Your search keyword '"Soo-Keun Choi"' showing total 100 results

1. Mining biosynthetic gene clusters in Paenibacillus genomes to discover novel antibiotics

Author

Man Su Kim, Da-Eun Jeong, Jun-Pil Jang, Jae-Hyuk Jang, and Soo-Keun Choi

Subjects

Biosynthetic gene cluster, Paenibacillus, Genome mining, Antibiotics, Cytosine base editor, Antibiotic dereplication, Microbiology, QR1-502

Abstract

Abstract Background Bacterial antimicrobial resistance poses a severe threat to humanity, necessitating the urgent development of new antibiotics. Recent advances in genome sequencing offer new avenues for antibiotic discovery. Paenibacillus genomes encompass a considerable array of antibiotic biosynthetic gene clusters (BGCs), rendering these species as good candidates for genome-driven novel antibiotic exploration. Nevertheless, BGCs within Paenibacillus genomes have not been extensively studied. Results We conducted an analysis of 554 Paenibacillus genome sequences, sourced from the National Center for Biotechnology Information database, with a focused investigation involving 89 of these genomes via antiSMASH. Our analysis unearthed a total of 848 BGCs, of which 716 (84.4%) were classified as unknown. From the initial pool of 554 Paenibacillus strains, we selected 26 available in culture collections for an in-depth evaluation. Genomic scrutiny of these selected strains unveiled 255 BGCs, encoding non-ribosomal peptide synthetases, polyketide synthases, and bacteriocins, with 221 (86.7%) classified as unknown. Among these strains, 20 exhibited antimicrobial activity against the gram-positive bacterium Micrococcus luteus, yet only six strains displayed activity against the gram-negative bacterium Escherichia coli. We proceeded to focus on Paenibacillus brasilensis, which featured five new BGCs for further investigation. To facilitate detailed characterization, we constructed a mutant in which a single BGC encoding a novel antibiotic was activated while simultaneously inactivating multiple BGCs using a cytosine base editor (CBE). The novel antibiotic was found to be localized to the cell wall and demonstrated activity against both gram-positive bacteria and fungi. The chemical structure of the new antibiotic was elucidated on the basis of ESIMS, 1D and 2D NMR spectroscopic data. The novel compound, with a molecular weight of 926, was named bracidin. Conclusions This study outcome highlights the potential of Paenibacillus species as valuable sources for novel antibiotics. In addition, CBE-mediated dereplication of antibiotics proved to be a rapid and efficient method for characterizing novel antibiotics from Paenibacillus species, suggesting that it will greatly accelerate the genome-based development of new antibiotics.

Published

2024

2. History of a model plant growth-promoting rhizobacterium, Bacillus velezensis GB03: from isolation to commercialization

Author

Seonghan Jang, Soo-Keun Choi, Huiming Zhang, Shouan Zhang, Choong-Min Ryu, and Joseph W. Kloepper

Subjects

PGPR, antimicrobial peptides, induced systemic resistance, induced systemic tolerance, nonribosomal peptide synthetases, microbiome, Plant culture, SB1-1110

Abstract

Bacillus velezensis strain GB03 is a Gram-positive rhizosphere bacterium known for its ability to promote plant growth and immunity. This review provides a comprehensive overview of the research on GB03 from its initial discovery in Australian wheat fields in 1971 to its current applications. Recognized as a model plant growth-promoting rhizobacterium (PGPR), GB03 has exhibited outstanding performance in enhancing the growth and protection of many crop plants including cucumber, pepper, wheat, barley, soybean, and cotton. Notably, GB03 has been reported to elicit plant immune response, referred to as induced systemic resistance (ISR), against above-ground pathogens and insect pests. Moreover, a pivotal finding in GB03 was the first-ever identification of its bacterial volatile compounds, which are known to boost plant growth and activate ISR. Research conducted over the past five decades has clearly demonstrated the potential of GB03 as an eco-friendly substitute for conventional pesticides and fertilizers. Validating its safety, the U.S. Environmental Protection Agency endorsed GB03 for commercial use as Kodiak® in 1998. Subsequently, other compounds, such as BioYield™, were released as a biological control agent against soil-borne pathogens and as a biofertilizer, utilizing a durable spore formulation. More recently, GB03 has been utilized as a keystone modulator for engineering the rhizosphere microbiome and for eliciting microbe-induced plant volatiles. These extensive studies on GB03 underscore its significant role in sustainable agriculture, positioning it as a safe and environmentally-friendly solution for crop protection.

Published

2023

3. Bacillus integrative plasmid system combining a synthetic gene circuit for efficient genetic modifications of undomesticated Bacillus strains

Author

Man Su Kim, Da-Eun Jeong, and Soo-Keun Choi

Subjects

Bacillus integrative plasmid, Synthetic gene circuit, Undomesticated Bacillus, Genetic modification, Integrative and conjugative element, Microbiology, QR1-502

Abstract

Abstract Background Owing to CRISPR-Cas9 and derivative technologies, genetic studies on microorganisms have dramatically increased. However, the CRISPR-Cas9 system is still difficult to utilize in many wild-type Bacillus strains owing to Cas9 toxicity. Moreover, less toxic systems, such as cytosine base editors, generate unwanted off-target mutations that can interfere with the genetic studies of wild-type strains. Therefore, a convenient alternative system is required for genetic studies and genome engineering of wild-type Bacillus strains. Because wild-type Bacillus strains have poor transformation efficiencies, the new system should be based on broad-host-range plasmid-delivery systems. Results Here, we developed a Bacillus integrative plasmid system in which plasmids without the replication initiator protein gene (rep) of Bacillus are replicated in a donor Bacillus strain by Rep proteins provided in trans but not in Bacillus recipients. The plasmids were transferred to recipients through a modified integrative and conjugative element, which is a wide host range plasmid-delivery system. Genetic mutations were generated in recipients through homologous recombination between the transferred plasmid and the genome. The system was improved by adding a synthetic gene circuit for efficient screening of the desired mutations by double crossover recombination in recipient strains. The improved system exhibited a mutation efficiency of the target gene of approximately 100% in the tested wild-type Bacillus strains. Conclusion The Bacillus integrative plasmid system developed in this study can generate target mutations with high efficiency when combined with a synthetic gene circuit in wild-type Bacillus strains. The system is free of toxicity and unwanted off-target mutations as it generates the desired mutations by traditional double crossover recombination. Therefore, our system could be a powerful tool for genetic studies and genome editing of Cas9-sensitive wild-type Bacillus strains.

Published

2022

4. Cell Factory Engineering of Undomesticated Bacillus Strains Using a Modified Integrative and Conjugative Element for Efficient Plasmid Delivery

Author

Da-Eun Jeong, Man Su Kim, Ha-Rim Kim, and Soo-Keun Choi

Subjects

Bacillus, integrative and conjugative element, transformation, cell factory, cytosine base editor, undomesticated strain, Microbiology, QR1-502

Abstract

A large number of Bacillus strains have been isolated from various environments and many of them have great potential as cell factories. However, they have been rarely developed as cell factories due to their poor transformation efficiency. In this study, we developed a highly efficient plasmid delivery system for undomesticated Bacillus strains using a modified integrative and conjugative element (MICE), which was designed to be activated by an inducer, prevent self-transfer, and deliver desired plasmids to the recipient cells. The MICE system was demonstrated to successfully introduce a gfp-containing plasmid into all 41 undomesticated Bacillus subtilis strains tested and eight other Bacillus species. The MICE was used to deliver a cytosine base editor (CBE)-based multiplex genome-editing tool for the cell factory engineering of the Bacillus species. The introduced CBE enabled one-step inactivation of the major extracellular protease genes of the tested strains. The engineered strains were used as hosts for heterologous expression of nattokinase, which resulted in various enzyme expression levels. The results suggested that the MICE and CBE systems can be powerful tools for genetic engineering of undomesticated Bacillus strains, and greatly contribute to the expansion of the Bacillus cell factory.

Published

2022

5. Bacillus subtilis spore vaccines displaying protective antigen induce functional antibodies and protective potency

Author

Yeonsu Oh, Jung Ae Kim, Chang-Hwan Kim, Soo-Keun Choi, and Jae-Gu Pan

Subjects

Native display, Bacillus, Spore, Protective antigen, Anthrax, Mucosal vaccine, Veterinary medicine, SF600-1100

Abstract

Abstract Background Bacillus anthracis is the causative agent of anthrax, a disease of both humans and various animal species, and can be used as a bioterror agent. Effective vaccines are available, but those could benefit from improvements, including increasing the immunity duration, reducing the shot frequency and adverse reactions. In addition, more sophisticated antigen delivery and potentiation systems are urgently required. The protective antigen (PA), one of three major virulence factors associated with anthrax was displayed on the surface of Bacillus subtilis spores, which is a vaccine production host and delivery vector with several advantages such as a low production cost, straightforward administration as it is safe for human consumption and the particulate adjuvanticity. Mice were immunized orally (PO), intranasally (IN), sublingually (SL) or intraperitoneally (IP) with the PA displaying probiotic spore vaccine. Clinical observation, serological analysis and challenge experiment were conducted to investigate the safety and efficacy of the vaccine. Results A/J mice immunized with the PA spore vaccine via PO, IN, SL, and IP were observed to have increased levels of active antibody titer, isotype profiles and toxin neutralizing antibody in sera, and IgA in saliva. The immunized mice were demonstrated to raise protective immunity against the challenge with lethal B. anthracis spores. Conclusions In this study, we developed a B. subtilis spore vaccine that displays the PA on its surface and showed that the PA-displaying spore vaccine was able to confer active immunity to a murine model based on the results of antibody isotype titration, mucosal antibody identification, and a lethal challenge experiment.

Published

2020

6. Cytosine Base Editor-Mediated Multiplex Genome Editing to Accelerate Discovery of Novel Antibiotics in Bacillus subtilis and Paenibacillus polymyxa

Author

Man Su Kim, Ha-Rim Kim, Da-Eun Jeong, and Soo-Keun Choi

Subjects

base editor, multiplex genome editing, Bacillus subtilis, Paenibacillus polymyxa, antibiotics, Microbiology, QR1-502

Abstract

Genome-based identification of new antibiotics is emerging as an alternative to traditional methods. However, uncovering hidden antibiotics under the background of known antibiotics remains a challenge. To over this problem using a quick and effective genetic approach, we developed a multiplex genome editing system using a cytosine base editor (CBE). The CBE system achieved simultaneous double, triple, quadruple, and quintuple gene editing with efficiencies of 100, 100, 83, and 75%, respectively, as well as the 100% editing efficiency of single targets in Bacillus subtilis. Whole-genome sequencing of the edited strains showed that they had an average of 8.5 off-target single-nucleotide variants at gRNA-independent positions. The CBE system was used to simultaneously knockout five known antibiotic biosynthetic gene clusters to leave only an uncharacterized polyketide biosynthetic gene cluster in Paenibacillus polymyxa E681. The polyketide showed antimicrobial activities against gram-positive bacteria, but not gram-negative bacteria and fungi. Therefore, our findings suggested that the CBE system might serve as a powerful tool for multiplex genome editing and greatly accelerating the unraveling of hidden antibiotics in Bacillus and Paenibacillus species.

Published

2021

7. Programmed gRNA Removal System for CRISPR-Cas9-Mediated Multi-Round Genome Editing in Bacillus subtilis

Author

Hayeon Lim and Soo-Keun Choi

Subjects

Bacillus subtilis, CRISPR/Cas9, self-curing, genome editing, extracellular protease, Microbiology, QR1-502

Abstract

CRISPR/Cas9 has become a simple and powerful genome editing tool for many organisms. However, multi-round genome editing should replace single-guide RNA (sgRNA) every round, which is laborious and time-consuming. Here, we have developed a multi-round genome editing system in which genome editing and the programmed removal of the sgRNA have sequentially occurred in a growth-dependent manner in Bacillus subtilis. The system contains two plasmids, one containing a cas9 gene and the other containing two sgRNAs and a donor DNA for homology directed repair (HDR). The two sgRNAs are chromosome-targeting (sgRNAct) and self-targeting (sgRNAst) under the control of a constitutive promoter and sporulation-specific promoter, respectively. In the growth phase, the sgRNAct is transcribed and complexed with the Cas9 to edit the chromosomal target, while the sgRNAst is transcribed in the sporulation phase and complexed with the Cas9 to attack its own plasmid. Therefore, the system automatically makes the cell ready for next-round genome editing during cultivation. The system was approved through the sequential deletion of eight extracellular protease genes in the B. subtilis, suggesting that it can be used for versatile applications in multi-round genome editing.

Published

2019

8. Chronicle of a Soil Bacterium: Paenibacillus polymyxa E681 as a Tiny Guardian of Plant and Human Health

Author

Haeyoung Jeong, Soo-Keun Choi, Choong-Min Ryu, and Seung-Hwan Park

Subjects

PGPR, antimicrobial peptides, induced systemic resistance, polymyxin, non-ribosomal peptide synthetases, polyketides, Microbiology, QR1-502

Abstract

The Gram-positive rhizosphere bacterium Paenibacillus polymyxa promotes plant growth and produces various antibiotics. Herein, we review research on this species over the past two and a half decades, and focus on the mechanisms of P. polymyxa strain E681, isolated from barley roots in the South Korea in 1995. Strain E681 has outstanding growth-promoting effects on barley, cucumber, pepper, sesame, and Arabidopsis thaliana and produces antimicrobial compounds that protect plants against pathogenic fungi, oomycetes, and bacteria. Induced systemic resistance elicited by treating seeds or roots with strain E681 is a possible mechanism for protecting systemic plant tissues from biotic and other environmental stresses. Genome sequencing has broadened our horizons for antibiotic development and other industrial applications beyond agricultural use. At least six gene clusters for the biosynthesis of antibiotics have been discovered, including polymyxin (pmx), which was recently re-instated as an antibiotic of last resort against Gram-negative drug-resistant bacteria. Three groups of antibiotic synthetases include the gene clusters that encode one for the non-ribosomal peptide polymyxin, fusaricidin, and tridecaptin, another for the lantibiotic paenilan, and the third for a polyketide. We successfully introduced the pmx gene cluster into the surrogate host Bacillus subtilis and created polymyxin derivatives by domain swapping. Furthermore, various E681 derivatives, including a high fusaricidin producer and strains lacking multi-antibiotics production, have been constructed by random mutagenesis and genome engineering. Thus, E681 is an important bacterium that contributes to both plant and human health.

Published

2019

9. Regioselective Hydroxylation of Phloretin, a Bioactive Compound from Apples, by Human Cytochrome P450 Enzymes

Author

Ngoc Anh Nguyen, Ngoc Tan Cao, Thi Huong Ha Nguyen, Thien-Kim Le, Gun Su Cha, Soo-Keun Choi, Jae-Gu Pan, Soo-Jin Yeom, Hyung-Sik Kang, and Chul-Ho Yun

Subjects

human cytochrome P450, human liver microsomes, human metabolite, phloretin, polyphenol, regioselective hydroxylation, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Phloretin, the major polyphenol compound in apples and apple products, is interesting because it shows beneficial effects on human health. It is mainly found as a form of glucoside, phlorizin. However, the metabolic pathway of phloretin in humans has not been reported. Therefore, identifying phloretin metabolites made in human liver microsomes and the human cytochrome P450 (P450) enzymes to make them is interesting. In this study, the roles of human liver P450s for phloretin oxidation were examined using human liver microsomes and recombinant human liver P450s. One major metabolite of phloretin in human liver microsomes was 3-OH phloretin, which is the same product of a bacterial CYP102A1-catalyzed reaction of phloretin. CYP3A4 and CYP2C19 showed kcat values of 3.1 and 5.8 min−1, respectively. However, CYP3A4 has a 3.3-fold lower Km value than CYP2C19. The catalytic efficiency of a CYP3A4-catalyzed reaction is 1.8-fold higher than a reaction catalyzed by CYP2C19. Whole-cell biotransformation with CYP3A4 was achieved 0.16 mM h−1 productivity for 3-OH phlorein from 8 mM phloretin at optimal condition. Phloretin was a potent inhibitor of CYP3A4-catalyzed testosterone 6β-hydroxylation activity. Antibodies against CYP3A4 inhibited up to 90% of the microsomal activity of phloretin 3-hydroxylation. The immunoinhibition effect of anti-2C19 is much lower than that of anti-CYP3A4. Thus, CYP3A4 majorly contributes to the human liver microsomal phloretin 3-hydroxylation, and CYP2C19 has a minor role.

Published

2020

10. A Highly Efficient CRISPR-Cas9-Mediated Large Genomic Deletion in Bacillus subtilis

Author

Younju So, Soo-Young Park, Eun-Hye Park, Seung-Hwan Park, Eui-Joong Kim, Jae-Gu Pan, and Soo-Keun Choi

Subjects

CRISPR-Cas9, Bacillus subtilis, genome engineering, large genomic deletion, genomic point mutation, gene insertion, Microbiology, QR1-502

Abstract

In Bacillus subtilis, large genomic deletions have been carried out for genome reduction, antibiotic overproduction, and heterologous protein overexpression. In view of the eco-friendliness of B. subtilis, it is critical that engineering preserves its food-grade status and avoids leaving foreign DNA in the genome. Existing methods of generating large genomic deletions leave antibiotic resistance markers or display low mutation efficiency. In this study, we introduced a clustered regularly interspaced short palindromic repeat-derived genome engineering technique to develop a highly efficient method of generating large genomic deletions in B. subtilis without any trace of foreign DNA. Using our system, we produced 38 kb plipastatin-synthesizing pps operon deletion with 80% efficiency. The significant increase in mutation efficiency was due to plasmids-delivered Streptococcus pyogenes-originated SpCas9, target-specific sgRNA and a donor DNA template, which produces SpCas9/sgRNA endonuclease complex continuously for attacking target chromosome until the mutagenic repair occurs. Our system produced single-gene deletion in spo0A (∼100%), point mutation (∼68%) and GFP gene insertion (∼97%) in sigE and demonstrated its broad applicability for various types of site-directed mutagenesis in B. subtilis.

Published

2017

11. Transcriptional Regulation of the rsbV Promoter Controlling Stress Responses to Ethanol, Carbon Limitation, and Phosphorous Limitation in Bacillus subtilis

Author

Soo-Keun Choi and Milton H. Saier

Subjects

Microbiology, QR1-502

Abstract

The σB-dependent promoter in front of the rsbV gene of Bacillus subtilis is induced ∼5-fold in response to (1) the addition of 4% ethanol, (2) carbon starvation, and (3) phosphorous starvation. Binding sites for the global carbon and nitrogen regulators, CcpA and TnrA, were mutated, and the consequences of their loss and that of CcpA or TnrA were studied using rsbV-lacZ fusions. These responses proved to be dependent on CcpA, TnrA, and their putative binding sites upstream of the promoter. Induction in response to glucose limitation was largely abolished by loss of CcpA or the upstream region, while induction in response to phosphorous limitation was largely abolished only by the upstream mutations. The results suggest that CcpA directly influences the carbon starvation response and that both proteins exert indirect effects on all three stress responses. The integrity of the DNA sequence is important for all three responses.

Published

2010

12. Elicitation of Innate Immunity by a Bacterial Volatile 2-Nonanone at Levels below Detection Limit in Tomato Rhizosphere

Author

Myoungjoo Riu, Man Su Kim, Soo-Keun Choi, Sang-Keun Oh, and Choong-Min Ryu

Subjects

Soil, Bacteria, Solanum lycopersicum, Limit of Detection, Rhizosphere, Cell Biology, General Medicine, Ketones, Plants, Molecular Biology, Immunity, Innate

Abstract

Bacterial volatile compounds (BVCs) exert beneficial effects on plant protection both directly and indirectly. Although BVCs have been detected in vitro, their detection in situ remains challenging. The purpose of this study was to investigate the possibility of BVCs detection under in situ condition and estimate the potentials of in situ BVC to plants at below detection limit. We developed a method for detecting BVCs released by the soil bacteria Bacillus velezensis strain GB03 and Streptomyces griseus strain S4-7 in situ using solid-phase microextraction coupled with gas chromatography-mass spectrometry (SPME-GC-MS). Additionally, we evaluated the BVC detection limit in the rhizosphere and induction of systemic immune response in tomato plants grown in the greenhouse. Two signature BVCs, 2-nonanone and caryolan-1-ol, of GB03 and S4-7 respectively were successfully detected using the soil-vial system. However, these BVCs could not be detected in the rhizosphere pretreated with strains GB03 and S4-7. The detection limit of 2-nonanone in the tomato rhizosphere was 1 µM. Unexpectedly, drench application of 2-nonanone at 10 nM concentration, which is below its detection limit, protected tomato seedlings against Pseudomonas syringae pv. tomato. Our finding highlights that BVCs, including 2-nonanone, released by a soil bacterium are functional even when present at a concentration below the detection limit of SPME-GC-MS.

Published

2022

13. History of a model plant growthpromoting rhizobacterium, Bacillus velezensis GB03: from isolation to commercialization.

Author

Seonghan Jang, Soo-Keun Choi, Huiming Zhang, Shouan Zhang, Choong-Min Ryu, and Kloepper, Joseph W.

Subjects

SUSTAINABLE agriculture, BACILLUS (Bacteria), CROPS, BIOLOGICAL pest control agents, RHIZOBACTERIA, PEPPERS, CUCUMBERS

Abstract

Bacillus velezensis strain GB03 is a Gram-positive rhizosphere bacterium known for its ability to promote plant growth and immunity. This review provides a comprehensive overview of the research on GB03 from its initial discovery in Australian wheat fields in 1971 to its current applications. Recognized as a model plant growth-promoting rhizobacterium (PGPR), GB03 has exhibited outstanding performance in enhancing the growth and protection of many crop plants including cucumber, pepper, wheat, barley, soybean, and cotton. Notably, GB03 has been reported to elicit plant immune response, referred to as induced systemic resistance (ISR), against above-ground pathogens and insect pests. Moreover, a pivotal finding in GB03 was the first-ever identification of its bacterial volatile compounds, which are known to boost plant growth and activate ISR. Research conducted over the past five decades has clearly demonstrated the potential of GB03 as an eco-friendly substitute for conventional pesticides and fertilizers. Validating its safety, the U.S. Environmental Protection Agency endorsed GB03 for commercial use as Kodiak® in 1998. Subsequently, other compounds, such as BioYield™, were released as a biological control agent against soil-borne pathogens and as a biofertilizer, utilizing a durable spore formulation. More recently, GB03 has been utilized as a keystone modulator for engineering the rhizosphere microbiome and for eliciting microbe-induced plant volatiles. These extensive studies on GB03 underscore its significant role in sustainable agriculture, positioning it as a safe and environmentally-friendly solution for crop protection. [ABSTRACT FROM AUTHOR]

Published

2023

14. The Effect of the Benefits of Meal Kit on Customer Behavioral Intentions: Application of Theory of Planned Behavior

Author

Joon-Young Koh, Soo-Keun Choi, and NamKung Young

Published

2022

15. Production of a major metabolite of niclosamide using bacterial cytochrome P450 enzymes

Author

Nabilla Rizkia Fabelle, Fikri Ainur Risma Hardiyanti Oktavia, Gun Su Cha, Ngoc Anh Nguyen, Soo-Keun Choi, and Chul-Ho Yun

Subjects

Bioengineering, Applied Microbiology and Biotechnology, Biochemistry, Biotechnology

Published

2023

16. Cell Factory Engineering of Undomesticated

Author

Da-Eun, Jeong, Man Su, Kim, Ha-Rim, Kim, and Soo-Keun, Choi

Abstract

A large number of

Published

2021

17. Regioselective Hydroxylation of Phloretin, a Bioactive Compound from Apples, by Human Cytochrome P450 Enzymes

Author

Gun Su Cha, Jae-Gu Pan, Thien-Kim Le, Hyung-Sik Kang, Soo-Jin Yeom, Ngoc Anh Nguyen, Chul-Ho Yun, Thi Huong Ha Nguyen, Soo Keun Choi, and Ngoc Tan Cao

Subjects

0301 basic medicine, Phloretin, Phlorizin, Metabolite, lcsh:Medicine, lcsh:RS1-441, Pharmaceutical Science, 01 natural sciences, Article, human liver microsomes, lcsh:Pharmacy and materia medica, Hydroxylation, 03 medical and health sciences, chemistry.chemical_compound, Glucoside, Drug Discovery, phloretin, chemistry.chemical_classification, CYP3A4, 010405 organic chemistry, lcsh:R, technology, industry, and agriculture, regioselective hydroxylation, human metabolite, 0104 chemical sciences, polyphenol, 030104 developmental biology, Enzyme, human cytochrome P450, chemistry, Biochemistry, Microsome, Molecular Medicine

Abstract

Phloretin, the major polyphenol compound in apples and apple products, is interesting because it shows beneficial effects on human health. It is mainly found as a form of glucoside, phlorizin. However, the metabolic pathway of phloretin in humans has not been reported. Therefore, identifying phloretin metabolites made in human liver microsomes and the human cytochrome P450 (P450) enzymes to make them is interesting. In this study, the roles of human liver P450s for phloretin oxidation were examined using human liver microsomes and recombinant human liver P450s. One major metabolite of phloretin in human liver microsomes was 3-OH phloretin, which is the same product of a bacterial CYP102A1-catalyzed reaction of phloretin. CYP3A4 and CYP2C19 showed kcat values of 3.1 and 5.8 min&minus, 1, respectively. However, CYP3A4 has a 3.3-fold lower Km value than CYP2C19. The catalytic efficiency of a CYP3A4-catalyzed reaction is 1.8-fold higher than a reaction catalyzed by CYP2C19. Whole-cell biotransformation with CYP3A4 was achieved 0.16 mM h&minus, 1 productivity for 3-OH phlorein from 8 mM phloretin at optimal condition. Phloretin was a potent inhibitor of CYP3A4-catalyzed testosterone 6&beta, hydroxylation activity. Antibodies against CYP3A4 inhibited up to 90% of the microsomal activity of phloretin 3-hydroxylation. The immunoinhibition effect of anti-2C19 is much lower than that of anti-CYP3A4. Thus, CYP3A4 majorly contributes to the human liver microsomal phloretin 3-hydroxylation, and CYP2C19 has a minor role.

Published

2020

18. Chronicle of a Soil Bacterium

Author

Haeyoung, Jeong, Soo-Keun, Choi, Choong-Min, Ryu, and Seung-Hwan, Park

Subjects

antimicrobial peptides, non-ribosomal peptide synthetases, PGPR, induced systemic resistance, polymyxin, food and beverages, Review, Microbiology, polyketides

Abstract

The Gram-positive rhizosphere bacterium Paenibacillus polymyxa promotes plant growth and produces various antibiotics. Herein, we review research on this species over the past two and a half decades, and focus on the mechanisms of P. polymyxa strain E681, isolated from barley roots in the South Korea in 1995. Strain E681 has outstanding growth-promoting effects on barley, cucumber, pepper, sesame, and Arabidopsis thaliana and produces antimicrobial compounds that protect plants against pathogenic fungi, oomycetes, and bacteria. Induced systemic resistance elicited by treating seeds or roots with strain E681 is a possible mechanism for protecting systemic plant tissues from biotic and other environmental stresses. Genome sequencing has broadened our horizons for antibiotic development and other industrial applications beyond agricultural use. At least six gene clusters for the biosynthesis of antibiotics have been discovered, including polymyxin (pmx), which was recently re-instated as an antibiotic of last resort against Gram-negative drug-resistant bacteria. Three groups of antibiotic synthetases include the gene clusters that encode one for the non-ribosomal peptide polymyxin, fusaricidin, and tridecaptin, another for the lantibiotic paenilan, and the third for a polyketide. We successfully introduced the pmx gene cluster into the surrogate host Bacillus subtilis and created polymyxin derivatives by domain swapping. Furthermore, various E681 derivatives, including a high fusaricidin producer and strains lacking multi-antibiotics production, have been constructed by random mutagenesis and genome engineering. Thus, E681 is an important bacterium that contributes to both plant and human health.

Published

2018

19. Complete Genome Sequence of Bacillus subtilis Strain WB800N, an Extracellular Protease-Deficient Derivative of Strain 168

Author

Seong Joo Kim, Soo Keun Choi, Da-Eun Jeong, Haeyoung Jeong, and Seung-Hwan Park

Subjects

Whole genome sequencing, Proteases, biology, Strain (chemistry), Genome Sequences, Bacillus subtilis, biology.organism_classification, chemistry.chemical_compound, Secretory protein, Immunology and Microbiology (miscellaneous), chemistry, Biochemistry, Genetics, Extracellular, Molecular Biology, Gene, Derivative (chemistry)

Abstract

Bacillus subtilis WB800N is a genetically engineered variant of B. subtilis 168, such that all extracellular proteases are disrupted, which enables WB800N to be widely used for the expression of secretory proteins. Here, we report the 4.2-Mb complete genome sequence of WB800N and present all of the disrupted gene structure.

Published

2018

20. Genome Sequence of the Probiotic Strain Bacillus velezensis Variant polyfermenticus GF423

Author

Jung Ae Kim, Jae Gu Pan, Soo Keun Choi, and Haeyoung Jeong

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Whole genome sequencing, Bacillus polyfermenticus, Strain (chemistry), fungi, Genome Sequences, Biology, 010603 evolutionary biology, 01 natural sciences, law.invention, 03 medical and health sciences, Probiotic, 030104 developmental biology, Immunology and Microbiology (miscellaneous), law, bacteria, Molecular Biology, Bacillus velezensis

Abstract

The genome sequence of the commercial probiotic strain “Bacillus polyfermenticus” GF423 was determined. Comparison of the 4.1-Mb genome sequence revealed Bacillus velezensis FZB42 as its closest relative., The genome sequence of the commercial probiotic strain “Bacillus polyfermenticus” GF423 was determined. Comparison of the 4.1-Mb genome sequence revealed Bacillus velezensis FZB42 as its closest relative. Based on the genome sequence, we propose that this probiotic strain be renamed Bacillus velezensis variant polyfermenticus.

Published

2018

21. Scarless Genomic Point Mutation to Construct a

Author

Da-Eun, Jeong, Younju, So, Hayeon, Lim, Seung-Hwan, Park, and Soo-Keun, Choi

Subjects

Antifungal Agents, Bacterial Proteins, Metabolic Engineering, Gene Expression Profiling, Fatty Acids, Operon, Point Mutation, Pythium, Real-Time Polymerase Chain Reaction, Oligopeptides, Peptides, Cyclic, Bacillus subtilis, Sequence Deletion

Published

2018

22. A Highly Efficient CRISPR-Cas9-Mediated Large Genomic Deletion in Bacillus subtilis

Author

Eui-Joong Kim, Jae-Gu Pan, Soo-Young Park, Soo Keun Choi, Younju So, Seung-Hwan Park, and Eun-Hye Park

Subjects

0301 basic medicine, Microbiology (medical), 030106 microbiology, lcsh:QR1-502, large genomic deletion, Bacillus subtilis, Biology, medicine.disease_cause, Genome, Microbiology, lcsh:Microbiology, 03 medical and health sciences, medicine, CRISPR, Deletion mapping, Insertion, Genetics, Mutation, Point mutation, biology.organism_classification, genomic point mutation, Endonuclease complex, CRISPR-Cas9, genome engineering, gene insertion

Abstract

In Bacillus subtilis, large genomic deletions have been carried out for genome reduction, antibiotic overproduction, and heterologous protein overexpression. In view of the eco-friendliness of B. subtilis, it is critical that engineering preserves its food-grade status and avoids leaving foreign DNA in the genome. Existing methods of generating large genomic deletions leave antibiotic resistance markers or display low mutation efficiency. In this study, we introduced a clustered regularly interspaced short palindromic repeat-derived genome engineering technique to develop a highly efficient method of generating large genomic deletions in B. subtilis without any trace of foreign DNA. Using our system, we produced 38 kb plipastatin-synthesizing pps operon deletion with 80% efficiency. The significant increase in mutation efficiency was due to plasmids-delivered Streptococcus pyogenes-originated SpCas9, target-specific sgRNA and a donor DNA template, which produces SpCas9/sgRNA endonuclease complex continuously for attacking target chromosome until the mutagenic repair occurs. Our system produced single-gene deletion in spo0A (∼100%), point mutation (∼68%) and GFP gene insertion (∼97%) in sigE and demonstrated its broad applicability for various types of site-directed mutagenesis in B. subtilis.

Published

2017

23. Random knock-in expression system for high yield production of heterologous protein in Bacillus subtilis

Author

Soo Keun Choi, Soo-Young Park, Seung-Hwan Park, Da-Eun Jeong, and Younju So

Subjects

0301 basic medicine, Transposable element, biology, 030106 microbiology, Green Fluorescent Proteins, Heterologous, Gene Expression, Bioengineering, General Medicine, Bacillus subtilis, biology.organism_classification, Applied Microbiology and Biotechnology, Gene dosage, Recombinant Proteins, Cell biology, Green fluorescent protein, 03 medical and health sciences, 030104 developmental biology, Gene expression, DNA Transposable Elements, Expression cassette, Gene Knock-In Techniques, Gene, Biotechnology

Abstract

Chromosome-integrated recombinant protein expression in bacteria has advantages for the stable maintenance of genes without any use of antibiotics during large-scale fermentation. Even though different levels of gene expression were reported, depending upon their chromosomal position in bacterial species, only a limited number of integration sites have been used in B. subtilis. In this study, we randomly integrated the GFP and AprE expression cassettes into the B. subtilis genome to determine integration sites that can produce a high yield of heterologous protein expression. Our mariner transposon-based expression cassette integration system was able to find integration sites, which can produce up to 2.9-fold and 1.5-fold increased expression of intracellular GFP and extracellular AprE, respectively, compared to the common integration site amyE. By analyzing the location of integration sites, we observed an adjacent promoter effect, gene dosage effect, and gene knock-out effect all complexly contributing to the increased level of integrated gene expression. Besides obtaining a high yield of heterologous protein expression, our system can also provide a wide-range of expression to expand the systematic application for steady-state metabolic protein production.

Published

2017

24. Identification of the biosynthesis gene cluster for the novel lantibiotic paenilan from Paenibacillus polymyxa E681 and characterization of its product

Author

Ha Rim Kim, Jae Eun Park, Soo-Young Park, Seung-Hwan Park, and Soo Keun Choi

Subjects

0301 basic medicine, 030106 microbiology, Bacillus cereus, Gram-Positive Bacteria, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, Paenibacillus, Open Reading Frames, Bacterial Proteins, Bacteriocins, Tandem Mass Spectrometry, Gene cluster, Gene, biology, General Medicine, Lantibiotics, biology.organism_classification, Biosynthetic Pathways, Open reading frame, 030104 developmental biology, Multigene Family, Paenibacillus polymyxa, Micrococcus luteus, Biotechnology

Abstract

Aims To analyse the function of a putative lantibiotic gene cluster of Paenibacillus polymyxa E681 and to characterize its product, paenilan. Methods and Results Comparative analysis of the lantibiotic gene cluster of E681 revealed that the cluster, consisting of 11 open reading frames, is involved in the biosynthesis of a class I lantibiotic. The pnlA gene encoding the prepeptide PnlA was identified and P. polymyxa strain EPT14 producing only paenilan was constructed by knockout of the other five antibiotic biosynthetic gene clusters of E681. Paenilan was purified from EPT14 culture by solvent partitioning, ODS silica gel chromatography and reversed-phase preparative HPLC. The molecular mass (2510.10 Da) and structure of paenilan analysed by Nanoelectrospray ionization MS and MS/MS showed that paenilan is a novel class I lantibiotic. Paenilan exhibited antimicrobial activity against Gram-positive bacteria such as Bacillus cereus, Micrococcus luteus and Paenibacillus durus. The paenilan gene is well-conserved in different Paenibacillus spp. isolated from globally distant places. Conclusions The lantibiotic gene cluster of P. polymyxa E681 was analysed and its product, a novel and useful lantibiotic named paenilan that inhibits the growth of some Gram-positive bacteria, was characterized. Significance and Impact of the Study Paenibacillus species are a good source of new lantibiotics, and the conservation of the paenilan gene among Paenibacillus spp. implies paenilan has an important function(s) for their survival. This article is protected by copyright. All rights reserved.

Published

2017

25. Genome Sequences of Bacillus thuringiensis Serovar kurstaki Strain BP865 and B. thuringiensis Serovar aizawai Strain HD-133

Author

Haeyoung Jeong, Seung-Hwan Park, and Soo Keun Choi

Subjects

0301 basic medicine, Serotype, Strain (chemistry), 030106 microbiology, fungi, Biology, biology.organism_classification, Genome, Microbiology, 03 medical and health sciences, 030104 developmental biology, Bacillus thuringiensis, Genetics, Prokaryotes, Phyllosphere, Molecular Biology

Abstract

We report the draft genome sequences of two insecticidal strains against lepidopteran pests, Bacillus thuringiensis serovar kurstaki strain BP865, an isolate from the South Korean phylloplane, and strain HD-133, a reference strain of B. thuringiensis serovar aizawai.

Published

2017

26. Inactivation of the phosphoglucomutase gene pgm in Paenibacillus polymyxa leads to overproduction of fusaricidin

Author

Soo-Young Park, Haeyoung Jeong, Seung-Hwan Park, Seong-Bin Kim, Soo Keun Choi, and Ha Rim Kim

Subjects

Genetics, Mutation, biology, Point mutation, fungi, Mutant, Mutagenesis (molecular biology technique), Bioengineering, biology.organism_classification, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, Complementation, Anti-Infective Agents, Bacterial Proteins, Phosphoglucomutase, Depsipeptides, medicine, Gene Silencing, Paenibacillus polymyxa, Overproduction, Paenibacillus, Biotechnology

Abstract

Fusaricidin, a lipodepsipeptide isolated from Paenibacillus polymyxa, has high antimicrobial activity against fungi and Gram-positive bacteria. Through mutagenesis, we obtained two mutant strains, N1U7 and N17U7, which produce 6.2- to 7.9-fold more fusaricidin than their parent strain. Causal mutations were identified by whole-genome sequencing, and the two strains each contained at least eleven point mutations, including four common mutations. A mutation in the PPE04441 gene (pgm), encoding an α-phosphoglucomutase, was found to be an important factor in fusaricidin overproduction by complementation experiments. Null mutation of pgm in the parental strain increased fusaricidin production by 5.2-fold. Increased growth and cell viability in stationary phase, reduced exopolysaccharide production, and increased fusA expression were observed in the pgm mutant strains, which might be related to fusaricidin overproduction. This is the first report revealing that PGM deficiency leads to an overproduction of fusaricidin.

Published

2014

27. Physicochemical Properties and Antioxidant Activity of Superjami

Author

Soo-Keun Choi, Dong-Seok Kim, and Ki-Bbeum Kim

Subjects

Antioxidant, DPPH, Starch, Black rice, medicine.medical_treatment, food and beverages, chemistry.chemical_compound, chemistry, Polyphenol, Botany, medicine, General Earth and Planetary Sciences, Brown rice, Food science, Water content, Steeping, General Environmental Science

Abstract

This study attempted to investigate the characteristics of Superjami, which had a high C3G (cyandin-3-glucoside) content by comparing it with common rice (Ilpum) and black rice (Heougjinju, Suwon 415) for their components and physio-chemical characteristics. There were no significant differences in the water content, however there were significant differences in crude protein and crude fat in the order of Ilpum and , the longer the time steeping, the more increased the pigment elution became. The values are bigger with Heougjinju and Superjami than with Ilpum. As for the elution pH after rice steeping, the longer the time of steeping, the lower pH all the assays tended to have. As a result of the analysis of the total polyphenol contents of Ilpum, Heougjinju, and Superjami, it had turned out that the total polyphenol contents of Heougjinju and Superjami are 1.2 times as high as Ilpum, a common rice, and that Superjami is significantly higher than Heougjinju. As a result of the experiment of DPPH radical scavenging ability, there are significant differences among the assays in the order of Superjami > Heougjinju > Ilpum. Futher, it has turned out that Superjami has a higher DPPH radical scavenging ability than Heougjinju. Consequently, it can be stated that Superjami has a strong anti-oxidative ability. Thus, we should more precisely grasp the cooking characteristics of Superjami, which is in the state of brown rice, via comparing it with a common brown rice, and also provide opportunities to apply Superjamii to more foods by studying its starch characteristics in addition to its grain and flour properties.

Published

2012

28. Draft Genome Sequences of Four Plant Probiotic Bacillus Strains

Author

Seung-Hwan Park, Haeyoung Jeong, and Soo Keun Choi

Subjects

0301 basic medicine, Bacillus (shape), Genus Lysinibacillus, biology, Strain (biology), fungi, Bacillus sp, biology.organism_classification, Genome, Microbiology, law.invention, Bacillus trypoxylicola, 03 medical and health sciences, Probiotic, 030104 developmental biology, law, Genetics, bacteria, Bacillus endophyticus, Prokaryotes, Molecular Biology

Abstract

Here, we report the whole-genome sequences of four Bacillus strains that exhibit plant probiotic activities. Three of them are the type strains of Bacillus endophyticus , “ Bacillus gaemokensis ,” and Bacillus trypoxylicola , and the other, Bacillus sp. strain KCTC 13219, should be reclassified into a species belonging to the genus Lysinibacillus .

Published

2016

29. Customer complaints in restaurants: Do they differ by service stages and loyalty levels?

Author

SooCheong (Shawn) Jang, Soo Keun Choi, and Young Namkung

Subjects

Service (business), Service quality, business.industry, Strategy and Management, media_common.quotation_subject, Advertising, Customer relationship management, Loyalty business model, Order (business), Tourism, Leisure and Hospitality Management, Loyalty, Complaint, Marketing, business, Psychology, Consumer behaviour, media_common

Abstract

Complaints by dissatisfied customers provide managers with an opportunity to learn about problems and take appropriate corrective action to ensure that mistakes do not recur. The authors investigate whether restaurant consumers respond differently to service failures at different service stages and loyalty levels. A survey of 289 customers in the United States found that customers are likely to complain at any service stage following a service failure. Highly loyal customers showed a significantly higher willingness to complain than less loyal customers when a service failure occurs during the greeting/seating and order taking/delivery stages (service stages 1 and 2). Four consumer groups with distinct willingness to complain and levels of loyalty emerged from this study: “silent potential,” “pure complainer,” “silent supporter,” and “loyal voicers.” Among those groups, the silent supporter group (high affective loyalty and low propensity to complain) showed the highest behavioral intentions, whereas the pure complainer group (low affective loyalty and high propensity to complain) showed the lowest behavioral intentions.

Published

2011

30. Physicochemical Properties of Brown Sauce according to Drying Methods

Author

Myung-Hoon Jung, Dong-Seok Kim, Kwnag-Sup Youn, Jong-Phil Lee, and Soo-Keun Choi

Subjects

Brown sauce, Chemistry, Extraction (chemistry), Shelf life, food.food, Viscosity, Freeze-drying, food, Spray drying, General Earth and Planetary Sciences, Food science, Response surface methodology, Flavor, General Environmental Science

Abstract

The aim of this study was to develop a convenient brown sauce product with long shelf life that has similar taste and quality characteristics with sauce used in restaurants. Response surface analysis was carried out to optimize brown sauce. Extracted brown sauce powder was subjected to hot air drying, infrared drying, freeze drying, and spray drying to determine the appropriate drying method for brown sauce manufacturing. The optimum extraction conditions were set by superimposing and reading each reaction surface that satisfied all of the sensory characteristics such as color, smell, taste, concentration, and overall preference level in order to set the optimum conditions for brown sauce production. The optimum extraction conditions for brown sauce were determined to be heating time 30 min, gelatin addition quantity 9.00%, and tomato paste addition quantity 11.25%. Reliability test showed a similar value to the predicted scope when compared to the experimental value obtained under the same conditions as the predicted value according to RSM (response surface methodology), enabling verification of the derived regression formula. Product powder of ideal brown sauce by heating, infrared radiation, freezing, and spray drying and investigate result for functional tests of color, flavor, taste, viscosity, overall acceptability and show highly acceptability on powder by infrared rays and freeze-drying methods. Especially, infrared radiation method resulted in favorable color and flavor values while freeze-drying method produced good taste and viscosity values and high overall acceptability. Therefore, infrared radiation drying method and freeze-drying method to product powder.

Published

2011

31. Spore Display Using Bacillus thuringiensis Exosporium Protein InhA

Author

Tae Jung Park, Soo Keun Choi, Jae-Gu Pan, Heung-Chae Jung, and Sang Yup Lee

Subjects

Recombinant Fusion Proteins, Green Fluorescent Proteins, Bacillus thuringiensis, Applied Microbiology and Biotechnology, Green fluorescent protein, Microbiology, Bacterial Proteins, Microscopy, Electron, Transmission, Genes, Reporter, Spores, Bacterial, Microscopy, Confocal, Bacillaceae, biology, INHA, fungi, Exosporium, General Medicine, Immunogold labelling, Flow Cytometry, biology.organism_classification, Immunohistochemistry, Bacillales, Spore, Biochemistry, Antigens, Surface, Biotechnology

Abstract

A new spore display method is presented that enables recombinant proteins to be displayed on the surface of Bacillus spores via fusion with InhA, an exosporium component of Bacillus thuringiensis. The green fluorescent protein and beta-galactosidase as model proteins were fused to the C-terminal region of InhA, respectively. The surface expression of the proteins on the spores was confirmed by flow cytometry, confocal laser scanning microscopy, measurement of the enzyme activity, and an immunogold electron microscopy analysis. InhA-mediated anchoring of foreign proteins in the exosporium of Bacillus spores can provide a new method of microbial display, thereby broadening the potential for novel applications of microbial display.

Published

2009

32. Identification of a Polymyxin Synthetase Gene Cluster of Paenibacillus polymyxa and Heterologous Expression of the Gene in Bacillus subtilis

Author

Seong Bin Kim, Jihyun F. Kim, Soo Keun Choi, Soo-Young Park, Choong Hwan Lee, Seung Hwan Park, and Rumi Kim

Subjects

medicine.drug_class, Polymyxin, Molecular Sequence Data, Bacillus, Genetics and Molecular Biology, Locus (genetics), Bacillus subtilis, Biology, Polymerase Chain Reaction, Microbiology, Mass Spectrometry, Open Reading Frames, Bacterial Proteins, Gene cluster, medicine, Polymyxins, Molecular Biology, Gene, Genetics, Gene Expression Regulation, Bacterial, biology.organism_classification, Mutagenesis, Insertional, Multigene Family, lipids (amino acids, peptides, and proteins), Heterologous expression, Paenibacillus polymyxa, Polymyxin B, Chromatography, Liquid, medicine.drug

Abstract

Polymyxin, a long-known peptide antibiotic, has recently been reintroduced in clinical practice because it is sometimes the only available antibiotic for the treatment of multidrug-resistant gram-negative pathogenic bacteria. Lack of information on the biosynthetic genes of polymyxin, however, has limited the study of structure-function relationships and the development of improved polymyxins. During whole genome sequencing of Paenibacillus polymyxa E681, a plant growth-promoting rhizobacterium, we identified a gene cluster encoding polymyxin synthetase. Here, we report the complete sequence of the gene cluster and its function in polymyxin biosynthesis. The gene cluster spanning the 40.6-kb region consists of five open reading frames, designated pmxA , pmxB , pmxC , pmxD , and pmxE . The pmxC and pmxD genes are similar to genes that encode transport proteins, while pmxA , pmxB , and pmxE encode polymyxin synthetases. The insertional disruption of pmxE led to a loss of the ability to produce polymyxin. Introduction of the pmx gene cluster into the amyE locus of the Bacillus subtilis chromosome resulted in the production of polymyxin in the presence of extracellularly added l -2,4-diaminobutyric acid. Taken together, our findings demonstrate that the pmx gene cluster is responsible for polymyxin biosynthesis.

Published

2009

33. Citrinin, a mycotoxin from Penicillium citrinum, plays a role in inducing motility of Paenibacillus polymyxa

Author

Choong-Min Ryu, Choong-Hwan Lee, Seung-Hwan Park, Soo Keun Choi, Jong-Guk Kim, Rumi Kim, and Soo-Young Park

Subjects

animal structures, Ecology, Swarming motility, Biology, biology.organism_classification, Applied Microbiology and Biotechnology, Microbiology, Agar plate, Citrinin, chemistry.chemical_compound, chemistry, Penicillium, Penicillium citrinum, Paenibacillus polymyxa, Mycotoxin, Bacteria

Abstract

Paenibacillus polymyxa, a Gram-positive low-G+C spore-forming soil bacterium, belongs to the plant growth-promoting rhizobacteria. The swarming motility of P. polymyxa strain E681 was greatly induced by a secondary metabolite, citrinin, produced by Penicillium citrinum KCTC6549 in a dose-dependent manner at concentrations of 2.5-15.0 microg mL(-1) on tryptic soy agar plates containing 1.0% (w/v) agar. Flagellum staining showed that citrinin activated the production of flagella by P. polymyxa. This result was supported by reverse transcriptase-PCR analysis of gene expression, which showed increased transcriptional levels of sigD and hag homologues of P. polymyxa E681 in the presence of citrinin. The results presented here show that a mycotoxin, citrinin, has a newly identified function of inducing bacterial motility by transcriptional activation of related genes. This finding contributes to our understanding of the interactions between bacteria and fungal strains in nature.

Published

2008

34. Genome Sequence of Antibiotic-Producing Bacillus amyloliquefaciens Strain KCTC 13012

Author

Soo Keun Choi, Seung-Hwan Park, and Haeyoung Jeong

Subjects

Whole genome sequencing, Plant growth, Strain (chemistry), Bacillus amyloliquefaciens, medicine.drug_class, fungi, Antibiotics, Biology, biology.organism_classification, Genome, Microbiology, Genetics, medicine, bacteria, Prokaryotes, Molecular Biology, Gene, Bacteria

Abstract

We report the 4.0-Mb draft genome sequence of Bacillus amyloliquefaciens (syn. Bacillus velezensis ) KCTC 13012, which exhibits a broad spectrum of antagonistic activity against bacteria and fungi and promotes plant growth as well. The genome contains an array of biosynthetic gene clusters for secondary metabolites that are comparable to those in Bacillus amyloliquefaciens subsp. plantarum FZB42 T .

Published

2015

35. Deciphering the conserved genetic loci implicated in plant disease control through comparative genomics of Bacillus amyloliquefaciens subsp. plantarum

Author

Cody R. Rasmussen-Ivey, Chao Ran, Malachi A. Williams, Mark R. Liles, Haeyoung Jeong, Ke Liu, Soo Keun Choi, Mohammad J. Hossain, Mohammad K. Hassan, Molli M. Newman, Joseph W. Kloepper, and Choong-Min Ryu

Subjects

Comparative genomics, biology, host colonization, food and beverages, Bacillus, Bacillus subtilis, Plant Science, Secondary metabolite, lcsh:Plant culture, biology.organism_classification, Rhizobacteria, Genome, Plant disease, bacterial spot disease, Microbiology, plantarum, PGPR, medicine, Gene family, lcsh:SB1-1110, biocontrol, rhizosphere, Gene, medicine.drug, Original Research

Abstract

To understand the growth-promoting and disease-inhibiting activities of plant growth-promoting rhizobacteria (PGPR) strains, the genomes of 12 Bacillus subtilis group strains with PGPR activity were sequenced and analyzed. These B. subtilis strains exhibited high genomic diversity, whereas the genomes of B. amyloliquefaciens strains (a member of the B. subtilis group) are highly conserved. A pairwise BLASTp matrix revealed that gene family similarity among Bacillus genomes ranges from 32 to 90%, with 2839 genes within the core genome of B. amyloliquefaciens subsp. plantarum. Comparative genomic analyses of B. amyloliquefaciens strains identified genes that are linked with biological control and colonization of roots and/or leaves, including 73 genes uniquely associated with subsp. plantarum strains that have predicted functions related to signaling, transportation, secondary metabolite production, and carbon source utilization. Although B. amyloliquefaciens subsp. plantarum strains contain gene clusters that encode many different secondary metabolites, only polyketide biosynthetic clusters that encode difficidin and macrolactin are conserved within this subspecies. To evaluate their role in plant pathogen biocontrol, genes involved in secondary metabolite biosynthesis were deleted in a B. amyloliquefaciens subsp. plantarum strain, revealing that difficidin expression is critical in reducing the severity of disease, caused by Xanthomonas axonopodis pv. vesicatoria in tomato plants. This study defines genomic features of PGPR strains and links them with biocontrol activity and with host colonization.

Published

2015

36. Complete Genome Sequence of Bacillus subtilis Strain ATCC 6051a, a Potential Host for High-Level Secretion of Industrial Enzymes

Author

Young Mi Sim, Seung-Hwan Park, Haeyoung Jeong, and Soo Keun Choi

Subjects

Whole genome sequencing, Strain atcc, Strain (chemistry), Host (biology), fungi, Bacillus subtilis, Biology, biology.organism_classification, Microbiology, Industrial enzymes, Genetics, Secretion, Prokaryotes, Molecular Biology

Abstract

Bacillus subtilis ATCC 6051a (=KCTC 1028), which is less domesticated than strain 168, is widely used for the secretory expression of industrial enzymes. Herein, we present the complete genome sequence of the Bacillus subtilis strain ATCC 6051a.

Published

2015

37. Biosynthesis of Polymyxins B, E, and P Using Genetically Engineered Polymyxin Synthetases in the Surrogate Host Bacillus subtilis

Author

Soo Yong Park, Se Yu Kim, Seung-Hwan Park, and Soo Keun Choi

Subjects

medicine.drug_class, Polymyxin, Bacillus subtilis, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, Ligases, Nonribosomal peptide, Gene cluster, medicine, Polymyxins, Escherichia coli, chemistry.chemical_classification, biology, General Medicine, biology.organism_classification, Recombinant Proteins, chemistry, Biochemistry, Metabolic Engineering, lipids (amino acids, peptides, and proteins), Heterologous expression, Paenibacillus polymyxa, Paenibacillus, Polymyxin B, Biotechnology, medicine.drug

Abstract

The development of diverse polymyxin derivatives is needed to solve the toxicity and resistance problems of polymyxins. However, no platform has generated polymyxin derivatives by genetically engineering a polymyxin synthetase, which is a nonribosomal peptide synthetase. In this study, we present a two-step approach for the construction of engineered polymyxin synthetases by substituting the adenylation (A) domains of polymyxin A synthetase, which is encoded by the pmxABCDE gene cluster of Paenibacillus polymyxa E681. First, the seventh L-threonine-specific A-domain region in pmxA was substituted with the Lleucine- specific A-domain region obtained from P. polymyxa ATCC21830 to make polymyxin E synthetase, and then the sixth D-leucine-specific A-domain region (A6-D-Leu-domain) was substituted with the D-phenylalanine-specific A-domain region (A6-D-Phe-domain) obtained from P. polymyxa F4 to make polymyxin B synthetase. This step was performed in Escherichia coli on a pmxA-containing fosmid, using the lambda Red recombination system and the sacB gene as a counter-selectable marker. Next, the modified pmxA gene was fused to pmxBCDE on the chromosome of Bacillus subtilis BSK4dA, and the resulting recombinant strains BSK4-PB and BSK4-PE were confirmed to produce polymyxins B and E, respectively. We also succeeded in constructing the B. subtilis BSK4-PP strain, which produces polymyxin P, by singly substituting the A6-D-Leu-domain with the A6-D-Phe-domain. This is the first report in which polymyxin derivatives were generated by genetically engineering polymyxin synthetases. The two recombinant B. subtilis strains will be useful for improving the commercial production of polymyxins B and E, and they will facilitate the generation of novel polymyxin derivatives.

Published

2015

38. The Phosphotransferase System of Corynebacterium glutamicum: Features of Sugar Transport and Carbon Regulation

Author

Min-Woo Moon, Soo Keun Choi, Sun-Yang Park, and Jung-Kee Lee

Subjects

Sucrose, Physiology, Permease, Catabolite repression, Fructose, macromolecular substances, Cell Biology, PEP group translocation, Biology, Applied Microbiology and Biotechnology, Biochemistry, Microbiology, Corynebacterium glutamicum, carbohydrates (lipids), Phosphotransferase, stomatognathic diseases, chemistry.chemical_compound, chemistry, otorhinolaryngologic diseases, bacteria, Sugar, Biotechnology

Abstract

In this review, we describe the phosphotransferase system (PTS) of Corynebacterium glutamicum and discuss genes for putative global carbon regulation associated with the PTS. C. glutamicum ATCC 13032 has PTS genes encoding the general phosphotransferases enzyme I, HPr and four enzyme II permeases, specific for glucose, fructose, sucrose and one yet unknown substrate. C. gluamicum has a peculiar sugar transport system involving fructose efflux after hydrolyzing sucrose transported via sucrose EII. Also, in addition to their primary PTS, fructose and glucose are each transported by a second transporter, glucose EII and a non-PTS permease, respectively. Interestingly, C. glutamicum does not show any preference for glucose, and thus co-metabolizes glucose with other sugars or organic acids. Studies on PTS-mediated sugar uptake and its related regulation in C. glutamicum are important because the production yield of lysine and cell growth are dependent on the PTS sugars used as substrates for fermentation. In many bacteria, the PTS is also involved in several regulatory processes. However, the detailed molecular mechanism of global carbon regulation associated with the PTS in this organism has not yet been revealed.

Published

2006

39. Mechanism of CcpA-Mediated Glucose Repression of the resABCDE Operon of Bacillus subtilis

Author

Soo-Keun Choi and Milton H. Saier

Subjects

biology, Physiology, Operon, Structural gene, Repressor, Cell Biology, Bacillus subtilis, biology.organism_classification, Applied Microbiology and Biotechnology, Biochemistry, Microbiology, carbohydrates (lipids), Response regulator, chemistry.chemical_compound, chemistry, CCPA, bacteria, gal operon, L-arabinose operon, Biotechnology

Abstract

The resABCDE operon of Bacillus subtilis encodes a three-protein complex involved in cytochrome c biogenesis as well as the ResE sensor kinase and the ResD response regulator that control electron transfer and other functions in response to oxygen availability. We have investigated the mechanism of CcpA-mediated control of res operon expression which occurs maximally in the stationary phase of growth. Two CcpA-binding (CRE) sites were found in the res operon, one (CRE1) in the control region in front of the resA promoter, the other (CRE2) in the resB structural gene. Both CRE sites proved to be essential for full CcpA-mediated glucose repression of res operon expression. We propose that both looping and road block mechanisms are involved in res operon control by CcpA.

Published

2006

40. Genome engineering using a synthetic gene circuit in Bacillus subtilis

Author

Seung-Hwan Park, Soo Keun Choi, Jae-Gu Pan, Eui-Joong Kim, and Da-Eun Jeong

Subjects

DNA, Bacterial, Genetic Markers, Operon, Molecular Sequence Data, Chloramphenicol Resistance, Bacillus subtilis, Biology, medicine.disease_cause, Genome, Genome engineering, Plasmid, Genetics, medicine, Genes, Synthetic, Gene Regulatory Networks, Gene, Mutation, Base Sequence, Promoter, biology.organism_classification, Molecular biology, Mutagenesis, bacteria, Methods Online, Genetic Engineering, Genome, Bacterial, Plasmids

Abstract

Genome engineering without leaving foreign DNA behind requires an efficient counter-selectable marker system. Here, we developed a genome engineering method in Bacillus subtilis using a synthetic gene circuit as a counter-selectable marker system. The system contained two repressible promoters (B. subtilis xylA (P-xyl) and spac (P-spac)) and two repressor genes (lacI and xylR). P-xyl-lacI was integrated into the B. subtilis genome with a target gene containing a desired mutation. The xylR and P-spac-chloramphenicol resistant genes (cat) were located on a helper plasmid. In the presence of xylose, repression of XylR by xylose induced LacI expression, the LacIs repressed the P-spac promoter and the cells become chloramphenicol sensitive. Thus, to survive in the presence of chloramphenicol, the cell must delete P-xyl-lacI by recombination between the wild-type and mutated target genes. The recombination leads to mutation of the target gene. The remaining helper plasmid was removed easily under the chloramphenicol absent condition. In this study, we showed base insertion, deletion and point mutation of the B. subtilis genome without leaving any foreign DNA behind. Additionally, we successfully deleted a 2-kb gene (amyE) and a 38-kb operon (ppsABCDE). This method will be useful to construct designer Bacillus strains for various industrial applications.

Published

2014

41. Regulation of sigL Expression by the Catabolite Control Protein CcpA Involves a Roadblock Mechanism in Bacillus subtilis : Potential Connection between Carbon and Nitrogen Metabolism

Author

Soo-Keun Choi and Milton H. Saier

Subjects

Nitrogen, Operon, Catabolite repression, Sigma Factor, Bacillus subtilis, Biology, Microbiology, chemistry.chemical_compound, Bacterial Proteins, Gene Regulation, Binding site, Molecular Biology, Transcription factor, Regulation of gene expression, Structural gene, Gene Expression Regulation, Bacterial, biology.organism_classification, Carbon, carbohydrates (lipids), DNA-Binding Proteins, Repressor Proteins, chemistry, Biochemistry, CCPA, bacteria, Energy Metabolism

Abstract

A catabolite-responsive element (CRE), a binding site for the CcpA transcription factor, was identified within the sigL structural gene encoding σ L in Bacillus subtilis . We show that CcpA binds to this CRE to regulate sigL expression by a “roadblock” mechanism and that this mechanism in part accounts for catabolite repression of σ L -directed levD operon expression.

Published

2005

42. Regulation of pho Regulon Gene Expression by the Carbon Control Protein A, CcpA, in Bacillus subtilis

Author

Soo Keun Choi and Milton H. Saier

Subjects

Regulation of gene expression, Physiology, Operon, Structural gene, lac operon, Cell Biology, Bacillus subtilis, Biology, biology.organism_classification, Applied Microbiology and Biotechnology, Biochemistry, Microbiology, Phosphorus metabolism, carbohydrates (lipids), chemistry.chemical_compound, Regulon, chemistry, CCPA, bacteria, Biotechnology

Abstract

Bacterial regulons involved in carbon, nitrogen and phosphorus metabolism must interact for purposes of coordination, but the mechanisms involved are not understood. We here report that the carbon control pro-tein-A (CcpA) of Bacillus subtilis, primarily concerned with carbon metabolism, influences expression of various phosphorus (pho) regulon genes including the two alkaline phosphatase structural genes, phoA and phoB. The directions and magnitudes of the effects of glucose and the loss of CcpA on these two genes depend on growth conditions, but they always correlate inversely. Absolute expression levels of phoA and phoB depend on a rich nitrogen source, and gene activation by a fermentable substrate such as glucose depends on the presence of a respiratory substrate such as succinate. We show that these CcpA-dependent glucose effects can be explained by the effects of glucose and CcpA acting on the phoPR operon. Although a good CcpA-binding site (CRE) is found in the control region of the phoPR operon, direct regulation of phoPR gene expression by CcpA via this CRE could not account for the effects of glucose and CcpA on phoA and phoB gene expression. We conclude that CcpA exerts indirect control over the pho regulon by a mechanism that involves CcpA and PhoRP but does not involve the phoPR operon CRE.

Published

2005

43. Genome Sequence of the Plant Endophyte Bacillus pumilus INR7, Triggering Induced Systemic Resistance in Field Crops

Author

Soo Keun Choi, Choong-Min Ryu, Haeyoung Jeong, and Joseph W. Kloepper

Subjects

Whole genome sequencing, biology, Strain (chemistry), Bacillus pumilus, fungi, Biological pest control, biology.organism_classification, Endophyte, Microbiology, Botany, Genetics, Prokaryotes, Antagonism, Molecular Biology, Bacteria, Function (biology)

Abstract

Bacillus pumilus INR7 is an endophytic bacterium that has been commercialized as a biological control product against soilborne pathogens as well as foliar pathogens by direct antagonism and induction of systemic resistance. In the current study, we provide the genome sequence and a possible explanation of the function of strain INR7.

Published

2014

44. Genome Sequence of Bacillus amyloliquefaciens GB03, an Active Ingredient of the First Commercial Biological Control Product

Author

Choong-Min Ryu, Soo Keun Choi, Haeyoung Jeong, and Joseph W. Kloepper

Subjects

Active ingredient, Whole genome sequencing, Bacilli, Bacillus amyloliquefaciens, business.industry, Strain (biology), fungi, Biological pest control, food and beverages, Computational biology, Biology, biology.organism_classification, Biotechnology, Broad spectrum, Genetics, Prokaryotes, business, Molecular Biology

Abstract

Bacillus amyloliquefaciens GB03 has been used as a representative commercialized strain of the bacilli for biological control against a broad spectrum of plant pathogens and as a bio-fertilizer to promote growth and yield of field crops for more than two decades. Herein, we present the genome sequence and a brief analysis of strain GB03.

Published

2014

45. Genome Sequence of the Acrystalliferous Bacillus thuringiensis Serovar Israelensis Strain 4Q7, Widely Used as a Recombination Host

Author

Seung-Hwan Park, Soo Keun Choi, and Haeyoung Jeong

Subjects

Whole genome sequencing, Serotype, Genetics, Strain (chemistry), Host (biology), Biology, biology.organism_classification, Biopesticide, Bacillus thuringiensis, Prokaryotes, Molecular Biology, Recombination, Transformation efficiency

Abstract

Bacillus thuringiensis serovar israelensis is well known for its mosquitocidal activity and has long been used as a biopesticide. Herein, we present the genome sequence of B. thuringiensis serovar israelensis strain 4Q7, a plasmid-cured derivative with higher transformation efficiency than wild types.

Published

2014

46. Regulation of the Bacillus subtilis Phosphotransacetylase Gene

Author

Soo Keun Choi, Byung Sik Shin, and Seung Hwan Park

Subjects

Time Factors, Transcription, Genetic, Recombinant Fusion Proteins, Molecular Sequence Data, Catabolite repression, Bacillus subtilis, Acetates, Biology, Biochemistry, Gene Expression Regulation, Enzymologic, Carbon utilization, Insertional mutagenesis, Phosphate Acetyltransferase, Bacterial Proteins, Start codon, Genes, Regulator, Escherichia coli, Phosphate acetyltransferase, Cloning, Molecular, Promoter Regions, Genetic, Molecular Biology, Gene, Regulation of gene expression, Base Sequence, Models, Genetic, Gene Expression Regulation, Bacterial, General Medicine, beta-Galactosidase, biology.organism_classification, Molecular biology, DNA-Binding Proteins, Repressor Proteins, Glucose, Mutagenesis, Chromatography, Gel

Abstract

The enzyme, phosphotransacetylase (Pta), catalyzes the conversion of acetyl coenzyme A to acetyl phosphate. The putative pta gene of Bacillus subtilis, which had been sequenced as part of the Genome Project, was cloned and overexpressed in Escherichia coli. We confirmed that the gene encodes Pta by measuring the enzymatic activity of the purified protein. Insertional mutagenesis of the pta gene resulted in complete loss of the Pta activity, indicating that B. subtilis contains only one kind of pta gene. Expression of a pta-lacZ fusion was induced in the presence of excess glucose in the growth medium, and the intact ccpA gene was required for this activation. The transcriptional start site of the pta gene was located at 37 nucleotides upstream of the pta start codon, and a cre (catabolite responsive element) sequence, a cis-acting element that is responsible for the catabolite repression of a number of carbon utilization genes in B. subtilis, was identified upstream of the tentative promoter site. Experiments involving oligonucleotide-directed mutagenesis showed that the cre sequence is involved in glucose-mediated transcriptional activation.

Published

1999

47. Sequence Analysis of the Bacillus subtilis 168 Chromosome Region between the sspC and odhA Loci (184 -180 )

Author

Young Mee Jeong, Byung Sik Shin, Seung Hwan Park, Soo Keun Choi, Alexei Sorokin, S. Dusko Ehrlich, and S Y Ghim

Subjects

Genetics, Sequence analysis, Circular bacterial chromosome, Nucleic acid sequence, Sequence alignment, General Medicine, Bacillus subtilis, Biology, biology.organism_classification, ORFS, Molecular Biology, Gene, Prophage

Abstract

The nucleotide sequence of 45,389 bp in the 184 degrees-180 degrees region of the Bacillus subtilis chromosome, containing the cge cluster, which is controlled by the sporulation regulatory protein GerE, was determined. Fifty-four putative ORFs with putative ribosome-binding sites were recognized. Seven of them correspond to previously characterized genes: cgeB, cgeA, cgeC, cgeD, cgeE, ctpA, and odhA. The deduced products of 25 ORFs were found to display significant similarities to proteins in the data banks. We have identified genes involved in detoxification, cell walls, and in the metabolism of biotins, purines, fatty acids, carbohydrates and amino acids. The remaining 22 ORFs showed no similarity to known proteins. Both an attachment site of the SPbeta prophage and 2 new putative DNA replication terminators were identified in this region.

Published

1998

48. Genome Sequence of Lysinibacillus sphaericus Strain KCTC 3346 T

Author

Haeyoung Jeong, Seung-Hwan Park, Da-Eun Jeong, Soo Keun Choi, and Young Mi Sim

Subjects

Genetics, Whole genome sequencing, biology, Phylogenetic tree, Strain (biology), fungi, Prokaryotes, Lysinibacillus sphaericus, biology.organism_classification, Molecular Biology

Abstract

Lysinibacillus sphaericus is a heterogeneous species that includes strains that produce mosquitocidal toxin proteins. Herein, we report the 4.56-Mb draft genome sequence of the nonpathogenic L. sphaericus strain KCTC 3346 T , which provides clues for the phylogenetic reassessment of L. sphaericus species and an understanding of its physiological properties.

Published

2013

49. Distribution of cryV-type insecticidal protein genes in Bacillus thuringiensis and cloning of cryV-type genes from Bacillus thuringiensis subsp. kurstaki and Bacillus thuringiensis subsp. entomocidus

Author

Soo Keun Choi, Bon Tag Koo, Jeong Il Kim, Byung Sik Shin, Sung-Taik Lee, and Seung Hwan Park

Subjects

Bacterial Toxins, Molecular Sequence Data, Bacillus thuringiensis, Gene Expression, Molecular cloning, Applied Microbiology and Biotechnology, Microbiology, Hemolysin Proteins, Bacterial Proteins, Escherichia coli, Amino Acid Sequence, Cloning, Molecular, Bacillaceae, Bacillus thuringiensis Toxins, Base Sequence, Ecology, biology, fungi, Parasporal body, Plutella, biology.organism_classification, Bacillales, Molecular biology, Endotoxins, Molecular probe, Research Article, Food Science, Biotechnology, Delta endotoxin

Abstract

DNA dot blot hybridizations with a cryV-specific probe and a cryI-specific probe were performed to screen 24 Bacillus thuringiensis strains for their cryV-type (lepidopteran- and coleopteran-specific) and cryI-type (lepidopteran-specific) insecticidal crystal protein gene contents, respectively. The cryV-specific probe hybridized to 12 of the B. thuringiensis strains examined. Most of the cryV-positive strains also hybridized to the cryI-specific probe, indicating that the cryV genes are closely related to cryI genes. Two cryV-type genes, cryV1 and cryV465, were cloned from B. thuringiensis subsp. kurstaki HD-1 and B. thuringiensis subsp. entomocidus BP465, respectively, and their nucleotide sequences were determined. The CryV1 protein was toxic to Plutella xylostella and Bombyx mori, whereas the CryV465 protein was toxic only to Plutella xylostella.

Published

1995

50. Efficient Production of Polymyxin in the Surrogate Host Bacillus subtilis by Introducing a Foreign ectB Gene and Disrupting the abrB Gene

Author

Jihoon Kim, Soo Keun Choi, Tae Kwang Oh, Soo-Young Park, and Seung Hwan Park

Subjects

medicine.drug_class, Polymyxin, Mutant, Gene Expression, Bacillus subtilis, Real-Time Polymerase Chain Reaction, Applied Microbiology and Biotechnology, Paenibacillus, Gene Knockout Techniques, Bacterial Proteins, Transcription (biology), Gene expression, Gene cluster, medicine, Polymyxins, Ecology, biology, Gene Expression Profiling, fungi, biology.organism_classification, Molecular biology, Recombinant Proteins, DNA-Binding Proteins, Biochemistry, Metabolic Engineering, lipids (amino acids, peptides, and proteins), Paenibacillus polymyxa, Metabolic Networks and Pathways, Food Science, Biotechnology, Transcription Factors

Abstract

In our previous study, Bacillus subtilis strain BSK3S, containing a polymyxin biosynthetic gene cluster from Paenibacillus polymyxa , could produce polymyxin only in the presence of exogenously added l -2,4-diaminobutyric acid (Dab). The dependence of polymyxin production on exogenous Dab was removed by introducing an ectB gene encoding the diaminobutyrate synthase of P. polymyxa into BSK3S (resulting in strain BSK4). We found, by observing the complete inhibition of polymyxin synthesis when the spo0A gene was knocked out (strain BSK4-0A), that Spo0A is indispensable for the production of polymyxin. Interestingly, the abrB-spo0A double-knockout mutant, BSK4-0A-rB, and the single abrB mutant, BSK4-rB, showed 1.7- and 2.3-fold increases, respectively, in polymyxin production over that of BSK4. These results coincided with the transcription levels of pmxA in the strains observed by quantitative real-time PCR (qRT-PCR). The AbrB protein was shown to bind directly to the upstream region of pmxA , indicating that AbrB directly inhibits the transcription of polymyxin biosynthetic genes. The BSK4-rB strain, producing high levels of polymyxin, will be useful for the development and production of novel polymyxin derivatives.

Published

2012