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1. Harnessing in vivo synthesis of bioactive multiarylmethanes in Escherichia coli via oxygen-mediated free radical reaction induced by simple phenols

Author

Donglou Wang, Jiangbo He, Yonghong Chen, Boran Liu, Zhuang Wu, Xuerong Pan, and Xuemei Niu

Subjects
Multiarylmethanes, Arthrocolins, In vivo synthesis, Escherichia coli, Oxygen-mediated free radical reaction, Antitumor, Microbiology, QR1-502
Abstract

Abstract Background Xanthenes and multi-aryl carbon core containing compounds represent different types of complex and condensed architectures that have impressive wide range of pharmacological, industrial and synthetic applications. Moreover, indoles as building blocks were only found in naturally occurring metabolites with di-aryl carbon cores and in chemically synthesized tri-aryl carbon core containing compounds. Up to date, rare xanthenes with indole bearing multicaryl carbon core have been reported in natural or synthetic products. The underlying mechanism of fluorescein-like arthrocolins with tetra-arylmethyl core were synthesized in an engineered Escherichia coli fed with toluquinol remained unclear. Results In this study, the Keio collection of single gene knockout strains of 3901 mutants of E. coli BW25113, together with 14 distinct E. coli strains, was applied to explore the origins of endogenous building blocks and the biogenesis for arthrocolin assemblage. Deficiency in bacterial respiratory and aromatic compound degradation genes ubiX, cydB, sucA and ssuE inhibited the mutant growth fed with toluquinol. Metabolomics of the cultures of 3897 mutants revealed that only disruption of tnaA involving in transforming tryptophan to indole, resulted in absence of arthrocolins. Further media optimization, thermal cell killing and cell free analysis indicated that a non-enzyme reaction was involved in the arthrocolin biosynthesis in E. coli. Evaluation of redox potentials and free radicals suggested that an oxygen-mediated free radical reaction was responsible for arthrocolins formation in E. coli. Regulation of oxygen combined with distinct phenol derivatives as inducer, 31 arylmethyl core containing metabolites including 13 new and 8 biological active, were isolated and characterized. Among them, novel arthrocolins with p-hydroxylbenzene ring from tyrosine were achieved through large scale of aerobic fermentation and elucidated x-ray diffraction analysis. Moreover, most of the known compounds in this study were for the first time synthesized in a microbe instead of chemical synthesis. Through feeding the rat with toluquinol after colonizing the intestines of rat with E. coli, arthrocolins also appeared in the rat blood. Conclusion Our findings provide a mechanistic insight into in vivo synthesis of complex and condensed arthrocolins induced by simple phenols and exploits a quinol based method to generate endogenous aromatic building blocks, as well as a methylidene unit, for the bacteria-facilitated synthesis of multiarylmethanes.

Published
2024
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2. Gene fusion and functional diversification of P450 genes facilitate thermophilic fungal adaptation to temperature change

Author

Shuhong Li, Jiangbo He, Qunfu Wu, Jianghui Gou, Donglou Wang, and Xuemei Niu

Subjects
P450s, Thermomyces dupontii, gene fusion, prenylated indole alkaloid, temperature changes, Fe2+/Fe3+ ratios, Biology (General), QH301-705.5, Microbiology, QR1-502
Abstract

Thermomyces dupontii harbors two P450 paralogs (P450S and P450L) in the gene cluster for the biosynthesis of prenylated indole alkaloids (PIAs) and correponding iron chelators with P450L assigned as one protein containing a CYP like domain fused with a FAD-binding domain-containing oxidoreductase. Genetic manipulation and metabolic profile analysis indicated both P450S and P450L were involved in transforming simple PIAs to their corresponding iron chelators. Moreover, P450S is responsible for bolstering simple PIAs to complex PIAs, and P450L for reinforcing conjugating unsaturated systems in complex PIAs. Chemical investigation led to isolation and characterization of novel complex PIA metabolites with more oxidations. P450L also contributed to forming the third iron-chelating core in iron chelators. A series of iron bioassays and infrastructure analysis revealed that lack of these P450 genes caused strongly elevated Fe3+ levels but attenuated Fe2+ levels, together with abnormal mitochondria in mycelia and lipid droplets and vacuoles in conidia. Phenotype analysis revealed that P450S and P450L facilitated fungal colony pigments, conidial formation and germination via bolstering conidiophores and cell walls in response to temperature reduction.

Published
2024
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3. Thermophilic fungus uses anthraquinones to modulate ferrous excretion, sterol‐mediated endocytosis, and iron storage in response to cold stress

Author

Shuhong Li, Donglou Wang, Jiangbo He, Chunhua Liao, Zhangxin Zuo, Shenghong Li, and Xuemei Niu

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract To date, there are no real physiological mechanisms for iron excretion in eukaryote, and no physiological “actuator” that can control all the three fundamental biologic processes of absorption, storage, and excretion. Here, we observed that the accumulation of anthraquinones by Thermomyces dupontii under cold stress can achieve this process. Through mutation analysis, we found that mutant ΔAn deficiency in anthraquinones accumulated ferrous and total free iron due to adopting a rare lifestyle with no endocytosis but accumulation of membrane‐derived vesicles. Anthraquinone complement indicated that the vesicles in ΔAn could coat the extrinsic anthraquinone‐induced granules to prevent contact with the fungal interiors. Detailed chemical investigation on ΔAn led to characterization of a rare oxygen‐free ergosterene with unstable nature in air as the major membrane steroid in ΔAn, suggesting hypoxia inner in ΔAn cells, consistent with dramatically low oxygen‐consuming rates in ΔAn. A series of physiological and metabolic analyses indicated anthraquinones were involved in exporting ferrous and promoting formation of oxygen‐containing metabolites, including ergosterols for endocytosis and iron chelators for iron storage. Moreover, we found that both the anticancer agent mitoxantrone with well‐known‐cardiotoxicity side effect and the major terpenoid‐derived polycyclic aromatics from Danshen for treating cardiovascular disease showed potent ferrous transporting capabilities in human cancer cells. Our findings provide a novel insight into the underlying mechanisms of polycyclic aromatics in nature and pharmacology, and offer a new strategy for developing potential therapeutics and agents for membrane transport, iron homestasis, and anticold.

Published
2024
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4. Effect of Cryogenic Treatment on Residual Stress and Microstructure of 6061 Aluminum Alloy and Optimization of Parameters

Author

Xuemei Niu, Zhi Chen, Linwang Jing, Yao Huang, and Yuhang Liu

Subjects
cryogenic treatment, 6061 aluminum alloy, residual stress, microstructure evolution, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Residual stress induced by solution treatment in 6061 aluminum alloy can lead to workpiece deformation, or even premature failure. The efficiency of traditional heat treatment for relieving residual stress is relatively low. Therefore, this study introduces a novel cryogenic treatment technique to reduce residual stress. The optimal cryogenic process parameters were achieved by orthogonal experiments: cryogenic temperature of 113 K, holding time of 24 h, 1 cryogenic cycle, and a cooling rate of 3 K·min−1, and the residual stress of aluminum alloy was measured by the blind hole method. The microstructural evolutions in 6061 aluminum alloy were tested by OM, SEM, and TEM. The results show that the introduction of cryogenic treatment can reduce residual stress in 6061 aluminum alloy by 64%, mainly due to the reduction of dislocations and the uniform distribution of β’’ phase.

Published
2024
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5. Research on Reducing Residual Stress in Milling of Aluminum Alloy

Author

Yao Huang, Xianguo Yan, Ruize Yuan, Zhi Chen, Liang Tang, Ao Shen, and Xuemei Niu

Subjects
taguchi-grey relational approach, aluminum alloy milling process, cryogenic treatment, machining residual stress, Mining engineering. Metallurgy, TN1-997, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

The machining residual stress produced in the cutting process of aluminum alloy parts can easily lead to a scrap of the processed parts. In order to reduce the residual stress of aluminum alloy in the milling process, based on the Taguchi-Grey relational approach, the effects of different milling parameters on the residual stress and surface roughness of 2A12 aluminum alloy were studied. To reduce the residual stress and surface roughness of 2A12 aluminum alloy, optimized milling parameters were obtained. To further reduce the milling residual stress of 2A12 aluminum alloy, the samples processed by the optimized milling parameters were treated by cryogenic treatment and artificial aging. The residual stress of the sample was measured by the blind hole drilling method, and the evolution mechanism of the microstructure to reduce the machining residual stress was revealed. The results show that the combination of deep cooling treatment and oil bath aging can effectively reduce the residual stress on the machined surface of the aluminum alloy and facilitate a more uniform distribution of the residual stress inside the specimen. The effect of the coarse second phase on the residual stress in the microstructure is not significant, and the fine and diffusely distributed precipitation phase is beneficial to the reduction of the residual stress in the aluminum alloy.

Published
2023
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6. 17β-Estradiol promotes metastasis in triple-negative breast cancer through the Calpain/YAP/β-catenin signaling axis.

Author

Xuemei Niu, Jianan Wang, Jinguang Liu, Qinglong Yu, and Mingwei Ci

Subjects
Medicine, Science
Abstract

β-catenin is an important regulator of malignant progression. 17β-Estradiol (E2), an important sex hormone in women, promotes the growth and metastasis of triple-negative breast cancer (TNBC). However, whether β-catenin is involved in E2-induced metastasis of TNBC remains unknown. In this study, we show that E2 induces the proliferation, migration, invasion, and metastasis of TNBC cells. E2 induces β-catenin protein expression and nuclear translocation, thereby regulating the expression of target genes such as Cyclin D1 and MMP-9. The inhibition of β-catenin reversed the E2-induced cell malignant behaviors. Additionally, E2 activated Calpain by increasing intracellular Ca2+ levels and reducing calpastatin levels. When Calpain was inhibited, E2 did not induce the proliferation, migration, invasion, or metastasis of TNBC cells. In addition, E2 promoted translocation of YAP into the nucleus by inhibiting its phosphorylation. Calpain inhibition reversed the E2-induced YAP dephosphorylation. Inhibition of YAP transcriptional activity reversed the effects of E2 on the proliferation, migration, invasion, and β-catenin of TNBC cells. In conclusion, we demonstrated that E2 induced metastasis-related behaviors in TNBC cells and this effect was mediated through the Calpain/YAP/β-catenin signaling pathway.

Published
2024
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7. Tryptophan-centered metabolic alterations coincides with lipid-mediated fungal response to cold stress

Author

Yonghong Chen, Xiaoyu Yang, Longlong Zhang, Qunfu Wu, Shuhong Li, Jianghui Gou, Jiangbo He, Keqin Zhang, Shenghong Li, and Xuemei Niu

Subjects
Thermomyces dupontii, Prenylated indole alkaloids, Tryptophan, Lipids, Cold stress, Tryptophan metabolism, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Tryptophan and its derived metabolites have been assumed to play important roles in the development and survival of organisms. However, the links of tryptophan and its derived metabolites to temperature change remained largely cryptic. Here we presented that a class of prenyl indole alkaloids biosynthesized from tryptophan dramatically accumulated in thermophilic fungus Thermomyces dupontii under cold stress, in which lipid droplets were also highly accumulated and whose conidiophores were highly build-up. Concurrently, disruption of the key NRPS gene involved in the biosynthesis of prenyl indole alkaloids, resulted in decreased lipid and shrunken mitochondria but enlarged vacuoles. Moreover, the Fe3+ and superoxide levels in ΔNRPS were significantly increased but the reactive oxygen species lipid peroxidation and autophagy levels decreased. Metabolomics study revealed that most enriched metabolites in ΔNRPS were mainly composed of tryptophan degraded metabolites including well known ROS scavenger kynurenamines, and lipid-inhibitors, anthranilic acid and indoleacetic acid, and free radical reaction suppressor free fatty acids. Transcriptomic analysis suggested that the key gene involved in tryptophan metabolism, coinciding with the lipid metabolic processes and ion transports were most up-regulated in ΔNRPS under stress. Our results confirmed a lipid-mediated fungal response to cold stress and unveiled a link of tryptophan-based metabolic reprogramming to the fungal cold adaption.

Published
2023
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8. Robust Vehicle Dynamics Control for a Sharp Curve With Uncertain Road Condition

Author

Jing Miao, Yifan Dai, Ou Xie, Hao Chen, Fuzhou Niu, Yehu Shen, Yong Zhi Wu, Hui Sun, Xuemei Niu, Qixin Zhu, and Wenjiang Shen

Subjects
model predictive conrol, robust optimisation, vehicle dynamic, uncertainty, stability, General Works
Abstract

Recently, more and more research has been conducted to develop Connected Autonomous Vehicles (CAVs) applications that ensures the safety driving of CAVs under some extreme situations. This brief presents a robust control strategy for CAVs to preserve a precise tracking performance and maintain the stability of lateral dynamics when passing a sharp curve with uncertain road friction coefficient changes. In the proposed robust lateral dynamics control, robust optimization-based lateral dynamics controller is designed to achieve the stability of the lateral dynamics with the consideration of the road friction coefficient uncertainty. Simulation validations are carried out to evaluate the proposed control strategy. The results show that the robust optimization-based lateral dynamics can improve the robustness even with the uncertainty of the road friction coefficient.

Published
2021
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9. Association of Intrauterine Microbes with Endometrial Factors in Intrauterine Adhesion Formation and after Medicine Treatment

Author

Ya Wen, Qunfu Wu, Longlong Zhang, Jiangbo He, Yonghong Chen, Xiaoyu Yang, Keqin Zhang, Xuemei Niu, and Shenghong Li

Subjects
intrauterine adhesion (IUA), intrauterine microbiota, Mycoplasmopsis pulmonis (Mycoplasma pulmonis), Staphylococcus, Ulvibacter, tenascin, Medicine
Abstract

Intrauterine adhesions (IUAs) have caused serious harm to women’s reproductive health. Although emerging evidence has linked intrauterine microbiome to gynecological diseases, the association of intrauterine microbiome with IUA, remains unknown. We performed metagenome-wide association, metabolomics, and transcriptomics studies on IUA and non-IUA uteri of adult rats to identify IUA-associated microbial species, which affected uterine metabolites and endometrial transcriptions. A rat model was used with one side of the duplex uterus undergoing IUA and the other remaining as a non-IUA control. Both 16S rRNA sequencing and metagenome-wide association analysis revealed that instead of Mycoplasmopsis specie in genital tract, murine lung pathogen Mycoplasmopsispulmonis markedly increased in IUA samples and displayed a distinct positive interaction with the host immune system. Moreover, most of the IUA-enriched 58 metabolites positively correlate with M.pulmonis, which inversely correlates with a mitotic progression inhibitor named 3-hydroxycapric acid. A comparison of metabolic profiles of intrauterine flushing fluids from human patients with IUA, endometritis, and fallopian tube obstruction suggested that rat IUA shared much similarity to human IUA. The endometrial gene Tenascin-N, which is responsible for extracellular matrix of wounds, was highly up-regulated, while the key genes encoding parvalbumin, trophectoderm Dkkl1 and telomerase involved in leydig cells, trophectoderm cells, activated T cells and monocytes were dramatically down-regulated in rat IUA endometria. Treatment for rat IUA with estrogen (E2), oxytetracycline (OTC), and a traditional Chinese patent medicine GongXueNing (GXN) did not reduce the incidence of IUA, though inflammatory factor IL-6 was dramatically down-regulated (96–86%) with all three. Instead, in both the E2 and OTC treated groups, IUA became worse with a highly up-regulated B cell receptor signaling pathway, which may be associated with the significantly increased proportions of Ulvibacter or Staphylococcus. Our results suggest an association between intrauterine microbiota alterations, certain uterine metabolites, characteristic changes in endometrial transcription, and IUA and the possibility to intervene in IUA formation by targeting the causal factors, microbial infection, and Tenascin-like proteins.

Published
2022
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10. Protein Kinase Ime2 Is Required for Mycelial Growth, Conidiation, Osmoregulation, and Pathogenicity in Nematode-Trapping Fungus Arthrobotrys oligospora

Author

Meihua Xie, Na Bai, Jiangliu Yang, Kexin Jiang, Duanxu Zhou, Yining Zhao, Dongni Li, Xuemei Niu, Ke-Qin Zhang, and Jinkui Yang

Subjects
Arthrobotrys oligospora, inducer of meiosis 2, mycelial development, conidiation, osmolarity, pathogenicity, Microbiology, QR1-502
Abstract

Inducer of meiosis 2 (Ime2), a protein kinase that has been identified in diverse fungal species, functions in the regulation of various cellular processes, such as ascospore formation, pseudohyphal growth, and sexual reproduction. In this study, AoIme2, an ortholog of Saccharomyces cerevisiae Ime2, was characterized in the nematode-trapping fungus Arthrobotrys oligospora. Disruption of the gene Aoime2 caused defective growth, with slower mycelial growth in ΔAoime2 mutants than the wild type (WT) strain, and in the mutants, the number of hyphal septa in mycelia was higher and the number of cell nuclei in mycelia and conidia was considerably lower than in the WT strain. The conidial yields of the ΔAoime2 mutants were decreased by ∼33% relative to the WT strain, and the transcription of several sporulation-related genes, including abaA, fluG, rodA, aspB, velB, and vosA, was markedly downregulated during the conidiation stage. The ΔAoime2 mutants were highly sensitive to the osmotic stressors NaCl and sorbitol, and the cell wall of partial hyphae in the mutants was deformed. Further examination revealed that the cell wall of the traps produced by ΔAoime2 mutants became loose, and that the electron-dense bodies in trap cells were also few than in the WT strain. Moreover, Aoime2 disruption caused a reduction in trap formation and serine-protease production, and most hyphal traps produced by ΔAoime2 mutants did not form an intact hyphal loop; consequently, substantially fewer nematodes were captured by the mutants than by the WT strain. In summary, an Ime2-MAPK is identified here for the first time from a nematode-trapping fungus, and the kinase is shown to be involved in the regulation of mycelial growth and development, conidiation, osmolarity, and pathogenicity in A. oligospora.

Published
2020
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11. The Velvet Proteins VosA and VelB Play Different Roles in Conidiation, Trap Formation, and Pathogenicity in the Nematode-Trapping Fungus Arthrobotrys oligospora

Author

Guosheng Zhang, Yaqing Zheng, Yuxin Ma, Le Yang, Meihua Xie, Duanxu Zhou, Xuemei Niu, Ke-Qin Zhang, and Jinkui Yang

Subjects
Arthrobotrys oligospora, velvet proteins, mutants, conidiation, trap formation, pathogenicity, Microbiology, QR1-502
Abstract

The velvet family proteins VosA and VelB are involved in growth regulation and differentiation in the model fungus Aspergillus nidulans and other filamentous fungi. In this study, the orthologs of VosA and VelB, AoVosA, and AoVelB, respectively, were characterized in the nematode-trapping fungus Arthrobotrys oligospora, which captures nematodes by producing trapping devices (traps). Deletion of the AovelB gene resulted in growth defects in different media, and the aerial hyphae from the ΔAovelB mutant lines were fewer in number and their colonies were less dense than those from the wild-type (WT) strain. The ΔAovelB mutants each displayed serious sporulation defects, and the transcripts of several sporulation-related genes (e.g., abaA, flbC, rodA, and vosA) were significantly down-regulated compared to those from the WT strain. Furthermore, the ΔAovelB mutant strains became more sensitive to chemical reagents, including sodium dodecyl sulfate and H2O2. Importantly, the ΔAovelB mutants were unable to produce nematode-capturing traps. Similarly, extracellular proteolytic activity was also lower in the ΔAovelB mutants than in the WT strain. In contrast, the ΔAovosA mutants displayed no obvious differences from the WT strain in these phenotypic traits, whereas conidial germination was lower in the ΔAovosA mutants, which became more sensitive to heat shock stress. Our results demonstrate that the velvet protein AoVelB is essential for conidiation, trap formation, and pathogenicity in A. oligospora, while AoVosA plays a role in the regulation of conidial germination and heat shock stress.

Published
2019
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12. Integrated Immunomagnetic Bead-Based Microfluidic Chip for Exosomes Isolation

Author

Fuzhou Niu, Xifu Chen, Xuemei Niu, Yifan Cai, Qingkui Zhang, Tao Chen, and Hao Yang

Subjects
exosomes isolation, immunomagnetic bead-based, microfluidic chip, micromixers, Mechanical engineering and machinery, TJ1-1570
Abstract

Exosomes are essential early biomarkers for health monitoring and cancer diagnosis. A prerequisite for further investigation of exosomes is the isolation, which is technically challenging due to the complexity of body fluids. This paper presents the development of an integrated microfluidic chip for exosomes isolation, which combines the traditional immunomagnetic bead-based protocol and the recently emerging microfluidic approach, resulting in benefits from both the high-purity of the former and the automated continuous superiority of the latter. The chip was designed based on an S-shaped micromixer with embedded baffle. The excellent mixing efficiency of this micromixer compared with Y-shaped and S-shaped micromixers was verified by simulation and experiments. The photolithography technique was employed to fabricate the integrated microfluidic chip, and the manufacturing process was elucidated. We finally established an experimental platform for exosomes isolation with the fabricated microfluidic chip built in. Exosomes isolation experiments were conducted using this platform. The distribution and morphology of the isolated exosomes were observed by transmission electron microscopy (TEM) and scanning electron microscopy (SEM). Quantitative size analyses based on transmission electron micrographs indicated that most of the obtained particles were between 30 and 150 nm. Western blot analyses of the isolated exosomes and the serum were conducted to verify the platform’s capability of isolating a certain subpopulation of exosomes corresponding to specified protein markers (CD63). The complete time for isolation of 150 μL serum samples was approximately 50 min, which was highly competitive with the reported existing protocols. Experimental results proved the capacity of the established integrated microfluidic chip for exosomes isolation with high purity, high integrity, and excellent efficiency. The platform can be further developed to make it possible for practical use in clinical applications as a universal exosomes isolation and characterization tool.

Published
2020
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13. Functional Operons in Secondary Metabolic Gene Clusters in Glarea lozoyensis (Fungi, Ascomycota, Leotiomycetes)

Author

Qun Yue, Li Chen, Yan Li, Gerald F. Bills, Xinyu Zhang, Meichun Xiang, Shaojie Li, Yongsheng Che, Chengshu Wang, Xuemei Niu, Zhiqiang An, and Xingzhong Liu

Subjects
Microbiology, QR1-502
Abstract

ABSTRACT Operons are multigene transcriptional units which occur mostly in prokaryotes but rarely in eukaryotes. Protein-coding operons have not been reported in the Fungi even though they represent a very diverse kingdom of organisms. Here, we report a functional operon involved in the secondary metabolism of the fungus Glarea lozoyensis belonging to Leotiomycetes (Ascomycota). Two contiguous genes, glpks3 and glnrps7, encoding polyketide synthase and nonribosomal peptide synthetase, respectively, are cotranscribed into one dicistronic mRNA under the control of the same promoter, and the mRNA is then translated into two individual proteins, GLPKS3 and GLNRPS7. Heterologous expression in Aspergillus nidulans shows that the GLPKS3-GLNRPS7 enzyme complex catalyzes the biosynthesis of a novel pyrrolidinedione-containing compound, xenolozoyenone (compound 1), which indicates the operon is functional. Although it is structurally similar to prokaryotic operons, the glpks3-glnrps7 operon locus has a monophylogenic origin from fungi rather than having been horizontally transferred from prokaryotes. Moreover, two additional operons, glpks28-glnrps8 and glpks29-glnrps9, were verified at the transcriptional level in the same fungus. This is the first report of protein-coding operons in a member of the Fungi. IMPORTANCE Operons are multigene transcriptional units which occur mostly in prokaryotes but rarely in eukaryotes. Three operon-like gene structures for secondary metabolism that were discovered in the filamentous fungus Glarea lozoyensis are the first examples of protein-coding operons identified in a member of the Fungi. Among them, the glpks3-glnrps7 operon is responsible for the biosynthesis of xenolozoyenone, which is a novel tetramic acid-containing compound. Although structurally similar to prokaryotic operons, the glpks3-glnrps7 operon locus did not result from horizontal gene transfer from prokaryotes. In addition, operonlike structures have been predicted in silico to be common in other fungi. The common occurrence and operonlike structure in fungi provide evolutionary insight and essential data for eukaryotic gene transcription.

Published
2015
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14. Pathway and molecular mechanisms for malachite green biodegradation in Exiguobacterium sp. MG2.

Author

Ji'ai Wang, Feng Gao, Zhongzhong Liu, Min Qiao, Xuemei Niu, Ke-Qin Zhang, and Xiaowei Huang

Subjects
Medicine, Science
Abstract

Malachite green (MG), N-methylated diaminotriphenylmethane, is one of the most common dyes in textile industry and has also been used as an effective antifungal agent. However, due to its negative impact on the environment and carcinogenic effects to mammalian cells, there is a significant interest in developing microbial agents to degrade this type of recalcitrant molecules. Here, an Exiguobacterium sp. MG2 was isolated from a river in Yunnan Province of China as one of the best malachite green degraders. This strain had a high decolorization capability even at the concentration of 2500 mg/l and maintained its stable activity within the pH range from 5.0 to 9.0. High-pressure liquid chromatography, liquid chromatography-mass spectrometry and gas chromatography-mass spectrometry were employed to detect the catabolic pathway of MG. Six intermediate products were identified and a potential biodegradation pathway was proposed. This pathway involves a series of reactions of N-demethylation, reduction, benzene ring-removal, and oxidation, which eventually converted N-methylated diaminotriphenylmethane into N, N-dimethylaniline that is the key precursor to MG. Furthermore, our molecular biology experiments suggested that both triphenylmethane reductase gene tmr and cytochrome P450 participated in MG degradation, consistent with their roles in the proposed pathway. Collectively, our investigation is the first report on a biodegradation pathway of triphenylmethane dye MG in bacteria.

Published
2012
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15. Genomic and proteomic analyses of the fungus Arthrobotrys oligospora provide insights into nematode-trap formation.

Author

Jinkui Yang, Lei Wang, Xinglai Ji, Yun Feng, Xiaomin Li, Chenggang Zou, Jianping Xu, Yan Ren, Qili Mi, Junli Wu, Shuqun Liu, Yu Liu, Xiaowei Huang, Haiyan Wang, Xuemei Niu, Juan Li, Lianming Liang, Yanlu Luo, Kaifang Ji, Wei Zhou, Zefen Yu, Guohong Li, Yajun Liu, Lei Li, Min Qiao, Lu Feng, and Ke-Qin Zhang

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Nematode-trapping fungi are "carnivorous" and attack their hosts using specialized trapping devices. The morphological development of these traps is the key indicator of their switch from saprophytic to predacious lifestyles. Here, the genome of the nematode-trapping fungus Arthrobotrys oligospora Fres. (ATCC24927) was reported. The genome contains 40.07 Mb assembled sequence with 11,479 predicted genes. Comparative analysis showed that A. oligospora shared many more genes with pathogenic fungi than with non-pathogenic fungi. Specifically, compared to several sequenced ascomycete fungi, the A. oligospora genome has a larger number of pathogenicity-related genes in the subtilisin, cellulase, cellobiohydrolase, and pectinesterase gene families. Searching against the pathogen-host interaction gene database identified 398 homologous genes involved in pathogenicity in other fungi. The analysis of repetitive sequences provided evidence for repeat-induced point mutations in A. oligospora. Proteomic and quantitative PCR (qPCR) analyses revealed that 90 genes were significantly up-regulated at the early stage of trap-formation by nematode extracts and most of these genes were involved in translation, amino acid metabolism, carbohydrate metabolism, cell wall and membrane biogenesis. Based on the combined genomic, proteomic and qPCR data, a model for the formation of nematode trapping device in this fungus was proposed. In this model, multiple fungal signal transduction pathways are activated by its nematode prey to further regulate downstream genes associated with diverse cellular processes such as energy metabolism, biosynthesis of the cell wall and adhesive proteins, cell division, glycerol accumulation and peroxisome biogenesis. This study will facilitate the identification of pathogenicity-related genes and provide a broad foundation for understanding the molecular and evolutionary mechanisms underlying fungi-nematodes interactions.

Published
2011
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19. Optimization of Cryogenic Treatment Parameters for the Minimum Residual Stress

Author

Huang Yao, Xuemei Niu, Zhi Chen, Yuan Ruize, Haidong Zhang, Liang Tang, and Xianguo Yan

Subjects
Equiaxed crystals, Quenching, Materials science, Scanning electron microscope, Mechanical Engineering, Alloy, engineering.material, Microstructure, Machining, Mechanics of Materials, Residual stress, engineering, General Materials Science, Cryogenic treatment, Composite material
Abstract

Residual stress developed after the quenching of aluminum alloys causes distortion during subsequent machining. The purpose of this study was to reduce the residual stress and improve mechanical properties by using a novel cryogenic treatment in an aluminum alloy, specifically, grade 2A12. The orthogonal test and relevant range analysis method were used to optimize cryogenic treatment parameters for improved distribution of residual stress in 2A12 alloy samples. The changes of microstructure were examined by scanning electron microscopy and transmission electron microscope. It was found that the residual stress in 2A12 alloy could be reduced up to 93%, by optimizing the cryogenic treatment parameters, and the reduction was mainly from grain refinement and uniformly distributed S' precipitates ascribing to the cryogenic treatment. The S' precipitates (Al2CuMg) were linked to the formation of Cu-Mg co-clusters, which were broadly equiaxed with no internal order.

Published
2021

20. Characterization and discrimination of two varieties of eggplants using multi-element and metabolomics profiles with chemometrics

Author

Xuemei Niu, Si Mi, Qiuxia Jin, Yaxin Sang, and Xianghong Wang

Abstract

The main purpose of the present study was to clarify the differences present in the multi-element and metabolite profiles between two varieties of eggplants. A total of 54 elements were identified by inductively coupled plasma mass spectrometry, 16 elements were significantly different between peel (n = 3) and flesh (n = 3). Besides, untargeted metabolomics combined with chemometric approach based on UHPLC-Q-TOF/ MS was used to identify the peel (n = 4) and flesh (n = 4).178 metabolites were screened with criteria of p 1.5 or 1 for the PLS-DA model prediction score. Amino acid compounds, maltitol and Kaempferol 3-O-rutinoside are the most important identification components of the two varieties of eggplant. Results showed that the two varieties of eggplants could be distinguished based on their multi-element and metabolite profiles, which may provide new directions for eggplant function research.

Published
2022

21. Characterization and discrimination of two varieties of eggplants using multi-element and metabolomics profiles coupled with chemometrics analysis

Author

Xuemei, Niu, Si, Mi, Qiuxia, Jin, Yaxin, Sang, and Xianghong, Wang

Subjects
Proline, Metabolomics, Solanum melongena, Chemometrics, Food Science
Abstract

The main purpose of the present study was to clarify the differences present in the multi-element and metabolite profiles between two varieties of eggplants. A total of 54 elements were identified by inductively coupled plasma mass spectrometry, 16 elements were significantly different between peel (n = 3) and flesh (n = 3). Besides, untargeted metabolomics combined with chemometrics was used to discriminate the peel (n = 4) and flesh (n = 4) of the two varieties of eggplants. A total of 178 metabolites were screened out with criteria of p 0.05, fold change 1.5 or 0.67 and variable importance in projection score 1 for the PLS-DA model. Maltitol and d-proline were the most important discriminants of the two varieties of eggplants. Kaempferol-3-O-rutinoside was the most important identification components between peel and flesh of the two varieties of eggplant. Results showed that the two varieties of eggplants could be distinguished based on their multi-element and metabolite profiles, which may provide new directions for eggplant function research.

Published
2022

23. Long Non-Coding RNA Reprogramming (ROR) Promotes Cell Proliferation in Colorectal Cancer via Affecting P53

Author

Hong Li, Xuemei Niu, and Xiumei Jiang

Subjects
0301 basic medicine, Cell cycle checkpoint, Apoptosis, Mice, SCID, Biology, medicine.disease_cause, Flow cytometry, 03 medical and health sciences, Mice, 0302 clinical medicine, Lab/In Vitro Research, Cell Movement, Mice, Inbred NOD, Cell Line, Tumor, medicine, Animals, Humans, MTT assay, Prospective Studies, Cell Proliferation, Gene knockdown, medicine.diagnostic_test, Cell growth, Cell Cycle, General Medicine, Cell cycle, Genes, p53, HCT116 Cells, 030104 developmental biology, Cell Transformation, Neoplastic, 030220 oncology & carcinogenesis, Gene Knockdown Techniques, Cancer research, Heterografts, RNA, Long Noncoding, Tumor Suppressor Protein p53, Carcinogenesis, Colorectal Neoplasms, HT29 Cells
Abstract

BACKGROUND Colorectal cancer (CRC) remains one of the most common lethal malignant tumors worldwide. The correlation between lncRNAs expression and CRC development has not been well identified in the recent literature. This study focused on the role of lncRNA-ROR on CRC progression and development. MATERIAL AND METHODS Quantitative real-time PCR (qRT-PCR) assay was conducted to identify the expression level of lncRNA-ROR. Cell proliferation and viability were examined by MTT assay and colony formation assay. Cell cycle distribution and apoptosis were detected by flow cytometry. Expressions of p53, p21, and FAS protein levels were assessed by Western blotting. CRC cells transfected with lncRNA-shRNA were injection into nude mice to identify the function of lncRNA-ROR on tumorigenesis in vivo. RESULTS The expression level of lncRNA-ROR was elevated in CRC tissues when compared to adjacent tissues (n=78). lncRNA-ROR knockdown significantly suppressed cell proliferation and viability, while lncRNA-ROR overexpression had the opposite effect. Decreased lncRNA-ROR expression enhanced cell apoptosis and triggered cell cycle arrest in G0/G1 phase, while elevated lncRNA-ROR expression presented the opposite effect. Protein levels of p53 and p53 target genes were affected by lncRNA-ROR in vitro, and downregulation of lncRNA-ROR impeded tumorigenesis in vivo. CONCLUSIONS Our study demonstrates that lncRNA-ROR participates in controlling CRC proliferation, viability, and apoptosis, partially by modulating p53, which provides potential and prospective therapeutic targets for CRC.

Published
2017

24. Benzopyrenomycin, a Cytotoxic Bacterial Polyketide Metabolite with a Benzo[a]pyrene-Type Carbocyclic Ring System

Author

Xueshi Huang, Christian Hertweck, Xuemei Niu, Isabel Sattler, Hans-Martin Dahse, Klaus-Dieter Menzel, Hans-Peter Fiedler, Susanne Grabley, and Jian He

Subjects
Magnetic Resonance Spectroscopy, Molecular Structure, Stereochemistry, Metabolite, Benzopyrenomycin, General Medicine, General Chemistry, Reference Standards, Ring (chemistry), Streptomyces, Catalysis, chemistry.chemical_compound, Polyketide, chemistry, Benzo(a)pyrene, Benzopyrenes, Cytotoxic T cell, Macrolides
Published
2008

25. Contents Vol. 21, 2011

Author

Yunxia Tian, Jaehoon Cho, Rocío Bustillos, Liping Lei, Yasuhiro Abiru, Ai-Zhi Ren, Cinthia Núñez, Yoshikazu Shimada, Xiao’e Xu, Diana V. Cortés-Espinosa, Claudia Velásquez, Joshua H. Chen, Refugio Rodríguez-Vázquez, Druck Reinhardt Druck Basel, Jean Guy LeBlanc, Xuemei Niu, Guadalupe Espín, Rabia Ladjouzi, Duo-Chuan Li, Diego H. Sauka, Krishnaveni Mohareer, Xiaowei Huang, Marcus Lívio Varella Coelho, Vincent Cattoir, Wei Hao Zheng, Fany Reffuveille, Joaquín Manzo, Jean-Christophe Giard, Lin Zhang, Zhenyuan Xia, Ke-Qin Zhang, Masayuki Takahashi, Florian Le Bras, Vanessa Bastos Pereira, Graciela Beatriz Benintende, Maksim A. Shlykov, Maria do Carmo de Freire Bastos, Vamsee S. Reddy, Miguel Castañeda, Yuri Solís, Ming Ren Yen, Noé Sanchez, Norihiro Miyazawa, Daniel Segura, Luis E. Fuentes, Shigeto Uchiyama, Verónica M. Martínez, Anderson Miyoshi, Yolanda Goiz, Haretsugu Hishigaki, Smanla Tundup, Alejandra de Moreno de LeBlanc, Vasco Azevedo, Tadaaki Ohtani, Octavio Loera, Seyed E. Hasnain, Tomás Tzontecomani, Angel E. Absalón, Milton H. Saier, Francois Lebreton, Hilana Ceotto, Bruna Gonçalves Coutinho, Qiuhong Niu, Roland Leclercq, Miguel Cocotl-Yañez, Gabriela Perdigón, Pei-Bao Zhao, Satz Mengensatzproduktion, Francisco J. Fernández, Silvina del Carmen, Liliana López, Jonathan S. Chen, and Juan I. Basile

Subjects
business.industry, Botany, Biology, business, Molecular Biology, Applied Microbiology and Biotechnology, Microbiology, Biotechnology
Published
2011

26. Overexpression of the key virulence proteases Bace16 and Bae16 in Bacillus nematocida B16 to improve its nematocidal activity

Author

Qiuhong, Niu, Yunxia, Tian, Lin, Zhang, Xiao'e, Xu, Xuemei, Niu, Zhenyuan, Xia, Liping, Lei, Ke-Qin, Zhang, and Xiaowei, Huang

Subjects
Rhabditida, Organisms, Genetically Modified, Virulence, Virulence Factors, Animals, Gene Expression, Bacillus, Gene Expression Regulation, Bacterial, Survival Analysis, Peptide Hydrolases
Abstract

Proteases Bace16 and Bae16, an alkaline serine protease and a neutral protease, respectively, in the nematocidal bacterium Bacillus nematocida B16, have been identified as two key virulence factors and shown to have remarkable nematotoxic activities against the free-living nematode Panagrellus redivius and the plant parasite nematode Bursaphelenchus xylophilus. To facilitate the successful biological control application of this organism in the field, we genetically altered the strain B. nematocida B16 and optimized its growth condition to overexpress these two pathogenic proteases. The recombinant integration vectors of pAX01-Bace16 and pAX01-Bae16 for overexpressing the two proteases were constructed and successfully transformed into competent cells of the bacterium B. nematocida B16. The optimal induction condition for overexpressing Bace16 is 2% xylose at 37°C for 48 h. Our analyses showed that the proteolytic activity and nematocidal activity of the strain overexpressing Bace16 increased by about 62 and 80%, respectively, over the wild-type strain. However, our tested induction conditions could not significantly improve either the proteolytic activity or the nematocidal activity of the Bae16 overexpression mutant.

Published
2012

27. Genomic and proteomic analyses of the fungus Arthrobotrys oligospora provide insights into nematode-trap formation

Author

Lu Feng, Shuqun Liu, Zefen Yu, Min Qiao, Yan Ren, Yun Feng, Juan Li, Kaifang Ji, Xinglai Ji, Liu Yajun, Qili Mi, Xuemei Niu, Haiyan Wang, Lianming Liang, Jianping Xu, Wei Zhou, Jinkui Yang, Xiaomin Li, Lei Li, Guo-Hong Li, Xiaowei Huang, Lei Wang, Chenggang Zou, Junli Wu, Ke-Qin Zhang, Yanlu Luo, and Yu Liu

Subjects
Proteomics, Nematoda, QH301-705.5, Immunology, Genomics, Biology, Microbiology, Genome, Ascomycota, Virology, Genetics, Gene family, Animals, Amino Acid Sequence, Biology (General), Molecular Biology, Gene, Fungal genetics, RC581-607, biology.organism_classification, Membrane biogenesis, Host-Pathogen Interactions, Parasitology, Immunologic diseases. Allergy, Genome, Fungal
Abstract

Nematode-trapping fungi are “carnivorous” and attack their hosts using specialized trapping devices. The morphological development of these traps is the key indicator of their switch from saprophytic to predacious lifestyles. Here, the genome of the nematode-trapping fungus Arthrobotrys oligospora Fres. (ATCC24927) was reported. The genome contains 40.07 Mb assembled sequence with 11,479 predicted genes. Comparative analysis showed that A. oligospora shared many more genes with pathogenic fungi than with non-pathogenic fungi. Specifically, compared to several sequenced ascomycete fungi, the A. oligospora genome has a larger number of pathogenicity-related genes in the subtilisin, cellulase, cellobiohydrolase, and pectinesterase gene families. Searching against the pathogen-host interaction gene database identified 398 homologous genes involved in pathogenicity in other fungi. The analysis of repetitive sequences provided evidence for repeat-induced point mutations in A. oligospora. Proteomic and quantitative PCR (qPCR) analyses revealed that 90 genes were significantly up-regulated at the early stage of trap-formation by nematode extracts and most of these genes were involved in translation, amino acid metabolism, carbohydrate metabolism, cell wall and membrane biogenesis. Based on the combined genomic, proteomic and qPCR data, a model for the formation of nematode trapping device in this fungus was proposed. In this model, multiple fungal signal transduction pathways are activated by its nematode prey to further regulate downstream genes associated with diverse cellular processes such as energy metabolism, biosynthesis of the cell wall and adhesive proteins, cell division, glycerol accumulation and peroxisome biogenesis. This study will facilitate the identification of pathogenicity-related genes and provide a broad foundation for understanding the molecular and evolutionary mechanisms underlying fungi-nematodes interactions.

Published
2010

29. Butyrolactone I derivatives from Aspergillus terreus carrying an unusual sulfate moiety

Author

Isabel Sattler, Olivier Lozach, Xuemei Niu, Klaus-Dieter Menzel, Hans-Martin Dahse, Laurent Meijer, Susanne Grabley, Grit Walther, Molécules et cibles thérapeutiques (MCT), Station biologique de Roscoff [Roscoff] (SBR), and Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Swine, Cyclin B, Pharmaceutical Science, 01 natural sciences, Analytical Chemistry, HeLa, chemistry.chemical_compound, Glycogen Synthase Kinase 3, Starfish, 4-Butyrolactone, Drug Discovery, Moiety, Aspergillus terreus, MESH: Animals, Cytotoxicity, MESH: Swine, MESH: Glycogen Synthase Kinase 3, chemistry.chemical_classification, biology, MESH: Starfish, Chemistry, Sulfates, MESH: Drug Screening Assays, Antitumor, Brain, Biological activity, Protein-Tyrosine Kinases, MESH: CDC2 Protein Kinase, Aspergillus, MESH: Aspergillus, Molecular Medicine, Lactone, MESH: Cyclin-Dependent Kinase 5, Stereochemistry, Antineoplastic Agents, Protein Serine-Threonine Kinases, MESH: Protein-Tyrosine Kinases, MESH: Protein-Serine-Threonine Kinases, MESH: Oocytes, MESH: Brain, CDC2 Protein Kinase, Animals, Humans, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Phenols, Pharmacology, MESH: Humans, 010405 organic chemistry, Organic Chemistry, Cyclin-Dependent Kinase 5, biology.organism_classification, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Complementary and alternative medicine, biology.protein, Oocytes, MESH: 4-Butyrolactone, MESH: Antineoplastic Agents, Drug Screening Assays, Antitumor, MESH: Sulfates
Abstract

In our ongoing search for new bioactive metabolites from microbial resources, Aspergillus terreus (HKI0499) was examined by chemical metabolite profiling. Together with the known butyrolactone I ( 3), the unusual sulfate derivatives butyrolactone I 3-sulfate ( 1) and butyrolactone I 4''-sulfate ( 2) were discovered. The chemical structures were determined by NMR and MS data analyses. All compounds were tested on CDK1/cyclin B, CDK5/p25, DYRK1A, CK1, and GSK-3alpha/beta kinases; compounds 2 and 3 were also evaluated for their cytotoxic and antiproliferative activities. Butyrolactone I 3-sulfate ( 1) exhibited specific inhibitory activity against CDK1/cyclin B and CDK5/p25, yet 15-30-fold less than butyrolactone I ( 3). Likewise, butyrolactone I 3-sulfate ( 1) exhibited moderate cytotoxicity solely against HeLa cells (CC 50 = 80.7 microM).

Published
2008

34. Overexpression of a cuticle-degrading protease Ver112 increases the nematicidal activity of Paecilomyces lilacinus.

Author

Jinkui Yang, Xuna Zhao, Lianming Liang, Zhenyuan Xia, Liping Lei, Xuemei Niu, Chenggang Zou, and Ke-Qin Zhang

Subjects
PROTEOLYTIC enzymes, CUTICLE, NEMATOCIDES, PAECILOMYCES, PROTEINS
Abstract

Due to their ability to degrade the proteins in nematode cuticle, serine proteases play an important role in the pathogenicity of nematophagous fungi against nematodes. The serine protease Ver112 was identified from the nematophagous fungus Lecanicillium psalliotae capable of degrading the nematode cuticle and killing nematodes effectively. In this study, the gene ver112 was introduced into the commercial biocontrol fungal agent Paecilomyces lilacinus by the restriction enzyme-mediated integration transformation. Compared to the wild strain, the transformant P. lilacinus 112 showed significantly greater protease activity, with nematicidal activities increased by 79% and 96% to Panagrellus redivivus and Caenorhabditis elegans at the second day, respectively. The crude protein extract isolated from the culture filtrate of P. lilacinus 112 also showed 20-25% higher nematicidal activity than that of the wild-type strain. Reverse transcription PCR results showed that the expression of gene ver112 in P. lilacinus 112 was correlated to protease activity of the culture filtrate. Our results demonstrated the first successful transfer of a virulence gene from one nematophagous fungus to another nematophagous fungus, and improved the pathogenicity of the recipient fungus against pest nematodes. [ABSTRACT FROM AUTHOR]

Published
2011
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35. A Trojan horse mechanism of bacterial pathogenesis against nematodes.

Author

Niu, Qiuhong, Xiaowei Huang, Lin Zhang, Jianping Xu, Dongmei Yang, Kangbi Wei, Xuemei Niu, Zhiqiang An, Bennett, Joan Wennstrom, Chenggang Zou, Jinkui Yang, and Ke-Qin Zhang

Subjects
HOST-parasite relationships, CAENORHABDITIS elegans, BACILLUS (Bacteria), VOLATILE organic compounds, PROTEOLYTIC enzymes, NEMATODES
Abstract

Understanding the mechanisms of host-pathogen interaction can provide crucial information for successfully manipulating their relationships. Because of its genetic background and practical advantages over vertebrate model systems, the nematode Caenorhabditis elegans model has become an attractive host for studying microbial pathogenesis. Here we report a "Trojan horse" mechanism of bacterial pathogenesis against nematodes. We show that the bacterium Bacillus nematocida B16 lures nematodes by emitting potent volatile organic compounds that are much more attractive to worms than those from ordinary dietary bacteria. Seventeen B. nematocidaattractant volatile organic compounds are identified, and seven are individually confirmed to lure nematodes. Once the bacteria enter the intestine of nematodes, they secrete two proteases with broad substrate ranges but preferentially target essential intestinal proteins, leading to nematode death. This Trojan horse pattern of bacterium-nematode interaction enriches our understanding of microbial pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2010
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37. Engineering of Glarea lozoyensis for Exclusive Production of the Pneumocandin B0 Precursor of the Antifungal Drug Caspofungin Acetate.

Author

Li Chen, Qun Yue, Yan Li, Xuemei Niu, Meichun Xiang, Wenzhao Wang, Bills, Gerald F., Xingzhong Liu, and Zhiqiang An

Subjects
*ECHINOCANDINS, *ANTIFUNGAL agents, *HEXAPEPTIDES, *MICROBIOLOGY, *BIOENGINEERING
Abstract

Pneumocandins produced by the fungus Glarea lozoyensis are acylated cyclic hexapeptides of the echinocandin family. Pneumocandin B0 is the starting molecule for the first semisynthetic echinocandin antifungal drug, caspofungin acetate. In the wild-type strain, pneumocandin B0 is a minor fermentation product, and its industrial production was achieved by a combination of extensive mutation and medium optimization. The pneumocandin biosynthetic gene cluster was previously elucidated by a wholegenome sequencing approach. Knowledge of the biosynthetic cluster suggested an alternative way to produce exclusively pneumocandin B0. Disruption of GLOXY4, encoding a nonheme, α-ketoglutarate-dependent oxygenase, confirmed its involvement in L-leucine cyclization to form 4S-methyl-L-proline. The absence of 4S-methyl-L-proline abolishes pneumocandin A0 production, and 3S-hydroxyl-L-proline occupies the hexapeptide core's position 6, resulting in exclusive production of pneumocandin B0. Retrospective analysis of the GLOXY4 gene in a previously isolated pneumocandin B0-exclusive mutant (ATCC 74030) indicated that chemical mutagenesis disrupted the GLOXY4 gene function by introducing two amino acid mutations in GLOXY4. This one-step genetic manipulation can rationally engineer a high-yield production strain. [ABSTRACT FROM AUTHOR]

Published
2015
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