Your search keyword '"Linna Ma"' showing total 6 results

1. Strong non-growing season N uptake by deciduous trees in a temperate forest: A 15N isotopic experiment.

Author

Linna Ma, Xiaofeng Xu, Chaoxue Zhang, Yixia Lv, Guofang Liu, Qibing Zhang, Jinchao Feng, and Renzhong Wang

Subjects

*DECIDUOUS plants, *TEMPERATE forests, *TEMPERATE forest ecology, *NUTRIENT cycles, *SEASONS, *BOTTLENECKS (Manufacturing)

Abstract

1. Nitrogen (N) is a critical element for vegetation growth and subsequent carbon (C) and nutrient cycling in terrestrial ecosystems. Plant N uptake, the only pathway for plants to directly obtain N from soils, is a bottleneck process for ecosystem C and N cycling. Ecological theories predict that deciduous trees remain dormant and do not take up N during winters as no growth occurs during this season. 2. In this study, we adopted a 15N isotopic experiment to trace N processes throughout the non-growing season in a temperate forest in northern China. The 15N-labelled inorganic N (NH4+ and NO3-) and 13C15N-labelled organic N (glycine and tyrosine; equivalent to 150 mg 15N/m²) were applied to soils at mid-fall, and the 15N recovery in various components of dominant evergreen and deciduous species was analysed. 3. We found that soil N transformation remained active in the winter and microbial N immobilization reached its peak in late winter. Surprisingly, deciduous species maintained a high N uptake that was comparable with the evergreen species throughout the non-growing season. Perennial herbs did not take up N until the next spring. All plant species acquired inorganic N and simple amino acids, while only the tree species utilized complex amino acids. Throughout the non-growing season, evergreen and deciduous trees showed higher uptake rates for NH+ 4 and glycine than NO3- and tyrosine, while deciduous shrubs and herbs showed a stronger preference for NO3- over other N forms. 4. Synthesis. The finding that deciduous trees have strong N uptake in the nongrowing season challenges the conventional viewpoint that deciduous trees remain dormant during non-growing seasons. This mechanism might supplement the algorithm in the model representation of N-limited temperate forest ecosystems. [ABSTRACT FROM AUTHOR]

Published

2021

2. Analysis of Characteristics of Traditional Chinese Medicine External Treatment for Dyspepsia Based on Data Mining.

Author

Linna Ma, Erping Xu, Ming Bai, and Mingsan Miao

Subjects

*CHINESE medicine, *NONPRESCRIPTION drugs, *DATA mining, *INDIGESTION, *STATISTICAL software

Abstract

Objective. To explore the association rules of external treatment for dyspepsia based on data mining. Methods: With the theme of “indigestion”, from August 2019 to January 2015, we searched in China Knowledge Network and included 140 articles that met the standard, using Excel 2013, SPSS Modeler 14.1, SPSS Statistics 23.0 statistical software. The tool will analyze the frequency analysis and association rules of the external prescriptions and acupoints that meet the inclusion criteria. RESULTS: The frequency analysis found that among the 140 clinical treatment literatures, the single-flavored Chinese medicine Wujing (15,5.58%), cinnamon (15,5.58%) and Asarum (12,4.46%) had the highest frequency; in the sex statistics Sexual cold (15 times, 55.56%) and bitterness (15 times, 40.54%) were the most common; Zhongxin (18 times, 46.15%) and Gan (10 times, 25.64%) were the most common; The group with the highest correlation intensity was combined into 7 groups; the poly 3 group was the core acupoint compatibility in the system cluster analysis. Conclusion: The effective clinical prescription for clinical treatment of dyspepsia can be obtained by using modern information technology to obtain the most critical drugs for the treatment of dyspepsia, acupoint compatibility and potential innovation. It has the effect of reducing clinical over-the-counter medication and over-medication. Significance. [ABSTRACT FROM AUTHOR]

Published

2020

3. Soil Microbial Properties and Plant Growth Responses to Carbon and Water Addition in a Temperate Steppe: The Importance of Nutrient Availability.

Author

Linna Ma, Wenwen Huang, Chengyuan Guo, Renzhong Wang, and Chunwang Xiao

Subjects

*PLANT growth, *PLANT physiology, *CLIMATE change, *BIOMASS, *PRIMARY productivity (Biology)

Abstract

Background: Global climatic change is generally expected to stimulate net primary production, and consequently increase soil carbon (C) input. The enhanced C input together with potentially increased precipitation may affect soil microbial processes and plant growth. Methodology/Principal Findings: To examine the effects of C and water additions on soil microbial properties and plant growth, we conducted an experiment lasting two years in a temperate steppe of northeastern China. We found that soil C and water additions significantly affected microbial properties and stimulated plant growth. Carbon addition significantly increased soil microbial biomass and activity but had a limited effect on microbial community structure. Water addition significantly increased soil microbial activity in the first year but the response to water decreased in the second year. The water-induced changes of microbial activity could be ascribed to decreased soil nitrogen (N) availability and to the shift in soil microbial community structure. However, no water effect on soil microbial activity was visible under C addition during the two years, likely because C addition alleviated nutrient limitation of soil microbes. In addition, C and water additions interacted to affect plant functional group composition. Water addition significantly increased the ratio of grass to forb biomass in C addition plots but showed only minor effects under ambient C levels. Our results suggest that soil microbial activity and plant growth are limited by nutrient (C and N) and water availability, and highlight the importance of nutrient availability in modulating the responses of soil microbes and plants to potentially increased precipitation in the temperate steppe. Conclusions/Significance: Increased soil C input and precipitation would show significant effects on soil microbial properties and plant growth in the temperate steppe. These findings will improve our understanding of the responses of soil microbes and plants to the indirect and direct climate change effects. [ABSTRACT FROM AUTHOR]

Published

2012

4. Research of recombinant influenza A virus as a vector for Mycoplasma pneumoniae P1a and P30a.

Author

Yu, Liang, Yongbo, Wang, Shengjun, Yang, Jia, Tan, Ya, Xu, Guoyang, Liao, and Linna, Ma

Subjects

*RECOMBINANT viruses, *INFLUENZA vaccines, *MYCOPLASMA pneumoniae, *INFLUENZA A virus, *DNA vaccines

Abstract

Background: Mycoplasma pneumoniae (MP) is a common respiratory pathogen affecting the longevity of the elderly and the health of children. However, the human vaccine against MP has not been successfully developed till now due to the poor immunogenicity and side effects of MP inactivated or attenuated vaccine. Therefore, it is necessary to develop a MP genetic engineering vaccine with influenza virus strain as vector. Methods: In this study, the major antigen genes P1a of MP adhesion factor P1(3862‐4554 bases) and P30a of P30(49‐822 bases) were inserted into the nonstructural protein (NS) gene of Influenza A virus strain A/Puerto Rio/8/34(H1N1), PR8 for short, to construct the recombinant vectors NS‐P1a or NS‐P30a. The recombinant pHW2000 plasmids containing NS‐P1a or NS‐P30a were cotransfected with the rest 7 fragments of PR8 into HEK293T cells. After inoculating chicken embryos, the recombinant influenza viruses rFLU‐P1a and rFLU‐P30a were rescued. RT‐PCR and sequencing were used to identify the recombinant viruses. The hemagglutination titers of rFLU‐P1a and rFLU‐P30a were determined after five successive generations in chicken embryos so as to indicate the genetic stability of the recombinant viruses. The morphology of recombinant influenza viruses was observed under electron microscopy. Results: P1a or P30a was designed to be inserted into the modified NS gene sequence separately and synthesized successfully. RT‐PCR identification of the recombinant viruses rFLU‐P1a and rFLU‐P30a showed that P1a (693 bp), P30a (774 bp), NS‐P1a (1992bp) and NS‐P30a (2073 bp) bands were found, and the sequencing results were correct. After five successive generations, each virus generation has a certain hemagglutination titer (from 1:32 to 1:64), and the band of P1a or P30a can be seen in the corresponding positions. The virus particles under the electron microscope appeared as spheres or long strips connected by several particles, revealing a complete viral membrane structure composed of virus lipid bilayer, hemagglutinin, neuraminidase, and matrix proteins. Conclusion: The recombinant viruses rFLU‐P1a and rFLU‐P30a which carried the advantaged immune regions of the P1 and P30 genes in MP were successfully constructed and identified. And the genetic stability of rFLU‐P1a or rFLU‐P30a was relatively high. The typical and complete morphology of influenza virus was observed under the electron microscope. Our research provided a foundation for the further development of MP vaccines for human. [ABSTRACT FROM AUTHOR]

Published

2024

5. Foot-and-mouth disease virus nonstructural protein 2B interacts with cyclophilin A, modulating virus replication.

Author

Huisheng Liu, Qiao Xue, Weijun Cao, Fan Yang, Linna Ma, Wenjie Liu, Keshan Zhang, Xiangtao Liu, Zixiang Zhu, and Haixue Zheng

Abstract

Foot-and-mouth disease (FMD) is a highly contagious virus that affects cloven-hoofed animals. To understand better the role of nonstructural protein 2B of the causative agent FMD virus (FMDV) in the process of virus replication, we identified a porcine host protein, cyclophilin A (CypA), which interacts with FMDV 2B. The 2B-CypA interaction was confirmed by coimmunoprecipitation and GST pull-down assays. CypA showed antiviral functions during FMDV infection. Overexpression of CypA decreased FMDV leader protein (Lpro) and 3A at protein levels. CypA-induced reduction of Lpro enhanced the synthesis of host proteins and increased the integrality of host eukaryotic translation initiation factor (eIF)-4γ (eIF4G). The reduction of Lpro and 3A was dependent on the proteasome pathway. No interaction was identified between CypA and Lpro or 3A. However, CypA-induced reduction of Lpro and 3A was suppressed by 2B, and disruption of 2B-CypA interaction impaired this inhibitive effect induced by 2B. In summary, our findings identify the antiviral role of CypA against FMDV and provide key insights into how FMDV antagonizes host antiviral response by 2B protein. [ABSTRACT FROM AUTHOR]

Published

2018

6. Anatomical and Physiological Plasticity in Leymus chinensis (Poaceae) along Large-Scale Longitudinal Gradient in Northeast China.

Author

Renzhong Wang, Wenwen Huang, Liang Chen, Linna Ma, Chengyuan Guo, and Xiaoqiang Liu

Subjects

*GRASSES, *GLOBAL environmental change, *METEOROLOGICAL precipitation, *PROLINE

Abstract

Background: Although it has been widely accepted that global changes will pose the most important constrains to plant survival and distribution, our knowledge of the adaptive mechanism for plant with large-scale environmental changes (e.g. drought and high temperature) remains limited. Methodology/Principal findings: An experiment was conducted to examine anatomical and physiological plasticity in Leymus chinensis along a large-scale geographical gradient from 115° to 124°E in northeast China. Ten sites selected for plant sampling at the gradient have approximately theoretical radiation, but differ in precipitation and elevation. The significantly increasing in leaf thickness, leaf mass per area, vessel and vascular diameters, and decreasing in stoma density and stoma index exhibited more obvious xerophil-liked traits for the species from the moist meadow grassland sites in contrast to that from the dry steppe and desert sites. Significant increase in proline and soluble sugar accumulation, K+/Na+ for the species with the increasing of stresses along the gradient showed that osmotic adjustment was enhanced. Conclusion/Significance: Obvious xerophytic anatomical traits and stronger osmotic adjustment in stress conditions suggested that the plants have much more anatomical and physiological flexibilities than those in non-stress habitats along the large-scale gradient. [ABSTRACT FROM AUTHOR]

Published

2011