Your search keyword '"Linna Ma"' showing total 110 results

1. Homocysteine affects macrophage polarization by altering m6A methylation of scavenger receptors CD209 and CD163L1

Author

Yu Liang, Yongbo Wang, Jia Tan, Jingxuan Shu, Ya Xu, Mingyuan Wang, Shengjun Yang, and Linna Ma

Subjects

Atherosclerosis, homocysteine, m6A methylation, CD209, CD163L1, Genetics, QH426-470

Abstract

Atherosclerosis is a chronic inflammatory disease characterized by fatty plaque deposits on artery walls. Elevated plasma homocysteine (Hcy) levels are an independent risk factor for atherosclerosis. Research on the mechanism by which Hcy promotes atherosclerosis has gradually turned to epigenetic inheritance, but the correlation between Hcy and m6A (N6-methyladenosine) modification has not been reported. In this study, MeRIP-seq was performed on macrophages and Hcy-treated macrophages. GO and KEGG analyses were used to perform functional analysis of differentially methylated genes. qRT-PCR and western blot were taken to determine the expression of CD209, CD163L1, proinflammatory, and anti-inflammatory factors. Flow cytometry was used to detect the proportion of M2 macrophages. The results showed that after Hcy treatment, the overall m6A methylation of macrophages was down-regulated, and 856 differential methylation peaks were annotated to 781 genes. These included CD209 and CD163L1, whose m6A methylation was inhibited after treatment with Hcy. In addition, mRNA and protein expressions of CD209 and CD163L1 were also inhibited after Hcy treatment. Overexpression of CD209 or CD163L1 prevents the Hcy-induced decrease in the proportion of M2 macrophages. This article identified changes in the modification level of m6A in macrophages by Hcy and revealed the possible mechanism by which Hcy induces macrophage polarization.

Published

2024

2. Lysine acetyltransferase 14 mediates TGF-β-induced fibrosis in ovarian endometrioma via co-operation with serum response factor

Author

Yi Gong, Mian Liu, Qianqian Zhang, Jinjing Li, Hong Cai, Jing Ran, Linna Ma, Yanlin Ma, and Song Quan

Subjects

KAT14, SRF, TGF-β, Endometrioma-associated fibrosis, Epigenetic modification, Medicine

Abstract

Abstract Background Fibrogenesis within ovarian endometrioma (endometrioma), mainly induced by transforming growth factor-β (TGF-β), is characterized by myofibroblast over-activation and excessive extracellular matrix (ECM) deposition, contributing to endometrioma-associated symptoms such as infertility by impairing ovarian reserve and oocyte quality. However, the precise molecular mechanisms that underpin the endometrioma- associated fibrosis progression induced by TGF-β remain poorly understood. Methods The expression level of lysine acetyltransferase 14 (KAT14) was validated in endometrium biopsies from patients with endometrioma and healthy controls, and the transcription level of KAT14 was further confirmed by analyzing a published single-cell transcriptome (scRNA-seq) dataset of endometriosis. We used overexpression, knockout, and knockdown approaches in immortalized human endometrial stromal cells (HESCs) or human primary ectopic endometrial stromal cells (EcESCs) to determine the role of KAT14 in TGF-β-induced fibrosis. Furthermore, an adeno-associated virus (AAV) carrying KAT14-shRNA was used in an endometriosis mice model to assess the role of KAT14 in vivo. Results KAT14 was upregulated in ectopic lesions from endometrioma patients and predominantly expressed in activated fibroblasts. In vitro studies showed that KAT14 overexpression significantly promoted a TGF-β-induced profibrotic response in endometrial stromal cells, while KAT14 silencing showed adverse effects that could be rescued by KAT14 re-enhancement. In vivo, Kat14 knockdown ameliorated fibrosis in the ectopic lesions of the endometriosis mouse model. Mechanistically, we showed that KAT14 directly interacted with serum response factor (SRF) to promote the expression of α-smooth muscle actin (α-SMA) by increasing histone H4 acetylation at promoter regions; this is necessary for TGF-β-induced ECM production and myofibroblast differentiation. In addition, the knockdown or pharmacological inhibition of SRF significantly attenuated KAT14-mediating profibrotic effects under TGF-β treatment. Notably, the KAT14/SRF complex was abundant in endometrioma samples and positively correlated with α-SMA expression, further supporting the key role of KAT14/SRF complex in the progression of endometrioma-associated fibrogenesis. Conclusion Our results shed light on KAT14 as a key effector of TGF-β–induced ECM production and myofibroblast differentiation in EcESCs by promoting histone H4 acetylation via co-operating with SRF, representing a potential therapeutic target for endometrioma-associated fibrosis.

Published

2024

3. Efficient utilization of winter nitrogen sources by soil microorganisms and plants in a temperate grassland

Author

Zhirong Zheng, Zhixin Qu, Zhaoyan Diao, Yeming Zhang, and Linna Ma

Subjects

15N labeling, N cycles, Plant N uptake, Temperate grassland, Winter, Ecology, QH540-549.5

Abstract

In seasonal snow-covered regions, the soil microbial community remains highly active, enabling nitrogen (N) mineralization processes to occur even during the winter. Therefore, winter N accumulation is likely to be a primary N source for plant growth in the subsequent spring. However, the availability of winter N resources (i.e., ammonium and nitrate N) to soil microorganisms and plants in temperate grasslands remains unclear. Here, we applied 15NH4Cl and K15NO3 tracers before autumn-winter freezing, and then investigated the retention of both 15N tracers in soil microorganisms and different plants during the winter and spring period in a typical steppe. The results showed that approximately 33 % and 27 % of 15NH4Cl and K15NO3 tracers were immobilized by soil microorganisms, while little had been uptake by plants during winter. In the subsequent spring, soil retained 32 % and 34 %, microorganisms immobilized 5.1 % and 5.2 %, plant acquired 40 % and 28 % of the 15NH4Cl and K15NO3 tracers, respectively. At a temporal scale, perennial bunch grasses first acquired 15N in the winter-spring transition, followed by perennial rhizome grasses and forbs in early spring, while legumes utilized little 15N. In contrast, the 15N absorption capacity of perennial rhizome grasses and perennial forbs was similar to that of bunch grasses. Additionally, only dominant bunch grasses showed a preference for ammonium N over nitrate N, while other plant species did not exhibit a clear preference for different forms of N. Our results suggest that the temporal differentiation of N utilization between plants and microorganisms enhances the availability of winter N sources. Importantly, the differences among plant species in the timing and quantity of winter N resource utilization contribute to species coexistence in temperate grasslands. This study highlights the crucial role of winter N accumulation as a primary N source for plant growth in temperate grasslands. Understanding the availability of winter N sources for plant and microbial growth is essential for predicting plant community dynamics and species coexistence in these ecosystems.

Published

2024

4. Impacts of different culture times on pregnancy outcomes after thawing of cleavage stage embryos

Author

Jieyou Wang, Linna Ma, Jiaoqi Mei, Linjiang Li, Wen Xu, Weimin Jiang, Yueyan Wei, Yu Xu, Shaoqing Sun, Yanlin Ma, and Qi Li

Subjects

Culture times, Cleavage embryos, Frozen-thawed embryo transfer, Pregnancy outcomes, Gynecology and obstetrics, RG1-991

Abstract

Abstract Objective This study assessed the impacts of in vitro culture times of cleavage embryos on clinical pregnancy outcomes. Methods This retrospective cohort study was performed at the Reproductive Medicine Department of Hainan Modern Women and Children’s Hospital in China between January 2018 and December 2022. Patients who first underwent frozen embryo transfer with in vitro fertilization/intracytoplasmic sperm injection (IVF/ICSI) cycles on day 3 were included. According to the time of embryo culture after thawing, the embryos were divided into long-term culture group(18-20 h) and short-term culture group (2-4 h). The clinical pregnancy rate was regarded as he primary outcome. To minimize confounding factors and reduce selection bias, the propensity score matching was used to balance the effects of known confounding factors and to reduce selection bias. Stratified analyses and multiple logistic regression analyses were used to evaluate the risk factors affecting the clinical pregnancy outcomes after matching. Results General characteristics between two groups were comparable after matching. In the long-term culture group, 266/381 (69.81%) embryos had more than 10 blastomeres, and 75/381 (19.68%) reached the morula stage. After overnight culture, the implantation rate (27.97% vs. 14.28%, P = 0.018) and clinical pregnancy rate (38.46% vs. 22.5%, P = 0.05) were increased in the group with proliferating blastomeres. The long-term culture group trended to have a higher clinical pregnancy rate compared with the short-term culture group (35.74% vs. 29.79%). No statistical differences in clinical pregnancy outcomes between the two groups were observed after matching, including the rates of implantation (25.46% vs23.98%), miscarriages (25% vs. 22.85%), ongoing pregnancy rate (76.2% vs. 77.15%) and live birth rate (26.8% vs. 22.98%). Stratified analyses were performed according to the age of the patients. After matching, there were no significant differences in the clinical pregnancy, implantation and miscarriage rates between the two groups for patients > 35 or ≤ 35 years of age. Subgroup analyses were performed according to the quality of the transferred embryos. There were no significant differences in the clinical outcomes, between two groups after embryos transferred with the same quality. Multivariate Logistic regression analysis was used to evaluate the influencing factors of clinical pregnancy outcomes after matching. Culture time was not found to be an independent predictor for clinical pregnancy [OR 0.742, 95%CI 0.487 ~ 1.13; P = 0.165]. The age of oocyte retrieval [OR 0.906, 95%CI 0.865 ~ 0.949; P

Published

2023

5. Histone acetyltransferase CSRP2BP promotes the epithelial–mesenchymal transition and metastasis of cervical cancer cells by activating N-cadherin

Author

Xiaohui Yang, Fei Sun, Yueying Gao, MengYongwei Li, Mian Liu, Yunjian Wei, Qiuling Jie, Yibing Wang, Jiaoqi Mei, Jingjing Mei, Linna Ma, Yuechuan Shi, Manling Chen, Yongsheng Li, Qi Li, Mingyao Liu, and Yanlin Ma

Subjects

Cervical cancer, CSRP2BP, SMAD4, N-cadherin, EMT, Metastasis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Dysregulated epithelial–mesenchymal transition (EMT) is involved in cervical cancer metastasis and associated with histone acetylation. However, the underlying molecular mechanisms of histone acetylation in cervical cancer EMT and metastasis are still elusive. Methods We systematically investigated the expression patterns of histone acetylation genes and their correlations with the EMT pathway in cervical cancer. The expression of CSRP2BP among cervical cancer tissues and cell lines was detected using Western blotting and immunohistochemistry analyses. The effects of CSRP2BP on cervical cancer cell proliferation and tumorigenicity were examined by cell growth curve, EdU assay, flow cytometry and xenotransplantation assays. Wound healing assays, transwell migration assays and pulmonary metastasis model were used to evaluate the effects of CSRP2BP on cell invasion and metastasis of cervical cancer cells in vivo and in vitro. RNA-seq, chromatin immunoprecipitation (ChIP), co-immunoprecipitation (Co-IP) and luciferase reporter assays were used to uncover the molecular mechanisms of CSRP2BP in promoting cervical cancer EMT and metastasis. Results We prioritized a top candidate histone acetyltransferase, CSRP2BP, as a key player in cervical cancer EMT and metastasis. The expression of CSRP2BP was significantly increased in cervical cancer tissues and high CSRP2BP expression was associated with poor prognosis. Overexpression of CSRP2BP promoted cervical cancer cell proliferation and metastasis both in vitro and in vivo, while knockdown of CSRP2BP obtained the opposite effects. In addition, CSRP2BP promoted resistance to cisplatin chemotherapy. Mechanistically, CSRP2BP mediated histone 4 acetylation at lysine sites 5 and 12, cooperated with the transcription factor SMAD4 to bind to the SEB2 sequence in the N-cadherin gene promotor and upregulated N-cadherin transcription. Consequently, CSRP2BP promoted cervical cancer cell EMT and metastasis through activating N-cadherin. Conclusions This study demonstrates that the histone acetyltransferase CSRP2BP promotes cervical cancer metastasis partially through increasing the EMT and suggests that CSRP2BP could be a prognostic marker and a potential therapeutic target for combating cervical cancer metastasis.

Published

2023

6. The effects of litter input and increased precipitation on soil microbial communities in a temperate grassland

Author

Xiuli Gao, Zhirong Zheng, Zhaoyan Diao, Yeming Zhang, Yupei Wang, and Linna Ma

Subjects

litter input, increased precipitation, soil microbial community, microbial diversity, microbial biomass, temperate grassland, Microbiology, QR1-502

Abstract

Global warming has contributed to shifts in precipitation patterns and increased plant productivity, resulting in a significant increase in litter input into the soils. The enhanced litter input, combined with higher levels of precipitation, may potentially affect soil microbial communities. This study aims to investigate the effects of litter input and increased precipitation on soil microbial biomass, community structure, and diversity in a temperate meadow steppe in northeastern China. Different levels of litter input (0%, +30%, +60%) and increased precipitation (0%, +15%, +30%) were applied over a three-year period (2015–2017). The results showed that litter input significantly increased the biomass of bacteria and fungi without altering their diversity, as well as the ratio of bacterial to fungal biomass. Increased precipitation did not have a notable effect on the biomass and diversity of bacteria and fungi, but it did increase the fungal-to-bacterial biomass ratio. However, when litter input and increased precipitation interacted, bacterial diversity significantly increased while the fungal-to-bacterial biomass ratio remained unchanged. These findings indicate that the projected increases in litter and precipitation would have a substantial impact on soil microbial communities. In energy-and water-limited temperate grasslands, the additional litter inputs and increased precipitation contribute to enhanced nutrient and water availability, which in turn promotes microbial growth and leads to shifts in community structure and diversity.

Published

2024

7. YKL-39 is an independent prognostic factor in gastric adenocarcinoma and is associated with tumor-associated macrophage infiltration and angiogenesis

Author

Ling Xue, Wei Chu, Fangsheng Wan, Pingfan Wu, Xiaowen Zhao, Linna Ma, Yali She, Changtian Li, and Yaling Li

Subjects

Gastric cancer, Tumor-associated macrophage, Tumor angiogenic, Prognosis, Surgery, RD1-811, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Gastric cancer has a high incidence and mortality rate. Angiogenesis is necessary for tumor infiltration and metastasis and affects patient prognosis. YKL-39 has monocyte chemotactic activity and pro-angiogenic activity in some tumors. In this study, we investigated the relationship between YKL-39 and tumor-associated macrophages and microangiogenesis in gastric cancer to determine its potential as a prognostic biomarker. Materials and methods A total of 119 patients with gastric cancer who had undergone gastrectomy at the 940th Hospital of the Joint Security Force between 2014 and 2018 were included in this study. We assayed the protein expression of YKL-39, CD68, and CD34 by immunohistochemistry in tissues of 119 patients with gastric cancer, as well as the intracellular expression of YKL-39 and CD68 by immunofluorescence. Data were analyzed with SPSS Statistics 25.0 to explore the impact of expression of YKL-39, CD68, and CD34 in gastric cancer patients and the relationship among them. Results Our results show that YKL-39 was expressed in both the nucleus and cytoplasm of gastric cancer cells and tumor mesenchyme. YKL-39 protein expression was associated with the depth of tumor infiltration, lymph node metastasis, and TNM stage; CD68 protein expression was associated with lymph node metastasis and TNM stage; CD34 protein expression was not associated with clinicopathological characteristics. Expression of YKL-39 was positively correlated with CD68 and CD34 (p

Published

2022

8. Aridity and decreasing soil heterogeneity reduce microbial network complexity and stability in the semi-arid grasslands

Author

Congwen Wang, Xu Pan, Wanying Yu, Xuehua Ye, Enkhmaa Erdenebileg, Chengjie Wang, Linna Ma, Renzhong Wang, Zhenying Huang, Tuvshintogtokh Indree, and Guofang Liu

Subjects

Aridity, Soil heterogeneity, Microbial network structure, Network complexity, Network stability, Biotic interactions, Ecology, QH540-549.5

Abstract

Soil microbes play vital roles in mediating the functions and services of terrestrial ecosystems in the context of ongoing climate change and human disturbance. There are complex interactions between soil microbial taxa. However, research on the drivers of soil microbial network complexity and stability based on microbial taxa interactions is still in its infancy. We examined network structure and the complexity and stability of soil microbial communities across a large-scale environmental gradient in semi-arid grasslands of northern China by combining network theory and high-throughput sequencing. We found that aridity was the strongest driver of soil microbial network structure. Increasing aridity directly reduced the complexity and stability of soil microbial networks by decreasing the ratio of microbial taxa that participated in network construction and the ratio of potential positive and negative interactions of networks. Soil heterogeneity enhanced microbial network complexity and stability by potentially promoting diverse host plants and mediating uneven distribution of soil resources. These findings suggest that aridity and decreasing soil heterogeneity may have detrimental influences on soil microbial functions and the associated plant performance. This study provides new insights into the controls of climatic and/or edaphic variables in regulating soil microbial networks and highlights the importance of environmental heterogeneity in community assembly mechanisms of soil microbes.

Published

2023

9. Increased expression of prokineticin 2 and its receptor in endometrium of recurrent implantation failure patients decreased the expression of MMP9 important for decidualization

Author

Jun Zhai, Linna Ma, Ziyin Chang, and Ting Yu

Subjects

Prokineticin 2, Decidualization, LUCAT1, MMP9, Recurrent implantation failure, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract Background Studies have shown that abnormalities in the decidualization process were closely related to recurrent implantation failure (RIF). Prokineticin 2 (PK2) is a secreted protein with angiogenic and tissue remodeling functions but its role in the endometrium is unknown. Methods PK2 levels and its receptor PKR1 mRNA and protein levels in mid-secretory endometrium from normal and RIF women were examined by real-time PCR and western blotting, respectively. The effects of PK2 were evaluated by overexpressed PK2 in immortalized endometrial T-HESC cells using lentivirus vector and found different expression of Matrix metalloproteinase 9(MMP9) and lncRNA LUCAT1 by RNA-sequencing. The ability of PK2 to regulate LUCAT1 and MMP9 was verified in endometrial cells by real-time PCR and western blotting. Results Using endometrial biopsies from normal and RIF patients, we found increased expression of PK2, together with its receptor PKR1 in RIF patients. We then overexpressed PK2 in immortalized endometrial T-HESC cells using lentivirus vector and found decreased expression of Matrix metalloproteinase 9(MMP9), and increased expression of lncRNA LUCAT1. We verified the ability of PK2 to stimulate LUCAT1 and decrease MMP9 in endometrial cells. We further demonstrated that increased expression of a long noncoding RNA LUCAT1 and decreased expression of MMP9 in endometrial biopsies of patients with RIF. Thus, we highlighted the important role of PK2 and its receptor PKR1 in decidualization and RIF. Conclusion Prokineticin 2 and its receptor are important in endometrium decidualization. PK2 may affect endometrial decidualization through the LUCAT1- MMP9 pathway, thereby affecting embryo implantation.

Published

2022

10. PlantNLRatlas: a comprehensive dataset of full- and partial-length NLR resistance genes across 100 chromosome-level plant genomes

Author

Xiang Li, Linna Ma, Yingmin Wang, Chen Ye, Cunwu Guo, Yingbin Li, Xinyue Mei, Fei Du, and Huichuan Huang

Subjects

genome-wide analysis, NB-LRR, NLRs, R gene, PlantNLRatlas, bioinformatics, Plant culture, SB1-1110

Abstract

Plants have evolved two layers of protection against biotic stress: PAMP-triggered immunity (PTI) and effector-triggered immunity (ETI). The primary mechanism of ETI involves nucleotide-binding leucine-rich repeat immune receptors (NLRs). Although NLR genes have been studied in several plant species, a comprehensive database of NLRs across a diverse array of species is still lacking. Here, we present a thorough analysis of NLR genes across 100 high-quality plant genomes (PlantNLRatlas). The PlantNLRatlas includes a total of 68,452 NLRs, of which 3,689 are full-length and 64,763 are partial-length NLRs. The majority of NLR groups were phyletically clustered. In addition, the domain sequences were found to be highly conserved within each NLR group. Our PlantNLRatlas dataset is complementary to RefPlantNLR, a collection of NLR genes which have been experimentally confirmed. The PlantNLRatlas should prove helpful for comparative investigations of NLRs across a range of plant groups, including understudied taxa. Finally, the PlantNLRatlas resource is intended to help the field move past a monolithic understanding of NLR structure and function.

Published

2023

11. The role of IL-38 in intestinal diseases - its potential as a therapeutic target

Author

Qiang Wang, Linna Ma, Caiping An, Steven G. Wise, and Shisan Bao

Subjects

IL-38, intestinal mucosa, immunity, inflammation, colorectal cancer, Immunologic diseases. Allergy, RC581-607

Abstract

IL-38, an anti-inflammatory cytokine, is a key regulator of homeostasis in host immunity. Intestinal immunity plays a critical role in defence against pathogenic invasion, as it is the largest surface organ and the most common entry point for micro-organisms. Dysregulated IL-38 activity is observed in several autoimmune diseases including systemic lupus erythematosus and atherosclerosis. The protective role of IL-38 is well illustrated in experimental colitis models, showing significantly worse colitis in IL-38 deficient mice, compared to wildtype mice. Moreover, exogenous IL-38 has been shown to ameliorate experimental colitis. Surprisingly, upregulated IL-38 is detected in inflamed tissue from inflammatory bowel disease patients, consistent with increased circulating cytokine levels, demonstrating the complex nature of host immunity in vivo. However, colonic IL-38 is significantly reduced in malignant tissues from patients with colorectal cancer (CRC), compared to adjacent non-cancerous tissue. Additionally, IL-38 expression in CRC correlates with 5-year survival, tumour size and differentiation, suggesting IL-38 plays a protective role during the development of CRC. IL-38 is also an independent biomarker for the prognosis of CRC, offering useful information in the management of CRC. Taken together, these data demonstrate the role of IL-38 in the maintenance of normal intestinal mucosal homeostasis, but that dysregulation of IL-38 contributes to initiation of chronic inflammatory bowel disease (resulting from persistent local inflammation), and that IL-38 provides protection during the development of colorectal cancer. Such data provide useful information for the development of novel therapeutic targets in the management of intestinal diseases for more precise medicine.

Published

2022

12. Plant and Soil Microbial Diversity Co-Regulate Ecosystem Multifunctionality during Desertification in a Temperate Grassland

Author

Yeming Zhang, Xiuli Gao, Ye Yuan, Lei Hou, Zhenhua Dang, and Linna Ma

Subjects

desertification, grassland, plant diversity, microbial diversity, multifunctionality, Botany, QK1-989

Abstract

Biodiversity plays a crucial role in driving multiple ecosystem functions in temperate grasslands. However, our understanding of how biodiversity regulates the impacts of desertification processes on ecosystem multifunctionality (EMF) remains limited. In this study, we investigate plant diversity, soil microbial diversity (fungal, bacterial, archaeal, and arbuscular mycorrhizal fungal (AMF) diversity), soil properties (soil water content, pH, and soil clay content), and multiple ecosystem functions (soil N mineralization, soil phosphatase activity, AMF infection rate, microbial biomass, plant biomass, and soil C and nutrients (N, P, K, Ca, Fe, Na, Cu, Mg, and Mn)) at six different grassland desertification intensities. The random forest model was conducted to assess the importance of soil properties, plant diversity, and soil microbial diversity in driving EMF. Furthermore, a structural equation model (SEM) was employed to analyze the indirect and direct impacts of these predictors on EMF. Our study showed that plant, soil bacterial, fungal, and archaeal diversity gradually decreased with increasing desertification intensity. However, only AMF diversity was found to be less sensitive to desertification. Similarly, EMF also showed a significant decline with increasing desertification. Importantly, both plant and soil microbial diversity were positively associated with EMF during desertification processes. The random forest model and SEM revealed that both plant and soil microbial diversity were identified as important and direct predictors of EMF during desertification processes. This highlights the primary influence of above- and below-ground biodiversity in co-regulating the response of EMF to grassland desertification. These findings have important implications for planned ecosystem restoration and sustainable grassland management.

Published

2023

13. Root vertical distributions of two Artemisia species and their relationships with soil resources in the Hunshandake desert, China

Author

Xiuli Gao, Xiaoqiang Liu, Linna Ma, and Renzhong Wang

Subjects

Artemisia species, root traits, soil moisture and nutrients, the Hunshandake desert, Ecology, QH540-549.5

Abstract

Abstract Plant root variations and their relations with soil moisture and nutrient supply have been well documented for many species, while effects of drought, combined with extreme poor soil nutrients, on plant roots remain unclear. Herein, we addressed root vertical distributions of two typical xerophyte semishrub species, Artemisia sphaerocephala and A. intramongolica, and their relations with soil moisture, total soil nitrogen and carbon contents in arid Hunshandake desert, China. The two species experienced similar light regimes and precipitation, but differed in soil moisture and soil nutrients. Root vertical distribution patterns (e.g., coarse root diameter, root depth and root biomass) differed considerable for the two species due to high heterogeneity of soil environments. Coarse and fine root biomasses for A. intramongolica, distributed in relatively moist fixed dunes, mainly focused on surface layers (94%); but those for A. sphaerocephala dropped gradually from the surface to 140 cm depth. Relations between root traits (e.g., diameter, root biomass) and soil moisture were positive for A. intramongolica, but those for A. sphaerocephala were negative. In general, the root traits for both species positively correlated with total soil nitrogen and carbon contents. These findings suggest that both soil moisture and poor soil nutrients were the limiting resources for growth and settlement of these two species.

Published

2020

14. ggmotif: An R Package for the extraction and visualization of motifs from MEME software.

Author

Xiang Li, Linna Ma, Xinyue Mei, Yixiang Liu, and Huichuan Huang

Subjects

Medicine, Science

Abstract

MEME (Multiple Em for Motif Elicitation) is the most commonly used tool to identify motifs within deoxyribonucleic acid (DNA) or protein sequences. However, the results generated by the MEMEare saved using file formats .xml and .txt, which are difficult to read, visualize, or integrate with other widely used phylogenetic tree packages, such as ggtree. To overcome this problem, we developed the ggmotif R package, which provides two easy-to-use functions that can facilitate the extraction and visualization of motifs from the results files generated by the MEME. ggmotif can extract the information of the location of motif(s) on the corresponding sequence(s) from the .xml format file and visualize it. Additionally, the data extracted by ggmotif can be easily integrated with the phylogenetic data. On the other hand, ggmotif can obtain the sequence of each motif from the .txt format file and draw the sequence logo with the function ggseqlogo from the ggseqlogo R package. The ggmotif R package is freely available (including examples and vignettes) from GitHub at https://github.com/lixiang117423/ggmotif or from CRAN at https://CRAN.R-project.org/package=ggmotif.

Published

2022

15. The retention dynamics of early-spring N input in a temperate forest ecosystem: Implications for winter N deposition

Author

Linna Ma, Chaoxue Zhang, Yixia Lv, and Renzhong Wang

Subjects

Forest, 15N, N deposition, N dynamic, Snowmelt, Winter, Ecology, QH540-549.5

Abstract

In N-limited temperate regions of China, rates of atmospheric N deposition remain high during winter due to industrial development and energy consumption. Winter-deposited N accumulates and is then released after snowmelt. However, little is known about the retention dynamics of early-spring N input in temperate forest ecosystems. We applied 15N isotopic tracer after snowmelt, and then quantified 15N dynamics in litter, soils, microbes and vascular plants over the following growing season in a warm temperate forest of northern China. In early spring (7 days after 15N addition), approximately 80% of applied 15N was retained in the ecosystem. The 15N recovery was the highest in litter, followed by soils and microbes, with only trivial acquisition in vascular plants. After early spring, there was little change in total 15N recovery over the following season, which indicated that the temperate forest ecosystem had high potential for the retention of early-spring N input. The 15N levels gradually declined in litter and microbes, while they were gradually increased in the vascular plants. In late fall, substantial 15N tracer retained in litter and was resorbed from senescing tissues to roots. Evergreen coniferous trees presented higher 15N acquisition than deciduous broad-leaved trees. Our results suggest that substantial early-spring N input can be retained in warm temperate forest ecosystems. The findings highlight the importance of litter and plants in sustaining early-spring exogenous N resources, inferring the need to considering winter N deposition for a better understanding of N cycling in temperate ecosystems.

Published

2022

16. Grassland Degradation Has Stronger Effects on Soil Fungal Community Than Bacterial Community across the Semi-Arid Region of Northern China

Author

Congwen Wang, Zhangkai Liu, Wanying Yu, Xuehua Ye, Linna Ma, Renzhong Wang, Zhenying Huang, and Guofang Liu

Subjects

grassland degradation, soil microbial diversity, microbial community structure, soil properties, semi-arid region, Botany, QK1-989

Abstract

Soil microbes play crucial roles in grassland ecosystem functions, such as soil carbon (C) pool and nutrient cycle. Soil microbes in grasslands are susceptible to the degradation mediated by climate change and anthropogenic disturbance. However, research on how the degradation influences the diversity and community structure of different soil microbial taxa is relatively scarce. We conducted a large-scale field survey to describe the effects of four degradation levels (PD: potential degradation, LD: light degradation, MD: moderate degradation, and SD: severe degradation) on soil bacterial and fungal community in the semi-arid grasslands of northern China. We found that soil moisture, nutrients, and clay content decreased, but soil sand content increased along the increasing degradation gradient. However, the degradation had no effects on soil pH and the C:N ratio. Grassland degradation had non-significant effect on soil bacterial diversity, but it significantly affected soil bacterial community structure. The degradation decreased soil fungal diversity and had a relatively larger influence on the community structure of soil fungi than that of bacteria. The community composition and structure of soil fungi were mainly affected by soil nutrients and texture, while those of soil bacteria were mainly affected by soil pH. These results indicate that changes in soil properties induced by grassland degradation mainly drive the variation in the soil fungal community and have less effect on the soil bacterial community. This study reveals the sensitivity of soil fungal community to grassland degradation, highlighting the priority of soil fungal community for the management and restoration of degraded grasslands.

Published

2022

17. Application of a Nomogram for Predicting the Risk of Subchorionic Hematoma in Early Pregnancy With In Vitro Fertilization-Embryo Transfer/Frozen Embryo Transfer

Author

Ma Yue, Linna Ma, Yurong Cao, and Jun Zhai

Subjects

subchorionic hematoma, IVF-ET, FET, nomogram, decision curve analysis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

BackgroundSubchorionic hematoma (SCH) is common in early pregnancy achieved by in vitro fertilization-embryo transfer/frozen embryo transfer (IVF-ET/FET), and is associated with adverse obstetric outcomes. However, there are no methods known to accurately predict the occurrence of SCH.ObjectiveTo establish a nomogram prediction model for predicting the risk of SCH in early pregnancy with IVF-ET/FET and to analyze pregnancy outcomes of patients with SCH.MethodsPatients who underwent IVF-ET/FET treatment and were diagnosed with clinical pregnancy were enrolled in our study. A total of 256 patients with SCH were enrolled in the SCH group, and 526 patients without SCH in the control group. Logistic regression was used to screen risk factors for SCH, and the nomogram was developed according to the regression coefficient of relevant variables. Discrimination, effect, calibration, and the predictive model’s clinical usefulness were assessed using the C-index, the area under the receiver operating characteristic standard curve, calibration plot, and decision curve analysis. Internal validation was assessed using bootstrapping validation. The effects of SCH on pregnancy outcomes were analyzed.ResultsA multivariate logistic regression analysis showed that fresh embryo transfer, polycystic ovary syndrome, hydrosalpinx, and thin endometrium were risk factors affecting the occurrence of SCH. Based on the above factors, a predictive model for the risk of SCH was created. The model displayed good discrimination, with a C-index of 0.783 (95% confidence interval: 0.750–0.816), area under the receiver operating characteristic standard curve of 0.783, and good calibration. A high C-index value of 0.765 could still be reached in the interval validation. Decision curve analysis showed that the nomogram was clinically useful when the intervention was decided at the SCH possibility threshold of 4%–87%. For patients with successful deliveries, the occurrence of SCH did not influence the gestational weeks of delivery, mode of delivery, preterm birth, height, and weight of the newborn.ConclusionWe screened the risk factors for SCH in patients who underwent IVF-ET/FET treatment. Successful establishment of a nomogram can effectively predict the occurrence of SCH. Furthermore, the incidence of miscarriage is higher in patients with SCH.

Published

2021

18. Effect and Relationship of Seasons on the High Risk of Ovarian Hyperstimulation Syndrome After Oocyte Retrieval in Patients With Polycystic Ovary Syndrome

Author

Yurong Cao, Hao Shi, Yue Ma, Linna Ma, and Jun Zhai

Subjects

polycystic ovary syndrome, ovarian hyperstimulation syndrome, temperature change, nomogram, receiver operating characteristic curve, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

ObjectiveTo investigate the effect of seasons on the incidence of high risk of ovarian hyperstimulation syndrome (OHSS) after in oocyte retrieval in patients with polycystic ovarian syndrome (PCOS) and to establish a nomogram to predict the risk of OHSS.DesignSingle-center, retrospective study.SettingUniversity-affiliated reproductive medicine center.Patient(s)A total of 2,030 infertility patients with PCOS underwent the follicular phase long-acting long protocol IVF/ICSI in the reproductive medicine center from January 2017 to December 2019.Intervention(s)None.Main outcome measure(s)Logistic regression analysis was used to analyze the factors associated with a high risk of OHSS. We established a nomogram to predict the risk of OHSS in infertility patients with PCOS after oocyte retrieval.Result(s)The incidence of patients at high risk of OHSS was significantly different from season-to-season and was especially higher in the summer and winter. Multivariate logistic analysis showed that gonadotropin dosage, number of retrieved oocytes, estradiol level, average bilateral ovarian diameter on the day human chorionic gonadotropin was administered, type of infertility, and average temperature were independent risk factors for OHSS after oocyte retrieval in PCOS patients. Based on the above independent risk factors, we constructed a prediction model for OHSS risk. To evaluate the efficiency of the prediction model, we calculated the C-index (0.849), area under the receiver operating characteristic curve (0.849), and internal validation C-index (0.846). Decision curve analysis suggested that the prediction model exhibited significant net benefits.Conclusion(s)The incidence of PCOS patients at high risk for OHSS after oocyte retrieval fluctuated with seasonal temperature changes, and was significantly higher in extreme climates. The prediction model had favorable predictive performance and clinical application value.

Published

2021

19. Retention of early-spring nitrogen in temperate grasslands: The dynamics of ammonium and nitrate nitrogen differ

Author

Linna Ma, Chaoxue Zhang, Jinchao Feng, Guofang Liu, Xiaofeng Xu, Yixia Lü, Weiming He, and Renzhong Wang

Subjects

Early spring, Microbial N, 15N labeling, N retention, Plant N uptake, Temperate grassland, Ecology, QH540-549.5

Abstract

In nitrogen (N)-limited temperate regions, winter is an important period of N accumulation. The accumulated N is released during snowmelt and thawing, and the availability peaks in early spring. However, the early-spring dynamics of specific N forms (i.e., ammonium NH4+ and nitrate NO3−) in temperate grasslands are still not fully understood. Here, we added 15NH4+ and 15NO3− (equivalent to 150 mg 15N m−2) to the soils of a meadow steppe and a typical steppe in northern China immediately after snowmelt, then quantified the retention dynamics of 15NH4+ and 15NO3− in soils, microbes, and plants over the subsequent growing season. Approximately 70% of the added 15N tracers were initially retained within the soil−microbe−plant systems in both temperate grasslands. In early spring, much 15N was immobilized in soils and microbes, while little had been taken up by plants. During the subsequent growing season, approximately 45% of the 15N was rapidly lost by the soils and microbes, but plant 15N acquisition gradually increased. Although soils and plants retained similar levels of 15NH4+ and 15NO3− during the growing season, soil microbes retained more 15NH4+ than 15NO3−. Different plant taxa had distinct 15N acquisition capacities: perennial grasses and forbs accumulated the 15N tracers rapidly, while annuals did not. Perennial grasses were effective immobilizers of the 15NH4+, whereas forbs were effective immobilizers of the 15NO3−. These findings provided evidence of the substantial retention of early-spring N over the following growing season in temperate grasslands, regardless of the vegetation type and N form. However, it was clear that the dynamics of early-spring 15NH4+ and 15NO3− differed within the soil−microbe−plant systems.

Published

2020

20. 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

Medicine, Science

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.

Published

2012

21. 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

Medicine, Science

Abstract

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.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.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.

Published

2011

22. Value Strategies in Trading Derivatives: Theories and Practice in Forwards, Futures and Options.

Author

Zezhen Xiang, Zhui Jian, Linna Ma, Tian Zhang, and Jiang Guo

Published

2021

23. Prediction and Elimination of Plastic Waste Based on AHP.

Author

Linna Ma, Yiyang Zhang, and Yi Xiao

Published

2021

24. 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

25. Different facets of bacterial and fungal communities drive soil multifunctionality in grasslands spanning a 3500 km transect

Author

Linna Ma, Chaoxue Zhang, Xiaofeng Xu, Congwen Wang, Guofang Liu, Cunzhu Liang, Xiaoan Zuo, Chengjie Wang, Yixia Lv, and Renzhong Wang

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2022

26. Plant diversity has stronger linkage with soil fungal diversity than with bacterial diversity across grasslands of northern China

Author

Congwen Wang, Linna Ma, Xiaoan Zuo, Xuehua Ye, Renzhong Wang, Zhenying Huang, Guofang Liu, Johannes H. C. Cornelissen, and Systems Ecology

Subjects

Global and Planetary Change, plant–microbe interactions, Ecology, fungi, food and beverages, respiratory system, complex mixtures, plant diversity, microbial functional guilds, plant traits, grassland, human activities, Ecology, Evolution, Behavior and Systematics, soil microbial diversity, SDG 15 - Life on Land

Abstract

Aim: The interactions between plants and soil microbes play crucial roles in modulating the function and stability of terrestrial ecosystems. However, the relationships between plant and soil microbial diversity for different taxa have remained been elusive. Location: Northern China. Major taxa: Plant and soil microbes of grassland ecosystems. Time period: 2018 and 2019. Methods: We conducted a transect survey across grasslands to measure plant diversity, plant traits, and soil microbial diversity. High throughput sequencing was used to assess soil microbial diversity for bacterial 16S ribosomal RNA (16S) and fungal internal transcribed spacer (ITS) regions on an Illumina MiSeq. The random forest algorithm was used to determine the important spatial and environmental variables in predicting plant and microbial diversity, and structural equation modelling was used to examine the direct and indirect effects of climatic and edaphic variables on plant and microbial diversity. Results: Plant diversity was positively correlated with the diversity of soil fungi, particularly for predicted arbuscular mycorrhizal fungi (AMF) and saprotrophic fungi, and they were positively related to soil nutrients and texture. However, the correlation between plant and bacterial diversity varied by phyla and functional guilds, resulting in decoupling between plant and soil bacterial diversity. Community weighted mean leaf C:N ratio indirectly decreased soil fungal diversity through a negative relationship with soil total nitrogen. Soil bacterial and fungal diversity increased with increasing functional richness of specific leaf area and stem density, respectively. Main conclusions: These findings have contributed to unravelling the direct and indirect linkages between plant and soil fungal diversity, highlighting particularly strong linkages between plant diversity and predicted AMF and saprotrophic fungi diversity. However, we failed to detect an overall linkage between plant and soil bacterial diversity. Still, our findings suggest that integrating soil fungi into the framework of plant diversity conservation is conducive to biodiversity restoration in degraded grassland ecosystems.

Published

2022

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

Author

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

Subjects

Plant–soil feedback, Deciduous, Ecology, Agronomy, Growing season, Temperate forest, Plant Science, Biology, Ecology, Evolution, Behavior and Systematics

Published

2021

28. A Practical Rebinning-Based Method for Patient Motion Compensation in SPECT imaging.

Author

Linna Ma, Songxiang Gu, Suman Nadella, Philippe P. Bruyant, Michael A. King, and Michael A. Gennert

Published

2005

29. Imaged-Based 3D Face Modeling.

Author

Mandun Zhang, Linna Ma, Xiangyong Zeng, and Yangsheng Wang

Published

2004

30. Association between hyperandrogenism and adverse pregnancy outcomes in patients with different polycystic ovary syndrome phenotypes undergoing in vitro fertilization/intracytoplasmic sperm injection: a systematic review and meta-analysis

Author

Yue Ma, Jun Zhai, Yurong Cao, and Linna Ma

Subjects

030219 obstetrics & reproductive medicine, In vitro fertilisation, business.industry, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Hyperandrogenism, Obstetrics and Gynecology, Physiology, 030209 endocrinology & metabolism, medicine.disease, Phenotype, Polycystic ovary, Intracytoplasmic sperm injection, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Human fertilization, Meta-analysis, medicine, In patient, business

Abstract

To study the association between hyperandrogenism (HA) and adverse pregnancy outcomes in patients with different polycystic ovary syndrome phenotypes undergoing in vitro fertilization (IVF)/intracy...

Published

2021

31. Construction of a ceRNA-based lncRNA-mRNA network to identify functional lncRNAs in polycystic ovarian syndrome

Author

Yue Ma, Jun Zhai, Yurong Cao, and Linna Ma

Subjects

Aging, MiRTarBase, Competing endogenous RNA, biomarkers, bioinformatics, ceRNA, Cell Biology, Computational biology, Biology, Polycystic ovary, lncRNA, Gene Expression Regulation, polycystic ovary syndrome, microRNA, Gene expression, Humans, Female, Gene Regulatory Networks, RNA, Long Noncoding, Clinical significance, RNA, Messenger, Gene, Transcription factor, Research Paper

Abstract

Polycystic ovary syndrome (PCOS) is a prevalent endocrine and metabolic disorder in women of childbearing age. Recent studies suggest important roles for lncRNAs in PCOS development. Based on the hypothesis that lncRNAs are able to regulate mRNA functions by competitive binding to shared miRNAs, the present work sought to construct a PCOS-related lncRNA-mRNA network (PCLMN) to identify key lncRNAs with dysregulated expression and potential prognostic and therapeutic relevance. A global background network was constructed after retrieving lncRNA-miRNA and miRNA-mRNA pairs from the lncRNASNP2, miRTarBase and StarBase databases. Based on gene expression profiles from ovarian granulosa cells from PCOS patients and controls in the GEO’s GSE95728 dataset, the PCLMN was then constructed by applying hypergeometric testing. Using topological analysis, we identified 3 lncRNAs (LINC00667, AC073172.1 and H19) ranking within the top-ten gene lists for all three centrality measures. We then explored their subcellular localization, performed functional module analyses, and identified 4 sex hormone-related transcription factors as potential regulators of their expression. Significant associations with inflammation, oxidative stress, and apoptosis-related processes and pathways were revealed for the key lncRNAs in our PCMLN. Further studies verifying the mRNA/lncRNA relationships identified herein are needed to clarify their clinical significance.

Published

2021

32. Determination of Residual Formaldehyde in Urea–Formaldehyde Fertilizer and Formaldehyde Release from Urea–Formaldehyde Fertilizer During Decomposition

Author

Linna Ma, Yuanmao Jiang, Dongdong Cheng, Junyin Li, Yan Liu, Songjun Huang, Ronghui Ma, Junfei Sao, and Yanhong Dong

Subjects

Environmental Engineering, Materials science, Polymers and Plastics, Acetylacetone, Urea-formaldehyde, Formaldehyde, Water extraction, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Colorimetry (chemical method), chemistry.chemical_compound, Iodometry, 020401 chemical engineering, chemistry, Materials Chemistry, engineering, Titration, Fertilizer, 0204 chemical engineering, 0210 nano-technology, Nuclear chemistry

Abstract

In view of the fact that a large amount of formaldehyde was involved in the production of urea–formaldehyde fertilizer, and the residual and decomposed formaldehyde has never been paid attention to. In this paper, the determination method of free formaldehyde content in urea–formaldehyde fertilizer was studied. A simple and accurate method for the determination of formaldehyde in urea–formaldehyde fertilizer was established based on the screening of traditional iodometry titration and acetylacetone colorimetry. The recovery rate of titration method and colorimetric method were 73.9–94.5% and 96.5–103.9%, which indicated that colorimetric method was more accurate. The optimized test conditions are as follows: fertilizer/water extraction ratio 1/20, developer acetylacetone 6 mL, the condition of reacting at 60 °C for 30 min. The linear range of formaldehyde content in urea–formaldehyde fertilizer determined by optimized method is 0.21–3.26 g/mL.

Published

2020

33. Root vertical distributions of two Artemisia species and their relationships with soil resources in the Hunshandake desert, China

Author

R.Z. Wang, Linna Ma, Xiaoqiang Liu, and Xiuli Gao

Subjects

0106 biological sciences, chemistry.chemical_element, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Xerophyte, Nutrient, the Hunshandake desert, lcsh:QH540-549.5, Precipitation, Water content, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, Original Research, 0303 health sciences, Biomass (ecology), Ecology, biology, soil moisture and nutrients, biology.organism_classification, Arid, Artemisia species, root traits, chemistry, Agronomy, Environmental science, Artemisia, lcsh:Ecology, Carbon

Abstract

Plant root variations and their relations with soil moisture and nutrient supply have been well documented for many species, while effects of drought, combined with extreme poor soil nutrients, on plant roots remain unclear.Herein, we addressed root vertical distributions of two typical xerophyte semishrub species, Artemisia sphaerocephala and A. intramongolica, and their relations with soil moisture, total soil nitrogen and carbon contents in arid Hunshandake desert, China. The two species experienced similar light regimes and precipitation, but differed in soil moisture and soil nutrients.Root vertical distribution patterns (e.g., coarse root diameter, root depth and root biomass) differed considerable for the two species due to high heterogeneity of soil environments. Coarse and fine root biomasses for A. intramongolica, distributed in relatively moist fixed dunes, mainly focused on surface layers (94%); but those for A. sphaerocephala dropped gradually from the surface to 140 cm depth. Relations between root traits (e.g., diameter, root biomass) and soil moisture were positive for A. intramongolica, but those for A. sphaerocephala were negative.In general, the root traits for both species positively correlated with total soil nitrogen and carbon contents. These findings suggest that both soil moisture and poor soil nutrients were the limiting resources for growth and settlement of these two species., The root traits for Artemisia sphaerocephala and A. intramongolica were positively correlated with total soil nitrogen and carbon contents. These findings indicate that both soil moisture and poor soil nutrients were the limiting resources for growth in these two species.

Published

2020

34. Exploring the clinicopathological significance of YKL-39 in gastric adenocarcinoma based on tumor angiogenesis

Author

Ling Xue, Wei Chu, Fangsheng Wan, Pingfan Wu, Xiaowen Zhao, Linna Ma, Yali She, Changtian Li, and Yaling Li

Subjects

musculoskeletal diseases

Abstract

Background Gastric cancer is a malignant tumor with a high incidence and mortality rate. Angiogenesis is necessary for tumor infiltration and metastasis, and also affects patient prognosis. YKL-39 has monocyte chemotactic activity and pro-angiogenic activity in some of the tumors. In this study, we will investigate the relationship between YKL-39 and tumor-associated macrophages and microangiogenesis in gastric cancer and explore the value of YKL-39 as a prognostic biomarker for gastric cancer. Methods A total of 119 patients with gastric cancer who had undergone gastrectomy at the 940th Hospital of the Joint Security Force between 2013 and 2019 were included in this study, and the protein expression of YKL-39, CD68, and CD34 was detected by immunohistochemistry, and intracellular expression of YKL-39 and CD68 was detected by immunofluorescence. Results Our results showed that YKL-39 was expressed in both nucleus and cytoplasm of gastric cancer tissues and tumor mesenchyme, and the expression of YKL-39 was positively correlated with CD68 and CD34, as well as the high expression of YKL-39 was associated with poor prognosis of gastric cancer patients. Conclusion In gastric cancer, YKL-39 expression positively correlated with the degree of tumor-associated macrophage infiltration and angiogenesis, and it could be a potential prognostic marker and therapeutic target for gastric cancer.

Published

2022

35. Supplementary material to 'The biogeography of relative abundance of soil fungi and bacteria in top surface soil'

Author

Kailiang Yu, Johan van den Hoogen, Zhiqiang Wang, Colin Averill, Devin Routh, Gabriel R. Smith, Rebecca E. Drenovsky, Kate M. Scow, Fei Mo, Mark P. Waldrop, Yuanhe Yang, Weize Tang, Franciska T. De Vries, Richard D. Bardgett, Peter Manning, Felipe Bastida, Sara G. Baer, Elizabeth M. Bach, Carlos García, Qingkui Wang, Linna Ma, Baodong Chen, Xianjing He, Sven Teurlincx, Amber Heijboer, James A. Bradley, and Thomas W. Crowther

Published

2022

36. The biogeography of relative abundance of soil fungi and bacteria in top surface soil

Author

Kailiang Yu, Johan van den Hoogen, Zhiqiang Wang, Colin Averill, Devin Routh, Gabriel R. Smith, Rebecca E. Drenovsky, Kate M. Scow, Fei Mo, Mark P. Waldrop, Yuanhe Yang, Weize Tang, Franciska T. De Vries, Richard D. Bardgett, Peter Manning, Felipe Bastida, Sara G. Baer, Elizabeth M. Bach, Carlos García, Qingkui Wang, Linna Ma, Baodong Chen, Xianjing He, Sven Teurlincx, Amber Heijboer, James A. Bradley, and Thomas W. Crowther

Abstract

Fungi and bacteria are the two dominant groups of soil microbial communities worldwide. By controlling the turnover of soil organic matter, these organisms directly regulate the exchange of carbon between the soil and the atmosphere. Fundamental differences in the physiology and life history of bacteria and fungi suggest that variation in the biogeography of soil fungal and bacterial relative abundance could drive striking differences in carbon decomposition and soil organic matter formation across different biomes. However, a lack of global and predictive information on the distribution of these organisms in terrestrial ecosystems has prevented the inclusion of soil fungal and bacterial relative abundance and the associated processes into global biogeochemical models. Here, we used a global scale dataset in the top soil surface (>3000 distinct observations of soil fungal and bacterial abundance) to generate the first quantitative and spatially high resolution (1 km) explicit map of soil fungal proportion, defined as fungi/fungi + bacteria, across terrestrial ecosystems. We reveal striking latitudinal trends where fungal dominance increases in cold and high latitude environments with large soil carbon stocks. There was strong non-linear response of fungal dominance to environmental gradient, i.e., mean annual temperature (MAT) and net primary productivity (NPP). Fungi and bacteria dominated in regions with low and high MAT and NPP, respectively, thus representing slow vs. fast soil energy channels, a concept with a long history in soil ecology. These high-resolution models provide the first steps towards representing the major soil microbial groups and their functional differences in global biogeochemical models to improve predictions of soil organic matter turnover under current and future climate scenarios. Raw datasets and global maps generated in this study are available at https://doi.org/10.6084/m9.figshare.19556419 (Yu, 2022).

Published

2022

37. Soil texture and plant diversity are important abiotic and biotic factors regulating ecosystem multifunctionality across grasslands of northern China

Author

Congwen Wang, Wanying Yu, Xuehua Ye, Linna Ma, Renzhong Wang, Zhenying Huang, and Guofang Liu

Subjects

animal structures, fungi, food and beverages, complex mixtures

Abstract

Ecosystem functions play crucial role in maintaining human well-being. In recent years, more studies have focused on multiple ecosystem functions (ecosystem multifunctionality, EMF) in terrestrial ecosystems. Biotic and abiotic factors mediated by climate change and human activities have important influence on regulating EMF. However, their relative roles are unclear in grassland ecosystems. We conducted a transect survey across grassland ecosystems of northern China to illustrate the relative effects of biotic (including plant diversity, plant traits, and soil microbial diversity) and abiotic (including climatic and soil variables) factors on EMF (including 9 functions, i.e. aboveground biomass, aboveground litter biomass, soil organic carbon, total carbon, total nitrogen, total microbial biomass, bacterial biomass, fungal biomass, and arbuscular mycorrhizal fungi biomass) in 2018. Structural equation modeling indicated that soil sand content and plant diversity had direct effects on EMF, and soil fungal diversity (including main functional guild diversity) indirectly affected EMF through regulating plant diversity. Functional richness of leaf dry matter content had direct effects on EMF, while functional richness of stem density indirectly regulated EMF through affecting functional richness of leaf dry matter content. Variance partitioning analysis showed that biotic and abiotic factors together explained 85% of the variance in EMF, and biotic and abiotic factors explained 77% and 34%, respectively, and combined explained 26%. The random forest algorithm detected that soil sand content and plant diversity were the important abiotic and biotic variables in predicting EMF. These findings have contributed to comprehensive unraveling the effects of biotic and abiotic factors on EMF, highlighting particularly the importance of soil texture and plant diversity in regulating EMF. Land degradation (increased soil sand content) and biodiversity loss induced by on-going climate change and human activities will cause detrimental effects on grassland ecosystem functions. Our findings suggest that integrated management of aboveground and belowground ecosystems contributes to better restoration of degraded grassland ecosystem functions and services.

Published

2022

38. Cultivation of Artificial Algal Crust and Its Effect on Soil Improvement in Sandy Area

Author

Jinchao Feng, Wei Li, and Linna Ma

Subjects

010504 meteorology & atmospheric sciences, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Soil science, Crust, 04 agricultural and veterinary sciences, 01 natural sciences, Geology, 0105 earth and related environmental sciences

Abstract

Algae are the pioneer species of biological soil crusts. Cyanobacteria, microschwannophyta and pseudocladophyta can form fixed quicksand algae crusts on the surface of sand surface. Through artificial culture, soil crusts can be formed in a short time. The development and succession of algeal-sand crust promoted the enrichment of nutrients in the sand surface layer, and created conditions for the reproduction of micro-soil organisms and the colonization of herbaceous plants, thus promoting the desert ecosystem to enter a virtuous cycle. This chapter will focus on the cultivation process of artificial soil crust and its effect on soil improvement (soil organic matter and nitrogen) in sandy areas. In conclusion, the application of algal solution can rapidly form algal crusts, and according to the research results, the formation of algal crusts can significantly improve the chemical and biological properties of soil.

Published

2022

39. The biogeography of relative abundance of soil fungi versus bacteria in surface topsoil

Author

Kailiang Yu, Johan van den Hoogen, Zhiqiang Wang, Colin Averill, Devin Routh, Gabriel Reuben Smith, Rebecca E. Drenovsky, Kate M. Scow, Fei Mo, Mark P. Waldrop, Yuanhe Yang, Weize Tang, Franciska T. De Vries, Richard D. Bardgett, Peter Manning, Felipe Bastida, Sara G. Baer, Elizabeth M. Bach, Carlos García, Qingkui Wang, Linna Ma, Baodong Chen, Xianjing He, Sven Teurlincx, Amber Heijboer, James A. Bradley, Thomas W. Crowther, Microbial Ecology (ME), AKWA, Aquatic Ecology (AqE), Terrestrial Ecology (TE), Ecosystem and Landscape Dynamics (IBED, FNWI), and IBED Other Research (FNWI)

Subjects

General Earth and Planetary Sciences

Abstract

Fungi and bacteria are the two dominant groups of soil microbial communities worldwide. By controlling the turnover of soil organic matter, these organisms directly regulate the cycling of carbon between the soil and the atmosphere. Fundamental differences in the physiology and life history of bacteria and fungi suggest that variation in the biogeography of relative abundance of soil fungi versus bacteria could drive striking differences in carbon decomposition and soil organic matter formation between different biomes. However, a lack of global and predictive information on the distribution of these organisms in terrestrial ecosystems has prevented the inclusion of relative abundance of soil fungi versus bacteria and the associated processes in global biogeochemical models. Here, we used a global-scale dataset of >3000 distinct observations of abundance of soil fungi versus bacteria in the surface topsoil (up to 15 cm) to generate the first quantitative and high-spatial-resolution (1 km2) explicit map of soil fungal proportion, defined as fungi/fungi + bacteria, across terrestrial ecosystems. We reveal striking latitudinal trends where fungal dominance increases in cold and high-latitude environments with large soil carbon stocks. There was a strong nonlinear response of fungal dominance to the environmental gradient, i.e., mean annual temperature (MAT) and net primary productivity (NPP). Fungi dominated in regions with low MAT and NPP and bacteria dominated in regions with high MAT and NPP, thus representing slow vs. fast soil energy channels, respectively, a concept with a long history in soil ecology. These high-resolution models provide the first steps towards representing the major soil microbial groups and their functional differences in global biogeochemical models to improve predictions of soil organic matter turnover under current and future climate scenarios. Raw datasets and global maps generated in this study are available at https://doi.org/10.6084/m9.figshare.19556419 (Yu, 2022)., Earth System Science Data, 14 (9), ISSN:1866-3516, ISSN:1866-3508

Published

2022

40. Author response for 'Strong non‐growing season N uptake by deciduous trees in a temperate forest: A 15 N isotopic experiment'

Author

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

Published

2021

41. Value Strategies in Trading Derivatives: Theories and Practice in Forwards, Futures and Options

Author

Linna Ma, Jiang Guo, Zezhen Xiang, Tian Zhang, and Zhui Jian

Subjects

Derivative (finance), Investment strategy, Financial economics, Investment style, Derivatives market, Trading strategy, Business, Systematic trading, Investment (macroeconomics), Futures contract

Abstract

Investors can use different kinds of investment strategies when making derivative investments. Although China has a large number of investors, Chinese derivatives market is still a developing market, there are many different kinds of trading strategies that are worth considering whether they can fit in this developing market. Based on value investment style, this paper applies different kinds of strategies to currencies, commodities and options respectively, and for each asset, this paper did research on their discretionary trading models, systematic trading models and advanced models respectively. Through measuring the return from the back test of each investment strategy, this paper made investment conclusion and gave recommendations on Chinese derivatives market. CCS Concepts: Social and professional topics-Professional topics-Computing and business-Economic impact

Published

2021

42. A Complementary Dual‐Mode Ion‐Electron Conductive Hydrogel Enables Sustained Conductivity for Prolonged Electroencephalogram Recording

Author

Hengjie Su, Linna Mao, Xiaoqi Chen, Peishuai Liu, Jiangbo Pu, Zhuo Mao, Tomoko Fujiwara, Yue Ma, Xinyang Mao, and Ting Li

Subjects

conductive hydrogel, dual‐mode conducting mechanism, electroencephalogram (EEG), graphite nanoparticles, hyaluronic acid, Science

Abstract

Abstract Conductive gel interface materials are widely employed as reliable agents for electroencephalogram (EEG) recording. However, prolonged EEG recording poses challenges in maintaining stable and efficient capture due to inevitable evaporation in hydrogels, which restricts sustained high conductivity. This study introduces a novel ion‐electron dual‐mode conductive hydrogel synthesized through a cost‐effective and streamlined process. By embedding graphite nanoparticles into ionic hyaluronic acid (HAGN), the hydrogel maintains higher conductivity for over 72 h, outperforming commercial gels. Additionally, it exhibits superior low skin contact impedance, considerable electrochemical capability, and excellent tensile and adhesion performance in both dry and wet conditions. The biocompatibility of the HAGN hydrogel, verified through in vitro cell viability assays and in vivo skin irritation tests, underscores its suitability for prolonged skin contact without eliciting adverse reactions. Furthermore, in vivo EEG tests confirm the HAGN hydrogel's capability to provide high‐fidelity signal acquisition across multiple EEG protocols. The HAGN hydrogel proves to be an effective interface for prolonged high‐quality EEG recording, facilitating high‐performance capture and classification of evoked potentials, thereby providing a reliable conductive medium for EEG‐based systems.

Published

2024

43. Association between hyperandrogenism and adverse pregnancy outcomes in patients with different polycystic ovary syndrome phenotypes undergoing

Author

Linna, Ma, Yurong, Cao, Yue, Ma, and Jun, Zhai

Subjects

Pregnancy Rate, Pregnancy Outcome, Oocyte Retrieval, Abortion, Spontaneous, Endometrium, Phenotype, Asian People, Pregnancy, Humans, Female, Sperm Injections, Intracytoplasmic, Hyperandrogenism, Live Birth, Polycystic Ovary Syndrome

Abstract

To study the association between hyperandrogenism (HA) and adverse pregnancy outcomes in patients with different polycystic ovary syndrome phenotypes undergoingWe reviewed all eligible articles published up to October 2020 after searching in PubMed, Embase, Cochrane Library, Web of Science, Wanfang Data, and CNKI databases. The primary outcomes were the clinical pregnancy rate (CPR), miscarriage rate (MR), and live birth rate (LBR), whereas the secondary outcomes were the number of retrieved oocytes and endometrial thickness. Risk ratios (RRs) or mean differences with 95% confidence intervals (CIs) were calculated to estimate the HA impact on IVF/ICSI outcomes in patients with polycystic ovary syndrome (PCOS) phenotypes.Of the 789 trials identified, nine retrospective studies involving 3037 patients with PCOS were included. Compared to the PCOS group with normal androgen levels, the PCOS group with HA exhibited increased MR (RR: 1.56, 95% CI: 1.13, 2.16); the CPR (RR: 0.88, 95% CI: 0.77, 1.01) and LBR (RR: 0.79, 95% CI: 0.55, 1.11) were not significantly different between these groups. Subgroup analysis revealed that the CPR was lower in the polycystic ovarian (PCO)-morphology + HA + oligo-anovulation (AO) group than in the PCO + AO group (RR: 0.81, 95% CI: 0.67, 0.99). Among Asians, the PCOS/HA group had increased MR (RR: 1.56, 95% CI: 1.06, 2.31) and showed thinner endometrial thickness. However, among Caucasians, no differences were observed between the two groups.HA may have adverse effects on clinical pregnancy and miscarriage outcomes in different PCOS phenotypes, particularly among Asians.

Published

2021

44. Author response for 'Strong non‐growing season N uptake by deciduous trees in a temperate forest: A 15 N isotopic experiment'

Author

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

Subjects

Deciduous, Agronomy, Temperate forest, Growing season, Biology

Published

2021

45. Nitrogen acquisition strategies during the winter-spring transitional period are divergent at the species level yet convergent at the ecosystem level in temperate grasslands

Author

Linna Ma, Lihua Zhang, Xiaofeng Xu, R.Z. Wang, Guofang Liu, Xiaoping Xin, Shiping Chen, and Wenming Bai

Subjects

2. Zero hunger, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Perennial plant, Steppe, Tussock, Niche differentiation, food and beverages, Soil Science, 04 agricultural and veterinary sciences, Mineralization (soil science), 15. Life on land, Biology, 01 natural sciences, Microbiology, Agronomy, 040103 agronomy & agriculture, Nitrogen fixation, 0401 agriculture, forestry, and fisheries, Forb, Ecosystem, 0105 earth and related environmental sciences

Abstract

Nitrogen (N) is a major limiting element for productivity in temperate grasslands, particularly during early spring when soil N availability is low and the vegetative demand for it is high. Therefore, knowing whether and how plant species adopt different N acquisition strategies during the winter-spring transitional period is essential for understanding ecosystem functioning in temperate grasslands. In this study, parallel experiments with 15N tracer were conducted to examine plant N acquisition strategies during winter-spring transition in a meadow and a typical steppe in northern China. We found that soil microbes immobilized ∼20% of the 15N tracer during the spring thawing period at both sites, and then released half of it back to the soil before late spring, confirming that soil microbes competed effectively with the plant roots for mineral N in early spring. Perennial bunch grasses adopted an active N acquisition strategy at the beginning of the spring thawing period. In contrast, perennial forbs and rhizome grasses began to take up N in the middle of the spring thawing period, and they acquired more N than the bunch grasses. However, sagebrushes and legumes accounted for little 15N recovery, indicating their dependence on internal N accumulation or N fixation. At the ecosystem level, no significant difference in the magnitude of plant 15N uptake was observed between the meadow steppe and typical steppe, although the plant biomass N in the meadow steppe was twice that of the typical steppe during the thawing period. This was attributed to the higher soil inorganic N and faster net N mineralization rate in the meadow steppe than in the typical steppe. Our results suggest that temporal niche differentiation in N acquisition during early spring may facilitate species coexistence in temperate grasslands despite strong plant-microbe or plant-plant competition for N. The divergent N acquisition strategies at the species level and convergent N acquisition strategies at the ecosystem level should be considered for model development to better simulate vegetation growth particularly under spring N stress.

Published

2018

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

Author

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

Subjects

0301 basic medicine, biology, EIF4G, viruses, Cypa, biology.organism_classification, Biochemistry, Virology, Virus, 03 medical and health sciences, chemistry.chemical_compound, Cyclophilin A, 030104 developmental biology, Eukaryotic translation, chemistry, Viral replication, Genetics, Initiation factor, Foot-and-mouth disease virus, Molecular Biology, Biotechnology

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.-Liu, H., Xue, Q., Cao, W., Yang, F., Ma, L., Liu, W., Zhang, K., Liu, X., Zhu, Z., Zheng, H. Foot-and-mouth disease virus nonstructural protein 2B interacts with cyclophilin A, modulating virus replication.

Published

2018

47. Seneca Valley Virus 3Cpro abrogates the IRF3- and IRF7-mediated innate immune response by degrading IRF3 and IRF7

Author

Qinghong Xue, Qiao Xue, Huisheng Liu, Zixiang Zhu, Linna Ma, Haixue Zheng, Xuepeng Cai, and Fan Yang

Subjects

0301 basic medicine, Protease, Innate immune system, viruses, medicine.medical_treatment, biochemical phenomena, metabolism, and nutrition, Biology, Virus, Cell biology, 03 medical and health sciences, 030104 developmental biology, Transcription (biology), TRIF, Virology, medicine, IRF7, Phosphorylation, IRF3

Abstract

Seneca Valley Virus (SVV) is a newly emerged virus belonging to the family Picornaviridae. Basic knowledge of the immunological response to SVV is limited. To date, one study has demonstrated that SVV 3Cpro mediates the cleavage of host MAVS, TRIF, and TANK at specific sites and consequently escapes the host's antiviral innate immunity. In this study, we show that SVV 3Cpro reduces IRF3 and IRF7 protein expression level and phosphorylation. SVV infection also reduces expression of IRF3 and IRF7 protein. The degradation of IRF3 and IRF7 is dependent on the 3Cpro protease activity. We also identify interactions between 3Cpro and IRF3 and IRF7 in PK-15 cells. A detailed analysis revealed that the degradation of IRF3 and IRF7 blocks the transcription of IFN-β, IFN-α1, IFN-α4, and ISG54. Together, our results demonstrate a novel mechanism developed by SVV 3Cpro to allow the virus to escape the host's intrinsic innate immune system.

Published

2018

48. Enhancing Electrospinnability of Chitosan Membranes in Low-Humidity Environments by Sodium Chloride Addition

Author

Hengjie Su, Xiaoqi Chen, Linna Mao, and Ting Li

Subjects

chitosan, salt, electrospinning, environmental humidity, conductivity, Biology (General), QH301-705.5

Abstract

The electrospinning of pure chitosan nanofibers is highly sensitive to environmental humidity, which limits their production consistency and applicability. This study investigates the addition of sodium chloride (NaCl) to chitosan solutions to enhance spinnability and mitigate the effigurefects of low humidity. NaCl was incorporated into the electrospun chitosan solution, leading to increased conductivity and decreased viscosity. These modifications improved the electrospinning process. Comparative analyses between chitosan membranes (CM) and sodium-chloride-added chitosan membranes (SCM) revealed no significant differences in chemical structure, mechanical strength, or in vitro cell proliferation. This indicates that the addition of 1% (w/v) NaCl does not adversely affect the fundamental properties of the chitosan membranes. The findings demonstrate that NaCl addition is a viable strategy for producing electrospun chitosan nanofibers in low-humidity environments, maintaining their physicochemical properties while enhancing spinnability.

Published

2024

49. 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

50. Local marine policy whacking the national Zhikong scallop fishery

Author

Vicky W. Y. Lam, Sheng Wang, Xiaomu Guan, Rashid Sumaila, Lance Yu, Yujie Zhao, Yongtong Mu, and Linna Ma

Subjects

0106 biological sciences, Economics and Econometrics, 010604 marine biology & hydrobiology, 04 agricultural and veterinary sciences, Management, Monitoring, Policy and Law, Aquatic Science, 01 natural sciences, Fishery, Local government, Scallop, 040102 fisheries, Field research, 0401 agriculture, forestry, and fisheries, Profitability index, Mariculture, Economic impact analysis, Business, China, Law, Externality, General Environmental Science

Abstract

The impacts of banning wild spat collection are crucial for the future development of the Zhikong scallop fishery. Failure to the quantitative analysis of economic impacts obstructs the understanding of policy performance. Using key parameters extracted from the data and information through field research, we estimate the financial losses in spat collection, mariculture, and processing sectors. Our results show that the local ban should spark a chain reaction on the national Zhikong scallop fishery and potentially cause substantial economic consequences. The decreasing profitability and growing negative externalities of traditional mariculture are the main reasons for the local government to overhaul its marine development strategy. These findings have implications for some problems in the current marine management system or, from a more positive perspective, the crisis of the Zhikong scallop fishery providing China an opportunity to accelerate reforms for sustainable mariculture.

Published

2021