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5. Effects of secondary reaction of primary volatiles on oil/gas yield and quality in oil shale pyrolysis

Author

Yu-ming Zhang, Pei Qiao, Jun-tao Guan, Jia-zhou Li, and Wei Zhang

Subjects
business.industry, Fossil fuel, complex mixtures, law.invention, chemistry.chemical_compound, Diesel fuel, Chemical engineering, chemistry, law, Yield (chemistry), Pyrolysis oil, Gasoline, business, Distillation, Pyrolysis, Oil shale
Abstract

The reaction behaviors of primary volatiles from oil shale pyrolysis were investigated using a two-stage reactor under different in-situ thermal reaction conditions. The reaction parameters of secondary reactor, such as, reactor temperature, atmosphere and residence time, were studied for their effects on the pyrolysis oil/gas yield and quality. The results showed that the reaction temperature had profound influence on the oil and gas yield. The pyrolyzed shale oil and gas yield reduced by 15% and increased by 20% (mass) respectively, with the temperature of 2nd stage reactor increasing from 600 to 650°C under optimized reaction condition of 1st stage. Comparing with nitrogen atmosphere, the liquid oil yield could be enhanced by 5% when steam was added as the reaction atmosphere in the second stage, and the corresponding oil was mainly concentrated in the gasoline and diesel distillations (that is, boiling point

Published
2021

7. Promotion of feather waste recycling by enhancing the reducing power and keratinase activity of Streptomyces sp. SCUT-3

Author

Jia-Zhou Li, Xiao-Chun Luo, Liang Shuang, Ming-Shu Zhang, Mao Hehua, Jun-Jin Deng, Zi-Yang Luo, Wen-Jun Lu, De-Lin Lu, and Zhi-Wei Li

Subjects
0301 basic medicine, animal structures, Bioconversion, medicine.medical_treatment, 01 natural sciences, Streptomyces, 03 medical and health sciences, chemistry.chemical_compound, Sulfite, medicine, Environmental Chemistry, Food science, Protease, biology, 010405 organic chemistry, Chemistry, biology.organism_classification, Pollution, 0104 chemical sciences, 030104 developmental biology, Keratinase, Feather, visual_art, visual_art.visual_art_medium, biology.protein, Fermentation, Bacteria
Abstract

As a potential renewable and nitrogen-rich resource, millions of tons of feather waste are generated from poultry farming and this has been steadily increasing. Bioconversion is the most promising low-cost and environmentally benign recycling method, while the efficiency of the isolated natural feather degrading bacteria (FDB) cannot satisfy the requirements of industrial utilization. The process of bacterial degradation of feathers not only requires proteases but also involves complex reduction mechanisms that have not yet been revealed. Previous heterologous expression of keratinase genes in non-FDB hosts achieved only very limited success. In this study, the mechanism of sulfite production via cysteine dioxygenase (CDO1) oxidation was first identified in Streptomyces sp. SCUT-3, which is important for feather disulfide bond reduction. The knockdown of cdo1 significantly decreased the sulfite production (from 38.5 to 22.5 mg L−1) and feather degradation rate (from 45.7% to 39.5%) of SCUT-3 in 5% chicken feather medium (CFM) culture. The overexpression of cdo1 increased bacterial single-cell sulfite production and feather protein conversion efficiency by 3.8 and 2.5 fold, respectively, on day 2 in 5% CFM. On this basis, a new strategy is proposed for increasing feather degradation efficiency by enhancing the reducing power and keratinase activity of FDB according to their own feather degradation mechanism. Thus, the co-overexpression of CDO1 and protease Sep39 successfully increased SCUT-3's feather protein conversion efficiency (42.5% higher than the wild-type) on day 2 in 5% CFM culture. With the co-overexpression strain SCUT-Ocdo1-sep39, 57.5% of proteins in feathers were converted to soluble peptides and free amino acids (0.20 g and 0.29 g g−1 feather, respectively) by solid-state fermentation in 6 d, which was 28.6% higher than that obtained for wild-type SCUT-3. The method developed herein exhibits a much higher economic benefit and a lower ecological footprint than previously reported feather-processing methods and is powerful for industrial recycling of feather waste. This study also elucidates FDB's disulfide bond mechanism and provides a reference for further genetic modification of FDB.

Published
2021

8. Recombinant neutral protease rNpI as fish feed additive to improve protein digestion and growth

Author

Jia-Zhou Li, Zhong‐Qiu Li, Jun-Jin Deng, Min Zhao, Shun Xu, Xiao-Chun Luo, De-Lin Lu, Dan Shi, and Zi-Juan You

Subjects
0303 health sciences, Proteases, Rapeseed, Protease, Protein digestion, medicine.medical_treatment, 04 agricultural and veterinary sciences, Aquatic Science, Biology, Commercial fish feed, 03 medical and health sciences, Papain, chemistry.chemical_compound, chemistry, Plant protein, 040102 fisheries, medicine, 0401 agriculture, forestry, and fisheries, Food science, Digestion, 030304 developmental biology
Abstract

The addition of heavy protein to aquafeed causes low digestibility, high cost and significant nitrogen pollution in the water. The addition of protease is an effective way of improving protein absorption, but few proteases have been developed specifically for aquafeeds. The hydrolysis efficiency of protease additives for plant protein in the neutral gut environment and their synergy with endogenous proteases has not been sufficiently investigated. In this study, the performance of the recombinant neutral protease rNpI as an aquafeed additive to reduce the raw protein materials in the diet of Carassius carassius during 56 days of growth was evaluated. rNpI effectively hydrolysed soya bean protein isolates (SPI) with a high degree of hydrolysation and a high small‐peptide yield. The rNpI‐treated SPI exhibited a notable antioxidant activity, which benefited fish health. In vitro digestibility indicated that rNpI complemented trypsin in SPI digestion better than papain or Alcalase. The growth trial showed that the addition of rNpI could warrant a reduction in the crude protein and gross energy of feed while producing a lower feed‐conversion rate (FCR) and better growth performance. Crucian that were fed an RM‐wheat‐E diet (5.5% rapeseed meal and 5% wheat reduction) showed the best performance, with the lowest FCR and highest weight gain. These results indicate that rNpI could be an effective additive for the aquafeed industry and could provide economic benefits by reducing aquafeed protein requirements and nitrogen emissions. This study provides novel information and strategies for additive protease use and development in aquafeed.

Published
2020

9. Distribution of Mpeg1+ cells in healthy grouper (Epinephelus coioides) and after Cryptocaryon irritans infection

Author

Jia-Zhou Li, Yan-Wei Li, Rui Han, An-Xing Li, Lu-Yun Ni, Hong-Ping Chen, Xue-Ming Dan, and Xiao-Chun Luo

Subjects
0301 basic medicine, Head Kidney, biology, Cryptocaryon, medicine.diagnostic_test, Spleen, 04 agricultural and veterinary sciences, General Medicine, Aquatic Science, biology.organism_classification, Immunofluorescence, Microbiology, 03 medical and health sciences, 030104 developmental biology, Immune system, medicine.anatomical_structure, Polyclonal antibodies, 040102 fisheries, medicine, biology.protein, 0401 agriculture, forestry, and fisheries, Environmental Chemistry, Macrophage, Grouper
Abstract

Cryptocaryon irritans is an extremely harmful ciliated obligate parasite that is responsible for large economic losses in aquaculture. C. irritans infection can cause an insect-resistant immune response in fish, and many immune cells can be observed in the local infection site. However, it is unclear whether macrophages are involved in the host defense against C. irritans infection. The Mpeg1 protein can form pores and destroy the cell membrane of invading pathogens, and is also used as a macrophage-specific marker in mammals. Therefore, a polyclonal antibody against grouper recombinant Mpeg1a was produced to mark macrophages in this study, which could recognize both isoforms of Mpeg1 (Mpeg1a/b). Immunofluorescence revealed that EcMpeg1 positive cells were mostly distributed in the head kidney and spleen in healthy grouper. Immunofluorescence and immunohistochemistry showed that the number of EcMpeg1 positive cells increased in the gills after infection with C. irritans, implying that EcMpeg1 positive cells may be involved in the process of grouper resistance against C. irritans infection.

Published
2020

10. One-step processing of shrimp shell waste with a chitinase fused to a carbohydrate-binding module

Author

Jun-Jin Deng, Ming-Jun Zhu, Zhi-Wei Li, Jia-Zhou Li, Xiao-Chun Luo, Ming-Shu Zhang, He-Hua Mao, and De-Lin Lu

Subjects
0303 health sciences, biology, 010405 organic chemistry, Chemistry, Bioconversion, fungi, 01 natural sciences, Pollution, Hydrolysate, 0104 chemical sciences, Shrimp, 03 medical and health sciences, Hydrolysis, chemistry.chemical_compound, Chitin, Enzymatic hydrolysis, Chitinase, biology.protein, Environmental Chemistry, Carbohydrate-binding module, Food science, 030304 developmental biology
Abstract

As a potential renewable and nitrogen-rich feedstock, tons of shrimp shell waste is generated from the increasing consumption of seafood. However, its traditional processing is costly and creates pollution. The bioconversion of shell waste into valuable nitrogen-containing chemicals via enzymatic hydrolysis is a promising technology. However, intact shells are poorly hydrolyzed by chitinases unless pre-demineralization and deproteinization with chemicals or proteases are performed. In this study, three carbohydrate-binding modules (CBMs) were fused to the C-terminal of a chitinase Chit46 to enhance its hydrolysis of shrimp shell waste. The addition of CBMs significantly improved the chitinase activity and substrate-binding activity of Chit46. Chimeric chitinases could directly hydrolyze shrimp shells without pretreatment and their hydrolysis efficiency was much higher than that of previously reported chitinases. With the modified chitinase (‘Chit46-CBM3’), we developed a one-step shrimp shell processing method. The method could convert 46.5% of chitin in shrimp shells to chitin oligomers by hydrolysis in 12 h. Partial protein release accompanied chitin hydrolysis. Consisting of 8.8 g l−1 chitin oligomers and 11.3 g l−1 protein, the hydrolysate could support robust microbial growth and the residue was more digestible by mammals than conventional shrimp shell powder. This process is superior to previously reported methods in cost, conversion efficiency and labour. The one-step process also exhibited a much lower ecological footprint than conventional processing and can be applied to other types of chitinous waste in addition to shrimp shells.

Published
2020

11. Indole metabolism mechanisms in a new, efficient indole-degrading facultative anaerobe isolate Enterococcus hirae GDIAS-5

Author

Jun-Jin Deng, Dun Deng, Zhi-Lin Wang, Xiao-Chun Luo, Hong-Ping Chen, Shu-Yang Liu, Xian-Yong Ma, and Jia-Zhou Li

Subjects
Isatin, Enterococcus hirae, Indoles, Environmental Engineering, Bacteria, Health, Toxicology and Mutagenesis, Catechols, Environmental Chemistry, Ferric Compounds, Pollution, Waste Management and Disposal, Oxindoles
Abstract

Indole is an inter-species and inter-kingdom signaling molecule widespread in the natural world. A large amount of indole in livestock wastes makes it difficult to be degraded, which causes serious malodor. Identifying efficient and eco-friendly ways to eliminate it is an urgent task for the sustainable development of husbandry. While bioconversion is a widely accepted means, the mechanism of indole microbial degradation is little understood, especially under anaerobic conditions. Herein, a new Enterococcus hirae isolate GDIAS-5, effectively degraded 100 mg/L indole within 28 h aerobically or 5 days anaerobically. Three intermediates (oxindole, isatin, and catechol) were identified in indole degradation, and catechol was further degraded by a meta-cleavage catabolic pathway. Two important processes for GDIAS-5 indole utilization were discovered. One is Fe(III) uptake and reduction, which may be a critical process that is coupled with indole oxidation, and the other is the entire pathway directly involved in indole oxidation and metabolism. Furthermore, monooxygenase ycnE responsible for indole oxidation via the indole-oxindole-isatin pathway was identified for the first time. Bioinformatic analyses showed that ycnE from E. hirae formed a phylogenetically separate branch from monooxygenases of other species. These findings provide new targets and strategies for synthetic biological reconstruction of indole-degrading bacteria.

Published
2022

12. Marinobacter shengliensis subsp. alexandrii Subsp. Nov., Isolated from Cultivable Phycosphere Microbiota of Highly Toxic Dinoflagellate Alexandrium catenella LZT09 and Description of Marinobacter shengliensis Subsp. shengliensis Subsp. Nov

Author

Jia-Zhou Li, Nurhezreen Md Iqbal, Shen-Quan Liao, Rong Xiang, Xi Yang, Lin-Zeng Yu, Qiao Yang, Xiao-Ai Zhang, Chun-Tian Zheng, Lei Wang, Ming-Fei Sun, and Yu-Han Duan

Subjects
DNA, Bacterial, Alexandrium catenella, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, Phylogenetics, RNA, Ribosomal, 16S, Marinobacter, medicine, Paralytic shellfish poisoning, Phylogeny, 030304 developmental biology, 0303 health sciences, Base Composition, biology, 030306 microbiology, Microbiota, Fatty Acids, Dinoflagellate, Nucleic Acid Hybridization, General Medicine, Sequence Analysis, DNA, Ribosomal RNA, biology.organism_classification, 16S ribosomal RNA, medicine.disease, Bacterial Typing Techniques, Dinoflagellida, Marinobacter shengliensis
Abstract

Phycosphere hosts the boundary of unique holobionts harboring dynamic algae-bacteria interactions. During our investigating the microbial consortia composition of phycosphere microbiota (PM) derived from diverse harmful algal blooms (HAB) dinoflagellates, a novel rod-shaped, motile and faint yellow-pigmented bacterium, designated as strain LZ-6 T, was isolated from HAB Alexandrium catenella LZT09 which produces high levels paralytic shellfish poisoning toxins. Phylogenetic analysis based on 16S rRNA gene and two housekeeping genes, rpoA and pheS sequences showed that the novel isolate shared the highest gene similarity with Marinobacter shengliensis CGMCC 1.12758 T (99.6%) with the similarity values of 99.6%, 99.9% and 98.5%, respectively. Further phylogenomic calculations of average nucleotide identity (ANI), average amino acid identity (AAI) and digital DNA-DNA hybridization (dDDH) values between strains LZ-6 T and the type strain of M. shengliensis were 95.9%, 96.4% and 68.5%, respectively. However, combined phenotypic and chemotaxonomic characterizations revealed that the new isolate was obviously different from the type strain of M. shengliensis. The obtained taxonomic evidences supported that strain LZ-6 T represents a novel subspecies of M. shengliensis, for which the name is proposed, Marinobacter shengliensis subsp. alexandrii subsp. nov. with the type strain LZ-6 T (= CCTCC AB 2018388TT = KCTC 72197 T). This proposal automatically creates Marinobacter shengliensis subsp. shengliensis for which the type strain is SL013A34A2T (= LMG 27740 T = CGMCC 1.12758 T).

Published
2020

13. Role of major histocompatibility complex II antigen-presentation pathway genes in orange-spotted grouper infected with Cryptocaryon irritans

Author

Jia-Zhou Li, Dong-Dong Xu, Ze-Quan Mo, Xiao-Chun Luo, Jun-Jin Deng, Xue-Ming Dan, Shun Xu, and Yan-Wei Li

Subjects
0301 basic medicine, Fish Proteins, Orange-spotted grouper, Veterinary (miscellaneous), Antigen presentation, chemical and pharmacologic phenomena, Spleen, Antigens, Protozoan, Ciliophora Infections, Aquatic Science, Major histocompatibility complex, Microbiology, Major Histocompatibility Complex, 03 medical and health sciences, Fish Diseases, Immune system, Antigen, medicine, Animals, Grouper, Immunity, Mucosal, Hymenostomatida, biology, 04 agricultural and veterinary sciences, biology.organism_classification, Acquired immune system, Immunity, Humoral, 030104 developmental biology, medicine.anatomical_structure, Gene Expression Regulation, 040102 fisheries, biology.protein, 0401 agriculture, forestry, and fisheries, Bass
Abstract

Cryptocaryon irritans, a pathogen model for fish mucosal immunity, causes skin mucosal and systematic humoral immune response. Where and how MHC II antigen presentation occurs in fish infected with C. irritans remain unknown. In this study, the full-length cDNA of the grouper cysteine protease CTSS was cloned. The expression distributions of six genes (CTSB, CTSL, CTSS, GILT, MHC IIA and MHC IIB) involved in MHC II antigen presentation pathway were tested. These genes were highly expressed in systematic immune tissues and skin and gill mucosal-associated immune tissues. All six genes were upregulated in skin at most time points. Five genes expected CTSS was upregulated in spleen at most time points. CTSB, CTSL and MHC IIA were upregulated in the gill and head kidney at some time points. These results indicate that the presentation of MHC II antigen intensively occurred in local infected skin and gill. Spleen, not head kidney, had the most extensive systematic antigen presentation. In skin, six genes most likely peaked at day 2, earlier than in spleen (5-7 days), marking an earlier skin antibody peak than any recorded in serum previously. This significant and earlier mucosal antigen presentation indicates that specific immune response occurs in local mucosal tissues.

Published
2020

14. Distribution of Mpeg1

Author

Lu-Yun, Ni, Hong-Ping, Chen, Rui, Han, Xiao-Chun, Luo, An-Xing, Li, Jia-Zhou, Li, Xue-Ming, Dan, and Yan-Wei, Li

Subjects
Fish Proteins, Gills, Fish Diseases, Macrophages, Animals, Membrane Proteins, Ciliophora Infections, Ciliophora, Disease Resistance, Perciformes
Abstract

Cryptocaryon irritans is an extremely harmful ciliated obligate parasite that is responsible for large economic losses in aquaculture. C. irritans infection can cause an insect-resistant immune response in fish, and many immune cells can be observed in the local infection site. However, it is unclear whether macrophages are involved in the host defense against C. irritans infection. The Mpeg1 protein can form pores and destroy the cell membrane of invading pathogens, and is also used as a macrophage-specific marker in mammals. Therefore, a polyclonal antibody against grouper recombinant Mpeg1a was produced to mark macrophages in this study, which could recognize both isoforms of Mpeg1 (Mpeg1a/b). Immunofluorescence revealed that EcMpeg1 positive cells were mostly distributed in the head kidney and spleen in healthy grouper. Immunofluorescence and immunohistochemistry showed that the number of EcMpeg1 positive cells increased in the gills after infection with C. irritans, implying that EcMpeg1 positive cells may be involved in the process of grouper resistance against C. irritans infection.

Published
2020

15. The feather degradation mechanisms of a new Streptomyces sp. isolate SCUT-3

Author

Ming-Shu Zhang, Jun-Jin Deng, Jia-Zhou Li, Liang Shuang, Zhi-Wei Li, De-Lin Lu, Xiao-Chun Luo, and Ye Ke

Subjects
animal structures, Bioconversion, Microorganism, medicine.medical_treatment, Medicine (miscellaneous), Streptomyces, General Biochemistry, Genetics and Molecular Biology, Article, Substrate Specificity, Avian Proteins, Applied microbiology, 03 medical and health sciences, Bacterial Proteins, medicine, Animals, Food science, lcsh:QH301-705.5, 030304 developmental biology, Waste Products, 0303 health sciences, Protease, biology, 030306 microbiology, food and beverages, Feathers, beta-Keratins, biology.organism_classification, Biodegradation, Environmental, Keratinase, lcsh:Biology (General), Feather, visual_art, Proteolysis, visual_art.visual_art_medium, biology.protein, Biocatalysis, Fermentation, General Agricultural and Biological Sciences, Bacteria, Peptide Hydrolases
Abstract

Feather waste is the highest protein-containing resource in nature and is poorly reused. Bioconversion is widely accepted as a low-cost and environmentally benign process, but limited by the availability of safe and highly efficient feather degrading bacteria (FDB) for its industrial-scale fermentation. Excessive focuses on keratinase and limited knowledge of other factors have hindered complete understanding of the mechanisms employed by FDB to utilize feathers and feather cycling in the biosphere. Streptomyces sp. SCUT-3 can efficiently degrade feather to products with high amino acid content, useful as a nutrition source for animals, plants and microorganisms. Using multiple omics and other techniques, we reveal how SCUT-3 turns on its feather utilization machinery, including its colonization, reducing agent and protease secretion, peptide/amino acid importation and metabolism, oxygen consumption and iron uptake, spore formation and resuscitation, and so on. This study would shed light on the feather utilization mechanisms of FDBs., Li et a. report a new Streptromyces isolate, SCUT-3 which can efficiently degrade feather into products with high amino acid content, useful as feed for plants, animals and microbes. Using multiple omics and other techniques, they report how SCUT-3 turns on its feather utilization machinery and suggest a number of expressed genes most likely implicated in feather degradation.

Published
2019

16. Effects of antimicrobial peptides on serum biochemical parameters, antioxidant activity and non-specific immune responses in Epinephelus coioides

Author

Yan-Wei Li, Jia-Zhou Li, Youhua Huang, Gang Wang, Liang-Shi Chen, Jia-Yang He, Guo Chen, Qiwei Qin, Muting Yan, Hongyan Sun, Yu-Ling Su, Xue-Ming Dan, and Tian-Yong Zhan

Subjects
0301 basic medicine, Antioxidant, Lipopolysaccharide, medicine.medical_treatment, Antimicrobial peptides, Aquatic Science, Antioxidants, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, Immune system, medicine, Environmental Chemistry, Animals, biology, Albumin, 04 agricultural and veterinary sciences, General Medicine, Antimicrobial, Animal Feed, Immunity, Innate, Diet, 030104 developmental biology, chemistry, Biochemistry, 040102 fisheries, biology.protein, 0401 agriculture, forestry, and fisheries, Bass, Lysozyme, Blood Chemical Analysis, Antimicrobial Cationic Peptides, Bacillus subtilis
Abstract

Antimicrobial peptides (AMPs) are small proteins showing broad-spectrum antimicrobial activity that have been known to be powerful agents against a variety of pathogens (bacteria, fungi and viruses). In this study, the effects of AMPs from Bacillus subtilis on Epinephelus coioides were examined. E. coioides were fed with diets containing AMPs (0, 100, 200, 400 or 800 mg/kg) for four weeks. Results showed that the levels of total protein (TP), albumin (ALB), alanine aminotransferase (ALT), aspartate aminotransferase (AST), high-density lipoprotein cholesterol (HDL-C), low-density lipoprotein cholesterol (LDL-C) and blood glucose (GLU) and lipopolysaccharide (LPS) in the serum of E. coioides changed than those of the control group; compared to the control group, the levels of total antioxidant capacity (T-AOC), superoxide dismutase (SOD), catalase (CAT), malondialdehyde (MDA) and lysozyme (LZM) levels in E. coioides fed with different dosages AMP diets were also different; in addition, the mRNA expression of tumor necrosis factor alpha (TNF-α), interleukin-1-beta (IL-1β), and heat shock protein 90 (Hsp90) in the tissues of E. coioides were measured, the three genes in the tissues examined were significantly upregulated. The results demonstrated that diets containing AMPs can enhance the antioxidant capacity and innate immune ability of E. coioides, indicating that AMPs might be a potential alternative to antibiotics in E. coioides.

Published
2018

17. Development and Prospect of Genetically Engineered Pharmaceutics

Author

Ya Qiong Huang, Shi Hua Zhao, Shi Yuan Zeng, Jia Zhou Li, Xu Jian Chen, De Shun Shi, Gui Wen Ruan, and Kenneth L. White

Subjects
Engineering, Genetically engineered, business.industry, General Engineering, Pharmaceutics, Nanotechnology, Computational biology, Health outcomes, business, Human being, Genetic therapy, DNA shuffling
Abstract

With the rapid development of modern biology and technology, Genetically Engineered Pharmaceutics has become the most important field in modern medicinal industry. Currently, we have taken concern that the Genetically Engineered Pharmaceutics has been a subject of research. As advanced genetically engineered technology, genetic therapy, the point mutation techniques, DNA shuffling, RNA interference (RNAi) technology, the bioinformatics for genome and proteome analyses, the high throughput screening technology, etc. can be applied in the treatment of cancer, and other targeted therapies. A great deal of advanced technologies accelerates the development of genetically engineered pharmaceutics, and plays a key role in genetically engineered pharmaceutics. With the advances in genetically engineered pharmaceutics, we look forward to finding more new drugs, such as the high-value peptides, small functional molecular groups, proteins, especially antibodies, vaccines, enzymes, and therapeutic peptides. These developments continue to secure greater health outcomes of human being at all aspects in the long run. In this article, the development and prospect of Genetically Engineered Pharmaceutics are reviewed, and furthermore, the potential development and huge prospects are also presented.

Published
2013

18. Culture Conditions affect the Category and Production of Ubiquinones in a Recombinant Escherichia Coli with an Exogenous Decaprenyl Diphosphate Synthase

Author

Yuanyuan Zhang, Mingquan Xie, Jia-zhou Li, and Xiao-Chun Luo

Subjects
chemistry.chemical_classification, Recombinant escherichia coli, food.ingredient, Food additive, Transporter, General Chemistry, Biology, biology.organism_classification, Industrial and Manufacturing Engineering, Enzyme, food, Biochemistry, chemistry, Side chain, Gene, Decaprenyl diphosphate synthase, Bacteria, Food Science
Abstract

Ubiquinones (UQ) are important electron transporters and play lot of important roles in most organisms. In different species, UQ was classified to be UQ-6, 7, 8, 9, 10 according to their polyprenyl side chain length. The side chain's length is determined by the enzyme named Poly-Prenyl diphosphate synthases (PPPS). Bacteria are usually reconstructed to producing UQ-10 used in human's food additive, medicine or cosmetics, such as using decaprenyl Diphosphate Synthase (DPS) gene from R. radiobacter to substitute E.coli's octaprenyl diphosphate synthase gene , just like E. coli BL21 (�� ispB::ddsA) used in this study. It is interesting that not only in these reconstructed bacteria, but in human-being, DPS can synthesize UQ-9 besides UQ-10. The mechanism of this phenomenon is still unknown. In this study, the effects of culture conditions, including the temperature, dissolved oxygen, pH and culture medium, on the DPS characteristics in E. coli BL21 (�� ispB::ddsA) were examined. Results show that temperature greatly affects the ratio of UQ-9/UQ-10, but not the total ubiquinone's production. Increasing dissolved oxygen and protein concentration in culture medium can promote total ubiquinone's production, but not the ratio of UQ-9/UQ-10. These results may give reference for UQ-10's industrial produce and the mechanism of these conditions' effect on DPS will be discussed.

Published
2013

19. Enzymatic Characteristics of a Recombinant Neutral Protease I (rNpI) from Aspergillus oryzae Expressed in Pichia pastoris

Author

Xiao-Chun Luo, Ye Ke, Mingquan Xie, Jia-zhou Li, and Wei-Qian Huang

Subjects
Hydrolyzed protein, Arachis, Aspergillus oryzae, Molecular Sequence Data, Peptide, Pichia, Substrate Specificity, Pichia pastoris, Fungal Proteins, chemistry.chemical_compound, Hydrolysis, Insulin, Cloning, Molecular, chemistry.chemical_classification, Base Sequence, biology, Temperature, Metalloendopeptidases, General Chemistry, Hydrogen-Ion Concentration, biology.organism_classification, Recombinant Proteins, Amino acid, Papain, Enzyme, Gene Expression Regulation, chemistry, Biochemistry, Mutagenesis, Site-Directed, Soybean Proteins, General Agricultural and Biological Sciences, Oxidation-Reduction
Abstract

A truncated neutral protease I (NpI) from Aspergillus oryzae 3.042 was expressed in Pichia pastoris with a high enzyme yield of 43101 U/mL. Its optimum pH was about 8.0, and it was stable in the pH range of 5.0-9.0. Its optimum temperature was about 55 °C and retained90% activity at 50 °C for 120 min. Recombinant NpI (rNpI) was inhibited by Cu(2+) and EDTA. Eight cleavage sites of rNpI in oxidized insulin B-chain were determined by mass spectrometry, and five of them had high hydrophobic amino acid affinity, which makes it efficient in producing antihypertensive peptide IPP from β-casein and a potential debittering agent. The high degree of hydrolysis (DH) of rNpI to soybean protein (8.8%) and peanut protein (11.1%) compared to papain and alcalase makes it a good candidate in the processing of oil industry byproducts. The mutagenesis of H(429), H(433), and E(453) in the deduced zinc-binding motif confirmed rNpI as a gluzincin. All of these results show the great potential of rNpI to be used in the protein hydrolysis industry.

Published
2012

20. The Structure and Enzyme Characteristics of a Recombinant Leucine Aminopeptidase rLap1 from Aspergillus sojae and Its Application in Debittering

Author

Jia-zhou Li, Xiao-Chun Luo, Zhi-Zhong Meng, Wei-Qian Huang, Li-Fen Zhong, and Zi-Juan You

Subjects
Models, Molecular, Genetic Vectors, Molecular Sequence Data, Bioengineering, Biology, Aspergillus sojae, Applied Microbiology and Biotechnology, Biochemistry, Aminopeptidase, Hydrolysate, Pichia pastoris, Substrate Specificity, Leucyl Aminopeptidase, Casein, Enzyme Stability, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, chemistry.chemical_classification, Hydrolysis, Temperature, Substrate (chemistry), General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Recombinant Proteins, Amino acid, Aspergillus, chemistry, Structural Homology, Protein, Taste, Electrophoresis, Polyacrylamide Gel, Leucine, Hydrophobic and Hydrophilic Interactions, Sequence Alignment, Biotechnology
Abstract

A leucine aminopeptidase Lap1 was cloned from Aspergillus sojae GIM3.30. The truncated Lap1 without a signal peptide was over-expressed in P. pastoris, and the enzymatic characteristics of recombinant Lap1 (rLap1) were tested. The rLap1 was about 36.7 kDa with an optimal pH 8.0 and optimal temperature 50 °C for substrate Leu-p-nitroanilide and it sustained 50 % activity after 1 h incubation at 50 °C. The activity of rLap1 was significantly inhibited by EDTA, whereas Co(2+), Mn(2+), and Ca(2+) ions, but not Zn(2+) ions, restored its activity. rLap1 showed the highest activity against Arg-pNA and then Leu-, Lys-, Met-, and Phe-pNA. The 3D structure of rLap1 showed it had a conserved functional charge/dipole complex and a hydrogen bond network of Zn2-D179-S228-Q177-D229-S158 around its active center. An acidic Asp residue was found at the bottom of the substrate binding pocket, which explains its preference for basic N-terminal amino acid substrates such as Arg and Lys. rLap1 improved the degree of hydrolysis of casein and soy protein hydrolysates and also decreased their bitterness, indicating its potential utility in food production.

Published
2015

21. Frequency-multiplying optoelectronic oscillator with a tunable frequency multiplication technique

Author

Liao Jun, Tian-long Yang, Chang Chen, Cheng-xin Li, Gan Xiaqing, Wei Wang, Chen Tailong, Jia-zhou Li, and Xin Kang

Subjects
Optical fiber, Materials science, business.industry, Optoelectronic oscillator, General Engineering, 02 engineering and technology, Atomic and Molecular Physics, and Optics, law.invention, 020210 optoelectronics & photonics, Optics, Band-pass filter, law, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Multiplication, business, Linear filter
Published
2016

22. [Study on chemical constituents of tress of Toona ciliata]

Author

Jia-Zhou, Li, Hua-Nong, Mo, and Xian-Mao, Ning

Subjects
Plant Leaves, Plants, Medicinal, Molecular Structure, Plant Extracts, Palmitic Acid, Stigmasterol, Meliaceae, Sitosterols
Abstract

To study the chemical constituents of the tress of Toona ciliata.The compounds were isolated by many kinds of chromatography methods and identified on the basis of physico-chemical characters and spectroscopic analysis.Seven compounds were obtained from the petrol and chloroform extracts of the tress of Toona ciliata, and their structures were identified as 3-Acetoxy-17-furan-3-yl-1-hydroxy-1, 4, 4, 10, 13-pentamethyl-12-oxo-tetradecahydro-16, 20-dioxa-cyclopropa [14, 15] cyclopenta [alpha] phenanthrene-7-carboxylic acid methyl ester (I), beta-sitosterol (II), stigmasterol (III), n-C35H72 (IV), palmitinic acid (V), n-C20H42 (VI), 3-(3-Propyl-[1,1',3',1"]tercyclohexan-3"-yl)-propan-1-ol (VII).Compounds I, IV, VI, VII are isolated from this plant for the first time and compound I is a new compound.

Published
2010

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