemistry

Abstract

Time-resolved absorption measurements are performed on the forward phototransformation of native oat phytochrome at 10 degrees C. Likewise, laser photolysis allows for the measurement of the transient difference absorption spectra at delay times from 100 ns to 800 ms. A global fitting algorithm, together with a singular value decomposition method, is used to evaluate the absorption changes at different wavelengths which follow the same kinetics.

Published

1992

18. Time-resolved circular dichroism of the native oat phytochrome photointermediates

Author

Bjorling, Sofie C., Chian-Fan Zhang, Farrens, David L., Pill-Soon Song, and Kliger, David S.

Subjects

Phytochrome -- Research, Circular dichroism -- Analysis, Chemistry

Abstract

The time-resolved circular dichroism (TRCD) spectra of the intermediates formed during the Pr -> Pfr phototransformation in native oat phytochrome is measured at 10 degrees C. The spectra shows the presence of the lumi-R intermediate whose TRCD spectrum is substantially different from its steady-state CD spectrum at low temperature. This discrepancy may be due to different protein-chromophore interactions. It is proposed that the lumi-R trapped in the low-temperature experiment is an unrelaxed isomerized species.

Published

1992

19. Transgenic Turfgrasses Expressing Hyperactive Ser599Ala Phytochrome A Mutant Exhibit Abiotic Stress Tolerance

Author

Yun-Jeong Han, Mayank Anand Gururani, Jeong-Il Kim, Pill-Soon Song, In-Ja Song, Hyo-Yeon Lee, and Markkandan Ganesan

Subjects

0106 biological sciences, 0301 basic medicine, biology, Phytochrome, Agrostis stolonifera, Abiotic stress, fungi, food and beverages, Plant physiology, Plant Science, Photosynthetic efficiency, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, Phytochrome A, 030104 developmental biology, Botany, Proline, Agronomy and Crop Science, 010606 plant biology & botany, Zoysia

Abstract

Turfgrasses are environmentally and recreationally valuable plants that are constantly subjected to various forms of stress in their artificial and natural habitats. Previously, it was shown that the transformation of a hyperactive mutant (Serine 599 Alanine, S599A) of oat phytochrome A in zoysia grass (Zoysia japonica) and creeping bentgrass (Agrostis stolonifera L.) resulted in superior quality turfgrass with improved shade tolerance response. We now examined the abiotic stress response of the transgenic turfgrasses expressing the hyperactive mutant S599A-PhyA. The transgenic S599A-PhyA plants subjected to high salinity and heavy metal toxicity stress exhibited higher chlorophyll content, lower hydrogen peroxide level, and higher proline accumulation than the controls. Furthermore, the anti-oxidative activities of four reactive oxygen species scavenging enzymes and the total biomass (above and below-ground) were higher in S599A-PhyA plants than in the controls under both the stress conditions. Moreover, higher photosynthetic efficiency (F v/F m) of S599A-PhyA plants indicated healthier growth than the controls under stress conditions. Results suggest that the hyperactive mutant of oat phytochrome A confers abiotic stress tolerance in plants, and can be used to efficiently develop abiotic stress tolerant crops in future.

Published

2015

20. Photo-biotechnology as a tool to improve agronomic traits in crops

Author

Mayank Anand Gururani, Pill-Soon Song, and Markkandan Ganesan

Subjects

Crops, Agricultural, Photoreceptors, Plant, Oryza sativa, Agrostis stolonifera, biology, Phytochrome, business.industry, Transgene, fungi, food and beverages, Bioengineering, Plants, Genetically Modified, biology.organism_classification, Solanum tuberosum, Applied Microbiology and Biotechnology, Biotechnology, Phytochrome A, Phenotype, Gene Expression Regulation, Plant, Botany, Cultivar, business, Gene

Abstract

Phytochromes are photosensory phosphoproteins with crucial roles in plant developmental responses to light. Functional studies of individual phytochromes have revealed their distinct roles in the plant's life cycle. Given the importance of phytochromes in key plant developmental processes, genetically manipulating phytochrome expression offers a promising approach to crop improvement. Photo-biotechnology refers to the transgenic expression of phytochrome transgenes or variants of such transgenes. Several studies have indicated that crop cultivars can be improved by modulating the expression of phytochrome genes. The improved traits include enhanced yield, improved grass quality, shade-tolerance, and stress resistance. In this review, we discuss the transgenic expression of phytochrome A and its hyperactive mutant (Ser599Ala-PhyA) in selected crops, such as Zoysia japonica (Japanese lawn grass), Agrostis stolonifera (creeping bentgrass), Oryza sativa (rice), Solanum tuberosum (potato), and Ipomea batatas (sweet potato). The transgenic expression of PhyA and its mutant in various plant species imparts biotechnologically useful traits. Here, we highlight recent advances in the field of photo-biotechnology and review the results of studies in which phytochromes or variants of phytochromes were transgenically expressed in various plant species. We conclude that photo-biotechnology offers an excellent platform for developing crops with improved properties.

Published

2015

21. Zoysia japonica MYC type transcription factor ZjICE1 regulates cold tolerance in transgenic Arabidopsis

Author

Hana Jeong, Zhi-Fang Zuo, Hong-Gyu Kang, Hyeon-Jin Sun, Pill-Soon Song, Hyo-Yeon Lee, and Mi-Young Park

Subjects

Acclimatization, Transgene, Arabidopsis, Plant Science, Poaceae, Transcriptome, Transactivation, Genetics, Gene family, Amino Acid Sequence, Transcription factor, Phylogeny, Plant Proteins, Zoysia japonica, biology, Abiotic stress, Cold-Shock Response, food and beverages, General Medicine, Plants, Genetically Modified, biology.organism_classification, Cell biology, Cold Temperature, Sequence Alignment, Agronomy and Crop Science, Transcription Factors

Abstract

ICE1 (Inducer of CBF Expression 1) is a regulator of cold-induced transcriptome, which plays an important role in plant cold response pathway. To enhance the cold tolerance of Zoysia japonica, one of the warm-season turfgrasses, it is helpful to understand the cold response mechanism in Zoysia japonica. We identified stress-responsive ZjICE1 from Zoysia japonica and characterized its function in cold stress. Our results showed that ZjICE1 shared the typical feature of ICE homolog proteins belonging to a nucleic protein. Transactivation activity assay revealed that ZjICE1 bound to the MYC cis-element in the ZjDREB1's promotor. The ZjICE1 overexpressed transgenic Arabidopsis showed enhanced tolerance to cold stress with an increases in SOD, POD, and free proline content and reduction in MDA content. They also induced the transcripts abundance of cold-responsive genes (CBF1, CBF2, CBF3, COR47A, KIN1, and RD29A) after cold treatment. These results suggest that ZjICE1 is a positive regulator in Zoysia japonica plant during cold stress and can be a useful gene for the molecular breeding program to develop the cold tolerant zoysiagrass. Furthermore, the ZjICE1 also conferred resistance to salt and drought stresses, providing the better understanding of the basic helix-loop-helix (bHLH) gene family in abiotic stress responses.

Published

2019

22. The Protein Kinase Activity of Phytochrome Functions in Regulating Plant Light Signaling

Author

Pill-Soon Song, Yun-Jeong Han, Jeong-Il Kim, and Ah-Young Shin

Subjects

General Computer Science, Protein kinase domain, Biochemistry, Phytochrome, Kinase, Autophosphorylation, Phosphorylation, Kinase activity, Biology, Protein kinase A, MAP2K7, Cell biology

Abstract

Plant phytochromes, molecular light switches that regulate various aspects of plant growth and development, are known as autophosphorylating serine/threonine kinases. Although recent studies reveal that phytochrome autophosphorylation plays an important role in the regulation of phytochrome signaling through the control of phyA protein stability, the in vivo functional roles of phytochrome kinase activity in plant light signaling are largely unknown. Thus, it is necessary to investigate the detailed function of phytochrome as a protein kinase, which might include mapping of kinase domain on the phytochrome molecule, searching for substrates that could be phosphorylated by phyA, and in vivo functional analysis of the kinase activity with phytochrome mutants displaying reduced kinase activity. Our recent studies reveal that the kinase activity of phytochrome plays a positive role in plant light signaling. Therefore, we highlight the current knowledge about the functional roles of phytochrome kinase activity in the light signal transduction of plants, based on our recent results.

Published

2013

23. Molecular Identification of Zoysia japonica and Zoysia sinica (Zoysia Species) Based on ITS Sequence Analyses and CAPS

Author

Pill-Soon Song, Suk-Min Ko, Yang-Ji Kim, Hyo-Yeon Lee, Shin-Young Park, Dae-Hwa Yang, Ok-Cheol Jeong, Mi-Young Park, Hyeon-Jin Sun, Hong-Gyu Kang, Paul Yang, Min-Ji Hong†, and Yong-Ik Kwon

Subjects

Zoysia japonica, Botany, Cleaved amplified polymorphic sequence, Species identification, Horticulture, Biology, biology.organism_classification, Zoysia sinica, Molecular identification, Zoysia

Published

2017

24. Development of transgenic crops based on photo-biotechnology

Author

Markkandan, Ganesan, Hyo-Yeon, Lee, Jeong-Il, Kim, and Pill-Soon, Song

Subjects

Crops, Agricultural, Phenotype, Light, Morphogenesis, Plants, Genetically Modified, Biotechnology

Abstract

The phenotypes associated with plant photomorphogenesis such as the suppressed shade avoidance response and de-etiolation offer the potential for significant enhancement of crop yields. Of many light signal transducers and transcription factors involved in the photomorphogenic responses of plants, this review focuses on the transgenic overexpression of the photoreceptor genes at the uppermost stream of the signalling events, particularly phytochromes, crytochromes and phototropins as the transgenes for the genetic engineering of crops with improved harvest yields. In promoting the harvest yields of crops, the photoreceptors mediate the light regulation of photosynthetically important genes, and the improved yields often come with the tolerance to abiotic stresses such as drought, salinity and heavy metal ions. As a genetic engineering approach, the term photo-biotechnology has been coined to convey the idea that the greater the photosynthetic efficiency that crop plants can be engineered to possess, the stronger the resistance to biotic and abiotic stresses. Development of GM crops based on photoreceptor transgenes (mainly phytochromes, crytochromes and phototropins) is reviewed with the proposal of photo-biotechnology that the photoreceptors mediate the light regulation of photosynthetically important genes, and the improved yields often come with the added benefits of crops' tolerance to environmental stresses.

Published

2016

25. Overexpression of phytochrome A and its hyperactive mutant improves shade tolerance and turf quality in creeping bentgrass and zoysiagrass

Author

Markkandan, Ganesan, Yun-Jeong, Han, Tae-Woong, Bae, Ok-Jin, Hwang, Thummala, Chandrasekhar, Thummala, Chandrasekkhar, Ah-Young, Shin, Chang-Hyo, Goh, Satoshi, Nishiguchi, In-Ja, Song, Hyo-Yeon, Lee, Jeong-Il, Kim, and Pill-Soon, Song

Subjects

Chlorophyll, food.ingredient, Light, Agrostis stolonifera, Gene Expression, Plant Science, Genetically modified crops, Poaceae, Agrostis, Fluorescence, Electron Transport, chemistry.chemical_compound, Shade avoidance, food, Phytochrome A, Genetics, Phosphorylation, Shade tolerance, health care economics and organizations, Phytochrome, biology, Zoysia japonica, fungi, food and beverages, social sciences, Plants, Genetically Modified, biology.organism_classification, humanities, Plant Leaves, Blotting, Southern, Phenotype, Avena, chemistry, Agronomy, Mutation, Microscopy, Electron, Scanning, Plant Vascular Bundle

Abstract

Phytochrome A (phyA) in higher plants is known to function as a far-red/shade light-sensing photoreceptor in suppressing shade avoidance responses (SARs) to shade stress. In this paper, the Avena PHYA gene was introduced into creeping bentgrass (Agrostis stolonifera L.) and zoysiagrass (Zoysia japonica Steud.) to improve turf quality by suppressing the SARs. In addition to wild-type PHYA, a hyperactive mutant gene (S599A-PHYA), in which a phosphorylation site involved in light-signal attenuation was removed, was also transformed into the turfgrasses. Phenotypic traits of the transgenic plants were compared to assess the suppression of SARs under a simulated shade condition and outdoor field conditions after three growth seasons. Under the shade condition, the S599A-PhyA transgenic creeping bentgrass plants showed shade avoidance-suppressing phenotypes with a 45 % shorter leaf lengths, 24 % shorter internode lengths, and twofold increases in chlorophyll concentrations when compared with control plants. Transgenic zoysiagrass plants overexpressing S599A-PHYA also showed shade-tolerant phenotypes under the shade condition with reductions in leaf length (15 %), internode length (30 %), leaf length/width ratio (19 %) and leaf area (22 %), as well as increases in chlorophyll contents (19 %) and runner lengths (30 %) compared to control plants. The phenotypes of transgenic zoysiagrass were also investigated in dense field habitats, and the transgenic turfgrass exhibited shade-tolerant phenotypes similar to those observed under laboratory shade conditions. Therefore, the present study suggests that the hyperactive phyA is effective for the development of shade-tolerant plants, and that the shade tolerance nature is sustained under field conditions.

Published

2012

26. Photochemical Characterization of Phytochrome Missense Mutants

Author

Ah-Young Shin, Pill-Soon Song, Min-Gon Kim, Si-Seok Lee, Yun-Jeong Han, Hwan-Sik Kim, and Jeong-Il Kim

Subjects

Plant growth, Phytochrome, Organic Chemistry, Mutant, Arabidopsis, Mutation, Missense, Reversion, General Medicine, Biology, Chromophore, Photochemical Processes, Photochemistry, Applied Microbiology and Biotechnology, Biochemistry, Protein Structure, Tertiary, Analytical Chemistry, Photochromism, Phytochrome A, Missense mutation, Mutant Proteins, Molecular Biology, Biotechnology

Abstract

Phytochromes are photoreceptors that regulate many aspects of plant growth and development in response to red/far-red light signals from the environment. In this study, we analyzed chromophore ligation and photochromism of missense phytochrome mutants in the Per-Arnt-Sim (PAS)-related domain (PRD). Among the 14 mutants analyzed, the Gly768Asp mutant of Avena phytochrome A showed aberrant photochromism and dark reversion, suggesting that amino acid residues in the C-terminal domain affect the photochemical properties of the photosensory N-terminal domain.

Published

2011

27. Cloning of a Zoysia ZjLsL and its overexpression to induce axillary meristem initiation and tiller formation in Arabidopsis and bentgrass

Author

Tae-Woong Bae, Dae-Hwa Yang, Chang-Hyo Goh, Yong Pyo Lim, Pyung Ok Lim, Hyeon-Jin Sun, Hyo Yeon Lee, Pill-Soon Song, and In-Ja Song

Subjects

Regulation of gene expression, biology, Zoysia japonica, food and beverages, Tiller (botany), Plant Science, General Medicine, biology.organism_classification, Transformation (genetics), Arabidopsis, Axillary bud, Botany, Gene, Ecology, Evolution, Behavior and Systematics, Zoysia

Abstract

Zoysia grass and creeping bentgrass are important turf grasses used in parks, gardens and playing fields. Development of grasses with increased tiller formation will enhance their commercial cultivation. To investigate the regulatory mechanism of tiller formation, we cloned the Zoysia japonica Lateral suppressor-like (ZjLsL) gene. The Lateral suppressor (Ls) gene encodes a transcriptional regulator belonging to the plant-specific GRAS protein family of putative transcription factors, and regulates axillary meristem initiation. A full-length DNA of the ZjLsL gene was isolated by 5'/3' DNA walking. Phylogenetic analysis showed that ZjLsL is closely related to Ls genes. Southern blot analysis revealed that zoysia grass has two copies of the ZjLsL gene. ZjLsL expression was detected in all organs of zoysia grass but was most highly expressed in culms. Overexpression of ZjLsL in creeping bentgrass and Arabidopsis plants promoted axillary bud formation. These results suggest that ZjLsL plays an important role in axillary meristem initiation and tiller formation.

Published

2011

28. Environmental risk assessment of genetically modified Herbicide-Tolerant zoysiagrass (Event: Jeju Green21)

Author

Hong-Gyu Kang, Hyo-Yeon Lee, Pill-Soon Song, Tae-Woong Bae, In-Ja Song, Hyeon-Jin Sun, and Suk-Min Ko

Subjects

Rhizosphere, Zoysia japonica, food and beverages, Plant Science, Genetically modified crops, Biology, biology.organism_classification, Weed control, Gene flow, Genetically modified organism, Agronomy, Botany, Weed, Agronomy and Crop Science, Biotechnology, Zoysia

Abstract

Transgenic zoysiagrass ( Zoysia japonica Steud.) expressing the bar gene inserted in the plant genome has been generated previously through Agrobacterium tumefaciens - mediated transformation. The GM zoysiagrass (event: JG21) permits efficient management of weed control of widely cultivated zoysiagrass fields, reducing the frequency and cost of using various herbicides for weed control. Now we have carried out the environmental risk assessment of JG21 prior to applying to the governmental regulatory agency for the commercial release of the GM turf grass outside of test plots. The morphological phenotypes, molecular analysis, weediness and gene flow from each test plot of JG21 and wild-type zoysiagrasses have been evaluated by selectively analyzing environmental effects. There were no marked differences in morphological phenotypes between JG21 and wild-type grasses. The JG21 retained its stable integration in the host plant in T 1 generation, exhibiting a 3:1 segregation ratio according to the Mendelian genetics. We confirmed the copy number (1) of JG21 by using Southern blot analysis, as the transgenic plants were tolerant to ammonium glufosinate throughout the culture period. From cross-fertilization and gene flow studies, we found a 9% cross-pollination rate at the center of JG21 field and 0% at distances over 3 m from the field. The JG21 and wild-type zoysiagrass plants are not considered “weed” because zoysiagrasses generally are not dominant and do not spread into weedy areas easily. We assessed the horizontal gene transfer (HGT) of the transgene DNA to soil microorganisms from JG21 and wild-type plants. The bar gene was not detected from the total genomic DNA extracted from each rhizosphere soil of GM and non-GM Zoysia grass fields. Through the monitoring of JG21 transgene’s unintentional release into the environment, we found no evidence for either pollen mediated gene flow of zoysiagrass or seed dispersal from the test field within a 3 km radius of the natural habitat.

Published

2011

29. Resistance to Rhizoctonia solani AG-2-2 (IIIB) in creeping bentgrass plants transformed with pepper esterase gene PepEST

Author

Jeong Il Kim, Yong Sung Kim, S-W Kim, Yun-Jeong Han, Pill-Soon Song, Si-Seok Lee, Ok-Jin Hwang, and Kyu-Chang Cho

Subjects

Oomycete, Dollar spot, biology, fungi, food and beverages, Brown patch, Plant Science, Horticulture, Plant disease resistance, biology.organism_classification, Microbiology, Rhizoctonia solani, Pepper, Botany, Genetics, Pythium, Pythium aphanidermatum, Agronomy and Crop Science

Abstract

A pepper esterase (PepEST) gene was introduced into creeping bentgrass (Agrostis stolonifera) by Agrobacterium-mediated transformation. Purified recombinant PepEST proteins were sufficient to inhibit the growth of the fungal pathogens Rhizoctonia solani AG2-2 (IIIB) (causing brown patch) and Sclerotinia homoeocarpa (dollar spot), but not the oomycete responsible for pythium blight, Pythium aphanidermatum. PepEST proteins were most effective against R. solani. After genetic transformation of creeping bentgrass with PepEST, the genomic integration of transgenes bar and PepEST was confirmed by Southern blot analysis, and their expression was also validated by northern blot and western blot analyses. Disease severity on R. solani-inoculated leaves of transgenic plants was

Published

2011

30. Autophosphorylation of Arabidopsis nucleoside diphosphate kinase 2 occurs only on its active histidine residue

Author

Yu Shen, Jeong-II Kim, and Pill-Soon Song

Subjects

Arabidopsis -- Properties, Arabidopsis -- Research, Nucleosides -- Research, Phosphorylation -- Research, Biological sciences, Chemistry

Abstract

A study on autophosphorylation of Arabidopsis nucleoside diphosphate kinase (NDPK2), a component in the photochrome-mediated light signaling was conducted. The results show that the NDPK2 is phosphorylated only on its active histidine residue His197 and the presence of serine/threonine phosphorylation is an experimental artifact due to the harsh condition applied in the treatment of the phosphorylated protein sample.

Published

2006

31. Excited states of photobiological receptors. II. Chlorophylls, phytochrome, and stentorin

Author

Chen-An Chin, Pill-Soon Song, Iwao Yamazaki, and Hiroaki Baba

Subjects

Phytochrome, Chemistry, Condensed Matter Physics, Ring (chemistry), Photochemistry, Tautomer, Atomic and Molecular Physics, and Optics, chemistry.chemical_compound, Excited state, Chlorin, Moiety, Singlet state, Physics::Chemical Physics, Physical and Theoretical Chemistry, Excitation

Abstract

In this series on the application of configuration analysis (CA) to the electronic excited states of photobiological receptors, we have extended CA to two important photobiological receptors, phytochrome of photomorphogenic and biological clock systems and stentorin of the photophobic response system of stentors. In addition, the effect of substituents in chlorophylls on the electronic excitation of the chlorin and bacteriochlorin ring systems has been examined. The open-shell calculations of chlorophylls have also been performed. In the singlet excited state of phytochrome, there is a significant charge transfer from ring A to the violin moiety of the phytochrome molecule, with a tendency for the localized excitation in the A ring. The charge transfer contribution to the singlet-singlet excitation is also significant. These results are correlated with the photomorphogenic transformation of phytochrome which involves deprotonation and/or tautomerism of the ring A in the excited state. In the case of stentorin, the excitation resides largely in the aromatic system, with some charge transfer to the carbonyl groups. The photobiological significance of these results are discussed.

Published

2009

32. Configuration analysis of the electronic excitation in photobiological receptors

Author

Pill-Soon Song and Chen-An Chin

Subjects

Chemistry, Thiazoline, Protonation, Condensed Matter Physics, Photochemistry, Luciferin, Fluorescence, Atomic and Molecular Physics, and Optics, Photoexcitation, chemistry.chemical_compound, Excited state, Molecule, Physical and Theoretical Chemistry, Excitation

Abstract

According to configuration analysis of the electronic state wave functions of chlorophyll a, peripheral CC(3b,4b) and isocyclic CO groups are not locally excited to any significant extent. This contrasts with the pyrone CC bond of coumarins where a substantial localization of the triplet excitation as well as photoreactions occur. The lowest excited states (1QQ and 3QQ) of chlorophyll a and bacteriochlorophyll a are also similar in correlating their state wave functions, although the ground states of these molecules are substantially different. The 11-CC bond of 11-cis-retinal protonated Schiff's bases shows no tendency for a localized excitation. Thus the primary photoexcitation of rhodopsin does not involve a preferential excitation at the 11-CC bond. The fluorescence characteristics of firefly luciferins have also been analyzed by the configuration analysis method. The most significant result is that the fluorescent states of luciferin and oxyluciferin monoanion possess a strong charge transfer character from hydroxybenzothiazole to thiazoline, in agreement with experimental observations.

Published

2009

33. Electronic structure and photoreactivity of the triplet states of skin-sensitizing psoralens

Author

Iwao Yamazaki, Hiroaki Baba, Chen-An Chin, and Pill-Soon Song

Subjects

Stereochemistry, Chemistry, Electronic structure, Condensed Matter Physics, Coumarin, Atomic and Molecular Physics, and Optics, Pyrone, chemistry.chemical_compound, Furocoumarins, Logical basis, Moiety, Molecule, Physical and Theoretical Chemistry, Psoralen

Abstract

The photoreactive states of skin-sensitizing-carcinogenic psoralens (furocoumarins) are characterized by the configuration analysis method of Baba and coworkers. The S1 (π, π*) states of coumarin and psoralen possess significant charge transfer (CT) character in the CC bond of the pyrone moiety (32% CT to the CC vacant orbital in coumarin and 22% in psoralen) and in the CC bond of the furyl moiety (4% CT to the vacant CC orbital and 14% CT from the occupied CC orbital in psoralen). On the other hand, the T1, (π, π*) state of these molecules shows a substantial localization of the excitation in the pyrone CC bond, thus providing a logical basis for the structure-activity correlation of skin-sensitizing coumarins.

Published

2009

34. Transgenic Indian Cotton (Gossypium hirsutum) Harboring Rice Chitinase Gene (Chi II) Confers Resistance to Two Fungal Pathogens

Author

P. Bhanumathi, A. Lakshmi Prabha, N. Jayabalan, Pill-Soon Song, K. Ganesh Kumari, and Markkandan Ganesan

Subjects

biology, fungi, food and beverages, Agrobacterium tumefaciens, Genetically modified crops, Plant disease resistance, Alternaria, biology.organism_classification, Biochemistry, Fusarium wilt, Spore, Horticulture, Botany, Fusarium oxysporum, Leaf spot, Biotechnology

Abstract

Problem statement: The present investigation described a simple and reproducible protocol for transgenic cotton regeneration and characterization of chitinase (Chi II) gene expression against two different fungal pathogens in cotton. Approach: Transgenic cotton (Gossypium hirsutum cv. SVPR2) plants were produced by pCambia-bar-Chi II (13.8 kb) under the control of the CaMV 35S promoter, harbored in the strain LBA 4404 Agrobacterium tumefaciens by using shoot tip explants. Results: Finally, from the 10 experiments, 21.8% of transformation frequency was recorded. Segregation ratio of 3:1 was recorded in the T0 plant seeds. Polymerase chain reaction and southern blotting analysis were used to confirm the integration of Chi II transgene in the T0 plants genome of putative transgenics. Quantitiave and qualitative (SDS-PAGE) analyses were also carried out to confirm the expression of chitinase enzyme in T0 plants. Further, randomly selected transgenic plants (T0) were analyzed for disease tolerance by evaluating them with spores of Fusarium oxysporum and Alternaria macrospora. All the selected PCR positive plants showed enhanced disease resistance against Fusarium wilt. The plants selected randomly showed an enhanced survival rate compared with the control when they were grown in earthen pots inoculated with 1×105 spores 100-1 g of soil mixture. Another four randomly selected plantlets were sprayed with spores of Alternaria macrospora in order to test their tolerance to Alternaria leaf spot disease. After 20 days of culture, the number of lesions per leaf and the lesion length per leaf spot in non-transferred leaves increased. In the case of transgenic plantlets, lesion formation was completely absent. Conclusion: The disease resistance against Fusarium wilt and Alternaria leaf spot in cotton strains would serve as good breeding materials for producing fungal disease resistant cotton varieties.

Published

2009

35. Production of purple-colored creeping bentgrass using maize transcription factor genes Pl and Lc through Agrobacterium-mediated transformation

Author

Yun-Jeong Han, Pill-Soon Song, Yong-Min Kim, Jee-Yeon Lee, Jeong-Il Kim, Young-Min Woo, Thummala Chandrasekhar, Soo Jung Kim, and Kyu-Chang Cho

Subjects

Rhizobiaceae, DNA, Plant, Agrostis stolonifera, Agrobacterium, Transgene, Plant Science, Genetically modified crops, Genes, Plant, Agrostis, Zea mays, Anthocyanins, chemistry.chemical_compound, Transformation, Genetic, Gene Expression Regulation, Plant, Botany, Poaceae, Plant Proteins, biology, Pigmentation, fungi, Gene Transfer Techniques, food and beverages, General Medicine, Plants, Genetically Modified, biology.organism_classification, Transformation (genetics), Phenotype, chemistry, Anthocyanin, Agronomy and Crop Science, Rhizobium, Transcription Factors

Abstract

Purple-colored transgenic creeping bentgrass (Agrostis stolonifera L.) plants were developed for ornamental purpose by means of Agrobacterium-mediated transformation. Embryogenic creeping bentgrass calli were transformed with the pCAMBIA 3301 vector harboring maize (Zea mays) flavonoid/anthocyanin biosynthetic pathway transcription factor genes, Lc (Leaf color) and Pl (Purple leaf), individually and in combination, and three types of putative transgenic plants (Lc, Pl, and Lc + Pl) were generated. Genomic integration and expression of the transgenes were confirmed by Southern and northern blot analyses, respectively. The transgenic creeping bentgrass plants expressing both Lc and Pl genes were entirely purple, whereas those expressing Pl alone had purple stems and those expressing Lc alone lacked purple pigmentation in adult plants. The anthocyanin content was estimated in all the three types of transgenic plant and correlated well with the degree of purple coloration observed. These results suggest that both Lc and Pl genes are necessary and sufficient to confer purple coloration to creeping bentgrass.

Published

2008

36. Arabidopsis nucleoside diphosphate kinase-2 as a plant GTPase activating protein

Author

Yun-Jeong Han, Pill-Soon Song, Yu Shen, and Jeong-Il Kim

Subjects

G protein-coupled receptor kinase, GTPase-activating protein, Arabidopsis Proteins, Protein Conformation, G protein, GTPase-Activating Proteins, Arabidopsis, Small G Protein, General Medicine, GTPase, Biology, Biochemistry, Nucleoside-diphosphate kinase, Cell biology, Isoenzymes, GTP-binding protein regulators, Guanosine 5'-O-(3-Thiotriphosphate), rab GTP-Binding Proteins, Nucleoside-Diphosphate Kinase, Heterotrimeric G protein, Molecular Biology

Abstract

Nucleoside diphosphate kinase (NDPK) is involved in multiple signaling pathways in mammalian systems, including G-protein signaling. Arabidopsis NDPK2, like its mammalian counterparts, is multifunctional despite its initial discovery phytochrome-interacting protein. This similarity raises the possibility that NDPK2 may play a role in G-protein signaling in plants. In the present study, we explore the potential relationship between NDPK2 and the small G proteins, Pra2 and Pra3, as well as the heterotrimeric G protein, GPA1. We report a physical interaction between NDPK2 and these small G proteins, and demonstrate that NDPK2 can stimulate their GTPase activities. Our results suggest that NDPK2 acts as a GTPase-activating protein for small G proteins in plants. We propose that NDPK2 might be a missing link between the phytochromemediated light signaling and G protein-mediated signaling.

Published

2008

37. Agrobacterium-medlated high-efficiency transformation of creeping bentgrass with herbicide resistance

Author

Soo Jung Kim, Jee-Yeon Lee, Yong-Min Kim, Song-Sook Yang, Ok-Jin Hwang, Nam-Ju Hong, Kyung-Moon Kim, Hyo-Yeon Lee, Pill-Soon Song, and Jeong-II Kim

Subjects

Agrostis stolonifera, biology, Agrobacterium, Transgene, Plant Science, Genetically modified crops, biology.organism_classification, chemistry.chemical_compound, Transformation (genetics), Agrostis, chemistry, Botany, Kinetin, Transformation efficiency

Abstract

We performedAgrobacterium-mediated genetic transformation of creeping bentgrass(Agrostis stolonifera L.) and produced herbicide-resistant transformants from commercial cultivars Crenshaw and Penncross. Seed-derived embryogenie calli were infected withA. tumefaciens EHA105 harboring pCAMBIA 3301, which includes an intron-containinggus reporter and abar selection marker. To establish a stable system, we examined various factors that could potentially influence transformation efficiency during the pre-culture, infection, and co-cultivation steps. The addition of kinetin to the callus pre-culture media increased efficiency about three-fold. Once the optimum infection and co-cultivation conditions were identified, this protocol was used successfully to bulk-produce herbicide-resistant transgenic plants whose herbicide resistance was confirmed using the BASTA® resistance test. Southern blot analysis demonstrated integration and low copy numbers of the integrated transgenes, and northern blot analysis verified their expression. Thus, we have established an efficient genetic transformation system for creeping bentgrass and confirmed a high frequency of single-copy transgene integration and functional gene expression.

Published

2007

38. Production of multiple shoots and plant regeneration from leaf segments of fig tree (Ficus carica L.)

Author

Pill Soon Song, Kyung Moon Kim, Pil Yong Yun, Hyo Yeon Lee, Min Young Kim, and Thummala Chandrasekhar

Subjects

chemistry.chemical_classification, biology, fungi, food and beverages, Ficus, Plant Science, biology.organism_classification, chemistry.chemical_compound, Murashige and Skoog medium, chemistry, Auxin, Botany, Shoot, Cytokinin, Cultivar, Carica, Explant culture

Abstract

High frequency of multiple shoots and plant regeneration has been obtained from the leaf segments of fig tree (Ficus carica L.). Budbreak from dormant buds is highly dependent upon cultivar, so we chose cv. Seungjung Dauphine because it shows an excellent degree of budbreak. Tissue-browning can be an important limiting factor duringin vitro culture. This phenomenon could be substantially delayed or reduced by treating the tissues with 0.5 mM phloroglucinol, thus oxidizing the phenolic substances exuded from the segments. Wounded leaf explants cultured on MS medium supplemented with TDZ in combination with IBA produced more multiple shoots than did other combinations of auxin and cytokinin. For example, 2 mg L-1 IBA along with either 0.5 or 1.0 mg L-1 TDZ resulted in 8.1 or 10.8 multiple shoots per explant, respectively. We achieved a frequency of approximately 90% when tissues were first maintained under darkness in the culture medium for one week before being transferred to the light. Regenerated shoots rooted best in a full-strength MS basal medium.In vitro regenerated plant-lets were then successfully transferred to greenhouse conditions. Here, we have demonstrated a regeneration protocol that is suitable for use in conservation as well as genetic transformation studies of figs and related species.

Published

2007

39. Phytochrome-mediated photomorphogenesis in plants

Author

Pill-Soon Song, Yun-Jeong Han, and Jeong-ll Kim

Subjects

Shade avoidance, Signaling network, Phytochrome, Transcription (biology), Botany, Photoreceptor protein, Photomorphogenesis, Protein phosphorylation, Plant Science, Biology, Subcellular localization, Cell biology

Abstract

Photomorphogenesis is the process by which plants grow and develop in response to light signals. This process is mediated by a sophisticated network of photoreceptors among which phytochromes play a key role. Phytochrome-mediated photomorphogenic responses are characterized by the complex variety of relationships between light input and physiological outputs, including germination, de-etiolation, shade avoidance, circadian rhythm, and flowering. Recent studies have resulted in several important advances, and have revealed the major consequences of phytochrome activity in terms of controlling protein subcellular localization, transcription, protein stability, and protein phosphorylation. In addition, many downstream components in the phytochrome signaling have now been identified, and a complex, highly regulated signaling network is envisaged. Here, we review the current knowledge about red/far-red photoreceptor phytochromes and provide a comprehensive summary of the phytochrome-mediated photomorphogenesis signaling network.

Published

2007

40. Evaluation of horizontal gene transfer from genetically modified zoysiagrass to the indigenous microorganisms in isolated GMO field

Author

Ki-Hyun Ryu, Hyo-Yeon Lee, Tae-Hyeong Lee, Yong-Eok Lee, Sin-Young Park, Tae-Wung Bae, Pill-Soon Song, Pyung Ok Lim, Key-Zung Riu, and Pill-Yong Yoon

Subjects

Rhizosphere, Zoysia japonica, biology, Microorganism, Plant Science, biology.organism_classification, law.invention, Genetically modified organism, law, Horizontal gene transfer, Botany, Agronomy and Crop Science, Gene, Polymerase chain reaction, Bacteria, Biotechnology

Abstract

The release of genetically modified organisms () into the environment has the potential risks regarding the possibility of gene transfer from to natural organisms and this needs to be evaluated. This study was conducted to monitor the possible horizontal gene transfer from herbicide-resistant zoysiagrass (Zoysia japonica Steud.) to indigenous microorganisms. We have first examined the effect of field-released GM zoysiagrass on the microbial flora in the gut of locust (Locusts mlgratoria). The microbial flora was analyzed through determining the 165 rDHA sequences of microorganisms. The comparison of the microbial flora in the gut of locusts that were captured at the field of GM zoysiagrass and of wild-type revealed that there is no noticeable difference between these two groups. This result indicates that the GM zoysiagrass does not have negative impact on microbial flora in the gut of locust. We then investigated whether the horizontal gene transfer occurred from GM zoysiagrass to microbes in soil, rhizosphere and faecal pellets from locusts by utilizing molecular tools such as Southern hybridization and polymerase chain reaction (PCR). When the total DNAs isolated from microbes in GM zoysiagrass and in wild-type zoysiagrass fields were hybridized with probes for bar or hpt gene, no hybridization signal was detected from both field isolates, while the probes were hybridized with DNA from the positive control. Absence of these genes in the FNAs of soil microorganisms as well as microbes in the gut of locust was further confirmed by PCR. Taken together, our data showed that horizontal gene transfer did not occur in this system. These results further indicate that frequencies of transfer of engineered plant DNA to bacteria are likely to be negligible.

Published

2007

41. The PAS2 domain is required for dimerization of phytochrome A

Author

Yun-Jeong Han, Pill-Soon Song, Jeong-Il Kim, Masaki Furuya, Seong-Hee Bhoo, and Xristo Zarate

Subjects

Phytochrome, Chemistry, General Chemical Engineering, Mutant, General Physics and Astronomy, General Chemistry, Chromophore, Yeast, law.invention, Phytochrome A, Biochemistry, PAS domain, law, Biophysics, Recombinant DNA, Function (biology)

Abstract

Phytochromes are plant photoreceptors that regulate the growth and development of plants in response to light. Phytochromes exist as dimers and dimerization is thought to be important for phytochrome function. Phytochromes contain two major domains, the N-terminal domain responsible for chromophore ligation and photosensory specificity and the C-terminal domain responsible for dimerization and regulatory functions. We have investigated the dimerization motifs by means of the yeast two-hybrid assays and size exclusion chromatography using purified recombinant phytochromes. From dimerization analyses using internal deletion mutants, site-specific mutants, and C-terminal fragments of the pea phytochrome A, the primary contact region for dimerization was localized to the region between Val730 and Gly821. Further analysis using purified full-length phytochrome mutants and Per–Arnt–Sim 1 (PAS1) and PAS2 fragments revealed that the PAS2 domain is required for dimerization, but that the PAS1 domain is not.

Published

2006

42. Autophosphorylation of Arabidopsis Nucleoside Diphosphate Kinase 2 Occurs Only on Its Active Histidine Residue

Author

Jeong-Il Kim, Yu Shen, and Pill-Soon Song

Subjects

Threonine, Serine/threonine-specific protein kinase, Light, Autophosphorylation, Arabidopsis, Hydrogen-Ion Concentration, Biology, Biochemistry, Nucleoside-diphosphate kinase, Phosphates, Enzyme Activation, Serine, Nucleoside-Diphosphate Kinase, Mutation, Phosphorylation, Histidine, Protein phosphorylation, Phytochrome, Protein Binding, Signal Transduction, MAPK14

Abstract

Arabidopsis nucleoside diphosphate kinase 2 (NDPK2) is a component in the phytochrome-mediated light signaling. In the present study, its autophosphorylation was investigated. Acid-stable and alkali-stable phosphorylated residues were analyzed under two different conditions. Results revealed that NDPK2 is phosphorylated only on its active histidine residue His197 and the presence of serine/threonine phosphorylation is an experimental artifact due to the harsh condition applied in the treatment of the phosphorylated protein sample. To resolve the controversy of whether serine/threonine phosphorylation of NDPK occurs as has been suggested by other NDPK studies, NDPK2 putative phosphorylation site mutants were generated and examined. No serine/threonine phosphorylation was identified in NDPK2 or implicated in its enzymatic activity. Further studies indicated that the low enzymatic activity and autophosphorylation level of NDPK2 mutant S199A are shown to be due to a damaged H-bonding with the active histidine residue His197 in the nucleotide-binding pocket. In addition, NDPK2 Kpn loop mutant T182A was found to possess an extremely low enzymatic activity and almost no autophosphorylation, suggesting the importance of the oligomeric states of NDPK2 in NDPK2 functioning.

Published

2006

43. Structural Analysis of Arabidopsis thaliana Nucleoside Diphosphate Kinase-2 for Phytochrome-mediated Light Signaling

Author

Jeong-Il Kim, Seong Hee Kim, Young Na, Yun-Jeong Han, Pill-Soon Song, Soo Hyun Eom, Yu Shen, and Young Jun Im

Subjects

Models, Molecular, Conformational change, Light, Molecular Sequence Data, Arabidopsis, Plasma protein binding, Crystallography, X-Ray, Protein structure, Structural Biology, Arabidopsis thaliana, Amino Acid Sequence, Binding site, Molecular Biology, Binding Sites, biology, Phytochrome, Arabidopsis Proteins, biology.organism_classification, Nucleoside-diphosphate kinase, Protein Structure, Tertiary, Biochemistry, Nucleoside-Diphosphate Kinase, Biophysics, Sequence Alignment, Protein Binding, Signal Transduction

Abstract

In plants, nucleoside diphosphate kinases (NDPKs) play a key role in the signaling of both stress and light. However, little is known about the structural elements involved in their function. Of the three NDPKs (NDPK1-NDPK3) expressed in Arabidopsis thaliana, NDPK2 is involved in phytochrome-mediated signal transduction. In this study, we found that the binding of dNDP or NTP to NDPK2 strengthens the interaction significantly between activated phytochrome and NDPK2. To better understand the structural basis of the phytochrome-NDPK2 interaction, we determined the X-ray structures of NDPK1, NDPK2, and dGTP-bound NDPK2 from A.thaliana at 1.8A, 2.6A, and 2.4A, respectively. The structures showed that nucleotide binding caused a slight conformational change in NDPK2 that was confined to helices alphaA and alpha2. This suggests that the presence of nucleotide in the active site and/or the evoked conformational change contributes to the recognition of NDPK2 by activated phytochrome. In vitro binding assays showed that only NDPK2 interacted specifically with the phytochrome and the C-terminal regulatory domain of phytochrome is involved in the interaction. A domain swap experiment between NDPK1 and NDPK2 showed that the variable C-terminal region of NDPK2 is important for the activation by phytochrome. The structure of Arabidopsis NDPK1 and NDPK2 showed that the isoforms share common electrostatic surfaces at the nucleotide-binding site, but the variable C-terminal regions have distinct electrostatic charge distributions. These findings suggest that the binding of nucleotide to NDPK2 plays a regulatory role in phytochrome signaling and that the C-terminal extension of NDPK2 provides a potential binding surface for the specific interaction with phytochromes.

Published

2004

44. Overexpression of a Mutant Basic Helix-Loop-Helix Protein HFR1, HFR1-ΔN105, Activates a Branch Pathway of Light Signaling in Arabidopsis

Author

Moon-Soo Soh, Ki-Young Yang, Seunghee Lee, Pill-Soon Song, and Young-Mi Kim

Subjects

Light, Physiology, Mutant, Arabidopsis, Saccharomyces cerevisiae, Plant Science, medicine.disease_cause, Phytochrome A, Gene Expression Regulation, Plant, Gene expression, Genetics, medicine, Arabidopsis thaliana, Cloning, Molecular, Sequence Deletion, Mutation, biology, Phytochrome, Arabidopsis Proteins, Helix-Loop-Helix Motifs, Nuclear Proteins, Dose-Response Relationship, Radiation, Plants, Genetically Modified, biology.organism_classification, Cell biology, DNA-Binding Proteins, Focus Issue on Light Signaling, Signal transduction, Mustard Plant, Signal Transduction

Abstract

The HFR1, a basic helix-loop-helix protein, is required for a subset of phytochrome A-mediated photoresponses in Arabidopsis. Here, we show that overexpression of the HFR1-ΔN105 mutant, which lacks the N-terminal 105 amino acids, confers exaggerated photoresponses even in darkness. Physiological analysis implied that overexpression of HFR1-ΔN105 activated constitutively a branch pathway of light signaling that mediates a subset of photomorphogenic responses, including germination, de-etiolation, gravitropic hypocotyl growth, blocking of greening, and expression of some light-regulated genes such as CAB, DRT112, PSAE, PSBL, PORA, and XTR7, without affecting the light-responsiveness of anthocyanin accumulation and expression of other light-regulated genes such as CHS and PSBS. Although the end-of-day far-red light response and petiole elongation were suppressed in the HFR1-ΔN105-overexpressing plants, flowering time was not affected by HFR1-ΔN105. In addition, the HFR1-ΔN105-overexpressing plants showed hypersensitive photoresponses in the inhibition of hypocotyl elongation, dependently on phytochrome A, FHY1, and FHY3 under FR light or phyB under R light, respectively. Moreover, our double mutant analysis suggested that the hypersensitive photoresponse is due to functional cooperation between HFR1-ΔN105 and other light-signaling components including HY5, a basic leucine zipper protein. Taken together, our results of gain-of-function approach with HFR1-ΔN105 suggest the existence of a complex and important basic helix-loop-helix protein-mediated transcriptional network controlling a branch pathway of light signaling and provide a useful framework for further genetic dissection of light-signaling network in Arabidopsis.

Published

2003

45. In Vivo Assessment of Cold Tolerance through Chlorophyll-a Fluorescence in Transgenic Zoysiagrass Expressing Mutant Phytochrome A

Author

Jeong-Il Kim, Hyo-Yeon Lee, Pill-Soon Song, Yun-Jeong Han, Markkandan Ganesan, Reto J. Strasser, Mayank Anand Gururani, and Jelli Venkatesh

Subjects

Chlorophyll, Transgene, Science, Mutant, Mutation, Missense, Biology, Photosynthesis, Poaceae, Fluorescence, chemistry.chemical_compound, Phytochrome A, Botany, Proline, Multidisciplinary, Abiotic stress, Chlorophyll A, Cold-Shock Response, food and beverages, Plants, Genetically Modified, Cold shock response, Cold Temperature, Biochemistry, chemistry, Amino Acid Substitution, Medicine, Research Article

Abstract

Chlorophyll-a fluorescence analysis provides relevant information about the physiology of plants growing under abiotic stress. In this study, we evaluated the influence of cold stress on the photosynthetic machinery of transgenic turfgrass, Zoysia japonica, expressing oat phytochrome A (PhyA) or a hyperactive mutant phytochrome A (S599A) with post-translational phosphorylation blocked. Biochemical analysis of zoysiagrass subjected to cold stress revealed reduced levels of hydrogen peroxide, increased proline accumulation, and enhanced specific activities of antioxidant enzymes compared to those of control plants. Detailed analyses of the chlorophyll-a fluorescence data through the so-called OJIP test exhibited a marked difference in the physiological status among transgenic and control plants. Overall, these findings suggest an enhanced level of cold tolerance in S599A zoysiagrass cultivars as reflected in the biochemical and physiological analyses. Further, we propose that chlorophyll-a fluorescence analysis using OJIP test is an efficient tool in determining the physiological status of plants under cold stress conditions.

Published

2015

46. A Phytochrome-Associated Protein Phosphatase 2A Modulates Light Signals in Flowering Time Control in Arabidopsis

Author

Pill-Soon Song, Dae-Hwan Kim, Song-Sook Yang, Jeong-Gu Kang, Chung-Mo Park, and Kyung-Sook Chung

Subjects

Cytoplasm, Time Factors, Light, Photoperiod, Protein subunit, Molecular Sequence Data, Phosphatase, Arabidopsis, Flowers, Plant Science, Phytochrome A, Phosphoprotein Phosphatases, Protein phosphorylation, Amino Acid Sequence, Protein Phosphatase 2, Phosphorylation, Sequence Homology, Amino Acid, biology, Phytochrome, Arabidopsis Proteins, fungi, food and beverages, Cell Biology, Protein phosphatase 2, biology.organism_classification, Biochemistry, Sequence Alignment, Research Article, Signal Transduction

Abstract

Reversible protein phosphorylation, which is catalyzed by functionally coupled protein kinases and protein phosphatases, is a major signaling mechanism in eukaryotic cellular functions. The red and far-red light-absorbing phytochrome photoreceptors are light-regulated Ser/Thr-specific protein kinases that regulate diverse photomorphogenic processes in plants. Here, we demonstrate that the phytochromes functionally interact with the catalytic subunit of a Ser/Thr-specific protein phosphatase 2A designated FyPP. The interactions were influenced by phosphorylation status and spectral conformation of the phytochromes. Recombinant FyPP efficiently dephosphorylated oat phytochrome A in the presence of Fe(2+) or Zn(2+) in a spectral form-dependent manner. FyPP was expressed predominantly in floral organs. Transgenic Arabidopsis plants with overexpressed or suppressed FyPP levels exhibited delayed or accelerated flowering, respectively, indicating that FyPP modulates phytochrome-mediated light signals in the timing of flowering. Accordingly, expression patterns of the clock genes in the long-day flowering pathway were altered greatly. These results indicate that a self-regulatory phytochrome kinase-phosphatase coupling is a key signaling component in the photoperiodic control of flowering.

Published

2002

47. Phytochrome-mediated signal transduction pathways in plants

Author

Pill-Soon Song, Jeong-Il Kim, and Gennady V. Kozhukh

Subjects

Plant growth, Phytochrome, Biophysics, food and beverages, Proteolytic degradation, Cell Biology, Biology, Biochemistry, Cell biology, Dephosphorylation, Hes3 signaling axis, Phosphorylation, Signal transduction, Molecular Biology, Plant Physiological Phenomena, Signal Transduction

Abstract

Phytochromes are photoreceptors that regulate plant growth and development in response to the solar radiation environment. Recent studies reveal how phytochrome-mediated light signals can be transduced to the cells for their responses. The possible signal transduction pathways of phytochromes include: (a) direct regulation of gene transcription and (b) typical kinase-involved signaling pathways and its regulation by phosphorylation, dephosphorylation, and proteolytic degradation. This review highlights some of the recent findings.

Published

2002

48. Investigation of Transformation Efficiency of Rice Using Agrobacterium tumefaciens and High Transformation of GPAT (glycerol-3-phosphate acyltransferase) Gene Relative to Chilling Tolerance

Author

Pill-Soon Song, Suk-Chul Seo, Mi-Suk Seo, Hyo-Yeon Lee, Dae-Ock Choi, Seong-Lyul Rhim, and Chang-Hyu Bae

Subjects

Reporter gene, Acetosyringone, biology, Agrobacterium, fungi, food and beverages, Agrobacterium tumefaciens, biology.organism_classification, Molecular biology, chemistry.chemical_compound, Transformation (genetics), chemistry, Botany, Gene, Southern blot, Transformation efficiency

Abstract

This study has been focused on improving transformation efficiency of rice using Agrobacterium tumefaciens. We have demonstrated the effect of this system when the GPAT gene related to the cold-resistance was transferred by Agrobacterium tumefaciens in rice. Transformation conditions were modified using intron -glucuronidase (GUS) expression as a reporter gene in the rice. In this study, mature seed-derived calli of rice (Oruza sativa L. cv. Dongjin) were pre-cultured for 3 days and then infected with Agrobacterium. When this infected calli were cultured in the dark for 10 days on co-cu]lure medium containing 50 mg/L of CaCl, 30 mg/L of acetosyringone, 2 mg/L of 2,4-D, 120 mg/L of betaine, high GUS expression was observed. In the present transformation system, the efficiency of transformation of GPAT gene was about 54%. Stable integration of GPAT gene into chromosomal DNA was proven by southern blot analysis of genomic DNA isolated from T progenies. The progenies (T1 generation) derived from primary transformant of 5 lines were segregated with a 3 (resistant) : 1 (sensitive ratio) in medium containing hygromycin. This high frequency transformation system can be used as a useful tool in transformation of another monocotyledon.n.

Published

2002

49. Expression of recombinant full-length plant phytochromes assembled with phytochromobilin in Pichia pastoris

Author

Yun-Jeong Han, Ah-Young Shin, Jeong-Il Kim, and Pill-Soon Song

Subjects

Bilin reductase, Molecular Sequence Data, Biophysics, Gene Expression, Biochemistry, Pichia, Pichia pastoris, Phytochrome A, chemistry.chemical_compound, Chromophore, Phycocyanobilin, Structural Biology, Arabidopsis, Genetics, Amino Acid Sequence, Molecular Biology, Phytochromobilin, biology, Phytochrome, Biliverdine, Far-red, Cell Biology, biology.organism_classification, Recombinant Proteins, Mitochondria, Heme oxygenase, Protein Transport, chemistry, Holophytochrome, Mitochondrion localization, Apoproteins, Genetic Engineering, Heme Oxygenase-1

Abstract

We have successfully developed a system to produce full-length plant phytochrome assembled with phytochromobilin in Pichia pastoris by co-expressing apophytochromes and chromophore biosynthetic genes, heme oxygenase (HY1) and phytochromobilin synthase (HY2) from Arabidopsis. Affinity-purified phytochrome proteins from Pichia cells displayed zinc fluorescence indicating chromophore attachment. Spectroscopic analyses showed absorbance maximum peaks identical to in vitro reconstituted phytochromobilin-assembled phytochromes, suggesting that the co-expression system is effective to generate holo-phytochromes. Moreover, mitochondria localization of the phytochromobilin biosynthetic genes increased the efficiency of holophytochrome biosynthesis. Therefore, this system provides an excellent source of holophytochromes, including oat phytochrome A and Arabidopsis phytochrome B.

Published

2014

50. REP1, a Basic Helix-Loop-Helix Protein, Is Required for a Branch Pathway of Phytochrome A Signaling in Arabidopsis

Author

Pill-Soon Song, Moon-Soo Soh, Sang-Jo Han, and Young-Mi Kim

Subjects

Chalcone synthase, Blotting, Western, Mutant, Arabidopsis, Plant Science, Phytochrome A, Cloning, Molecular, Transcription factor, Plant Proteins, biology, Phytochrome, Arabidopsis Proteins, Helix-Loop-Helix Motifs, fungi, food and beverages, Far-red, Cell Biology, biology.organism_classification, Phenotype, Biochemistry, biology.protein, Signal transduction, Signal Transduction, Research Article

Abstract

Phytochromes are primary photoreceptors mediating diverse responses ranging from induction of germination to floral induction in higher plants. We have isolated novel recessive rep1 (reduced phytochrome signaling 1) mutants, which exhibit a long-hypocotyl phenotype only under far-red light but not under red light. Physiological characterization showed that rep1 mutations greatly reduced a subset of phytochrome A-regulated responses, including the inhibition of hypocotyl elongation, cotyledon expansion, modulation of gravitropic growth of hypocotyl, and induction of the CAB (encoding chlorophyll a/b binding protein) gene, without affecting the accumulation of anthocyanin, far-red-preconditioned blocking of greening, induction of germination, and induction of CHS (encoding chalcone synthase) and FNR (encoding ferredoxin-NADP(+) oxidoreductase) genes. These results suggest that REP1 is a positive signaling component, functioning in a branch of the phytochrome A signaling pathway. Molecular cloning and characterization of the REP1 gene revealed that it encodes a light-inducible, putative transcription factor containing the basic helix-loop-helix motif.

Published

2000