Your search keyword '"Yong-Hwan Lee"' showing total 17 results

1. Genome-Wide Analysis of Hypoxia-Responsive Genes in the Rice Blast Fungus, Magnaporthe oryzae.

Author

Jaehyuk Choi, Hyunjung Chung, Gir-Won Lee, Sun-Ki Koh, Suhn-Kee Chae, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

Rice blast fungus, Magnaporthe oryzae, is the most destructive pathogen in the rice-growing area. This fungus has a biotrophic phase early in infection and later switches to a necrotrophic lifestyle. During the biotrophic phase, the fungus competes with its host for nutrients and oxygen. Continuous uptake of oxygen is essential for successful establishment of blast disease of this pathogen. Here, we report transcriptional responses of the fungus to oxygen limitation. Transcriptome analysis using RNA-Seq identified that 1,047 genes were up-regulated in response to hypoxia. Those genes are involved in mycelial development, sterol biosynthesis, and metal ion transport based on hierarchical GO terms, and are well-conserved among three fungal species. In addition, null mutants of two hypoxia-responsive genes were generated and their roles in fungal development and pathogenicity tested. The mutant for the sterol regulatory element-binding protein gene, MoSRE1, exhibited increased sensitivity to a hypoxia-mimicking agent, increased conidiation, and delayed invasive growth within host cells, which is suggestive of important roles in fungal development. However, such defects did not cause any significant decrease in disease severity. The other null mutant, for the alcohol dehydrogenase gene MoADH1, showed no defect in the hypoxia-mimicking condition (using cobalt chloride) and fungal development. Taken together, this comprehensive transcriptional profiling in response to a hypoxic condition with experimental validations would provide new insights into fungal development and pathogenicity in plant pathogenic fungi.

Published

2015

2. Regulation of cellular diacylglycerol through lipid phosphate phosphatases is required for pathogenesis of the rice blast fungus, Magnaporthe oryzae.

Author

Md Abu Sadat, Junhyun Jeon, Albely Afifa Mir, Jaeyoung Choi, Jaehyuk Choi, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

Considering implication of diacylglycerol in both metabolism and signaling pathways, maintaining proper levels of diacylglycerol (DAG) is critical to cellular homeostasis and development. Except the PIP2-PLC mediated pathway, metabolic pathways leading to generation of DAG converge on dephosphorylation of phosphatidic acid catalyzed by lipid phosphate phosphatases. Here we report the role of such enzymes in a model plant pathogenic fungus, Magnaporthe oryzae. We identified five genes encoding putative lipid phosphate phosphatases (MoLPP1 to MoLPP5). Targeted disruption of four genes (except MoLPP4) showed that MoLPP3 and MoLPP5 are required for normal progression of infection-specific development and proliferation within host plants, whereas MoLPP1 and MoLPP2 are indispensable for fungal pathogenicity. Reintroduction of MoLPP3 and MoLPP5 into individual deletion mutants restored all the defects. Furthermore, exogenous addition of saturated DAG not only restored defect in appressorium formation but also complemented reduced virulence in both mutants. Taken together, our data indicate differential roles of lipid phosphate phosphatase genes and requirement of proper regulation of cellular DAGs for fungal development and pathogenesis.

Published

2014

3. Comparative analysis of pathogenicity and phylogenetic relationship in Magnaporthe grisea species complex.

Author

Jaehyuk Choi, Sook-Young Park, Byung-Ryun Kim, Jae-Hwan Roh, In-Seok Oh, Seong-Sook Han, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

Outbreaks of rice blast have been a threat to the global production of rice. Members of the Magnaporthe grisea species complex cause blast disease on a wide range of gramineous hosts, including cultivated rice and other grass species. Recently, based on phylogenetic analyses and mating tests, isolates from crabgrass were separated from the species complex and named M. grisea. Then other isolates from grasses including rice were named as M. oryzae. Here, we collected 103 isolates from 11 different species of grasses in Korea and analyzed their phylogenetic relationships and pathogenicity. Phylogenetic analyses of multilocus sequences and DNA fingerprinting revealed that the haplotypes of most isolates were associated with their hosts. However, six isolates had different haplotypes from the expectation, suggesting potential host shift in nature. Results of pathogenicity tests demonstrated that 42 isolates from crabgrass and 19 isolates from rice and other grasses showed cross-infectivity on rice and crabgrass, respectively. Interestingly, we also found that the isolates from rice had a distinct deletion in the calmodulin that can be used as a probe.

Published

2013

4. Experimental evolution reveals genome-wide spectrum and dynamics of mutations in the rice blast fungus, Magnaporthe oryzae.

Author

Junhyun Jeon, Jaeyoung Choi, Gir-Won Lee, Ralph A Dean, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

Knowledge on mutation processes is central to interpreting genetic analysis data as well as understanding the underlying nature of almost all evolutionary phenomena. However, studies on genome-wide mutational spectrum and dynamics in fungal pathogens are scarce, hindering our understanding of their evolution and biology. Here, we explored changes in the phenotypes and genome sequences of the rice blast fungus Magnaporthe oryzae during the forced in vitro evolution by weekly transfer of cultures on artificial media. Through combination of experimental evolution with high throughput sequencing technology, we found that mutations accumulate rapidly prior to visible phenotypic changes and that both genetic drift and selection seem to contribute to shaping mutational landscape, suggesting the buffering capacity of fungal genome against mutations. Inference of mutational effects on phenotypes through the use of T-DNA insertion mutants suggested that at least some of the DNA sequence mutations are likely associated with the observed phenotypic changes. Furthermore, our data suggest oxidative damages and UV as major sources of mutation during subcultures. Taken together, our work revealed important properties of original source of variation in the genome of the rice blast fungus. We believe that these results provide not only insights into stability of pathogenicity and genome evolution in plant pathogenic fungi but also a model in which evolution of fungal pathogens in natura can be comparatively investigated.

Published

2013

5. Agrobacterium tumefaciens-mediated transformation of the lichen fungus, Umbilicaria muehlenbergii.

Author

Sook-Young Park, Min-Hye Jeong, Hai-Ying Wang, Jung A Kim, Nan-Hee Yu, Sungbeom Kim, Yong Hwa Cheong, Seogchan Kang, Yong-Hwan Lee, and Jae-Seoun Hur

Subjects

Medicine, Science

Abstract

Transformation-mediated mutagenesis in both targeted and random manners has been widely applied to decipher gene function in diverse fungi. However, a transformation system has not yet been established for lichen fungi, severely limiting our ability to study their biology and mechanism underpinning symbiosis via gene manipulation. Here, we report the first successful transformation of the lichen fungus, Umbilicaria muehlenbergii, via the use of Agrobacterium tumefaciens. We generated a total of 918 transformants employing a binary vector that carries the hygromycin B phosphotransferase gene as a selection marker and the enhanced green fluorescent protein gene for labeling transformants. Randomly selected transformants appeared mitotically stable, based on their maintenance of hygromycin B resistance after five generations of growth without selection. Genomic Southern blot showed that 88% of 784 transformants contained a single T-DNA insert in their genome. A number of putative mutants affected in colony color, size, and/or morphology were found among these transformants, supporting the utility of Agrobacterium tumefaciens-mediated transformation (ATMT) for random insertional mutagenesis of U. muehlenbergii. This ATMT approach potentially offers a systematic gene functional study with genome sequences of U. muehlenbergii that is currently underway.

Published

2013

6. Mechanistic insights into validoxylamine A 7'-phosphate synthesis by VldE using the structure of the entire product complex.

Author

Michael C Cavalier, Young-Sun Yim, Shumpei Asamizu, David Neau, Khaled H Almabruk, Taifo Mahmud, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

The pseudo-glycosyltransferase VldE catalyzes non-glycosidic C-N coupling between an unsaturated cyclitol and a saturated aminocyclitol with the conservation of the stereochemical configuration of the substrates to form validoxylamine A 7'-phosphate, the biosynthetic precursor of the antibiotic validamycin A. To study the molecular basis of its mechanism, the three-dimensional structures of VldE from Streptomyces hygroscopicus subsp. limoneus was determined in apo form, in complex with GDP, in complex with GDP and validoxylamine A 7'-phosphate, and in complex with GDP and trehalose. The structure of VldE with the catalytic site in both an "open" and "closed" conformation is also described. With these structures, the preferred binding of the guanine moiety by VldE, rather than the uracil moiety as seen in OtsA could be explained. The elucidation of the VldE structure in complex with the entirety of its products provides insight into the internal return mechanism by which catalysis occurs with a net retention of the stereochemical configuration of the donated cyclitol.

Published

2012

7. Gene expression profiling during conidiation in the rice blast pathogen Magnaporthe oryzae.

Author

Kyoung Su Kim and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

Conidiation of phytopathogenic fungi is a key developmental process that plays a central role in their life cycles and in epidemics. However, there is little information on conidiation-induced molecular changes in the rice blast fungus Magnaporthe oryzae. As a first step to understand conidiogenesis in this fungus, we measured genome-wide gene expression profiles during conidiation using a whole genome oligonucleotide microarray. At a two-fold expression difference, approximately 4.42% and 4.08% of genes were upregulated and downregulated, respectively, during conidiation. The differentially expressed genes were functionally categorized by gene ontology (GO) term analysis, which demonstrated that the gene set encoded proteins that function in metabolism, cell wall biosynthesis, transcription, and molecule transport. To define the events of the complicated process of conidiogenesis, another set of microarray experiments was performed using a deletion mutant for MoHOX2, a stage-specific transcriptional regulator essential for conidial formation, which was expressed de novo in a conidiation-specific manner in M. oryzae. Gene expression profiles were compared between the wild-type and the ΔMohox2 mutant during conidiation. This analysis defined a common gene set that was upregulated in the wild-type and downregulated in the ΔMohox2 mutant during conidiation; this gene set is expected to include conidiation-related downstream genes of MoHOX2. We identified several hundred genes that are differentially-expressed during conidiation; our results serve as an important resource for understanding the conidiation, a process in M. oryzae, which is critical for disease development.

Published

2012

8. Structure-based development of small molecule PFKFB3 inhibitors: a framework for potential cancer therapeutic agents targeting the Warburg effect.

Author

Minsuh Seo, Jeong-Do Kim, David Neau, Inder Sehgal, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

Cancer cells adopt glycolysis as the major source of metabolic energy production for fast cell growth. The HIF-1-induced PFKFB3 plays a key role in this adaptation by elevating the concentration of Fru-2,6-BP, the most potent glycolysis stimulator. As this metabolic conversion has been suggested to be a hallmark of cancer, PFKFB3 has emerged as a novel target for cancer chemotherapy. Here, we report that a small molecular inhibitor, N4A, was identified as an initial lead compound for PFKFB3 inhibitor with therapeutic potential. In an attempt to improve its potency, we determined the crystal structure of the PFKFB3•N4A complex to 2.4 Å resolution and, exploiting the resulting molecular information, attained the more potent YN1. When tested on cultured cancer cells, both N4A and YN1 inhibited PFKFB3, suppressing the Fru-2,6-BP level, which in turn suppressed glycolysis and, ultimately, led to cell death. This study validates PFKFB3 as a target for new cancer therapies and provides a framework for future development efforts.

Published

2011

9. The PEX7-mediated peroxisomal import system is required for fungal development and pathogenicity in Magnaporthe oryzae.

Author

Jaeduk Goh, Junhyun Jeon, Kyoung Su Kim, Jongsun Park, Sook-Young Park, and Yong-Hwan Lee

Subjects

Medicine, Science

Abstract

In eukaryotes, microbodies called peroxisomes play important roles in cellular activities during the life cycle. Previous studies indicate that peroxisomal functions are important for plant infection in many phytopathogenic fungi, but detailed relationships between fungal pathogenicity and peroxisomal function still remain unclear. Here we report the importance of peroxisomal protein import through PTS2 (Peroxisomal Targeting Signal 2) in fungal development and pathogenicity of Magnaporthe oryzae. Using an Agrobacterium tumefaciens-mediated transformation library, a pathogenicity-defective mutant was isolated from M. oryzae and identified as a T-DNA insert in the PTS2 receptor gene, MoPEX7. Gene disruption of MoPEX7 abolished peroxisomal localization of a thiolase (MoTHL1) containing PTS2, supporting its role in the peroxisomal protein import machinery. ΔMopex7 showed significantly reduced mycelial growth on media containing short-chain fatty acids as a sole carbon source. ΔMopex7 produced fewer conidiophores and conidia, but conidial germination was normal. Conidia of ΔMopex7 were able to develop appressoria, but failed to cause disease in plant cells, except after wound inoculation. Appressoria formed by ΔMopex7 showed a defect in turgor generation due to a delay in lipid degradation and increased cell wall porosity during maturation. Taken together, our results suggest that the MoPEX7-mediated peroxisomal matrix protein import system is required for fungal development and pathogenicity M. oryzae.

Published

2011

10. Agrobacterium tumefaciens-mediated transformation of the lichen fungus, Umbilicaria muehlenbergii

Author

Yong-Hwan Lee, Sungbeom Kim, Seogchan Kang, Sook Young Park, Hai Ying Wang, Jung A Kim, Nan Hee Yu, Min Hye Jeong, Jae Seoun Hur, and Yong Hwa Cheong

Subjects

DNA, Bacterial, Agrobacterium, Genes, Fungal, Green Fluorescent Proteins, lcsh:Medicine, Mutagenesis (molecular biology technique), Yeast and Fungal Models, Mycology, Plant Science, Microbiology, Insertional mutagenesis, chemistry.chemical_compound, Transformation, Genetic, Model Organisms, Ascomycota, Fungal Reproduction, Molecular Cell Biology, lcsh:Science, Gene, Biology, Genetics, Multidisciplinary, biology, Ecology, lcsh:R, Fungal genetics, Fungi, Botany, Agrobacterium tumefaciens, biology.organism_classification, Transformation (genetics), Phenotype, chemistry, Mutation, lcsh:Q, Genetic Engineering, Hygromycin B, Research Article

Abstract

Transformation-mediated mutagenesis in both targeted and random manners has been widely applied to decipher gene function in diverse fungi. However, a transformation system has not yet been established for lichen fungi, severely limiting our ability to study their biology and mechanism underpinning symbiosis via gene manipulation. Here, we report the first successful transformation of the lichen fungus, Umbilicaria muehlenbergii, via the use of Agrobacterium tumefaciens. We generated a total of 918 transformants employing a binary vector that carries the hygromycin B phosphotransferase gene as a selection marker and the enhanced green fluorescent protein gene for labeling transformants. Randomly selected transformants appeared mitotically stable, based on their maintenance of hygromycin B resistance after five generations of growth without selection. Genomic Southern blot showed that 88% of 784 transformants contained a single T-DNA insert in their genome. A number of putative mutants affected in colony color, size, and/or morphology were found among these transformants, supporting the utility of Agrobacterium tumefaciens-mediated transformation (ATMT) for random insertional mutagenesis of U. muehlenbergii. This ATMT approach potentially offers a systematic gene functional study with genome sequences of U. muehlenbergii that is currently underway.

Published

2013

11. Experimental evolution reveals genome-wide spectrum and dynamics of mutations in the rice blast fungus, Magnaporthe oryzae

Author

Jaeyoung Choi, Junhyun Jeon, Ralph A. Dean, Gir-Won Lee, and Yong-Hwan Lee

Subjects

Evolutionary Genetics, Genome evolution, Evolutionary Processes, Magnaporthe, lcsh:Medicine, Genomics, Mycology, Biology, medicine.disease_cause, Microbiology, Genome, Genetic drift, Genetic Mutation, Genetics, Fungal Evolution, medicine, Genome Sequencing, lcsh:Science, Microbial Pathogens, Evolutionary Biology, Mutation, Experimental evolution, Multidisciplinary, Virulence, Genetic Drift, Microbial Mutation, lcsh:R, Fungi, Fungal genetics, Computational Biology, Oryza, Spores, Fungal, biology.organism_classification, Biological Evolution, Phenotype, Microbial Evolution, lcsh:Q, Chromosomes, Fungal, Genome, Fungal, Sequence Analysis, Research Article

Abstract

Knowledge on mutation processes is central to interpreting genetic analysis data as well as understanding the underlying nature of almost all evolutionary phenomena. However, studies on genome-wide mutational spectrum and dynamics in fungal pathogens are scarce, hindering our understanding of their evolution and biology. Here, we explored changes in the phenotypes and genome sequences of the rice blast fungus Magnaporthe oryzae during the forced in vitro evolution by weekly transfer of cultures on artificial media. Through combination of experimental evolution with high throughput sequencing technology, we found that mutations accumulate rapidly prior to visible phenotypic changes and that both genetic drift and selection seem to contribute to shaping mutational landscape, suggesting the buffering capacity of fungal genome against mutations. Inference of mutational effects on phenotypes through the use of T-DNA insertion mutants suggested that at least some of the DNA sequence mutations are likely associated with the observed phenotypic changes. Furthermore, our data suggest oxidative damages and UV as major sources of mutation during subcultures. Taken together, our work revealed important properties of original source of variation in the genome of the rice blast fungus. We believe that these results provide not only insights into stability of pathogenicity and genome evolution in plant pathogenic fungi but also a model in which evolution of fungal pathogens in natura can be comparatively investigated.

Published

2013

12. Comparative analysis of pathogenicity and phylogenetic relationship in Magnaporthe grisea species complex

Author

Yong-Hwan Lee, Seong-Sook Han, In-Seok Oh, Jae-Hwan Roh, Sook-Young Park, Byung-Ryun Kim, and Jaehyuk Choi

Subjects

Species complex, Magnaporthe, Science, Plant Pathogens, Mycology, Plant Science, Biology, Polymerase Chain Reaction, Microbiology, Plant Microbiology, Phylogenetics, Botany, Magnaporthe grisea, Evolutionary Systematics, Phylogeny, DNA Primers, Genetics, Evolutionary Biology, Multidisciplinary, Oryza sativa, Phylogenetic tree, Base Sequence, Host (biology), Fungi, food and beverages, Oryza, Plant Pathology, biology.organism_classification, Host-Pathogen Interaction, Blotting, Southern, DNA profiling, Haplotypes, Fungal Classification, Medicine, Research Article

Abstract

Outbreaks of rice blast have been a threat to the global production of rice. Members of the Magnaporthe grisea species complex cause blast disease on a wide range of gramineous hosts, including cultivated rice and other grass species. Recently, based on phylogenetic analyses and mating tests, isolates from crabgrass were separated from the species complex and named M. grisea. Then other isolates from grasses including rice were named as M. oryzae. Here, we collected 103 isolates from 11 different species of grasses in Korea and analyzed their phylogenetic relationships and pathogenicity. Phylogenetic analyses of multilocus sequences and DNA fingerprinting revealed that the haplotypes of most isolates were associated with their hosts. However, six isolates had different haplotypes from the expectation, suggesting potential host shift in nature. Results of pathogenicity tests demonstrated that 42 isolates from crabgrass and 19 isolates from rice and other grasses showed cross-infectivity on rice and crabgrass, respectively. Interestingly, we also found that the isolates from rice had a distinct deletion in the calmodulin that can be used as a probe.

Published

2012

13. The PEX7-Mediated Peroxisomal Import System Is Required for Fungal Development and Pathogenicity in Magnaporthe oryzae

Author

Sook-Young Park, Kyoung Su Kim, Yong-Hwan Lee, Jaeduk Goh, Junhyun Jeon, and Jongsun Park

Subjects

Magnaporthe, Genes, Fungal, lcsh:Medicine, Gene Expression, Receptors, Cytoplasmic and Nuclear, Mycology, Pathogenesis, Microbiology, Molecular Genetics, Fungal Proteins, Plant Microbiology, Cell Wall, Molecular Cell Biology, Genetics, Peroxisomes, Gene Regulation, lcsh:Science, Biology, Microbial Pathogens, Peroxisomal Targeting Signal 2 Receptor, Appressorium, Fungal protein, Multidisciplinary, biology, Peroxisomal matrix, Thiolase, lcsh:R, Fatty Acids, Fungal genetics, Fungi, Computational Biology, Oryza, Peroxisome, Spores, Fungal, biology.organism_classification, Lipids, Protein Transport, Glucose, Gene Targeting, lcsh:Q, Gene Function, Porosity, Gene Deletion, Research Article

Abstract

In eukaryotes, microbodies called peroxisomes play important roles in cellular activities during the life cycle. Previous studies indicate that peroxisomal functions are important for plant infection in many phytopathogenic fungi, but detailed relationships between fungal pathogenicity and peroxisomal function still remain unclear. Here we report the importance of peroxisomal protein import through PTS2 (Peroxisomal Targeting Signal 2) in fungal development and pathogenicity of Magnaporthe oryzae. Using an Agrobacterium tumefaciens-mediated transformation library, a pathogenicity-defective mutant was isolated from M. oryzae and identified as a T-DNA insert in the PTS2 receptor gene, MoPEX7. Gene disruption of MoPEX7 abolished peroxisomal localization of a thiolase (MoTHL1) containing PTS2, supporting its role in the peroxisomal protein import machinery. ΔMopex7 showed significantly reduced mycelial growth on media containing short-chain fatty acids as a sole carbon source. ΔMopex7 produced fewer conidiophores and conidia, but conidial germination was normal. Conidia of ΔMopex7 were able to develop appressoria, but failed to cause disease in plant cells, except after wound inoculation. Appressoria formed by ΔMopex7 showed a defect in turgor generation due to a delay in lipid degradation and increased cell wall porosity during maturation. Taken together, our results suggest that the MoPEX7-mediated peroxisomal matrix protein import system is required for fungal development and pathogenicity M. oryzae.

Published

2011

14. Regulation of Cellular Diacylglycerol through Lipid Phosphate Phosphatases Is Required for Pathogenesis of the Rice Blast Fungus, Magnaporthe oryzae

Author

Jaeyoung Choi, Md. Abu Sadat, Jaehyuk Choi, Yong-Hwan Lee, Albely Afifa Mir, and Junhyun Jeon

Subjects

Magnaporthe, Science, Amino Acid Motifs, Phosphatase, Phosphatidate Phosphatase, Cellular homeostasis, Germination, Biology, Microbiology, Diglycerides, Fungal Proteins, Dephosphorylation, chemistry.chemical_compound, Gene Expression Regulation, Fungal, Gene Order, Genetics, Protein Interaction Domains and Motifs, Amino Acid Sequence, Molecular Biology, Plant Diseases, Diacylglycerol kinase, Fungal protein, Multidisciplinary, Virulence, Gene Expression Profiling, Genetic Complementation Test, Fungal genetics, Biology and Life Sciences, Oryza, Phosphatidic acid, biology.organism_classification, Biochemistry, chemistry, Gene Targeting, Mutation, Medicine, lipids (amino acids, peptides, and proteins), Research Article

Abstract

Considering implication of diacylglycerol in both metabolism and signaling pathways, maintaining proper levels of diacylglycerol (DAG) is critical to cellular homeostasis and development. Except the PIP2-PLC mediated pathway, metabolic pathways leading to generation of DAG converge on dephosphorylation of phosphatidic acid catalyzed by lipid phosphate phosphatases. Here we report the role of such enzymes in a model plant pathogenic fungus, Magnaporthe oryzae. We identified five genes encoding putative lipid phosphate phosphatases (MoLPP1 to MoLPP5). Targeted disruption of four genes (except MoLPP4) showed that MoLPP3 and MoLPP5 are required for normal progression of infection-specific development and proliferation within host plants, whereas MoLPP1 and MoLPP2 are indispensable for fungal pathogenicity. Reintroduction of MoLPP3 and MoLPP5 into individual deletion mutants restored all the defects. Furthermore, exogenous addition of saturated DAG not only restored defect in appressorium formation but also complemented reduced virulence in both mutants. Taken together, our data indicate differential roles of lipid phosphate phosphatase genes and requirement of proper regulation of cellular DAGs for fungal development and pathogenesis.

Published

2014

15. Mechanistic Insights into Validoxylamine A 7'-Phosphate Synthesis by VldE Using the Structure of the Entire Product Complex

Author

Young-Sun Yim, Yong Hwan Lee, Khaled H. Almabruk, David B. Neau, Shumpei Asamizu, Taifo Mahmud, and Michael C. Cavalier

Subjects

Models, Molecular, lcsh:Medicine, Crystallography, X-Ray, Ligands, Biochemistry, 01 natural sciences, chemistry.chemical_compound, Catalytic Domain, Moiety, lcsh:Science, Condensed-Matter Physics, 0303 health sciences, Crystallography, Multidisciplinary, biology, Nucleotides, Physics, Streptomyces, Enzymes, Streptomyces hygroscopicus, Cyclitols, Research Article, Protein Structure, Cyclitol, Stereochemistry, Inositol Phosphates, Materials Science, Molecular Sequence Data, Biosynthesis, 010402 general chemistry, Enzyme Regulation, Natural Materials, 03 medical and health sciences, Molecular replacement, Amino Acid Sequence, Binding site, Biology, 030304 developmental biology, Enzyme Kinetics, Binding Sites, lcsh:R, Proteins, Glycosyltransferases, Uracil, Validamycin, biology.organism_classification, 0104 chemical sciences, Aminocyclitol, Metabolism, chemistry, Enzyme Structure, lcsh:Q, Inositol

Abstract

The pseudo-glycosyltransferase VldE catalyzes non-glycosidic C-N coupling between an unsaturated cyclitol and a saturated aminocyclitol with the conservation of the stereochemical configuration of the substrates to form validoxylamine A 7'-phosphate, the biosynthetic precursor of the antibiotic validamycin A. To study the molecular basis of its mechanism, the three-dimensional structures of VldE from Streptomyces hygroscopicus subsp. limoneus was determined in apo form, in complex with GDP, in complex with GDP and validoxylamine A 7'-phosphate, and in complex with GDP and trehalose. The structure of VldE with the catalytic site in both an "open" and "closed" conformation is also described. With these structures, the preferred binding of the guanine moiety by VldE, rather than the uracil moiety as seen in OtsA could be explained. The elucidation of the VldE structure in complex with the entirety of its products provides insight into the internal return mechanism by which catalysis occurs with a net retention of the stereochemical configuration of the donated cyclitol.

Published

2012

16. Blue Light Acts as a Double-Edged Sword in Regulating Sexual Development of Hypocrea jecorina (Trichoderma reesei).

Author

Chia-Ling Chen, Hsiao-Che Kuo, Shu-Yu Tung, Hsu, Paul Wei-Che, Chih-Li Wang, Seibel, Christian, Schmoll, Monika, Ruey-Shyang Chen, Ting-Fang Wang, and Yong-Hwan Lee

Subjects

TRICHODERMA reesei, HAPLOIDY, GENE expression in plants, PHEROMONES, FILAMENTOUS fungi, PLANT cells & tissues

Abstract

The industrially important cellulolytic filamentous fungus Trichoderma reesei is the anamorph of the pantropical ascomycete Hypocrea jecorina. H. jecorina CBS999.97 strain undergoes a heterothallic reproductive cycle, and the mating yields fertilized perithecia imbedded in stromata. Asci in the perithecia contain 16 linearly arranged ascospores. Here, we investigated H. jecorina sexual development under different light regimes, and found that visible light was dispensable for sexual development (stroma formation and ascospore discharge). By contrast, constant illumination inhibited stroma formation, and an interruption of the darkness facilitated timely stroma formation in a 12 h/12 h light-dark photoperiod. The results of genetic analyses further revealed that H. jecorina blue-light photoreceptors (BLR1, BLR2) and the photoadaptation protein ENV1 were not essential for sexual development in general. BLR1, BLR2 and ENV1 are orthologues of the conserved Neurospora crassa WC-1, WC-2 and VVD, respectively. Moreover, BLR1 and BLR2 mediate both positive and negative light-dependent regulation on sexual development, whereas ENV1 is required for dampening the light-dependent inhibitory effect in response to changes in illumination. Comparative genome-wide microarray analysis demonstrated an overview of light-dependent gene expression versus sexual potency in CBS999.97 (MAT1-2) haploid cells. Constant illumination promotes abundant asexual conidiation and high levels of hpp1 transcripts. hpp1 encodes a h (hybrid)-type propheromone that exhibits features of both yeast a and a pheromone precursors. Deletion of hpp1 could rescue stroma formation but not ascospore generation under constant illumination. We inferred that the HPP1-dependent pheromone signaling system might directly prevent stroma formation or simply disallow the haploid cells to acquire sexual potency due to abundant asexual conidiation upon constant illumination. [ABSTRACT FROM AUTHOR]

Published

2012

17. Mechanistic Insights into Validoxylamine A 7'-Phosphate Synthesis by VldE Using the Structure of the Entire Product Complex.

Author

Cavalier, Michael C., Young-Sun Yim, Asamizu, Shumpei, Neau, David, Almabruk, Khaled H., Mahmud, Taifo, Yong-Hwan Lee, and Permyakov, Eugene A.

Subjects

CYCLITOLS, STREPTOMYCES, CATALYSIS research, ANTIBIOTICS, TREHALOSE, PYRIMIDINES

Abstract

The pseudo-glycosyltransferase VldE catalyzes non-glycosidic C-N coupling between an unsaturated cyclitol and a saturated aminocyclitol with the conservation of the stereochemical configuration of the substrates to form validoxylamine A 7'-phosphate, the biosynthetic precursor of the antibiotic validamycin A. To study the molecular basis of its mechanism, the three-dimensional structures of VldE from Streptomyces hygroscopicus subsp. limoneus was determined in apo form, in complex with GDP, in complex with GDP and validoxylamine A 7'-phosphate, and in complex with GDP and trehalose. The structure of VldE with the catalytic site in both an "open" and "closed" conformation is also described. With these structures, the preferred binding of the guanine moiety by VldE, rather than the uracil moiety as seen in OtsA could be explained. The elucidation of the VldE structure in complex with the entirety of its products provides insight into the internal return mechanism by which catalysis occurs with a net retention of the stereochemical configuration of the donated cyclitol. [ABSTRACT FROM AUTHOR]

Published

2012