Your search keyword '"Ren CG"' showing total 43 results

1. Metabolomics reveals changes in metabolite concentrations and correlations during sexual development of Eurotium cristatum (synonym: Aspergillus cristatus)

Author

Ren, CG, primary

Published

2017

2. TRAIL and Celastrol Combinational Treatment Suppresses Proliferation, Migration, and Invasion of Human Glioblastoma Cells via Targeting Wnt/β-catenin Signaling Pathway.

Author

Qin JJ, Niu MD, Cha Z, Geng QH, Li YL, Ren CG, Molloy DP, and Yu HR

Subjects

Humans, beta Catenin metabolism, Glycogen Synthase Kinase 3 beta metabolism, Ligands, Cell Line, Tumor, Apoptosis, Tumor Necrosis Factors pharmacology, Cell Proliferation, Cell Movement, Epithelial-Mesenchymal Transition, Wnt Signaling Pathway, Glioblastoma drug therapy, Glioblastoma pathology, Pentacyclic Triterpenes

Abstract

Objective: To investigate the mechanistic basis for the anti-proliferation and anti-invasion effect of tumor necrosis factor-related apoptosis-induced ligand (TRAIL) and celastrol combination treatment (TCCT) in glioblastoma cells., Methods: Cell counting kit-8 was used to detect the effects of different concentrations of celastrol (0-16 µmol/L) and TRAIL (0-500 ng/mL) on the cell viability of glioblastoma cells. U87 cells were randomly divided into 4 groups, namely control, TRAIL (TRAIL 100 ng/mL), Cel (celastrol 0.5 µmol/L) and TCCT (TRAIL 100 ng/mL+ celastrol 0.5 µmol/L). Cell proliferation, migration, and invasion were detected by colony formation, wound healing, and Transwell assays, respectively. Quantitative reverse transcription polymerase chain reaction and Western blotting were performed to assess the levels of epithelial-mesenchymal transition (EMT) markers (zona occludens, N-cadherin, vimentin, zinc finger E-box-binding homeobox, Slug, and β-catenin). Wnt pathway was activated by lithium chloride (LiCl, 20 mol/L) and the mechanism for action of TCCT was explored., Results: Celastrol and TRAIL synergistically inhibited the proliferation, migration, invasion, and EMT of U87 cells (P<0.01). TCCT up-regulated the expression of GSK-3β and down-regulated the expression of β-catenin and its associated proteins (P<0.05 or P<0.01), including c-Myc, Cyclin-D1, and matrix metalloproteinase (MMP)-2. In addition, LiCl, an activator of the Wnt signaling pathway, restored the inhibitory effects of TCCT on the expression of β-catenin and its downstream genes, as well as the migration and invasion of glioblastoma cells (P<0.05 or P<0.01)., Conclusions: Celastrol and TRAIL can synergistically suppress glioblastoma cell migration, invasion, and EMT, potentially through inhibition of Wnt/β-catenin pathway. This underlies a novel mechanism of action for TCCT as an effective therapy for glioblastoma., (© 2023. The Chinese Journal of Integrated Traditional and Western Medicine Press and Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

3. The ever-lasting green tides: What can we do？.

Author

Ren CG, Zhong ZH, Liu ZY, Lin S, Luo YK, and Qin S

Abstract

Macroalgal blooms (Green tides) are occurring more frequently in many regions of the world because of the combined effects of increasingly intense human activity and climate change. In the last decade, the world's largest Ulva prolifera green tide has become a recurrent phenomenon, appearing every summer in the southern Yellow Sea, China. Green tides can hurt coastal tourism and eradicate aquaculture and artisanal fishing. Eutrophication in nearshore waters is the ultimate explanation for the explosive growth of the macroalgal biomass, but the specific course of each nearshore green tide is often complex and requires in-depth and extensive research to develop effective mitigation strategies. Researchers have undertaken extensive studies on the prevention, control and mitigation of large-scale green algal blooms, and felicitated the utilization of green tide harmful biomass through bio-refining, bioconversion and other measures. However, due to the large-scale and trans -regional nature of the green tide, the government's administrative coordination measures are also essential for effective control. Nevertheless, it is becoming increasingly urgent to prevent and control the bloom at the early stage, and efficiently salvage and use these valuable raw materials., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:Cheng-Gang Ren reports administrative support was provided by Yantai Institute of Coastal Zone Research. Cheng-Gang Ren reports a relationship with Yantai Institute of Coastal Zone Research that includes: employment., (© 2024 The Authors.)

Published

2024

4. LWJ-M30, a conjugate of DM1 and B6, for the targeted therapy of colorectal cancer with improved therapeutic effects.

Author

Zhang QY, Yu QL, Luan WJ, Li TF, Xiao YN, Zhang L, Li Y, Rong R, and Ren CG

Abstract

Colorectal cancer (CRC) is one of the most prevalent cancers worldwide as well as a significant cause of mortality. The conventional treatment could cause serious side effects and induce drug resistance, recurrence and metastasis of cancers. Hence, specific targeting of cancer cells without affecting the normal tissues is currently an urgent necessity in cancer therapy. The emerging of peptide-drug conjugates (PDC) is regarded as a promising approach to address malignant tumors. LWJ-M30, a conjugate of DM1 and B6 peptide, targeted transferrin receptors (TfRs) on the surface of the CRC cells, showing a powerful anti-cancer effect. LWJ-M30 significantly inhibited the HCT116 cells proliferation and migration in vitro . LWJ-M30 also dramatically decreased the level of polymeric tubulin, while the disruption of microtubules caused the cell cycle to be arrested in the G2/M phase. LWJ-M30 induced the HCT116 cells apoptosis both in vivo and in vitro . The results in vivo demonstrated that LWJ-M30 could inhibit the HCT116 growth without affecting the mouse body weight. Taking these results together, our data indicated that LWJ-M30 could improve the therapeutic effects of DM1 while reducing the systemic toxicity in normal tissues., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2023

5. Integrated biotechnology to mitigate green tides.

Author

Ren CG, Liu ZY, Zhong ZH, Wang XL, and Qin S

Subjects

Biotechnology, China, Environmental Monitoring, Eutrophication, Seaweed, Ulva

Abstract

Around the world, green tides are happening with increasing frequency because of the dual effects of increasingly intense human activity and climate change; this leads to significant impacts on marine ecology and economies. In the last decade, the world's largest green tide, which is formed by Ulva/Enteromorpha porifera, has become a recurrent phenomenon every year in the southern Yellow Sea (China), and it has been getting worse. To alleviate the impacts of such green tide outbreaks, multiple measures need to be developed. Among these approaches, biotechnology plays important roles in revealing the outbreak mechanism (e.g., molecular identification technology for algal genotypes), controlling and preventing outbreaks at the origin sites (e.g., technology to inhibit propagation), and utilizing valuable algal biomass. This review focuses on the various previously used biotechnological approaches that may be applicable to worldwide seaweed blooms that result from global climate change and environmental degradation., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

6. A Perspective on Developing a Plant 'Holobiont' for Future Saline Agriculture.

Author

Ren CG, Kong CC, Liu ZY, Zhong ZH, Yang JC, Wang XL, and Qin S

Abstract

Soil salinity adversely affects plant growth and has become a major limiting factor for agricultural development worldwide. There is a continuing demand for sustainable technology innovation in saline agriculture. Among various bio-techniques being used to reduce the salinity hazard, symbiotic microorganisms such as rhizobia and arbuscular mycorrhizal (AM) fungi have proved to be efficient. These symbiotic associations each deploy an array of well-tuned mechanisms to provide salinity tolerance for the plant. In this review, we first comprehensively cover major research advances in symbiont-induced salinity tolerance in plants. Second, we describe the common signaling process used by legumes to control symbiosis establishment with rhizobia and AM fungi. Multi-omics technologies have enabled us to identify and characterize more genes involved in symbiosis, and eventually, map out the key signaling pathways. These developments have laid the foundation for technological innovations that use symbiotic microorganisms to improve crop salt tolerance on a larger scale. Thus, with the aim of better utilizing symbiotic microorganisms in saline agriculture, we propose the possibility of developing non-legume 'holobionts' by taking advantage of newly developed genome editing technology. This will open a new avenue for capitalizing on symbiotic microorganisms to enhance plant saline tolerance for increased sustainability and yields in saline agriculture., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ren, Kong, Liu, Zhong, Yang, Wang and Qin.)

Published

2022

7. The seaweed holobiont: from microecology to biotechnological applications.

Author

Ren CG, Liu ZY, Wang XL, and Qin S

Subjects

Seaweed chemistry

Abstract

In the ocean, seaweed and microorganisms have coexisted since the earliest stages of evolution and formed an inextricable relationship. Recently, seaweed has attracted extensive attention worldwide for ecological and industrial purposes, but the function of its closely related microbes is often ignored. Microbes play an indispensable role in different stages of seaweed growth, development and maturity. A very diverse group of seaweed-associated microbes have important functions and are dynamically reconstructed as the marine environment fluctuates, forming an inseparable 'holobiont' with their host. To further understand the function and significance of holobionts, this review first reports on recent advances in revealing seaweed-associated microbe spatial and temporal distribution. Then, this review discusses the microbe and seaweed interactions and their ecological significance, and summarizes the current applications of the seaweed-microbe relationship in various environmental and biological technologies. Sustainable industries based on seaweed holobionts could become an integral part of the future bioeconomy because they can provide more resource-efficient food, high-value chemicals and medical materials. Moreover, holobionts may provide a new approach to marine environment restoration., (© 2022 The Authors. Microbial Biotechnology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2022

8. XHL11, a novel selective EGFR inhibitor, overcomes EGFR T790M -mediated resistance in non-small cell lung cancer.

Author

Li Y, Yu QL, Li TF, Xiao YN, Zhang L, Zhang QY, Ren CG, and Xie HL

Subjects

Humans, Cell Line, Tumor, Animals, Xenograft Model Antitumor Assays, Mice, Mutation, Mice, Nude, Female, Carcinoma, Non-Small-Cell Lung drug therapy, Carcinoma, Non-Small-Cell Lung genetics, Carcinoma, Non-Small-Cell Lung pathology, ErbB Receptors genetics, ErbB Receptors antagonists & inhibitors, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, Lung Neoplasms drug therapy, Lung Neoplasms genetics, Lung Neoplasms pathology, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors therapeutic use, Apoptosis drug effects, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Cell Proliferation drug effects

Abstract

The first-generation epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (TKIs), gefitinib and erlotinib significantly improved the therapeutic effect in non-small cell lung cancer (NSCLC) patients with EGFR mutation. However, the EGFR T790M mutation occurs and results in acquired resistance. Consequently, mutant selective third-generation EGFR TKIs represented by AZD9291 (Osimertinib) have been developed to offer more effective therapeutic treatment, but the clinical application is limited by the acquired resistance and the high costs. A series of 5-chloropyrimidine-2,4-diamine derivatives were synthesized and screened for in vitro antitumor activity on H1975 and A431 cells. XHL11 showed the strongest antineoplastic activity. Compared to AZD9291, XHL11 suppressed cellular proliferation and colony formation and induced apoptosis in H1975 cells with EGFR L858R/T790M mutation. In addition, XHL11 caused expression changes in EGFR and apoptosis-related pathways. Moreover, oral administration of XHL11 suppressed tumor progression in vivo in a H1975 subcutaneous xenograft model. These data demonstrated that XHL11 might be developed as a promising EGFR TKI for the therapeutic use of NSCLC patients., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

9. Poor preoperative sleep quality is a risk factor for severe postoperative pain after breast cancer surgery: A prospective cohort study.

Author

Wang JP, Lu SF, Guo LN, Ren CG, and Zhang ZW

Subjects

Adolescent, Adult, Aged, Analgesics therapeutic use, Breast Neoplasms complications, Breast Neoplasms physiopathology, Female, Humans, Length of Stay, Middle Aged, Pain Measurement, Pain, Postoperative drug therapy, Preoperative Period, Prospective Studies, Risk Factors, Sleep Initiation and Maintenance Disorders physiopathology, Young Adult, Breast Neoplasms surgery, Mastectomy adverse effects, Pain, Postoperative etiology, Sleep, Sleep Initiation and Maintenance Disorders complications

Abstract

The aim of this study was to assess the effect of preoperative sleep quality on acute postoperative pain in breast cancer patients.The Pittsburgh Sleep Quality Index questionnaire (PSQI) was used to assess the overall sleep status of women scheduled for unilateral modified radical mastectomy in the past month. Based on the responses, patients were allocated to good sleep group or poor sleep group. Postoperatively, acute pain was assessed using the numerical rating score in the first 24 hours; in addition, the requirement of analgesics and the incidence of postoperative complications were recorded.A total of 108 breast surgery patients were enrolled. Based on the PSQI results, 55 (51%) patients were allocated to poor sleep group and 53 (49%) to good sleep group. Pain scores were similar in the 2 groups at the end of surgery (P = .589); however, poor sleep group reported higher postoperative pain scores than the good sleep group at 2 (P = .002), 6 (P < .001), 12 (P < .001), and 24 (P = .002) hours after surgery. The incidence of severe pain in the poor sleep group was higher than that in the good sleep group (27% vs 8%, P = .018), and the ratio of participants who required rescued analgesics was greater in the poor sleep group (52% vs 22%, P = .002). In addition, patients with poor sleep quality had more postoperative complications and longer hospital stay.In this study, breast cancer patients with poor preoperative sleep quality reported more severe postoperative pain, required more analgesics, experienced more complications, and had longer hospital stay.

Published

2019

10. Transcriptome analysis reveals the impact of arbuscular mycorrhizal symbiosis on Sesbania cannabina expose to high salinity.

Author

Ren CG, Kong CC, Yan K, and Xie ZH

Subjects

Gene Expression Profiling, Plant Roots genetics, Plant Roots growth & development, Plant Roots microbiology, Salt Tolerance, Sesbania growth & development, Sesbania microbiology, Gene Expression Regulation, Plant, Glomeromycota physiology, Plant Proteins genetics, Salinity, Sesbania genetics, Symbiosis, Transcriptome

Abstract

Arbuscular mycorrhiza can improve the salt-tolerance of host plant. A systematic study of mycorrhizal plant responses to salt stress may provide insights into the acquired salt tolerance. Here, the transcriptional profiles of mycorrhizal Sesbania cannabina shoot and root under saline stress were obtained by RNA-Seq. Using weighted gene coexpression network analysis and pairwise comparisons, we identified coexpressed modules, networks and hub genes in mycorrhizal S. cannabina in response to salt stress. In total, 10,371 DEGs were parsed into five coexpression gene modules. One module was positively correlated with both salt treatment and arbuscular mycorrhizal (AM) inoculation, and associated with photosynthesis and ROS scavenging in both enzymatic and nonenzymatic pathways. The hub genes in the module were mostly transcription factors including WRKY, MYB, ETHYLENE RESPONSE FACTOR, and TCP members involved in the circadian clock and might represent central regulatory components of acquired salinity tolerance in AM S. cannabina. The expression patterns of 12 genes involved in photosynthesis, oxidation-reduction processes, and several transcription factors revealed by qRT-PCR confirmed the RNA-Seq data. This large-scale assessment of Sesbania genomic resources will help in exploring the molecular mechanisms underlying plant-AM fungi interaction in salt stress responses.

Published

2019

11. Enhanced phytoremediation of uranium-contaminated soils by arbuscular mycorrhiza and rhizobium.

Author

Ren CG, Kong CC, Wang SX, and Xie ZH

Subjects

Aminoacyltransferases metabolism, Biomass, Fabaceae metabolism, Plant Roots metabolism, Sesbania enzymology, Sesbania microbiology, Soil Pollutants analysis, Soil Pollutants pharmacokinetics, Biodegradation, Environmental, Mycorrhizae metabolism, Rhizobium metabolism, Sesbania metabolism, Symbiosis, Uranium pharmacokinetics

Abstract

Uranium phytoextraction is a promising technology, however, facing difficult that limited plant biomass due to nutrient deficiency in the contaminated sites. The aim of this study is to evaluate the potential of a symbiotic associations of a legume Sesbania rostrata, rhizobia and arbuscular mycorrhiza fungi (AMF) for reclamation of uranium contaminated soils. Results showed AMF and rhizobia had a mutual beneficial relations in the triple symbiosis, which significantly increased plant biomass and uranium accumulation in S. rostrata plant. The highest uranium removal rates was observed in plant-AMF-rhizobia treated soils, in which 50.5-73.2% had been extracted, whereas 7.2-23.3% had been extracted in plant-treated soil. Also, the S. rostrata phytochelatin synthase (PCS) genes expression were increased in AMF and rhizobia plants compared with the plants. Meantime, content of malic acid, succinic acid and citric acid were elevated in S. rostrata root exudates of AMF and rhizobia inoculated plants. The facts suggest that the mutual interactions in the triple symbiosis help to improve phytoremediation efficiency of uranium by S. rostrata., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

12. [Mode of median nerve irritation under different wrist forcing postures observed by ultrasonography and foot pressure measurement system].

Author

Li CJ, Wang TY, Cao JY, Huang AL, Wang JF, Ren CG, Chen SP, and Wu LJ

Subjects

Adolescent, Adult, Carpal Tunnel Syndrome, Female, Humans, Male, Posture, Tendons, Ultrasonography, Wrist Joint, Young Adult, Median Nerve, Wrist

Abstract

Objective: To analyze the influence of simulation mouse use motion under different wrist forcing postures on median nerve, tendons and ligaments in the carpal tunnel. Methods: From June to November in 2017, a total of 49 healthy volunteers [aged from 18 to 27 years, 24 males (48 cases of hands) and 25 females (50 cases of hands)] were selected in the Institute of Digitized Medicine and First Affiliated Hospital of Wenzhou Medical University.Three hand postures of the volunteers were simultaneously and continuously measured by using LOGIQ E9 ultrasonic diagnostic apparatus and Zebris foot pressure distribution measurement system.Seventeen parameters of nerves, tendons and ligaments in carpal tunnel were observed under natural (0 N), and two forced (25 and 50 N) states.Double factor variance analysis was performed with generalized estimating equation (GEE). Results: With increasing pressure (0, 25 and 50 N) of hand postures, the distance between median nerve and transverse carpal ligament were all less than 0.2 cm.The differences in both the distance between median nerve and flexor pollicis longus under the hand pressure changes or under the hand posture changes and the top angle of a triangle composed of median nerve, flexor pollicis longus and flexor digitorum superficialis group under the hand pressure changes or under the hand posture changes were all significant under the GEE analysis (all P <0.01). There were no significant changes in all other structural parameters in the carpal tunnel with the increasing of hand pressure (all P >0.05). Conclusions: The influence of the transverse carpal ligament to the median nerve belongs to the mechanism of pressure-induced irritation damage.The influence of flexor pollicis longus to median nerve belongs to the mechanism of tension-induced irritation damage.The influence of flexor digitorum superficialis to median nerve belongs to the mechanism of mixed shear irritation damage.

Published

2018

13. Role of abscisic acid in strigolactone-induced salt stress tolerance in arbuscular mycorrhizal Sesbania cannabina seedlings.

Author

Ren CG, Kong CC, and Xie ZH

Subjects

Hydrogen Peroxide metabolism, Photosynthesis, Salt Stress, Salt-Tolerant Plants microbiology, Seedlings microbiology, Seedlings physiology, Sesbania microbiology, Abscisic Acid physiology, Lactones metabolism, Mycorrhizae physiology, Plant Growth Regulators physiology, Salt-Tolerant Plants physiology, Seedlings growth & development, Sesbania physiology

Abstract

Background: Strigolactones (SLs) are considered to be a novel class of phytohormone involved in plant defense responses. Currently, their relationships with other plant hormones, such as abscisic acid (ABA), during responses to salinity stress are largely unknown., Results: In this study, the relationship between SL and ABA during the induction of H 2 O 2 - mediated tolerance to salt stress were studied in arbuscular mycorrhizal (AM) Sesbania cannabina seedlings. The SL levels increased after ABA treatments and decreased when ABA biosynthesis was inhibited in AM plants. Additionally, the expression levels of SL-biosynthesis genes in AM plants increased following treatments with exogenous ABA and H 2 O 2 . Furthermore, ABA-induced SL production was blocked by a pre-treatment with dimethylthiourea, which scavenges H 2 O 2 . In contrast, ABA production was unaffected by dimethylthiourea. Abscisic acid induced only partial and transient increases in the salt tolerance of TIS108 (a SL synthesis inhibitor) treated AM plants, whereas SL induced considerable and prolonged increases in salt tolerance after a pre-treatment with tungstate., Conclusions: These results strongly suggest that ABA is regulating the induction of salt tolerance by SL in AM S. cannabina seedlings.

Published

2018

14. [Source Analysis and Environmental Health Risk Assessment of VOCs in Furniture Manufacturing].

Author

Tong RP, Zhang L, Yang XY, Zhu XB, and Ren CG

Subjects

Environmental Monitoring, Humans, Risk Assessment, Air Pollutants analysis, Interior Design and Furnishings, Manufacturing Industry, Occupational Exposure analysis, Volatile Organic Compounds analysis

Abstract

Regarding furniture manufacturing, scholars have only studied the sources of VOCs in the spraying process, yet the main concern is the release of VOCs after the completion of the manufacturing process and its impact on indoor air quality. Therefore, in this study, the sources of VOCs for the entire process of furniture manufacturing were explored and probabilistic risk models were improved. Then, the carcinogenicity and non-carcinogenic health risks to workers at nine workstations in a furniture factory were evaluated via a Monte Carlo simulation method, and the sensitivity of each exposure parameter was analyzed. The results are as follows. The various types of paints, diluents, and curing agents used in the process of spraying primer paint and spraying surface paint release VOCs, such as benzene, toluene, xylene, styrene, butanone, cyclohexanone, butyl acetate, and ethyl acetate. The glue used in the leather pasting process, the glue process, and the viscose process generates VOCs, such as dichloromethane and ethyl acetate, and the paint remover used in the cleaning process emits dichloromethane. The carcinogenic risk at each station was more than 10 -6 . For benzene exposure, the probability of exceeding 10 -6 was greater than 95% for all stations, excluding SWB, SWP, and CWP. The carcinogenicrisk of workers exposed to benzene was the highest at SWS, at 3.07×10 -6 ±1.73×10 -6 , and the carcinogenicrisk of workers exposed to dichloromethane was the greatest at SWL, with a value of 5.14×10 -6 ±2.70×10 -6 . The only non-carcinogenicrisk greater than 1 was to SWS workers. The parameters that had the greatest impact on the carcinogenic risk assessment were exposure day (ED), concentration ( C ), exposure time (ET), and exposure frequency (EF). In the non-carcinogenic risk assessment, the most influential variables were ED, ET, and EF. In addition, concentration also had a significant impact on the evaluation results.

Published

2018

15. The histone demethylase Jmjd3 regulates zebrafish myeloid development by promoting spi1 expression.

Author

Yu SH, Zhu KY, Zhang F, Wang J, Yuan H, Chen Y, Jin Y, Dong M, Wang L, Jia XE, Gao L, Dong ZW, Ren CG, Chen LT, Huang QH, Deng M, Zon LI, Zhou Y, Zhu J, Xu PF, and Liu TX

Subjects

Animals, Animals, Genetically Modified, Cell Differentiation genetics, Embryo, Nonmammalian embryology, Embryo, Nonmammalian metabolism, Gene Knockdown Techniques, Histones metabolism, Jumonji Domain-Containing Histone Demethylases metabolism, Lysine metabolism, Methylation, Proto-Oncogene Proteins metabolism, Trans-Activators metabolism, Zebrafish embryology, Zebrafish genetics, Zebrafish metabolism, Zebrafish Proteins metabolism, Gene Expression Regulation, Developmental, Jumonji Domain-Containing Histone Demethylases genetics, Myeloid Cells metabolism, Myelopoiesis genetics, Proto-Oncogene Proteins genetics, Trans-Activators genetics, Zebrafish Proteins genetics

Abstract

The histone demethylase Jmjd3 plays a critical role in cell lineage specification and differentiation at various stages of development. However, its function during normal myeloid development remains poorly understood. Here, we carried out a systematic in vivo screen of epigenetic factors for their function in hematopoiesis and identified Jmjd3 as a new epigenetic factor that regulates myelopoiesis in zebrafish. We demonstrated that jmjd3 was essential for zebrafish primitive and definitive myelopoiesis, knockdown of jmjd3 suppressed the myeloid commitment and enhanced the erythroid commitment. Only overexpression of spi1 but not the other myeloid regulators rescued the myeloid development in jmjd3 morphants. Furthermore, preliminary mechanistic studies demonstrated that Jmjd3 could directly bind to the spi1 regulatory region to alleviate the repressive H3K27me3 modification and activate spi1 expression. Thus, our studies highlight that Jmjd3 is indispensable for early zebrafish myeloid development by promoting spi1 expression., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

16. Enhanced phytoremediation of soils contaminated with PAHs by arbuscular mycorrhiza and rhizobium.

Author

Ren CG, Kong CC, Bian B, Liu W, Li Y, Luo YM, and Xie ZH

Subjects

Mycorrhizae, Plant Roots, Rhizobium, Soil, Soil Microbiology, Biodegradation, Environmental, Polycyclic Aromatic Hydrocarbons, Soil Pollutants

Abstract

Greenhouse experiment was conducted to evaluate the potential effectiveness of a legume (Sesbania cannabina), arbuscular mycorrhizal fungi (AMF) (Glomus mosseae), and rhizobia (Ensifer sp.) symbiosis for remediation of Polycyclic aromatic hydrocarbons (PAHs) in spiked soil. AMF and rhizobia had a beneficial impact on each other in the triple symbiosis. AMF and/or rhizobia significantly increased plant biomass and PAHs accumulation in plants. The highest PAHs dissipation was observed in plant + AMF + rhizobia treated soil, in which >97 and 85-87% of phenanthrene and pyrene, respectively, had been degraded, whereas 81-85 and 72-75% had been degraded in plant-treated soil. During the experiment, a relatively large amount of water-soluble phenolic compounds was detected in soils of AMF and/or rhizobia treatment. It matches well with the high microbial activity and soil enzymes activity. These results suggest that the mutual interactions in the triple symbiosis enhanced PAHs degradation via stimulating both microbial development and soil enzyme activity. The mutual interactions between rhizobia and AMF help to improve phytoremediation efficiency of PAHs by S. cannabina.

Published

2017

17. Elucidation of the molecular responses to waterlogging in Sesbania cannabina roots by transcriptome profiling.

Author

Ren CG, Kong CC, Yan K, Zhang H, Luo YM, and Xie ZH

Subjects

Adaptation, Biological, Computational Biology methods, Energy Metabolism, High-Throughput Nucleotide Sequencing, Metabolic Networks and Pathways, Molecular Sequence Annotation, Plant Development genetics, Sequence Analysis, DNA, Sesbania metabolism, Stress, Physiological, Floods, Gene Expression Profiling, Gene Expression Regulation, Plant, Plant Roots genetics, Sesbania genetics, Transcriptome

Abstract

Sesbania cannabina, a multipurpose leguminous crop, is highly resistant to waterlogging stress. However, the scant genomic resources in the genus Sesbania have greatly hindered further exploration of the mechanisms underlying its waterlogging tolerance. Here, the genetic basis of flooding tolerance in S. cannabina was examined by transcriptome-wide gene expression changes using RNA-Seq in seedlings exposed to short-term (3 h) and long-term (27 h) waterlogging. After de- novo assembly, 213990 unigenes were identified, of which 145162 (79.6%) were annotated. Gene Ontology and pathway enrichment analyses revealed that the glycolysis and fermentation pathways were stimulated to produce ATP under hypoxic stress conditions. Energy-consuming biosynthetic processes were dramatically repressed by short and long term waterlogging, while amino acid metabolism was greatly induced to maintain ATP levels. The expression pattern of 10 unigenes involved in phenylpropanoid biosynthesis, glycolysis, and amino acid metabolism revealed by qRT-PCR confirmed the RNA-Seq data. The present study is a large-scale assessment of genomic resources of Sesbania and provides guidelines for probing the molecular mechanisms underlying S. cannabina waterlogging tolerance.

Published

2017

18. The effect of intraperitoneal chemotherapy on early pain hyperalgesia in patients following elective laparoscopic transabdominal resection of rectal cancer.

Author

Liang M, Li CY, Ren CG, Zhang ZW, and Fu ZJ

Abstract

Background: Chemotherapy has been associated with hyperalgesia. This prospective study was designed to investigate the effect of intraperitoneal chemotherapy with lobaplatin on post-operative pain intensity and sufentanil requirements after laparoscopic transabdominal resection of rectal cancer., Methods: Eighty subjects (40 subjects treated with intraperitoneal chemotherapy and 40 subjects without chemotherapy treatment) scheduled for laparoscopic transabdominal resection of rectal cancer were included in this study. All subjects received standardized anesthetic and patient-controlled analgesia using sufentanil for 72 h post-surgery, as the only analgesics. Pain intensity scores, cumulative sufentanil requirements and side effects were recorded until 72 h post-surgery., Results: Following intraperitoneal chemotherapy, patients had a significantly higher total post-operative sufentanil requirement (193 μg vs . 142 μg; P = 0.008), significantly higher verbal rating scale post-surgery pain intensity scores at rest and with coughing ( P < 0.05), and a significantly worse functional activity score ( P < 0.05) over 72 h, compared with those without intraperitoneal chemotherapy. There were no post-operative differences in the incidence of side-effects (post-operative nausea [ P = 0.189], vomiting [ P = 0.311], pruritus [ P = 0.263], respiratory depression [ P = 1.000], and dizziness [ P = 0.712]) between the two groups., Conclusion: Intraperitoneal chemotherapy is associated with significantly increased post-operative sufentanil requirements and pain intensity, suggesting chemotherapy-associated hyperalgesia., Competing Interests: CONFLICT OF INTEREST The authors declared that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2017

19. Monocyte chemoattractant protein-1 contributes to morphine tolerance in rats with cancer-induced bone pain.

Author

Liu L, Gao XJ, Ren CG, Hu JH, Liu XW, Zhang P, Zhang ZW, and Fu ZJ

Abstract

Cancer-induced bone pain can severely compromise the life quality of patients, while tolerance limits the use of opioids in the treatment of cancer pain. Monocyte chemoattractant protein-1 (MCP-1) is known to contribute to neuropathic pain. However, the role of spinal MCP-1 in the development of morphine tolerance in patients with cancer-induced bone pain remains unclear. The aim of the present study was to investigate the role of spinal MCP-1 in morphine tolerance in bone cancer pain rats (MTBP rats). Bone cancer pain was induced by intramedullary injection of Walker 256 cells into the tibia of the rats, while morphine tolerance was induced by continuous intrathecal injection of morphine over a period of 9 days. In addition, anti-MCP-1 antibodies were intrathecally injected to rats in various groups in order to investigate the association of MCP-1 with mechanical and heat hyperalgesia using the paw withdrawal threshold (PWT) and thermal withdrawal latency (TWL) tests, respectively. Furthermore, MCP-1 and CCR2 expression levels were measured using reverse transcription-quantitative polymerase chain reaction (RT-qPCR) and western blot analysis, and CCR2 expression levels were measured using RT-qPCR. The results indicated that MCP-1 and CCR2 expression levels were significantly increased in the spinal cord of MTBP rats. Intrathecal administration of anti-MCP-1 neutralizing antibodies was observed to attenuate the mechanical and thermal allodynia in MTBP rats. Therefore, the upregulation of spinal MCP-1 and CCR2 expression levels may contribute to the development of mechanical allodynia in MTBP rats. In conclusion, MCP-1/CCR2 signaling may serve a crucial role in morphine tolerance development in rats suffering from cancer-induced bone pain.

Published

2017

20. A novel exopolysaccharide elicitor from endophytic fungus Gilmaniella sp. AL12 on volatile oils accumulation in Atractylodes lancea.

Author

Chen F, Ren CG, Zhou T, Wei YJ, and Dai CC

Subjects

Cell Membrane metabolism, Membrane Proteins metabolism, Plant Proteins metabolism, Proteomics, Ascomycota metabolism, Atractylodes metabolism, Fungal Polysaccharides metabolism, Oils, Volatile metabolism

Abstract

Endophytes and plants can establish specific long-term symbiosis through the accumulation of secondary metabolites. Previous studies have shown that the endophytic fungus Gilmaniella sp. AL12 can stimulate Atractylodes lancea to produce volatile oils. The purpose of this report is to investigate key factors involved in the stimulation of A. lancea by AL12 and reveal the mechanism. We identified the active component from AL12 as an extracellular mannan with a polymerization degree of 26-42. Differential membrane proteomics of A. lancea was performed by 2D electrophoresis. The results showed that there were significant differences in the expression of 83 proteins. Based on these results, we conclude that AL12 secreted mannan contributes to the antagonistic balance seen in interactions between AL12 and A. lancea. One portion of the mannan was degraded to mannose for hexokinase activation, promoting photosynthesis and energy metabolism, with a potential metabolic fluxes flowing towards terpenoid biosynthesis. The other portion of the mannan directly enhanced autoimmunity of A. lancea through G protein-mediated signal transduction and the mannan-binding lectin pathway. Volatile oil accumulation was ultimately promoted in subsequent defense reactions. This study provides a new perspective on the regulation of secondary metabolites by endophytic fungal elicitors in medicinal plants.

Published

2016

21. Susceptibility-Weighted Imaging of the Anatomic Variation of Thalamostriate Vein and Its Tributaries.

Author

Zhang XF, Li JC, Wen XD, Ren CG, Cai M, and Chen CC

Subjects

Adult, Caudate Nucleus anatomy & histology, Caudate Nucleus diagnostic imaging, Cerebral Cortex blood supply, Cerebral Veins diagnostic imaging, Female, Humans, Jugular Veins anatomy & histology, Jugular Veins diagnostic imaging, Male, Radiography, Thalamus blood supply, Anatomic Variation, Cerebral Veins anatomy & histology, Diagnostic Imaging, Magnetic Resonance Imaging

Abstract

Background and Purpose: Thalamostriate vein (TSV) is an important tributary of the internal cerebral vein, which mainly drains the basal ganglia and deep medulla. The purpose of this study was to explore the anatomic variation and quality of TSV and its smaller tributaries using susceptibility-weighted imaging (SWI)., Methods: We acquired SWI images in 40 volunteers on a 3.0T MR system using an 8-channel high-resolution phased array coil. The frequencies of the TSV and its tributaries were evaluated. We classified TSV into types I (forming a venous angle) and II (forming a false venous angle). We classified anterior caudate vein (ACV)into types 1 (1 trunk) and 2 (2 trunks) as well as into types A (joiningTSV), B (joining anterior septal vein), and C (joining the angle of both veins)., Results: The TSV drains the areas of caudate nucleus, internal capsule,lentiform nucleus, external capsule, claustrum, extreme capsule and the white matter of the frontoparietal lobes,except thalamus. The frequencies of the TSV, ACV and transverse caudate vein (ACV) were 92.5%, 87.5% and 63.8%, respectively. We found TSV types I and II in 79.7%, and 20.3% with significantly different constitution ratios (P< 0.05). The most common types of ACV were type 1 (90.0%) and type A (64.3%)., Conclusion: The complex three-dimensional (3D) venous architecture of TSV and its small tributaries manifests great variation, with significant and practical implications for neurosurgery.

Published

2015

22. Consequences of antagonistic interactions between endophytic fungus and bacterium on plant growth and defense responses in Atractylodes lancea.

Author

Wang XM, Yang B, Wang HW, Yang T, Ren CG, Zheng HL, and Dai CC

Subjects

Acinetobacter growth & development, Atractylodes immunology, Bacterial Adhesion, Colony Count, Microbial, Endophytes growth & development, Microscopy, Electron, Scanning, Photosynthesis, Plant Development, Real-Time Polymerase Chain Reaction, Acinetobacter physiology, Acremonium physiology, Atractylodes microbiology, Atractylodes physiology, Endophytes physiology, Symbiosis

Abstract

Many studies have examined pair-wise interactions between plants and endophytes, while overlooking the interplays among multiple endosymbionts and their combined impacts on hosts. In this study, Atractylodes lancea plantlets were inoculated with endophytic fungus Acremonium strictum AL16, or endophytic bacterium Acinetobacter sp., or both, to investigate the impacts of the three-way symbiosis on the host. Our results showed that defense-related responses of the co-inoculated plantlets were delayed and weakened relative to plantlets with single inoculants, but no detrimental effects on phyto-physiology (growth, photosynthesis) were observed after combined inoculations. Quantitative PCR analysis verified a decrease in AL16 colonization density within plants after co-inoculation with the endobacteria. An in vitro assay was then performed to elucidate the suppressed plant defense responses and reduced fungal colonization by dual inoculation. The data showed that the presence of Acinetobacter sp. reduced AL16 colony diameter and spore germination rate without negatively affecting fungal morphology. Additionally, direct hyphal attachment of the bacterium to AL16 in vitro was visualized by scanning electronic microscopy. Therefore, we propose that a balanced and compatible symbiosis might require constraints conferred by the antagonistic endophyte Acinetobacter sp. on the fungus AL16 in the tripartite endophytic bacterium-fungus-plant system., (© 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

23. Susceptibility-weighted imaging of the venous networks around the brain stem.

Author

Cai M, Zhang XF, Qiao HH, Lin ZX, Ren CG, Li JC, Chen CC, and Zhang N

Subjects

Adult, Female, Humans, Male, Reproducibility of Results, Sensitivity and Specificity, Brain Stem anatomy & histology, Brain Stem blood supply, Cerebral Veins anatomy & histology, Diffusion Magnetic Resonance Imaging methods, Magnetic Resonance Angiography methods

Abstract

Introduction: The venous network of the brainstem is complex and significant. Susceptibility-weighted imaging (SWI) is a practical technique which is sensitive to veins, especially tiny veins. Our purpose of this study was to evaluate the visualization of the venous network of brainstem by using SWI at 3.0 T., Methods: The occurrence rate of each superficial veins of brainstem was evaluated by using SWI on a 3 T MR imaging system in 60 volunteers. The diameter of the lateral mesencephalic vein and peduncular vein were measured by SWI using the reconstructed mIP images in the sagittal view. And the outflow of the veins of brainstem were studied and described according to the reconstructed images., Results: The median anterior pontomesencephalic vein, median anterior medullary vein, peduncular vein, right vein of the pontomesencephalic sulcus, and right lateral anterior pontomesencephalic vein were detected in all the subjects (100%). The outer diameter of peduncular vein was 1.38 ± 0.26 mm (range 0.8-1.8 mm). The lateral mesencephalic vein was found in 75% of the subjects and the mean outer diameter was 0.81 ± 0.2 mm (range 0.5-1.2 mm). The inner veins of mesencephalon were found by using SWI., Conclusion: The venous networks around the brain stem can be visualized by SWI clearly. This result can not only provide data for anatomical study, but also may be available for the surgical planning in the infratentorial region.

Published

2015

24. Involvement of abscisic acid and salicylic acid in signal cascade regulating bacterial endophyte-induced volatile oil biosynthesis in plantlets of Atractylodes lancea.

Author

Wang XM, Yang B, Ren CG, Wang HW, Wang JY, and Dai CC

Subjects

Abscisic Acid antagonists & inhibitors, Acinetobacter growth & development, Atractylodes chemistry, Atractylodes microbiology, Biosynthetic Pathways, Endophytes, Hemiterpenes metabolism, Oils, Volatile isolation & purification, Organophosphorus Compounds metabolism, Plant Growth Regulators antagonists & inhibitors, Plant Oils isolation & purification, Salicylic Acid antagonists & inhibitors, Symbiosis, Abscisic Acid metabolism, Acinetobacter physiology, Atractylodes physiology, Oils, Volatile metabolism, Plant Growth Regulators metabolism, Plant Oils metabolism, Salicylic Acid metabolism, Signal Transduction

Abstract

The enormous biological diversity of endophytes, coupled with their potential to enhance the production of bioactive metabolites in plants, has driven research efforts focusing on endophytes. However, limited information is available on the impacts of bacterial endophytes on plant secondary metabolism and signaling pathways involved. This work showed that an endophytic Acinetobacter sp. ALEB16, capable of activating accumulation of plant volatile oils, also induced abscisic acid (ABA) and salicylic acid (SA) production in Atractylodes lancea. Pre-treatment of plantlets with biosynthetic inhibitors of ABA or SA blocked the bacterium-induced volatile production. ABA inhibitors suppressed not only the bacterium-induced volatile accumulation but also the induced ABA and SA generation; nevertheless, SA inhibitors did not significantly inhibit the induced ABA biosynthesis, implying that SA acted downstream of ABA production. These results were confirmed by observations that exogenous ABA and SA reversed the inhibition of bacterium-induced volatile accumulation by inhibitors. Transcriptional activities of genes in sesquiterpenoid biosynthesis also increased significantly with bacterium, ABA and SA treatments. Mevalonate pathway proved to be the main source of isopentenyldiphosphate for bacterium-induced sesquiterpenoids, as assessed in experiments using specific terpene biosynthesis inhibitors. These results suggest that Acinetobacter sp. acts as an endophytic elicitor to stimulate volatile biosynthesis of A. lancea via an ABA/SA-dependent pathway, thereby yielding additional insight into the interconnection between ABA and SA in biosynthesis-related signaling pathways., (© 2014 Scandinavian Plant Physiology Society.)

Published

2015

25. Pten regulates homeostasis and inflammation-induced migration of myelocytes in zebrafish.

Author

Dong ZW, Ren CG, Xia Y, Su D, Du TT, Fan HB, Yuan H, Wang L, Dong M, Li WC, Jin Y, Chen Y, Deng M, Liu TX, Gu AH, and Zhou Y

Subjects

Animals, Apoptosis physiology, Cell Growth Processes physiology, Homeostasis, Zebrafish, Cell Movement physiology, Inflammation metabolism, Myeloid Cells cytology, Myeloid Cells metabolism, PTEN Phosphohydrolase metabolism

Abstract

Background: Loss of the tumor suppressor phosphatase and tensin homolog (PTEN) is frequently observed in hematopoietic malignancies. Although PTEN has been implicated in maintaining the quiescence of hematopoietic stem cells (HSCs), its role in hematopoiesis during ontogeny remains largely unexplored., Methods: The expression of hematopoietic marker genes was analyzed via whole mount in situ hybridization assay in ptena and ptenb double mutant zebrafish. The embryonic myelopoiesis was characterized by living imaging and whole mount in situ immunofluorescence with confocal microscopy, as well as cell-specific chemical staining for neutrophils and macrophages. Analyses of the involved signaling pathway were carried out by inhibitor treatment and mRNA injection., Results: Pten-deficient zebrafish embryos exhibited a strikingly increased number of myeloid cells, which were further characterized as being immune deficient. In accordance with this finding, the inhibition of phosphoinositide 3-kinase (PI3K) or the mechanistic target of rapamycin (mTOR) corrected the expansive myelopoiesis in the pten-deficient embryos. Further mechanistic studies revealed that the expression of cebpa, a critical transcription factor in myeloid precursor cells, was downregulated in the pten-deficient myeloid cells, whereas the injection of cebpa mRNA markedly ameliorated the dysmyelopoiesis induced by the loss of pten., Conclusions: Our data provide in vivo evidence that definitive myelopoiesis in zebrafish is critically regulated by pten via the elevation of cebpa expression.

Published

2014

26. Hydrogen peroxide regulated photosynthesis in C4-pepc transgenic rice.

Author

Ren CG, Li X, Liu XL, Wei XD, and Dai CC

Subjects

Antioxidants metabolism, Base Sequence, DNA Primers, Malondialdehyde metabolism, Microscopy, Electron, Scanning, NADPH Oxidases metabolism, Oryza genetics, Oryza physiology, Plants, Genetically Modified, Polymerase Chain Reaction, Hydrogen Peroxide pharmacology, Oryza drug effects, Photosynthesis drug effects

Abstract

In this study, we investigated the photosynthetic physiological basis in 'PC' transgenic rice (Oryza sativa L.), showing high-level expression of the gene encoding C4 phosphoenolpyruvate carboxylase (pepc), by hydrogen peroxide (H2O2). The C4-PEPC gene (pepc) from maize in the transgenic rice plants was checked by PCR. Comparison of yield components and photosynthetic indices between PC and untransformed wild-type (WT) plants indicated that increased yield in PC was associated with higher net photosynthetic rate and higher activities of phosphoenolpyruvate carboxylase (PEPC). Both PC and WT plants were treated with 1 mmol L(-1) abscisic acid (ABA), 0.04% 1-butanol (BA), 2 mmol L(-1) neomycin (NS), or 2 mmol L(-1) diphenyleneiodonium chloride (DPI) to investigate the relationship between photosynthesis and levels of H2O2 and phosphatidic acid. In both PC and WT, ABA induced H2O2 generation and simultaneous decrease in stomatal conductance (g(s)). PC plants treated with BA showed decreased H2O2 content and strongly increased g(s) within 2 h of treatment. Similar results were observed in response to DPI treatment in PC. However, WT did not observe the decrease of H2O2 during the treatments of BA and DPI. The reduced H2O2 content in PC caused by BA treatment differed to that induced by DPI because BA did not inhibit NADPH oxidase activities. While BA induced a larger PEPC activity in PC, and higher catalase activity as well. These results indicated that the regulation of endogenous H2O2 metabolism of PC could be helpful for enhancing photosynthetic capability., (Copyright © 2013 Elsevier Masson SAS. All rights reserved.)

Published

2014

27. Nitric oxide and brassinosteroids mediated fungal endophyte-induced volatile oil production through protein phosphorylation pathways in Atractylodes lancea plantlets.

Author

Ren CG and Dai CC

Subjects

Atractylodes drug effects, Atractylodes microbiology, Calcium metabolism, Endophytes drug effects, Enzyme Activation drug effects, Fungi drug effects, Models, Biological, Phosphorylation drug effects, Protein Kinase Inhibitors pharmacology, Protein Kinases metabolism, Atractylodes metabolism, Brassinosteroids pharmacology, Endophytes physiology, Fungi physiology, Nitric Oxide pharmacology, Oils, Volatile metabolism, Plant Proteins metabolism

Abstract

Fungal endophytes have been isolated from almost every plant, infecting their hosts without causing visible disease symptoms, and yet have still proved to be involved in plant secondary metabolites accumulation. To decipher the possible physiological mechanisms of the endophytic fungus-host interaction, the role of protein phosphorylation and the relationship between endophytic fungus-induced kinase activity and nitric oxide (NO) and brassinolide (BL) in endophyte-enhanced volatile oil accumulation in Atractylodes lancea plantlets were investigated using pharmacological and biochemical approaches. Inoculation with the endophytic fungus Gilmaniella sp. AL12 enhanced the activities of total protein phosphorylation, Ca²⁺-dependent protein kinase, and volatile oil accumulation in A. lancea plantlets. The upregulation of protein kinase activity could be blocked by the BL inhibitor brassinazole. Furthermore, pretreatments with the NO-specific scavenger cPTIO significantly reduced the increased activities of protein kinases in A. lancea plantlets inoculated with endophytic fungus. Pretreatments with different protein kinase inhibitors also reduced fungus-induced NO production and volatile oil accumulation, but had barely no effect on the BL level. These data suggest that protein phosphorylation is required for endophyte-induced volatile oil production in A. lancea plantlets, and that crosstalk between protein phosphorylation and the NO pathway may occur and act as a downstream signaling event of the BL pathway., (© 2013 Institute of Botany, Chinese Academy of Sciences.)

Published

2013

28. Activated N-Ras signaling regulates arterial-venous specification in zebrafish.

Author

Ren CG, Wang L, Jia XE, Liu YJ, Dong ZW, Jin Y, Chen Y, Deng M, Zhou Y, Zhou Y, Ren RB, Pan WJ, and Liu TX

Subjects

Animals, Animals, Genetically Modified, Arteries physiology, Cell Differentiation genetics, Genes, ras, Hematopoiesis genetics, Hematopoiesis physiology, Humans, Signal Transduction, Veins physiology, Zebrafish genetics, Zebrafish metabolism, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, ras Proteins genetics, ras Proteins metabolism, Zebrafish physiology, Zebrafish Proteins physiology, ras Proteins physiology

Abstract

Background: The aberrant activation of Ras signaling is associated with human diseases including hematological malignancies and vascular disorders. So far the pathological roles of activated Ras signaling in hematopoiesis and vasculogenesis are largely unknown., Methods: A conditional Cre/loxP transgenic strategy was used to mediate the specific expression of a constitutively active form of human N-Ras in zebrafish endothelial and hematopoietic cells driven by the zebrafish lmo2 promoter. The expression of hematopoietic and endothelial marker genes was analyzed both via whole mount in situ hybridization (WISH) assay and real-time quantitative PCR (qPCR). The embryonic vascular morphogenesis was characterized both by living imaging and immunofluorescence on the sections with a confocal microscopy, and the number of endothelial cells in the embryos was quantified by flow cytometry. The functional analyses of the blood circulation were carried out by fluorescence microangiography assay and morpholino injection., Results: In the activated N-Ras transgenic embryos, the primitive hematopoiesis appeared normal, however, the definitive hematopoiesis of these embryos was completely absent. Further analysis of endothelial cell markers confirmed that transcription of arterial marker ephrinB2 was significantly decreased and expression of venous marker flt4 excessively increased, indicating the activated N-Ras signaling promotes the venous development at the expense of arteriogenesis during zebrafish embryogenesis. The activated N-Ras-expressing embryos showed atrophic axial arteries and expansive axial veins, leading to no definitive hematopoietic stem cell formation, the blood circulation failure and subsequently embryonic lethality., Conclusions: Our studies revealed for the first time that activated N-Ras signaling during the endothelial differentiation in vertebrates can disrupt the balance of arterial-venous specification, thus providing new insights into the pathogenesis of the congenital human vascular disease and tumorigenic angiogenesis.

Published

2013

29. Cannabinoid receptor 2 suppresses leukocyte inflammatory migration by modulating the JNK/c-Jun/Alox5 pathway.

Author

Liu YJ, Fan HB, Jin Y, Ren CG, Jia XE, Wang L, Chen Y, Dong M, Zhu KY, Dong ZW, Ye BX, Zhong Z, Deng M, Liu TX, and Ren R

Subjects

Animals, Animals, Genetically Modified, Arachidonate 5-Lipoxygenase genetics, Base Sequence, Cannabinoid Receptor Agonists pharmacology, Gene Expression Regulation, Enzymologic, Gene Knockout Techniques, Indoles pharmacology, Leukocytes drug effects, Molecular Sequence Data, Protein Binding, Proto-Oncogene Proteins c-jun metabolism, Receptor, Cannabinoid, CB1 metabolism, Receptor, Cannabinoid, CB2 genetics, Tail, Time-Lapse Imaging, Zebrafish, Zebrafish Proteins genetics, Arachidonate 5-Lipoxygenase metabolism, Cell Movement drug effects, Leukocytes physiology, MAP Kinase Signaling System, Receptor, Cannabinoid, CB2 metabolism, Zebrafish Proteins metabolism

Abstract

Background: The role of cannabinoid receptor type 2 (Cnr2) in regulating immune function had been widely investigated, but the mechanism is not fully understood., Results: Cnr2 activation down-regulates 5-lipoxygenase (Alox5) expression by suppressing the JNK/c-Jun activation., Conclusion: The Cnr2-JNK-Alox5 axis modulates leukocyte inflammatory migration., Significance: Linking two important regulators in leukocyte inflammatory migration and providing a potential therapeutic strategy for treating human inflammation-associated diseases. Inflammatory migration of immune cells is involved in many human diseases. Identification of molecular pathways and modulators controlling inflammatory migration could lead to therapeutic strategies for treating human inflammation-associated diseases. The role of cannabinoid receptor type 2 (Cnr2) in regulating immune function had been widely investigated, but the mechanism is not fully understood. Through a chemical genetic screen using a zebrafish model for leukocyte migration, we found that both an agonist of the Cnr2 and inhibitor of the 5-lipoxygenase (Alox5, encoded by alox5) inhibit leukocyte migration in response to acute injury. These agents have a similar effect on migration of human myeloid cells. Consistent with these results, we found that inactivation of Cnr2 by zinc finger nuclease-mediated mutagenesis enhances leukocyte migration, while inactivation of Alox5 blocks leukocyte migration. Further investigation indicates that there is a signaling link between Cnr2 and Alox5 and that alox5 is a target of c-Jun. Cnr2 activation down-regulates alox5 expression by suppressing the JNK/c-Jun activation. These studies demonstrate that Cnr2, JNK, and Alox5 constitute a pathway regulating leukocyte migration. The cooperative effect between the Cnr2 agonist and Alox5 inhibitor also provides a potential therapeutic strategy for treating human inflammation-associated diseases.

Published

2013

30. Degradation of N-heterocyclic indole by a novel endophytic fungus Phomopsis liquidambari.

Author

Chen Y, Xie XG, Ren CG, and Dai CC

Subjects

Biodegradation, Environmental, Endophytes classification, Indoles isolation & purification, Species Specificity, Endophytes metabolism, Environmental Pollutants isolation & purification, Environmental Pollutants metabolism, Indoles metabolism

Abstract

A broad-spectrum endophytic Phomopsis liquidambari, was used to degrade environmental pollutant indole. In the condition of using indole as sole carbon and nitrogen source, the optimum concentration of indole supplied was determined to be 100 mg L(-1), with 41.7% ratio of indole degradation within 120 h. Exogenous addition of plant litter significantly increased indole degradation to 99.1% within 60 h. Indole oxidation to oxindole and isatin were the key steps limiting indole degradation. Plant litter addition induced fungus to produce laccase and LiP to non-specific oxidize indole. The results of fungal metabolites pathway through HPLC-MS and NMR analysis showed that indole was firstly oxidized to oxindole and isatin, and deoxidated to indolenie-2-dione, then hydroxylated to 2-dioxindole, which pyridine ring were cleaved through C-N position and changed to 2-aminobenzoic acid. Such metabolic pathway was similar with bacterial degradation of indole-3-acetic acid in plant., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

31. Priming effects of the endophytic fungus Phomopsis liquidambari on soil mineral N transformations.

Author

Chen Y, Ren CG, Yang B, Peng Y, and Dai CC

Subjects

Nitrates metabolism, Plant Leaves, Quaternary Ammonium Compounds metabolism, Soil chemistry, Ascomycota metabolism, Bacteria metabolism, Endophytes metabolism, Nitrification, Nitrogen metabolism, Soil Microbiology

Abstract

Nitrogen (N) is a crucial nutrient for soil biota, and its cycling is determined by the organic carbon decomposing process. Some endophytic fungi are latent saprotrophs that trigger their saprotrophic metabolism to promote litter organic matter cycling as soon as the host tissue senesces or dies. However, the effects of endophytic fungi on litter and soil N dynamics in vitro have rarely been investigated. In this study, we investigated N dynamics (total and mineral N) in both litter and soil in incubations of a pure culture of an endophytic fungus Phomopsis liquidambari with litter and following soil burial of the litter. Soil enzymes and microbial communities participating in the N transformations were also investigated. A pure culture of P. liquidambari released litter NH (4) (+) -N in the initial stages (10 days) of the incubation. However, following soil burial, the presence of both P. liquidambari and soil ammonia-oxidizing bacteria (AOB) resulted in an increase in soil NO (3) (-) -N. These results indicate that the endophytic fungus P. liquidambari in vitro stimulates organic mineralization and promote NH (4) (+) -N release. Such effects triggered soil AOB-driven nitrification process.

Published

2013

32. [Screening and identification of an endophytic fungus from Atractylodes lancea which utilizes volatile oil selectively].

Author

Li L, Liu FY, Ren CG, and Dai CC

Subjects

Atractylodes chemistry, Fungi classification, Fungi genetics, Fungi isolation & purification, Oils, Volatile chemistry, Phylogeny, RNA, Ribosomal, 18S genetics, Atractylodes microbiology, Fungi metabolism, Oils, Volatile metabolism

Abstract

In order to transform main active ingredient of volatile oil, endophytic fungi were screened from the root of Atractylodes lancea. Transformation method was used in vitro. The changes of volatile oil were traced by gas chromatography. One endophytic fungus (strain ALG-13) which could uitilize volatile oil selectively was screened. Single factor experiment were conducted for exploring the effects of various factors that including kinds of carbon source, speed, liquid volume, pH and concentration of plant tissue on degradation by this strain. Subsequently, the main affecting factors carbon source, speed, pH and liquid volume were optimized using orthogonal array design. Results showed that endophytic fungus ALG-13 selectively used the volatile oil, change the relative percentage of the main components of volatile oil, Atractylon and Atractydin were increased, While, beta-eudesmol and Atractylol decreased. After selectively degradation by fungus, volatile oil components percentage were closer to the geo-herbs. Strain ALG-13 was identified as Bionectria ochroleuca according to its morphological characteristics and systematic analysis of ITS sequence. The optimal conditions were as follows: sucrose used as carbon source, rotating speed was 200 r x min(-1), initial pH for medium was 4.5, 50 mL liquid was added in 250 mL flask. The endophytic fungus ALG-13 could degrade the volatile oil selectively, which was benefit for forming geoherbs A. lancea volatile oil composition.

Published

2012

33. Jasmonic acid is involved in the signaling pathway for fungal endophyte-induced volatile oil accumulation of Atractylodes lancea plantlets.

Author

Ren CG and Dai CC

Subjects

Antioxidants metabolism, Atractylodes chemistry, Atractylodes drug effects, Benzoates pharmacology, Catalase metabolism, Cyclopentanes antagonists & inhibitors, Cyclopentanes pharmacology, Endophytes, Enzyme Inhibitors pharmacology, Free Radical Scavengers analysis, Free Radical Scavengers metabolism, Hydrogen Peroxide analysis, Hydrogen Peroxide metabolism, Imidazoles pharmacology, Indans pharmacology, Masoprocol pharmacology, Nitric Oxide analysis, Nitric Oxide metabolism, Oils, Volatile analysis, Oils, Volatile isolation & purification, Onium Compounds pharmacology, Organophosphonates pharmacology, Oxylipins antagonists & inhibitors, Oxylipins pharmacology, Plant Diseases microbiology, Plants, Medicinal, Salicylic Acid analysis, Salicylic Acid antagonists & inhibitors, Salicylic Acid metabolism, Signal Transduction drug effects, Time Factors, Triazoles pharmacology, Atractylodes physiology, Cyclopentanes metabolism, Fungi physiology, Oils, Volatile metabolism, Oxylipins metabolism, Signal Transduction physiology

Abstract

Background: Jasmonic acid (JA) is a well-characterized signaling molecule in plant defense responses. However, its relationships with other signal molecules in secondary metabolite production induced by endophytic fungus are largely unknown. Atractylodes lancea (Asteraceae) is a traditional Chinese medicinal plant that produces antimicrobial volatiles oils. We incubated plantlets of A. lancea with the fungus Gilmaniella sp. AL12. to research how JA interacted with other signal molecules in volatile oil production., Results: Fungal inoculation increased JA generation and volatile oil accumulation. To investigate whether JA is required for volatile oil production, plantlets were treated with JA inhibitors ibuprofen (IBU) and nordihydroguaiaretic acid. The inhibitors suppressed both JA and volatile oil production, but fungal inoculation could still induce volatile oils. Plantlets were further treated with the nitric oxide (NO)-specific scavenger 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide potassium salt (cPTIO), the H2O2 inhibitors diphenylene iodonium (DPI) and catalase (CAT), and the salicylic acid (SA) biosynthesis inhibitors paclobutrazol and 2-aminoindan-2-phosphonic acid. With fungal inoculation, IBU did not inhibit NO production, and JA generation was significantly suppressed by cPTIO, showing that JA may act as a downstream signal of the NO pathway. Exogenous H2O2 could reverse the inhibitory effects of cPTIO on JA generation, indicating that NO mediates JA induction by the fungus through H2O2-dependent pathways. With fungal inoculation, the H2O2 scavenger DPI/CAT could inhibit JA generation, but IBU could not inhibit H2O2 production, implying that H2O2 directly mediated JA generation. Finally, JA generation was enhanced when SA production was suppressed, and vice versa., Conclusions: Jasmonic acid acts as a downstream signaling molecule in NO- and H2O2-mediated volatile oil accumulation induced by endophytic fungus and has a complementary interaction with the SA signaling pathway.

Published

2012

34. [The role of brain-derived neurotrophic factor in pain facilitation and spinal mechanism in rat model of bone cancer pain].

Author

Wang LN, Yang JP, Ji FH, Wang XY, Zuo JL, Xu QN, Jia XM, Zhou J, Ren CG, and Li W

Subjects

Animals, Bone Neoplasms complications, Carcinoma 256, Walker complications, Disease Models, Animal, Female, Ganglia, Spinal metabolism, MAP Kinase Signaling System, Pain etiology, Phosphorylation, Rats, Rats, Sprague-Dawley, Bone Neoplasms metabolism, Brain-Derived Neurotrophic Factor metabolism, Carcinoma 256, Walker metabolism, Pain metabolism

Abstract

Objective: To investigate the role of brain-derived neurotrophic factor (BDNF) in pain facilitation and spinal mechanisms in the rat model of bone cancer pain., Methods: The bone cancer pain model was developed by inoculated Walker 256 mammary gland carcinoma cells into the tibia medullary cavity. Sixty SD female rats were divided into 5 groups (n = 12 each) randomly; group I: control group (sham operation); group II: model group; group III: control group + anti-BDNF intrathecal (i.t.); group IV: model group + control IgG i.t.; group V: model group + anti-BDNF i.t.. Anti-BDNF or control IgG was injected i.t. during 7 to 9th day. Von-Frey threshold was measured one day before operation and every 2 days after operation. On the 9th day after threshold tested, rats were sacrificed after i.t. injection of either anti-BDNF or control IgG, the lumbar 4-6 spinal cord was removed. The expression of the spinal BDNF and the phosphorylation of extracellular signal-regulated protein kinase 1/2 (p-ERK1/2) were detected by immunohistochemistry assay and Western-Blot. Co-expression pattern of BDNF and p-ERK1/2 were determined by double-labeling immunofluorescence., Results: We demonstrated the coexistence of BDNF and p-ERK1/2 in the spinal cord of rats. From the 7 to 9th day after operation, von-Frey threshold in groups II and IV was significantly lower than that in group I and group V (P < 0.01), group V was remarkly higher than that in group IV (P < 0.01). The spinal BDNF and p-ERK1/2 expression in group II or IV were significantly increased compared with that in group I or V (P < 0.01), intrathecal anti-BDNF was significantly suppressed BDNF and p-ERK1/2 expression (P < 0.01)., Conclusion: BDNF and p-ERK1/2 was coexistence in the spinal cord of rats, and it maybe involved in the bone cancer pain.

Published

2011

35. An evolutionarily conserved PTEN-C/EBPalpha-CTNNA1 axis controls myeloid development and transformation.

Author

Fu CT, Zhu KY, Mi JQ, Liu YF, Murray ST, Fu YF, Ren CG, Dong ZW, Liu YJ, Dong M, Jin Y, Chen Y, Deng M, Zhang W, Chen B, Breslin P, Chen SJ, Chen Z, Becker MW, Zhu J, Zhang JW, and Liu TX

Subjects

Animals, CCAAT-Enhancer-Binding Proteins genetics, Cell Transformation, Neoplastic genetics, Frameshift Mutation, Gene Expression Regulation, Leukemic genetics, HL-60 Cells, Humans, Leukemia genetics, Mice, Mice, Knockout, PTEN Phosphohydrolase genetics, Polycomb-Group Proteins, Promoter Regions, Genetic genetics, Protein Isoforms metabolism, Protein Processing, Post-Translational genetics, Repressor Proteins genetics, Repressor Proteins metabolism, Signal Transduction genetics, Transcription, Genetic genetics, Zebrafish, alpha Catenin genetics, CCAAT-Enhancer-Binding Proteins metabolism, Cell Transformation, Neoplastic metabolism, Leukemia metabolism, Myelopoiesis, Neoplastic Stem Cells metabolism, PTEN Phosphohydrolase metabolism, alpha Catenin metabolism

Abstract

Loss of function of tumor suppressor genes, such as PTEN, CEBPAlpha, and CTNNA1 (encoding the alpha-catenin protein), has been found to play an essential role in leukemogenesis. However, whether these genes genetically interact remains largely unknown. Here, we show that PTEN-mammalian target of rapamycin signaling acts upstream to dictate the ratio of wild-type p42 C/EBPalpha to its dominant-negative p30 isoform, which critically determines whether p30 C/EBPalpha (lower p42/p30 ratio) or p42 C/EBPalpha (higher p42/p30 ratio) binds to the proximal promoter of the retained CTNNA1 allele. Binding of p30 C/EBPalpha recruits the polycomb repressive complex 2 to suppress CTNNA1 transcription through repressive H3K27me3 modification, whereas binding of p42 C/EBPalpha relieves this repression and promotes CTNNA1 expression through activating H3K4me3 modification. Loss of Pten function in mice and zebrafish induces myelodysplasia with abnormal invasiveness of myeloid progenitors accompanied by significant reductions in both wild-type C/EBPalpha and alpha-catenin protein. Importantly, frame-shift mutations in either PTEN or CEBPA were detected exclusively in the primary LICs with low CTNNA1 expression. This study uncovers a novel molecular pathway, PTEN-C/EBPalpha-CTNNA1, which is evolutionarily conserved and might be therapeutically targeted to eradicate LICs with low CTNNA1 expression.

Published

2010

36. N'-(2,4-Dichloro-benzyl-idene)-3-methoxy-benzohydrazide.

Author

Ren CG

Abstract

There are two independent mol-ecules in the asymmetric unit of the title compound, C(15)H(12)Cl(2)N(2)O(2). The dihedral angle between the two benzene rings is 27.6 (4)° in one mol-ecule and 16.4 (4)° in the other. Both mol-ecules adopt an E configuration about the C=N bonds. In the crystal structure, mol-ecules are linked through inter-molecular N-H⋯O hydrogen bonds, forming chains in the a-axis direction.

Published

2010

37. [Regulation of c-fos gene expression in hepatic stellate cells by transforming growth factor beta].

Author

Wang AM, Ren CG, Ma ZJ, Xiang Y, Zhang ZW, Zhu ZJ, and Wang BE

Subjects

Animals, Cells, Cultured, Genes, fos, Proto-Oncogene Proteins c-fos genetics, Rats, Gene Expression drug effects, Hepatic Stellate Cells drug effects, Proto-Oncogene Proteins c-fos metabolism, Transforming Growth Factor beta pharmacology

Abstract

Objective: To investigate the effects of transforming growth factor beta (TGF ) on c-fos gene expression in hepatic stellate cells., Methods: Hepatic stellate cells (HSC-T6) were cultured in the medium containing different concentrations of TGF (0.2, 1, and 5 ng/ml), and cells were collected at different time points of incubation (8, 24, 48, and 72 h). The total RNA of the HSCs was isolated and c-fos gene expression level were measured by reverse transcription polymerase chain reaction., Results: c-fos gene expression levels of HSCs cultured in the presence of low (0.2 ng/ml), moderate (1 ng/ml) and high (5 ng/ml) concentrations of TGF for 8, 24, 48 and 72 h were significantly greater than those of control group. The c-fos gene expression levels of HSCs increased gradually with the increment of TGF concentration, and significant differences in c-fos gene expression were found between the 3TGF groups., Conclusion: TGF strongly up-regulates c-fos gene expression in hepatic stellate cells.

Published

2009

38. N'-(5-Chloro-2-hydroxy-benzyl-idene)nicotinohydrazide.

Author

Ren CG

Abstract

There are two independent Schiff base mol-ecules in the asymmetric unit of the title compound, C(13)H(10)ClN(3)O(2). The dihedral angles between the benzene and pyridine rings are 12.8 (2) and 1.9 (2)° in the two mol-ecules. Intra-molecular O-H⋯N hydrogen bonds are observed. Mol-ecules are linked into centrosymmetric R(4) (4)(26) motifs by N-H⋯O and N-H⋯N inter-actions.

Published

2009

39. 4-Hydr-oxy-N'-(3,5-dichloro-2-hydroxy-benzyl-idene)benzohydrazide.

Author

Ren CG

Abstract

In the title compound, C(14)H(10)Cl(2)N(2)O(3), the dihedral angle between the two benzene rings is 5.1 (2)°. The mol-ecule adopts an E configuration with respect to the C=N bond and an intra-molecular O-H⋯N inter-action is present. In the crystal structure, mol-ecules are linked through inter-molecular N-H⋯O and O-H⋯O hydrogen bonds.

Published

2009

40. Effect of soluble soybean protein hydrolysate-calcium complexes on calcium uptake by Caco-2 cells.

Author

Lv Y, Bao XL, Yang BC, Ren CG, and Guo ST

Subjects

Absorption, Caco-2 Cells, Fura-2 metabolism, Humans, Molecular Weight, Calcium metabolism, Protein Hydrolysates metabolism, Soybean Proteins metabolism

Abstract

Soybean protein hydrolysates (SPHs) bind with calcium, forming soluble SPH-calcium complexes via the carboxyl groups of glutamic and aspartic acid residues. However, their effect on calcium uptake is still unclear. In this study, Caco-2 cells were used to estimate the effect of SPH-calcium complexes with different molecular weights on calcium uptake in vitro. The changes in intracellular calcium ion concentration were measured by Fura-2 loading and expressed in fluorescence intensity. SPH-calcium complexes could promote calcium uptake. Improved fluorescence intensity was significantly different in SPH-calcium complexes (10 to 30 kDa), SPH-calcium complexes (3 to 10 kDa), and SPH-calcium complexes (1 to 3 kDa). The maximum levels of relative fluorescence intensity (18.3) occurred with SPH-calcium complexes (10 to 30 kDa). The effect of SPH-calcium complexes (10 to 30 kDa) on Ca(2+) increase was determined to be concentration dependent in the range of 0.5 to 4 mg/mL. Our results indicate that soybean protein itself might be responsible for promoting calcium absorption.

Published

2008

41. Functional characterization of Lmo2-Cre transgenic zebrafish.

Author

Wang L, Zhang Y, Zhou T, Fu YF, Du TT, Jin Y, Chen Y, Ren CG, Peng XL, Deng M, and Liu TX

Subjects

Animals, Base Sequence, Embryonic Development physiology, Gene Expression Regulation, Developmental, Genomics, Hematopoietic Stem Cells physiology, Kidney embryology, Kidney physiology, LIM Domain Proteins, Models, Animal, Molecular Sequence Data, Transcription Factors, Zebrafish embryology, Animals, Genetically Modified genetics, DNA-Binding Proteins genetics, Integrases genetics, Metalloproteins genetics, Zebrafish genetics, Zebrafish Proteins genetics

Abstract

Cre/loxP system is a powerful tool to manipulate the genome. Transgenic animals expressing Cre recombinase in specific tissues or cells have been widely used for conditional gene targeting, lineage tracing, and other genetic analyses. In zebrafish, the transgenic line with stable expression of Cre in specific tissues and cell subtypes has not been generated and its functional activity remains to be defined. Here we report the establishment of a stable transgenic fish Tg(zlmo2:Cre), which specifically expresses Cre in the primitive hematopoietic progenitors and vascular endothelial cells, under the control of lmo2 promoter. Our result shows that the Cre expression pattern recapitulates the endogenous lmo2 expression pattern during embryogenesis. Crossing of the Tg(zlmo2:Cre) line with another established transgenic reporter line Tg(zlmo2:loxP-DsRed-loxP-EGFP), induces a robust recombination activity in hematopoietic progenitors and vascular endothelial cells. Thus, the Tg(zlmo2:Cre) transgenic line provides an invaluable tool to dissect genetic pathways in hematopoietic development and diseases., (Copyright (c) 2008 Wiley-Liss, Inc.)

Published

2008

42. A study of the soluble complexes formed during calcium binding by soybean protein hydrolysates.

Author

Bao XL, Lv Y, Yang BC, Ren CG, and Guo ST

Subjects

Adsorption, Amino Acid Sequence, Binding Sites, Calcium metabolism, Chromatography, Gel methods, Endopeptidases metabolism, Hydrogen-Ion Concentration, Kallikreins metabolism, Metalloendopeptidases metabolism, Molecular Weight, Pepsin A metabolism, Protein Binding, Solubility, Soybean Proteins metabolism, Spectroscopy, Fourier Transform Infrared methods, Calcium chemistry, Peptide Hydrolases metabolism, Protein Hydrolysates, Soybean Proteins chemistry

Abstract

The soluble complexes formed between hydrolyzed soybean protein and calcium at pH 7.4 were investigated using dialysis, gel chromatography, and Fourier transform infrared spectrometry (FTIR). The results demonstrate that the amount of calcium bound was significantly different for soybean protein hydrolysates obtained using the proteases neutrase, flavourzyme, protease M, and pepsin. Maximum levels of calcium binding (66.9 mg/g) occurred with hydrolysates produced using protease M. Peptide fragments exhibiting high calcium binding capacity had molecular weights of either 14.4 kDa or 8 to 9 kDa, and the calcium binding capacity was linearly correlated with carboxyl group content (R(2)= 0.8204). FTIR experiments revealed that upon binding calcium, the amide I band underwent a shift to lower wave numbers. A wide, intense Ca-O absorption band also appeared between 400 and 100 cm(-1) in the far-infrared spectrum. The width and intensity of this band increased after treatment of samples with glutaminase. The amount of bound calcium was related to both the molecular weight of the peptides and to the carboxyl group content, and the most likely sites for calcium binding are the carboxyl groups of Asp and Glu.

Published

2008

43. Changes in hair trace elements (zinc, copper and manganese) before and after severe fractures.

Author

Wang ZX, Ye YQ, Hu MZ, Ren CG, and Yao HY

Subjects

Copper metabolism, Female, Humans, Male, Manganese metabolism, Protons, Spectrometry, X-Ray Emission, Zinc metabolism, Femoral Fractures metabolism, Hair analysis, Trace Elements metabolism

Published

1987