Your search keyword '"Junxi Hu"' showing total 28 results

1. Variations and trade-offs in leaf and culm functional traits among 77 woody bamboo species

Author

Xiong Liu, Shixing Zhou, Junxi Hu, Xingcheng Zou, Liehua Tie, Ying Li, Xinglei Cui, Congde Huang, Jordi Sardans, and Josep Peñuelas

Subjects

Plant functional traits, Trait trade-offs, Leaf economics spectrum, Biogeochemical niche, Phylogeny, Common garden, Botany, QK1-989

Abstract

Abstract Background Woody bamboos are the only diverse large perennial grasses in mesic-wet forests and are widely distributed in the understory and canopy. The functional trait variations and trade-offs in this taxon remain unclear due to woody bamboo syndromes (represented by lignified culm of composed internodes and nodes). Here, we examined the effects of heritable legacy and occurrence site climates on functional trait variations in leaf and culm across 77 woody bamboo species in a common garden. We explored the trade-offs among leaf functional traits, the connection between leaf nitrogen (N), phosphorus (P) concentrations and functional niche traits, and the correlation of functional traits between leaves and culms. Results The Bayesian mixed models reveal that the combined effects of heritable legacy (phylogenetic distances and other evolutionary processes) and occurrence site climates accounted for 55.10–90.89% of the total variation among species for each studied trait. The standardized major axis analysis identified trade-offs among leaf functional traits in woody bamboo consistent with the global leaf economics spectrum; however, compared to non-bamboo species, the woody bamboo exhibited lower leaf mass per area but higher N, P concentrations and assimilation, dark respiration rates. The canonical correlation analysis demonstrated a positive correlation (ρ = 0.57, P-value

Published

2024

2. Limiting Resources Define the Global Pattern of Soil Microbial Carbon Use Efficiency

Author

Yongxing Cui, Junxi Hu, Shushi Peng, Manuel Delgado‐Baquerizo, Daryl L. Moorhead, Robert L. Sinsabaugh, Xiaofeng Xu, Kevin M. Geyer, Linchuan Fang, Pete Smith, Josep Peñuelas, Yakov Kuzyakov, and Ji Chen

Subjects

extracellular enzymatic activity, global change factors, microbial metabolisms, resource limitations, soil carbon cycling, Science

Abstract

Abstract Microbial carbon (C) use efficiency (CUE) delineates the proportion of organic C used by microorganisms for anabolism and ultimately influences the amount of C sequestered in soils. However, the key factors controlling CUE remain enigmatic, leading to considerable uncertainty in understanding soil C retention and predicting its responses to global change factors. Here, we investigate the global patterns of CUE estimate by stoichiometric modeling in surface soils of natural ecosystems, and examine its associations with temperature, precipitation, plant‐derived C and soil nutrient availability. We found that CUE is determined by the most limiting resource among these four basic environmental resources within specific climate zones (i.e., tropical, temperate, arid, and cold zones). Higher CUE is common in arid and cold zones and corresponds to limitations in temperature, water, and plant‐derived C input, while lower CUE is observed in tropical and temperate zones with widespread limitation of nutrients (e.g., nitrogen or phosphorus) in soil. The contrasting resource limitations among climate zones led to an apparent increase in CUE with increasing latitude. The resource‐specific dependence of CUE implies that soils in high latitudes with arid and cold environments may retain less organic C in the future, as warming and increased precipitation can reduce CUE. In contrast, oligotrophic soils in low latitudes may increase organic C retention, as CUE could be increased with concurrent anthropogenic nutrient inputs. The findings underscore the importance of resource limitations for CUE and suggest asymmetric responses of organic C retention in soils across latitudes to global change factors.

Published

2024

3. Cloning of notch1 and its role in the growth and development of Exopalaemon carinicauda

Author

Shanrui Shen, Junxi Hu, Qin Shen, Hao Chen, Huan Gao, and Xiaofang Lai

Subjects

Exopalaemon carinicauda, Notch, Growth and development, In situ hybridization, RNA interference, Aquaculture. Fisheries. Angling, SH1-691

Abstract

The Notch signaling pathway plays important roles in cell proliferation, differentiation and apoptosis. To explore the regulatory mechanism of the Notch signaling pathway in the growth and development of crustaceans, notch1 was cloned from Exopalaemon carinicauda by 5′/3′ RACE and its roles in growth and development were studied by qPCR, RNA interference and in situ hybridization. The results showed that the full-length cDNA of notch1 in E. carinicauda was 7868 bp in length, encoding a total of 2504 amino acids, with a predicted molecular weight of 650.7 kDa and a theoretical isoelectric point of 5.38. Notch1 was expressed in all tested tissues, with the highest expression in the ovary. The expression of notch1 in the RNA interference group was significantly lower than that in the control group between 12 and 48 h post-notch1 interference. The expression levels of key genes in the Notch signaling pathway, including jagged, delta and strawberry notch1 (sbno1); genes related to growth and development including chh, gih and mih; and genes related to ovary development including vitellogenin and cathepsin L, decreased significantly between 12 and 24 h post-notch1 interference and were significantly lower than that in the control. In situ hybridization showed that notch1 was highly expressed on both follicles and the cell membrane. The results showed that notch1 was involved in the growth and development of E. carinicauda, especially in the development of ovaries. This study elucidates growth and development mechanism of crustaceans and provides a theoretical basis for the molecular breeding of E. carinicauda.

Published

2023

4. Adapted laboratory evolution of Thermotoga sp. strain RQ7 under carbon starvation

Author

Jyotshana Gautam, Hui Xu, Junxi Hu, Christa Pennacchio, Anna Lipzen, Joel Martin, and Zhaohui Xu

Subjects

Adapted laboratory evolution, Thermotoga, Starvation adaptation, SNPs, Indels, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective Adaptive laboratory evolution (ALE) is an effective approach to study the evolution behavior of bacterial cultures and to select for strains with desired metabolic features. In this study, we explored the possibility of evolving Thermotoga sp. strain RQ7 for cellulose-degrading abilities. Results Wild type RQ7 strain was subject to a series of transfers over six and half years with cellulose filter paper as the main and eventually the sole carbon source. Each transfer was accompanied with the addition of 50 μg of Caldicellulosiruptor saccharolyticus DSM 8903 genomic DNA. A total of 331 transfers were completed. No cellulose degradation was observed with the RQ7 cultures. Thirty three (33) isolates from six time points were sampled and sequenced. Nineteen (19) of the 33 isolates were unique, and the rest were duplicated clones. None of the isolates acquired C. saccharolyticus DNA, but all accumulated small-scale mutations throughout their genomes. Sequence analyses revealed 35 mutations that were preserved throughout the generations and another 15 mutations emerged near the end of the study. Many of the affected genes participate in phosphate metabolism, substrate transport, stress response, sensory transduction, and gene regulation.

Published

2022

5. Development and validation of a machine learning model for survival risk stratification after esophageal cancer surgery

Author

Jinye Xu, Jianghui Zhou, Junxi Hu, Qinglin Ren, Xiaolin Wang, and Yusheng Shu

Subjects

esophageal neoplasms, machine learning, surgery, prognosis, survival risk stratification, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundPrediction of prognosis for patients with esophageal cancer(EC) is beneficial for their postoperative clinical decision-making. This study’s goal was to create a dependable machine learning (ML) model for predicting the prognosis of patients with EC after surgery.MethodsThe files of patients with esophageal squamous cell carcinoma (ESCC) of the thoracic segment from China who received radical surgery for EC were analyzed. The data were separated into training and test sets, and prognostic risk variables were identified in the training set using univariate and multifactor COX regression. Based on the screened features, training and validation of five ML models were carried out through nested cross-validation (nCV). The performance of each model was evaluated using Area under the curve (AUC), accuracy(ACC), and F1-Score, and the optimum model was chosen as the final model for risk stratification and survival analysis in order to build a valid model for predicting the prognosis of patients with EC after surgery.ResultsThis study enrolled 810 patients with thoracic ESCC. 6 variables were ultimately included for modeling. Five ML models were trained and validated. The XGBoost model was selected as the optimum for final modeling. The XGBoost model was trained, optimized, and tested (AUC = 0.855; 95% CI, 0.808-0.902). Patients were separated into three risk groups. Statistically significant differences (p < 0.001) were found among all three groups for both the training and test sets.ConclusionsA ML model that was highly practical and reliable for predicting the prognosis of patients with EC after surgery was established, and an application to facilitate clinical utility was developed.

Published

2022

6. RETRACTED ARTICLE: Silence of lncRNA ANRIL represses cell growth and promotes apoptosis in retinoblastoma cells through regulating miR-99a and c-Myc

Author

Xiaomin Wang, Xinxia Zhang, Yutong Han, Qiuli Wang, Yanfan Ren, Baojun Wang, and Junxi Hu

Subjects

Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

We, the Editors and Publisher of the journal Artificial Cells, Nanomedicine, and Biotechnology, have retracted the following article:Xiaomin Wang, Xinxia Zhang, Yutong Han, Qiuli Wang, Yanfan Ren, Baojun Wang & Junxi Hu (2019) Silence of lncRNA ANRIL represses cell growth and promotes apoptosis in retinoblastoma cells through regulating miR-99a and c-Myc. Artificial Cells, Nanomedicine, and Biotechnology, 47:1, 2265–2273, DOI: 10.1080/21691401.2019.1623229Since publication, concerns have been raised about the integrity of the data in the article. When approached for an explanation, the authors have been unable to verify their original data.We have been informed in our decision-making by our policy on publishing ethics and integrity and the COPE guidelines on retractions.The retracted article will remain online to maintain the scholarly record, but it will be digitally watermarked on each page as ‘Retracted’.

Published

2019

7. Complete genome sequence of Thermotoga sp. strain RQ7

Author

Zhaohui Xu, Rutika Puranik, Junxi Hu, Hui Xu, and Dongmei Han

Subjects

Thermotoga, T. sp. strain RQ7, Natural competence, CRISPR, Restriction-modification system, TneDI, Genetics, QH426-470

Abstract

Abstract Thermotoga sp. strain RQ7 is a member of the family Thermotogaceae in the order Thermotogales. It is a Gram negative, hyperthermophilic, and strictly anaerobic bacterium. It grows on diverse simple and complex carbohydrates and can use protons as the final electron acceptor. Its complete genome is composed of a chromosome of 1,851,618 bp and a plasmid of 846 bp. The chromosome contains 1906 putative genes, including 1853 protein coding genes and 53 RNA genes. The genetic features pertaining to various lateral gene transfer mechanisms are analyzed. The genome carries a complete set of putative competence genes, 8 loci of CRISPRs, and a deletion of a well-conserved Type II R-M system.

Published

2017

8. Microbial carbon use efficiency in soil under N deposition: Meta-analysis of 13C and 18O approaches

Author

Yakov Kuzyakov, Junxi Hu, Congde Huang, and Shixing Zhou

Abstract

The carbon use efficiency (CUE) of soil microorganisms is a critical parameter for the first step of organic carbon (C) transformation by and incorporation into microbial biomass and shapes C cycling in terrestrial ecosystems. As C and nitrogen (N) cycles interact closely and N availability affects microbial metabolism, N addition to soil may shift the microbial CUE. We conducted a meta-analysis (100 data pairs) to generalize information about the microbial CUE response to N addition in soil based on the two most common CUE estimation approaches: (i) 13C-labelled substrate addition (13C-substrate) and (ii) 18O-labelled water addition (18O-H2O).The mean microbial CUE in soils across all biomes and approaches was 0.37. The effects of N addition on CUE, however, were depended on the approach: CUE decreased by 12% if measured by the 13C-substrate approach, while CUE increased by 11% if measured by the 18O-H2O approach. These differences in the microbial CUE response depending on the estimation approach are explained by the divergent reactions of microbial growth to N addition: N addition decreases the 13C incorporation into microbial biomass (this parameter is in the numerator by CUE calculation based on the 13C-substrate approach). In contrast, N addition slightly increases (although statistically insignificant) the microbial growth rate (in the numerator of the CUE calculation when assessed by the 18O-H2O approach), significantly raising the CUE. We explained these N addition effects based on CUE regulation mechanisms at the metabolic, cell, community, and ecosystem levels. Consequently, the differences in the microbial responses (microbial growth, respiration, C incorporation, community composition, and dormant or active states) between the 13C-substrate and 18O-H2O approaches need to be considered. Thus, these two CUE estimation approaches should be compared to understand microbially mediated C and nutrient dynamics under increasing anthropogenic N input and other global change effects.ReferenceHu J, Huang C, Zhou S, Kuzyakov Y 2022. Nitrogen deposition affects microbial carbon use efficiency: Meta-analysis of similarities and differences in 18O and 13C approaches. Global Change Biology 28 (16), 4977-4988. http://doi.org/10.1111/gcb.1622

Published

2023

9. The Response of Mesofauna to Nitrogen Deposition and Reduced Precipitation during Litter Decomposition

Author

Shixing Zhou, Junxi Hu, Xiong Liu, Xingcheng Zou, Lin Xiao, Dongyu Cao, Lihua Tu, Xinglei Cui, and Congde Huang

Subjects

Forestry, global change, soil biota, decomposition process, litter layer, biodiversity

Abstract

Soil mesofauna plays an important role in decomposing organic matter, recycling nutrients, and increasing nutrient availability. The effects of nitrogen (N) deposition and reduced precipitation on the litter-dwelling mesofaunal community and how this process affects litter decomposition remain poorly understood. Herein, a two-year simulated N deposition and throughfall reduction experiment was carried out in a natural evergreen broad-leaved subtropical forest to examine the effects of N deposition and reduced precipitation on soil mesofauna during litter decomposition. Four treatments were established: control (CK), N deposition (N), reduced precipitation (RP), and combined N deposition and reduced precipitation (N + RP). We collected and identified 19,782 individuals of mesofauna in litterbags during the whole experiment. Mites (Prostigmata, Mesostigmata, and Oribatida) and Collembola comprised almost 90% of the total number of individuals collected and dominated the soil mesofauna in our study. Our results revealed the negative effects of N deposition on the density of Oribatida mites and Collembola and the total density of soil mesofauna. Reduced precipitation significantly increased the density of Collembola and Oribatida mites and the total density of mesofauna and marginally significantly increased the density of Mesostigmata mites but decreased the diversity of mesofauna. The interaction effects of N deposition and reduced precipitation significantly affected the density of Prostigmata mites, Oribatida mites, Collembola, and the diversity of mesofauna. N deposition combined with reduced precipitation significantly inhibited litter decomposition, whereas no significant interaction effects were observed. Furthermore, correlation analysis indicated that litter mass loss was significantly positively correlated with the density of Prostigmata, Mesostigmata, and Oribatida, as well as the diversity of mesofauna. Overall, during the two-year decomposition process, our results suggest that N deposition and reduced precipitation interactively affected mesofaunal diversity and that N deposition adversely affected the mesofaunal community, while reduced precipitation increased the density of some groups but decreased mesofaunal diversity, consequently cascading on the decomposition of leaf litter.

Published

2023

10. McKeown esophagectomy: robot-assisted versus conventional minimally invasive technique—systematic review and meta-analysis

Author

Jianghui Zhou, Jinye Xu, Liangliang Chen, Junxi Hu, and Yusheng Shu

Subjects

Esophagectomy, Postoperative Complications, Treatment Outcome, Esophageal Neoplasms, Robotic Surgical Procedures, Gastroenterology, Humans, Minimally Invasive Surgical Procedures, Robotics, General Medicine, Retrospective Studies

Abstract

Background and purpose: This meta-analysis assesses the surgical outcomes between robot-assisted minimally-invasive McKeown esophagectomy and conventional one. Method: This meta-analysis searched the Web of Science, PUBMED, and EMBASE from the database’s inception to January 2022. Altogether, 1073 records were identified in the literature search. Studies that evaluated the outcomes between robot-assisted minimally-invasive McKeown esophagectomy and conventional one among postoperative patients with oesophageal neoplasms were included. The assessed outcomes involved complications and clinical outcomes. In addition, heterogeneity was analyzed, and evidence quality was evaluated. Result: Evidence indicated that RAMIE (minimally-invasive esophagectomy assisted with robot) decreased incidences of lung complications and hospital stay as well as increased harvested lymph nodes. Conclusions: There was currently little evidence from randomized studies depicting that robot surgery manifested a clear overall advantage, but there was growing evidence regarding the clinical benefits of robot-assisted minimally invasive McKeown esophagectomy over conventional one.

Published

2022

11. The Effect Of The Perioperative Waiting Time On Postoperative Survival Of Patients With Esophageal Cancer

Author

LiangLiang Chen, Junxi Hu, null XiaolinWang, Shichun Lu, Chao Sun, and Yusheng Shu

Abstract

Objective Investigate the influence of the perioperative waiting time on postoperative survival of patients with esophageal cancer.Methods We enrolled 299 patients with stageⅠ~Ⅲ esophageal cancer from the Department of Thoracic Surgery, Subei People’s Hospital from January 1, 2015 to December 31, 2015. The method of multivariate analysis is the COX regression analysis to model the effect of the perioperative waiting time on OS rate. The nonparametric tests (K-W test) and Spearman were used to analyze factors influencing the perioperative waiting time.Results The median duration of the follow-up for patients in this study is 74 months (IQR 69-79 months). The 1-year, 3-year and 5-year survival rates of patients with perioperative waiting time less than 10 days were 92.30% vs 77.40% vs 67.20%, respectively. The 1-year, 3-year and 5-year survival rates were 93.80% vs 67.20% vs 54.70% , with the waiting time more than 10 days. The result showed that Charlson comorbidity index (CCI), clinical stage , lymph node metastasis, operation time and perioperative waiting time were the independent factors for postoperative survival of esophageal cancer patients (PConclusions The perioperative waiting time can affect the survival of patients with esophageal cancer after surgery.

Published

2022

12. Nitrogen addition to soil affects microbial carbon use efficiency: Meta-analysis of similarities and differences in

Author

Junxi, Hu, Congde, Huang, Shixing, Zhou, and Yakov, Kuzyakov

Subjects

Soil, Nitrogen, Biomass, Carbon, Ecosystem, Soil Microbiology

Abstract

The carbon use efficiency (CUE) of soil microorganisms is a critical parameter for the first step of organic carbon (C) transformation by and incorporation into microbial biomass and shapes C cycling in terrestrial ecosystems. As C and nitrogen (N) cycles interact closely and N availability affects microbial metabolism, N addition to soil may shift the microbial CUE. We conducted a meta-analysis (100 data pairs) to generalize information about the microbial CUE response to N addition in soil based on the two most common CUE estimation approaches: (i)

Published

2022

13. The Responses of Leaf Litter Calcium, Magnesium, and Manganese Dynamics to Simulated Nitrogen Deposition and Reduced Precipitation Vary with Different Decomposition Stages

Author

Xiong Liu, Anjiu Zhao, Yudie Yang, Liehua Tie, Lihua Tu, Congde Huang, Xingcheng Zou, Xinglei Cui, Junxi Hu, Gang Yan, Lin Xiao, Shixing Zhou, Jiaming Lai, and Rongze Yuan

Subjects

Magnesium, chemistry.chemical_element, Forestry, Manganese, drought, Plant litter, Throughfall, Decomposition, Nitrogen, Nutrient, chemistry, Environmental chemistry, micronutrients, acid deposition, mineral nutrient, QK900-989, Plant ecology, Deposition (chemistry), global change

Abstract

Litter decomposition is a vital link between material circulation and energy flow in forest ecosystems and is intensely affected by global change factors, such as increased nitrogen (N) deposition and altered precipitation regimes. As essential nutrients, calcium (Ca), magnesium (Mg), and manganese (Mn) play crucial roles in plant energy metabolism, photosynthesis, and membrane transport of plants, and the major source of these nutrients is litter decomposition. However, the dynamics of Ca, Mg, and Mn during decomposition have been largely ignored. Thus, to better understand Ca, Mg, and Mn dynamics during leaf litter decomposition in the scenario of increasing N deposition and decreasing precipitation, we carried out a two-year field litterbag experiment in a natural evergreen broad-leaved forest in the central area of the rainy area of Western China. Two levels of N deposition (ambient N deposition and 150 kg·N·ha−1·y−1) and precipitation reduction (no throughfall reduction and 10% throughfall reduction) were set, i.e., control (Ctr: without nitrogen deposition or throughfall reduction), N deposition (N, 150 kg·N·ha−1·y−1), throughfall reduction (T, 10% throughfall reduction), and N deposition and throughfall reduction (NT, 150 kg·N·ha−1·y−1 and 10% throughfall reduction). We found that leaf litter Ca concentration increased in the early decomposition stage and then decreased, while Mg and Mn concentrations generally decreased during the whole period of decomposition. The amount of Ca showed an accumulation pattern, while Mg and Mn generally showed a release pattern. N deposition and throughfall reduction affected the Ca, Mg, and Mn dynamics, varying with different decomposition stages, i.e., N deposition significantly affected the concentration and amount of Ca, regardless of the decomposition stages, while throughfall reduction significantly affected the Ca concentration in the whole and early decomposition stages. N deposition significantly affected the concentration and amount of Mg in the whole and early decomposition stages, while throughfall reduction had no significant effects. Throughfall reduction significantly affected the concentration and amount of Mn in the whole and late decomposition stages, while N deposition had no significant effects. Ca concentration generally showed a significant positive linear relationship with mass loss in the early decomposition stage, Mg concentration showed a significant positive linear relationship with mass loss in the Ctr and N treatments in the early and late decomposition stages, Mn generally showed a significant negative linear relationship with mass loss, regardless of the decomposition stage. Overall, the results suggest that Ca accumulation is more likely affected by N deposition, while Mg and Mn releases are more likely affected by N deposition combined with throughfall reduction, particularly in the early decomposition stage.

Published

2021

14. RETRACTED ARTICLE: Silence of lncRNA ANRIL represses cell growth and promotes apoptosis in retinoblastoma cells through regulating miR-99a and c-Myc

Author

Baojun Wang, Yanfan Ren, Qiuli Wang, Yutong Han, Xinxia Zhang, Junxi Hu, and Xiaomin Wang

Subjects

medicine.diagnostic_test, Retinoblastoma, Cell growth, Chemistry, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), 02 engineering and technology, General Medicine, Transfection, 021001 nanoscience & nanotechnology, medicine.disease, eye diseases, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Apoptosis, 030220 oncology & carcinogenesis, medicine, Cancer research, Viability assay, 0210 nano-technology, Protein kinase B, PI3K/AKT/mTOR pathway, Biotechnology

Abstract

Retinoblastoma is a rare cancer of the immature retina. This study designed to see the function of the lncRNA ANRIL in retinoblastoma Y79 cells. ANRIL, miR-99a and c-Myc expression in Y79 cells was altered by transfection and then trypan blue, transwell assay and flow cytometry were carried out to evaluate the changes of cell phenotype. The connection between ANRIL, miR-99a and c-Myc was measured by luciferase reporter assay and RNA immunoprecipitation analysis. As a result, ANRIL expression was highly expressed in human retinoblastoma tissue as relative to the adjacent noncancerous tissues. ANRIL suppression inhibited Y79 cells viability, migration, invasion, while promoted apoptosis. ANRIL negatively regulated miR-99a by binding to miR-99a. Silence of miR-99a reversed the ANRIL-knockdown effects on Y79 cells. miR-99a overexpression suppressed Y79 cell viability, migration, invasion, and enhanced apoptosis through downregulating c-Myc. Meanwhile, we found that miR-99a inhibited JAK/STAT and PI3K/AKT pathways. To conclude, it seems that ANRIL suppression inhibits cell growth and metastasis in retinoblastoma Y79 cells by regulating miR-99a and c-Myc.

Published

2019

15. The amounts and ratio of nitrogen and phosphorus addition drive the rate of litter decomposition in a subtropical forest

Author

Liehua Tie, Junxi Hu, Josep Peñuelas, Jordi Sardans, Shengzhao Wei, Xing Liu, Shixing Zhou, and Congde Huang

Subjects

China, Environmental Engineering, beta-Fructofuranosidase, Nitrogen, Acid Phosphatase, Phosphorus, Forests, Lignin, Pollution, Carbon, Plant Leaves, Soil, Cellulases, Environmental Chemistry, Waste Management and Disposal, Ecosystem

Abstract

Nitrogen (N) and phosphorus (P) control biogeochemical cycling in terrestrial ecosystems. However, N and P addition effects on litter decomposition, especially biological pathways in subtropical forests, remain unclear. Here, a two-year field litterbag experiment was employed in a subtropical forest in southwestern China to examine N and P addition effects on litter biological decomposition with nine treatments: low and high N- and P-only addition (LN, HN, LP, and HP), NP coaddition (LNLP, LNHP, HNLP, and HNHP), and a control (CK). The results showed that the decomposition coefficient (k) was higher in NP coaddition treatments (P0.05), and lower in N- and P-only addition treatments than in CK (P0.05). The highest k was observed with LNLP (P0.05). The N- and P-only addition treatments decreased the losses of litter mass, lignin, cellulose, and condensed tannins, litter microbial biomass carbon (MBC), litter cellulase, and soil pH (P0.05). The NP coaddition treatments increased the losses of litter mass, lignin, and cellulose, MBC concentration, litter invertase, urease, cellulase, and catalase activities, soil arthropod diversity (S) in litterbags, and soil pH (P0.05). Litter acid phosphatase activity and N:P ratio were lower in N-only addition treatments but higher in P-only addition and NP coaddition treatments than in CK (P0.05). Structural equation model showed that litter MBC, S, cellulase, acid phosphatase, and polyphenol oxidase contributed to the loss of litter mass (P0.05). The litter N:P ratio was negatively logarithmically correlated with mass loss (P0.01). In conclusion, the negative effect of N addition on litter decomposition was reversed when P was added by increasing decomposed litter soil arthropod diversity, MBC concentration, and invertase and cellulase activities. Finally, the results highlighted the important role of the N:P ratio in litter decomposition.

Published

2022

16. Responses of Soil C-, N-, and P-Hydrolyzing Enzyme Activities to N and P Addition in an Evergreen Broad-Leaved Forest in Southwest China

Author

Shuai Yang, Yudie Yang, Anjiu Zhao, Jiaming Lai, Xiong Liu, Lin Xiao, Junxi Hu, Xinglei Cui, Congde Huang, Shengzhao Wei, Liehua Tie, Xing Liu, and Shixing Zhou

Subjects

chemistry.chemical_classification, Enzyme, chemistry, Botany, Biology, Evergreen, China

Abstract

Background and Aims Human activities-mediated input of nitrogen (N) and phosphorus (P) to ecosystem may significantly affect soil hydrolyzing enzyme activities (Hy-EAs). However, the mechanisms underlying the responses of soil Hy-EAs to change in N and P availability remains unclear. Methods Here, a two-year field N and P addition experiment was conducted in a subtropical evergreen broad-leaved forest to elucidate the effects of N addition, P addition, and NP co-additions on soil Hy-EAs and biochemistry properties. Results The invertase, cellulase, and acid phosphatase activities were increased in N treatment but reduced in P treatment. The urease activity was reduced in N treatment but did not alter in P treatment. NP treatment significantly increased the invertase and cellulase activities. Furthermore, the cellulase activity was positively correlated with soil organic carbon concentration. The acid phosphatase activity was negatively correlated with microbial biomass carbon (MBC), total P, and available P concentrations. Whereas the urease activity was not strongly dependent on total N concentrations, but positively correlated with soil pH and MBC. These Hy-EAs were significantly correlated with C-to-P and N-to-P ratios, while no significantly correlation with C-to-N ratio. Conclusions Overall, our results indicated that N and P addition significantly affected the soil C-, N-, and P-hydrolyzing enzyme activities. With ongoing imbalanced N and P input in our studied subtropical evergreen broad-leaved forest, N addition may exacerbate the limitation of soil C and P availability, while the exogenous P addition may improve the soil C and P availability.

Published

2021

17. Density Management Is More Cost Effective than Fertilization for Chimonobambusa pachystachys Bamboo-Shoot Yield and Economic Benefits

Author

Xiong Liu, Shixing Zhou, Junxi Hu, Weiyu Zhu, Yilin Zhou, Xianmin Pan, Yuxiang Wang, Yang Lei, Lin Xiao, and Congde Huang

Subjects

density management, fertilization, bamboo-shoot yield, economic benefit, Chimonobambusa pachystachys, Forestry

Abstract

Stand-density management and fertilization practices are the main two factors affecting bamboo-shoot yield. However, the appropriate density and fertilization rates are still unclear for improving the bamboo-shoot yield and its economic benefits, especially for a high economic value bamboo-shoot forest. To fill this gap, we conducted a two-year split-plot design experiment in a Chimonobambusa pachystachys shoot forest. The main plots were assigned to five density rates, 40,000, 50,000, 60,000, 70,000, and 100,000 culms ha−1, and the subplots were assigned to four fertilization rates (nitrogen:phosphorus:potassium = 23:3:15): 0, 820, 1640, and 2460 kg ha−1 a−1. Results showed that the bamboo-shoot yield increased first and then decreased with stand density, while it increased with fertilization rates. Density management and fertilization regulate bamboo-shoot yield by changing the soil’s Olsen P, available nitrogen, organic matter, and available potassium contents. The maximum bamboo-shoot yield was 9315.92 kg ha−1, which appeared in the density of 60,000 culms ha−1 and the fertilization of 2460 kg ha−1 a−1. However, the maximum bamboo-shoot net profit was 135,242.63 CNY ha−1, which appeared at the density of 60,000 culms ha−1 and the fertilization of 1640 kg ha−1 a−1. The economic-benefit analysis shows that density management achieves a net-profit growth comparable to fertilizer application at a much lower cost. The study results provide a basis for the scientific management of C. pachystachys shoot forests and bamboo farmers to improve their income.

Published

2022

18. Nitrogen addition increases microbial necromass in croplands and bacterial necromass in forests: A global meta-analysis

Author

Junxi Hu, Congde Huang, Shixing Zhou, Xiong Liu, and Feike A. Dijkstra

Subjects

Soil Science, Microbiology

Published

2022

19. A polysaccharide from green tea (Camellia sinensis L.) protects human retinal endothelial cells against hydrogen peroxide-induced oxidative injury and apoptosis

Author

Yutong Han, Xinxia Zhang, Huiqing Guo, Yitao Yan, Xinmin Li, Yanfan Ren, and Junxi Hu

Subjects

0301 basic medicine, Programmed cell death, Apoptosis, medicine.disease_cause, Biochemistry, Antioxidants, Camellia sinensis, Retina, Cell Line, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Polysaccharides, Structural Biology, medicine, Humans, Molecular Biology, chemistry.chemical_classification, Retinal pigment epithelium, biology, Glutathione peroxidase, Endothelial Cells, Hydrogen Peroxide, General Medicine, Glutathione, Molecular biology, Oxidative Stress, 030104 developmental biology, medicine.anatomical_structure, chemistry, Cytoprotection, Catalase, 030220 oncology & carcinogenesis, biology.protein, Lipid Peroxidation, Oxidative stress

Abstract

Oxidative damage of retinal pigment epithelium (RPE) cells is involved in the pathogenesis age related macular degeneration (AMD). The purpose of this study was to evaluate the potential protective effect of a purified green tea polysaccharide (GTWP) against hydrogen peroxide (H2O2) induced oxidative stress and apoptosis in human retinal pigment epithelial cells (ARPE-19 cells). Human ARPE-19 cells were treated with 1 h of 500 μM H2O2 before incubation with GTWP for 24 h. Pretreatment of GTWP decreased H2O2-induced cell death and cell apoptosis, and efficiently suppressed the intracellular ROS production and malondialdehyde (MDA) generation induced by H2O2 treatment. Moreover, a loss of superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx) and glutathione (GSH) activities were restored to normal level in H2O2-induced ARPE-19 cells upon GTWP (100 μg/ml) exposure. Also, the tendency of increased protein expression of Bax and cleaved-caspsae-3, as well as decrease of Bcl-2 protein in ARPE-19 cells challenged with H2O2 was changed to individual opposite way, thus inhibiting the apoptotic cell death. Our results demonstrated that GTWP protected RPE cells against oxidative injury through activation of anti-apoptotic and endogenous antioxidant enzymes signaling pathway, suggesting GTWP has attractive therapeutic potential to AMD.

Published

2018

20. Phosphorus addition reverses the negative effect of nitrogen addition on soil arthropods during litter decomposition in a subtropical forest

Author

Liehua Tie, Josep Peñuelas, Junxi Hu, Guille Peguero, Shengzhao Wei, Congde Huang, Xing Liu, Jordi Sardans, and Shixing Zhou

Subjects

Environmental Engineering, 010504 meteorology & atmospheric sciences, Phosphorus, chemistry.chemical_element, 010501 environmental sciences, 01 natural sciences, Pollution, Nitrogen, Diversity index, chemistry.chemical_compound, Animal science, chemistry, Soil pH, Litter, Environmental Chemistry, Lignin, Terrestrial ecosystem, Tropical and subtropical moist broadleaf forests, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

The increase in the nitrogen/phosphorus (N/P) ratio with rising N deposition is changing the biodiversity and function of terrestrial ecosystems at an unprecedented speed. However, the specific effects of P addition and its interaction with N on soil arthropods during litter decomposition in forests are unclear. A two-year experiment was carried out in western China to examine the effects of N and P addition on soil arthropods during litter decomposition. We applied a factorial design in a litterbag experiment combining two levels of low and high N and P alone addition (LN, HN, LP, and HP) and their coaddition (LNLP, LNHP, HNLP, and HNHP), including a no-addition control treatment (CK). The results show that soil pH, litter microbial biomass carbon (MBC), soil arthropod group number (G), individual number (I), diversity index (S), and richness index (M) were lower in the LN and HN treatments than in CK. Compared with CK, the LP and HP treatments reduced I but did not alter G, S, and M. The MBC, soil pH, and G, I, S, and M were higher and the cellulose and lignin concentrations and soil arthropod dominance index values were lower in the LNLP, LNHP, HNLP, and HNHP treatments than in CK. The positive effects of the LNLP, LNHP, HNLP, and HNHP treatments on the soil arthropods were related to the increased MBC and soil pH and decreased cellulose and lignin concentrations and litter N/P ratio. The litter N/P ratio was inversely related to the soil arthropod diversity. In conclusion, the negative effect of N addition on soil arthropod diversity during litter decomposition was reversed when P was added by shifting the MBC, cellulose and lignin concentrations, soil pH, and litter N/P ratio. Thus, increased P availability under rising N deposition scenarios may enhance soil arthropod diversity in this forest.

Published

2021

21. Silence of lncRNA ANRIL represses cell growth and promotes apoptosis in retinoblastoma cells through regulating miR-99a and c-Myc

Author

Xiaomin, Wang, Xinxia, Zhang, Yutong, Han, Qiuli, Wang, Yanfan, Ren, Baojun, Wang, and Junxi, Hu

Subjects

Proto-Oncogene Proteins c-myc, MicroRNAs, Cell Movement, Cell Line, Tumor, Retinoblastoma, Humans, Apoptosis, Neoplasm Invasiveness, RNA, Long Noncoding, Gene Silencing, Cell Proliferation

Abstract

Retinoblastoma is a rare cancer of the immature retina. This study designed to see the function of the lncRNA ANRIL in retinoblastoma Y79 cells. ANRIL, miR-99a and c-Myc expression in Y79 cells was altered by transfection and then trypan blue, transwell assay and flow cytometry were carried out to evaluate the changes of cell phenotype. The connection between ANRIL, miR-99a and c-Myc was measured by luciferase reporter assay and RNA immunoprecipitation analysis. As a result, ANRIL expression was highly expressed in human retinoblastoma tissue as relative to the adjacent noncancerous tissues. ANRIL suppression inhibited Y79 cells viability, migration, invasion, while promoted apoptosis. ANRIL negatively regulated miR-99a by binding to miR-99a. Silence of miR-99a reversed the ANRIL-knockdown effects on Y79 cells. miR-99a overexpression suppressed Y79 cell viability, migration, invasion, and enhanced apoptosis through downregulating c-Myc. Meanwhile, we found that miR-99a inhibited JAK/STAT and PI3K/AKT pathways. To conclude, it seems that ANRIL suppression inhibits cell growth and metastasis in retinoblastoma Y79 cells by regulating miR-99a and c-Myc.

Published

2019

22. Responses of soil C, N, and P stoichiometric ratios to N and S additions in a subtropical evergreen broad-leaved forest

Author

Shixing Zhou, Jordi Sardans, Shibin Zhang, Junxi Hu, Liehua Tie, Josep Peñuelas, and Congde Huang

Subjects

Biogeochemical cycle, Acid deposition, Subtropical forest, Urease, Soil Science, chemistry.chemical_element, 010501 environmental sciences, complex mixtures, 01 natural sciences, Nitrogen-phosphorus imbalance, Animal science, Ecological stoichiometry, 0105 earth and related environmental sciences, 2. Zero hunger, biology, Soil organic carbon, Chemistry, Acid phosphatase, 04 agricultural and veterinary sciences, 15. Life on land, Evergreen, Nitrogen, Sulfur, 6. Clean water, Nutrient limitation, 040103 agronomy & agriculture, biology.protein, 0401 agriculture, forestry, and fisheries, Deposition (chemistry), Soil enzyme activities

Abstract

Acid deposition from the emission of nitrogen (N) and sulfur (S) has become an important factor affecting the soil nutrient balance and biogeochemical cycling in terrestrial ecosystems. The average levels of N and S deposition in the rainy area of southwestern China from 2008 to 2010 were 9.5 g N m−2 y−1 and 19.3 g S m−2 y−1, respectively. External additions of N and S fertilizers combined with high levels of acid deposition may affect the soil ecological stoichiometry in the region’s widely distributed subtropical evergreen broad-leaved forest. Therefore, we investigated the responses of the soil stoichiometric ratios and enzyme activities to added N (+N), added S (+S), added N and S (+NS), and a control (Ctr) in the 0–20 cm layer in an evergreen broad-leaved forest in the rainy area of southwestern China from April 2013 to April 2015. The results showed that the soil total N (TN) concentration and N/P ratio were higher and the soil organic C (SOC) concentration and C/N ratio were lower in the fertilization treatments than the Ctr, although N and S additions did not significantly alter the soil total P (TP) concentration. The +N, +S, and +NS treatments increased the soil acid phosphatase activity and reduced the soil invertase, cellulase, catalase, and polyphenol oxidase activities. The +N and +NS treatments increased the soil urease activity and reduced soil peroxidase activity. The +S treatment reduced the soil urease activity and did not alter soil peroxidase activity. N and S additions had synergistic decreasing effects on the SOC concentration, C/N ratio, and soil cellulose and catalase activities. Moreover, structural equation models identified that N and S additions regulated the SOC, TN, and TP concentrations via shifting the activities of soil enzymes and the pathways differed between N addition and S addition. In conclusion, N and S additions decreased the SOC concentration, C/N ratio, and most soil C-cycle enzyme activities and increased the TN concentration, N/P ratio, and soil acid phosphatase activity. All these results indicated that external N and S additions combined with acid deposition increased soil N concentrations and exacerbated soil C and P limitations in this forest.

Published

2020

23. Draft Genome Sequence of Anaerobic Fermentative Bacterium Anaeromicrobium sediminis DY2726D

Author

Junxi Hu, Xiang Zeng, Jing Zhang, and Xiaobo Zhang

Subjects

0301 basic medicine, Whole genome sequencing, Genetics, biology, Contig, Genome project, biology.organism_classification, Genome, Pacific ocean, 03 medical and health sciences, 030104 developmental biology, Anaeromicrobium sediminis, Clostridiaceae, Prokaryotes, Molecular Biology, Bacteria

Abstract

Here, we report the draft genome sequence of Anaeromicrobium sediminis DY2726D, isolated from a west Pacific Ocean sediment sample. The genome comprises 4,710,590 bp in 56 contigs, with a G+C content of 31.2%. A total of 3,811 protein-coding sequences were predicted. The genome annotation revealed that DY2726D may represent a marine type of Clostridiaceae .

Published

2018

24. Frequent convergence of mcr-9 and carbapenemase genes in Enterobacter cloacae complex driven by epidemic plasmids and host incompatibility

Author

Tingting Xu, Chun-Xu Xue, Yuxin Chen, Junxi Huang, Weiyuan Wu, Yuemei Lu, Qiuhui Huang, Dandan Chen, and Kai Zhou

Subjects

Enterobacter cloacae complex, mcr-9, carbapenemase, epidemic plasmid, antibiotic resistance, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Convergence of mcr and carbapenemase genes has been sporadically detected in Enterobacter cloacae complex (ECC) with an upward trend. However, the state of the epidemic and underlying mechanism of such convergence has been poorly understood. In this study, the co-occurrence of MCR and carbapenemases was systematically analyzed in 230 clinical ECC isolates collected between 2000 and 2018 together with a global dataset consisting of 3,559 ECC genomes compiled from GenBank. We identified 48 mcr-9/mcr-10-positive isolates (MCR-ECC) (20.9%) in our collection, and a comparable ratio of MCR-ECC (720/3559, 20.2%) was detected in the global dataset. A high prevalence of carbapenemase-producing MCR-ECC (MCR-CREC) was further identified in the MCR-ECC of both datasets (16/48, 33.3%; 388/720, 53.9%), demonstrating a frequent convergence of mcr-9/10 and carbapenemase genes in ECC worldwide. An epidemic IncHI2/2A plasmid with a highly conserved backbone was identified and largely contributed to the dissemination of mcr-9 in ECC worldwide. A highly conserved IncX3-type NDM-1-carrying plasmid and IncN-type IMP-4-carrying plasmid were additionally detected in MCR-CREC isolated in China. Our surveillance data showed that MCR-CREC emerged (in 2013) much later than MCR-ECC (in 2000), indicating that MCR-CREC could be derived from MCR-ECC by additional captures of carbapenemase-encoding plasmids. Tests of plasmid stability and incompatibility showed that the mcr-9/mcr-10-encoding plasmids with the NDM-1-encoding plasmids stably remained in ECC but incompatible in Escherichia coli, suggesting that the convergence was host-dependent. The findings extend our concern on the convergence of resistance to the last resort antibiotics and highlight the necessity of continued surveillance in the future.

Published

2022

25. Analysis and curative effect of ocular ischemic diseases caused by carotid artery stenosis

Author

Yitao Yan, Yuxin Yang, Xinli Zhang, Liying Han, Junxi Hu, and Huimin Wang

Subjects

Curative effect, Cancer Research, medicine.medical_specialty, curative effect, Medical treatment, business.industry, Carotid arteries, medicine.medical_treatment, Articles, General Medicine, Disease, Clinical manifestation, Carotid endarterectomy, carotid artery stenosis, medicine.disease, Surgery, Stenosis, Immunology and Microbiology (miscellaneous), cardiovascular system, medicine, Effective treatment, cardiovascular diseases, ocular ischemia, business

Abstract

Carotid artery stenosis is a notable cause of ocular ischemic disease. To analyze the ocular ischemic diseases caused by carotid artery stenosis and to seek effective treatment, a retrospective review of 182 patients with carotid artery stenosis was performed. These patients were administered medical treatment, carotid artery stenting (CAS) or carotid endarterectomy (CEA) and the curative effects of the three different treatments were compared. The results demonstrated that all three treatments helped to improve the disease. Both carotid endarterectomy and carotid artery stenting were more effective than medical treatment (P0.05). In conclusion, timely diagnosis and suitable treatment for ocular ischemic diseases caused by carotid artery stenosis are necessary due to the complicated clinical manifestation. This study suggested that carotid endarterectomy and carotid artery stenting are effective techniques that may relieve this disease.

Published

2013

26. Design and Experimental Analysis of Full-Automatic Virus-Free Seedcane Seed-Metering Device

Author

Xuehu, Dong, primary, Ming, Li, additional, Zhaojun, Niu, additional, and Junxi, Hu, additional

Published

2017

27. Vibrio cholerae senses human enteric α-defensin 5 through a CarSR two-component system to promote bacterial pathogenicity

Author

Yutao Liu, Tingting Xu, Qian Wang, Junxi Huang, Yangfei Zhu, Xingmei Liu, Ruiying Liu, Bin Yang, and Kai Zhou

Subjects

Biology (General), QH301-705.5

Abstract

The antimicrobial peptide human defensin-5 (HD-5) is found to upregulate Vibrio cholera virulence genes in a manner dependent on the two-component system, CarSR, providing insights into how the cholera pathogen responds to intestinal HD-5.

Published

2022

28. Occurrence and Characteristics of Mcrs among Gram-Negative Bacteria Causing Bloodstream Infections of Infant Inpatients between 2006 and 2019 in China

Author

Lijuan Wu, Tingting Xu, Yang Ji, Jingjie Song, Feiling Wang, Junxi Huang, and Kai Zhou

Subjects

bloodstream infections, infant, mcr-1, mcr-9, Microbiology, QR1-502

Abstract

ABSTRACT The aim of this study was to determine the occurrence of mobilized colistin resistance (mcr) genes in Gram-negative bacteria causing bloodstream infections of child inpatients in China. Bacteria were collected between 2006 and 2019 in a maternal and child health hospital, and mcr genes were screened by PCR. Five of 252 isolates were mcr-positive, including one mcr-1-positive colistin-resistant Escherichia coli isolate, two mcr-9-positive colistin-susceptible Salmonella enterica isolates, and two mcr-9-positive colistin-susceptible Enterobacter hormaechei isolates. These were obtained from two neonate and three infant patients admitted between 2009 and 2018. The E. coli isolate was obtained from a neonate aged 20 min, suggestive of a possible mother-to-neonate transmission. The five mcr-positive isolates were multidrug resistant, and two S. enterica and one E. hormaechei isolate showed a hypervirulent phenotype compared to a hypervirulent Klebsiella pneumoniae type strain in a Galleria mellonella infection model. The mcr-1 gene was carried by an IncX4-type pA1-like epidemic plasmid, and the mcr-9 gene was detected on IncHI2/2A-type novel plasmids co-carrying multiple resistance genes. The four IncHI2/2A-type plasmids shared a backbone and a high similarity (≥77% coverage and ≥ 90% nucleotide identity), suggesting that they were derived from a common ancestor with cross-species transmission and have circulated locally over a long period. The conjugation assay showed that the mcr-1-encoding plasmid and one mcr-9-encoding plasmid were self-transmissible to E. coli with high conjugation frequencies. Our findings demonstrate that mcr genes have disseminated in the community and/or hospitals, mediated by epidemic/endemic plasmids over a long period. The study shows that continuous monitoring of mcr genes is imperative for understanding and tackling their dissemination. IMPORTANCE Antimicrobial resistance, especially the spread of carbapenemase-producing Enterobacteriaceae (CPE), represents one of the largest challenges to One Health coverage of environmental, animal, and human sectors. Colistin is one of the last-line antibiotics for clinical treatment of CPE. However, the emergence of the mobilized colistin resistance (mcr) gene largely threatens the usage of colistin in the clinical setting. In this study, we investigated the existence of mcr genes in 252 Gram-negative bacteria collected between 2006 and 2019 which caused bloodstream infections of child inpatients in China. We found a high prevalence of mcr carriage among children inpatients in the absence of professional exposure, and mcr might have widely disseminated in the community via different routes. This study emphasizes the importance of rational use of colistin in the One Health frame, and highlights both the urgent need for understanding the prevalence and dissemination of mcr genes in different populations and the importance of effective measures to control their spread.

Published

2022