Your search keyword '"Li, Huawei"' showing total 33 results

1. Bond-Slip Constitutive Relationship between Steel Rebar and Concrete Synthesized from Solid Waste Coal Gasification Slag.

Author

Li, Huawei, Chen, Haozhe, Nie, Qingke, Yu, Junchao, Zhang, Liang, and Wang, Qingjun

Subjects

COAL gasification, COAL mine waste, REINFORCED concrete, SOLID waste, BOND strengths

Abstract

Bond performance served as a crucial foundation for the collaboration between concrete and steel rebar. This study investigated the bond performance between coal gasification slag (CGS) concrete, an environmentally friendly construction material, and steel rebar. The effects of fine aggregate type, steel rebar diameter, and anchorage length on bond performance were examined through bond-slip tests conducted on 16 groups of reinforced concrete specimens with different parameters. By utilizing experimental data, a formula for the bond strength between steel rebar and CGS concrete was derived. Additionally, the BPE bond-slip constitutive model was modified by introducing a correction factor (k) to account for relative protective layer thickness. Findings indicated that substituting 25% of manufactured sand with coal gasification slag did not cause significant adverse effects on concrete strength or bond stress between concrete and steel rebar. The effect of steel rebar diameter on the ultimate bond stress was not obvious, whereas when the steel rebar diameter was fixed; the increase in anchorage length led to uneven distribution of bond stress and eventually reduced the ultimate bond stress. The modified bond-slip constitutive model agreed well with the experimental values and was able to more accurately reflect the bond-slip performance between CGS concrete and steel rebar. This study provided a theoretical basis for the conversion of CGS into a resource and for the application of CGS concrete. [ABSTRACT FROM AUTHOR]

Published

2024

2. Cytological and Transcriptome Analyses Provide Insights into Persimmon Fruit Size Formation (Diospyros kaki Thunb.).

Author

Li, Huawei, Suo, Yujing, Li, Hui, Sun, Peng, Li, Shuzhan, Yuan, Deyi, Han, Weijuan, and Fu, Jianmin

Subjects

*PERSIMMON, *FRUIT, *DIOSPYROS, *TRANSCRIPTOMES, *CELL division

Abstract

Persimmon (Diospyros kaki Thunb.) fruit size variation is abundant. Studying the size of the persimmon fruit is helpful in improving its economic value. At present, the regulatory mechanism of persimmon fruit size formation is still unclear. In this study, the mechanism of fruit size formation was investigated through morphological, cytological and transcriptomic analyses, as well as exogenous ethrel and aminoethoxyinylglycine (AVG: ethylene inhibitor) experiments using the large fruit and small fruit of 'Yaoxianwuhua'. The results showed that stages 3–4 (June 11–June 25) are the crucial morphological period for differentiation of large fruit and small fruit in persimmon. At this crucial morphological period, the cell number in large fruit was significantly more than that in small fruit, indicating that the difference in cell number is the main reason for the differentiation of persimmon fruit size. The difference in cell number was caused by cell division. CNR1, ANT, LAC17 and EB1C, associated with cell division, may be involved in regulating persimmon fruit size. Exogenous ethrel resulted in a decrease in fruit weight, and AVG treatment had the opposite effect. In addition, LAC17 and ERF114 were upregulated after ethrel treatment. These results indicated that high ethylene levels can reduce persimmon fruit size, possibly by inhibiting cell division. This study provides valuable information for understanding the regulation mechanism of persimmon fruit size and lays a foundation for subsequent breeding and artificial regulation of fruit size. [ABSTRACT FROM AUTHOR]

Published

2024

3. The miR-182-5p/GPX4 Pathway Contributes to Sevoflurane-Induced Ototoxicity via Ferroptosis.

Author

Jin, Lin, Yu, Xiaopei, Zhou, Xuehua, Li, Gang, Li, Wen, He, Yingzi, Li, Huawei, and Shen, Xia

Subjects

OTOTOXICITY, IRON overload, GENE expression, FLUORESCENT probes, HEARING disorders, GLUTATHIONE peroxidase, LUCIFERASES, REPORTER genes

Abstract

Our study aimed to investigate the role of ferroptosis in sevoflurane-induced hearing impairment and explore the mechanism of the microRNA-182-5p (miR-182-5p)/Glutathione Peroxidase 4 (GPX4) pathway in sevoflurane-induced ototoxicity. Immunofluorescence staining was performed using myosin 7a and CtBP2. Cell viability was assessed using the CCK-8 kit. Fe2+ concentration was measured using FerroOrange and Mi-to-FerroGreen fluorescent probes. The lipid peroxide level was assessed using BODIPY 581/591 C11 and MitoSOX fluorescent probes. The auditory brainstem response (ABR) test was conducted to evaluate the hearing status. Bioinformatics tools and dual luciferase gene reporter analysis were used to confirm the direct targeting of miR-182-5p on GPX4 mRNA. GPX4 and miR-182-5p expression in cells was assessed by qRT-PCR and Western blot. Ferrostatin-1 (Fer-1) pretreatment significantly improved hearing impairment and damage to ribbon synapses in mice caused by sevoflurane exposure. Immunofluorescence staining revealed that Fer-1 pretreatment reduced intracellular and mitochondrial iron overload, as well as lipid peroxide accumulation. Our findings indicated that miR-182-5p was upregulated in sevoflurane-exposed HEI-OC1 cells, and miR-182-5p regulated GPX4 expression by binding to the 3′UTR of GPX4 mRNA. The inhibition of miR-182-5p attenuated sevoflurane-induced iron overload and lipid peroxide accumulation. Our study elucidated that the miR-182-5p/GPX4 pathway was implicated in sevoflurane-induced ototoxicity by promoting ferroptosis. [ABSTRACT FROM AUTHOR]

Published

2024

4. Nuciferine Protects Cochlear Hair Cells from Ferroptosis through Inhibiting NCOA4-Mediated Ferritinophagy.

Author

Gao, Xian, Mao, Huanyu, Zhao, Liping, Li, Xiang, Liao, Yaqi, Li, Wenyan, Li, Huawei, and Chen, Yan

Subjects

HAIR cells, APOPTOSIS, HEARING disorders, ANTINEOPLASTIC agents, OTOTOXICITY

Abstract

Cisplatin is a widely used antineoplastic drug for treating various types of cancers. However, it can cause severe side effects, such as bilateral and irreversible hearing loss, which significantly impacts quality of life. Ferroptosis, an iron-dependent form of programmed cell death, has been implicated in the pathogenesis of cisplatin-induced ototoxicity. Here, we investigated the effects of nuciferine, a natural active ingredient isolated from lotus species, on the ferroptosis of cochlear hair cells. Firstly, our results demonstrated that nuciferine can protect hair cells against RSL3-induced and cisplatin-induced damage. Secondly, nuciferine treatment reduced ferrous iron (Fe2+) overload in cochlear hair cells via inhibiting NCOA4-mediated ferritinophagy. Inhibition of ferritinophagy by knocking down Ncoa4 alleviated cisplatin-induced ototoxicity. Importantly, nuciferine treatment mitigated cochlear hair cell loss and damage to ribbon synapse, and improved mouse hearing function in an acute cisplatin-induced hearing loss model. Our findings highlight the role of NCOA4-mediated ferritinophagy in the pathogenesis of cisplatin-induced ototoxicity and provide evidence for nuciferine as a promising protective agent for treating cisplatin-induced hearing loss. [ABSTRACT FROM AUTHOR]

Published

2024

5. Cytological, Phytohormone, and Transcriptome Analyses Provide Insights into Persimmon Fruit Shape Formation (Diospyros kaki Thunb.).

Author

Li, Huawei, Suo, Yujing, Li, Hui, Sun, Peng, Han, Weijuan, and Fu, Jianmin

Subjects

*PERSIMMON, *FRUIT, *DIOSPYROS, *TRANSCRIPTOMES, *CELL division, *PLANT hormones

Abstract

Fruit shape is an important external feature when consumers choose their preferred fruit varieties. Studying persimmon (Diospyros kaki Thunb.) fruit shape is beneficial to increasing its commodity value. However, research on persimmon fruit shape is still in the initial stage. In this study, the mechanism of fruit shape formation was studied by cytological observations, phytohormone assays, and transcriptome analysis using the long fruit and flat fruit produced by 'Yaoxianwuhua' hermaphroditic flowers. The results showed that stage 2–3 (June 11–June 25) was the critical period for persimmon fruit shape formation. Persimmon fruit shape is determined by cell number in the transverse direction and cell length in the longitudinal direction. High IAA, GA4, ZT, and BR levels may promote long fruit formation by promoting cell elongation in the longitudinal direction, and high GA3 and ABA levels may be more conducive to flat fruit formation by increasing the cell number in the transverse direction and inhibiting cell elongation in the longitudinal direction, respectively. Thirty-two DEGs related to phytohormone biosynthesis and signaling pathways and nine DEGs related to cell division and cell expansion may be involved in the persimmon fruit shape formation process. These results provide valuable information for regulatory mechanism research on persimmon fruit formation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mendelian Randomization Reveals: Triglycerides and Sensorineural Hearing Loss.

Author

Ding, Shun, Liu, Yixuan, Duan, Tingting, Fang, Peng, Tong, Qiling, Li, Huawei, and Yu, Huiqian

Subjects

SENSORINEURAL hearing loss, GENOME-wide association studies, BLOOD lipids, TRIGLYCERIDES, GENETIC variation, EAR, CARDIOVASCULAR system

Abstract

Background: Sensorineural hearing loss (SNHL) is a multifactorial disorder with potential links to various physiological systems, including the cardiovascular system via blood lipid levels such as triglycerides (TG). This study investigates the causal relationship between TG levels and SNHL using Mendelian randomization (MR), which offers a method to reduce confounding and reverse causality by using genetic variants as instrumental variables. Methods: Utilizing publicly available genome-wide association study (GWAS) data, we performed a two-sample MR analysis. The initial analysis unveiled a causal relationship between TG (GWAS ID: ebi-a-GCST90018975) and SNHL (GWAS ID: finn b-H8_HL_SEN-NAS). Subsequent analysis validated this through MR with a larger sample size for TG (GWAS ID: ieu-b-111) and SNHL. To conduct the MR analysis, we utilized several methods including inverse-variance weighted (IVW), MR Egger, weighted median, and weighted mode. We also employed Cochrane's Q test to identify any heterogeneity in the MR results. To detect horizontal pleiotropy, we conducted the MR-Egger intercept test and MR pleiotropy residual sum and outliers (MR-PRESSO) test. We performed a leave-one-out analysis to assess the sensitivity of this association. Finally, a meta-analysis of the MR results was undertaken. Results: Our study found a significant positive correlation between TG and SNHL, with OR values of 1.14 (95% CI: 1.07–1.23, p < 0.001) in the IVW analysis and 1.09 (95% CI: 1.03–1.16, p < 0.006) in the replicate analysis. We also found no evidence of horizontal pleiotropy or heterogeneity between the genetic variants (p > 0.05), and a leave-one-out test confirmed the stability and robustness of this association. The meta-analysis combining the initial and replicate analyses showed a significant causal effect with OR values of 1.11 (95% CI: 1.06–1.16, p = 0.01). Conclusion: These findings indicate TG as a risk factor for SNHL, suggesting potential pathways for prevention and intervention in populations at risk. This conclusion underscores the importance of managing TG levels as a strategy to mitigate the risk of developing SNHL. [ABSTRACT FROM AUTHOR]

Published

2024

7. Physiological Characteristics and Transcriptional Differences of Growth Traits of Persimmon with Different Ploidy.

Author

Pu, Tingting, Wang, Yiru, Han, Weijuan, Li, Huawei, Sun, Peng, Suo, Yujing, and Fu, Jianmin

Subjects

PLOIDY, PERSIMMON, GIBBERELLIC acid, GENE expression, REGULATOR genes, PLANT hormones

Abstract

Ploidy breeding is one of the important approaches for persimmon (Diospyros kaki Thunb.) genetic improvement, and vegetative growth of seedlings is the basis for subsequent fruit development. Therefore, the physiological characteristics and transcriptional differences of seedling growth traits in different ploidy persimmon germplasm were studied in this study, which provided a theoretical basis for fruit evaluation and breeding of new polyploid persimmon varieties. Nonuploid and its full-sib hexaploid seedlings obtained from endosperm culture were used as materials. By observing plant phenotype, leaf tissue section, endogenous hormone content, and transcriptome sequencing, the phenotype and physiological characteristics of different ploidy Persimmon seedlings were compared, as well as the differences in transcription levels. (1) Compared with hexaploid seedlings, the nonuploid were more robust and compact, and the leaves were obviously thicker. The cell size of leaf veins and parenchyma were significantly different between the different ploidy plants. (2) The contents of Salicylic Acid (SA), Jasmonic Acid (JA), gibberellin A1 (GA1), gibberellin A3 (GA3) and Indole-3-acetic acid (IAA) in nonuploid leaves were significantly higher than those in hexaploid leaves, while the contents of cytokinin trans-zeanoside (Tzt) and dihydrozeanoside (DZR), N6-isopentenyladenine (iP) and Jasmonoyl-L-isoleucine (JA-ILE) in nonuploid leaves were significantly lower than those in hexaploid leaves. (3) A total of 5796 differentially expressed genes were identified in nonuploid and hexaploid leaves. These differentially expressed genes were mainly related to photosynthesis, plant-pathogen interaction, etc. Among them, YUCCA genes, GA3ox genes, and IPT genes related to hormone synthesis were significantly differentially expressed in the nonuploid and hexaploid leaves. It is speculated that it may be the key regulatory gene that leads to the difference in IAA, gibberellin (GA), and indolepropionic acid (IPA) levels in the nonuploid and the hexaploid. The growth traits of the new Persimmon germplasms with different ploidy were significantly different. The nonuploid plants were shorter and more compact, and the leaves were larger and thicker. These traits were closely related to the content of endogenous hormones, and the balance of endogenous hormones was affected by gene expression. In addition, based on the biological processes involved in hormones and differentially expressed genes, it is speculated that the nonuploid may be superior to the hexaploid in terms of resistance. [ABSTRACT FROM AUTHOR]

Published

2024

8. Experimental Study on the Effects of Straight and Ring-Type Steel Fibres on the Bond Behaviour of Steel Bars in Rubber-Recycled Aggregate Concrete.

Author

Ma, Honglong, Li, Huawei, Zheng, Jinhu, Wei, Wei, He, Shaohua, Tian, Xiaopeng, Li, Xiaohui, and Liu, Feng

Subjects

STEEL bars, CONSTRUCTION materials, FIBERS, STEEL, REINFORCED concrete, BOND strengths

Abstract

The application range of rubber-recycled aggregate concrete (RRAC), a new type of green building material, is currently limited due to performance defects, including low hardness, high water absorption, and poor adhesion. To expand its application in reinforced concrete structures, it is crucial to enhance the bonding performance between RRAC and steel bars. In this study, the effects of adding straight steel fibres (SSFs) and ring-type steel fibres (RSFs) to RRAC were investigated, in order to enhance the bonding performance. To investigate the impact of steel fibres (SFs) on the bonding properties of RRAC and steel bars, a total of 51 specimens were subjected to pull-out tests to systematically examine the impact of SSF and RSF dosages on the bonding performance. The results demonstrated that incorporating the optimal amount of SSFs and RSFs can significantly improve the bond strength and bond stiffness. Moreover, the combined use of SSFs and RSFs yielded even better enhancement effects. The RRAC exhibited remarkable performance, when the total content of SFs was 1.2% and the proportion of RSFs 75%. In this case, the bond strength and bond stiffness were enhanced by 3.7% and 53.88%, respectively. Finally, a bond–slip constitutive model for RRAC and steel bar was established. The combined use of SSFs and RSFs minimizes the limitations of poor mechanical properties in traditional RRAC and holds significant value for the widespread adoption and application of RRAC. [ABSTRACT FROM AUTHOR]

Published

2024

9. Bicarbonate-Dependent Detoxification by Mitigating Ammonium-Induced Hypoxic Stress in Triticum aestivum Root.

Author

Liu, Xiao, Zhang, Yunxiu, Tang, Chengming, Li, Huawei, Xia, Haiyong, Fan, Shoujin, and Kong, Lingan

Subjects

ROOT growth, OXYGEN consumption, WHEAT, POISONS, ALCOHOL dehydrogenase, LACTATE dehydrogenase, DIOXYGENASES, ETHANOL, LACTATES

Abstract

Simple Summary: Ammonium (NH4+) is usually toxic to plant growth when used as the sole or dominant N source. Exploring the underlying molecular mechanisms of NH4+ toxicity and how to minimize NH4+ toxicity may greatly benefit crop productivity. In this study, the underlying mechanism of NH4+ toxicity and bicarbonate (HCO3−)-dependent alleviation in wheat was investigated. Comprehensive transcriptomic and physiological analyses suggested that NH4+ nutrition alone stimulated fermentation and glycolysis, promoted the activity of alternative respiratory pathways, suppressed TCA cycle pathways, and reduced ATP synthesis; adding HCO3− relieved the toxic effects of NH4+ nutrition. Our results reveal the importance of C and N interactions for alleviating NH4+ toxicity, likely by mitigating root hypoxic stress. As the first report on the hypoxic stress triggered by NH4+ treatment, this study provides novel insights into the mechanisms of NH4+ toxicity and its alleviation, which may present potential solutions for improving the nitrogen use efficiency in wheat. Ammonium (NH4+) toxicity is ubiquitous in plants. To investigate the underlying mechanisms of this toxicity and bicarbonate (HCO3−)-dependent alleviation, wheat plants were hydroponically cultivated in half-strength Hoagland nutrient solution containing 7.5 mM NO3− (CK), 7.5 mM NH4+ (SA), or 7.5 mM NH4+ + 3 mM HCO3− (AC). Transcriptomic analysis revealed that compared to CK, SA treatment at 48 h significantly upregulated the expression of genes encoding fermentation enzymes (pyruvate decarboxylase (PDC), alcohol dehydrogenase (ADH), and lactate dehydrogenase (LDH)) and oxygen consumption enzymes (respiratory burst oxidase homologs, dioxygenases, and alternative oxidases), downregulated the expression of genes encoding oxygen transporters (PIP-type aquaporins, non-symbiotic hemoglobins), and those involved in energy metabolism, including tricarboxylic acid (TCA) cycle enzymes and ATP synthases, but upregulated the glycolytic enzymes in the roots and downregulated the expression of genes involved in the cell cycle and elongation. The physiological assay showed that SA treatment significantly increased PDC, ADH, and LDH activity by 36.69%, 43.66%, and 61.60%, respectively; root ethanol concentration by 62.95%; and lactate efflux by 23.20%, and significantly decreased the concentrations of pyruvate and most TCA cycle intermediates, the complex V activity, ATP content, and ATP/ADP ratio. As a consequence, SA significantly inhibited root growth. AC treatment reversed the changes caused by SA and alleviated the inhibition of root growth. In conclusion, NH4+ treatment alone may cause hypoxic stress in the roots, inhibit energy generation, suppress cell division and elongation, and ultimately inhibit root growth, and adding HCO3− remarkably alleviates the NH4+-induced inhibitory effects on root growth largely by attenuating the hypoxic stress. [ABSTRACT FROM AUTHOR]

Published

2024

10. Mechanical, Electrical, and Tensile Self-Sensing Properties of Ultra-High-Performance Concrete Enhanced with Sugarcane Bagasse Ash.

Author

Lian, Jinkang, Wang, Yulin, Fu, Tengfei, Easa, Said M, Zhou, Yan, and Li, Huawei

Subjects

HIGH strength concrete, BAGASSE, CEMENT composites, SUGARCANE, ELECTRICAL resistivity, LOADING & unloading

Abstract

Although sugarcane bagasse ash (SCBA) possesses favorable cementitious properties, previous research has primarily focused on improving the mechanical performance of conventional concrete- or cement-based composites. Limited attention has been given to ultra-high-performance concrete (UHPC) with SCBA, especially regarding its tensile -sensing properties. This study aimed to comprehensively evaluate the effect of SCBA on the mechanical, electrical, and tensile self-sensing properties of UHPC. The results demonstrated that incorporating SCBA below the critical concentration of 3.0 wt% enhanced the mechanical properties of UHPC. Notably, adding 3.0 wt% SCBA remarkably improved the compressive, flexural, and tensile strengths of UHPC, resulting in increases of 13.1%, 17.4%, and 20.6%, respectively. However, excessive incorporation of SCBA adversely affected the mechanical properties due to reduced workability of UHPC, increased generation of harmful voids, and a lower degree of hydration caused by the excess SCBA. Furthermore, the inclusion of SCBA influenced the electrical resistivity of UHPC, and specifically, an SCBA content of 0.3 wt% yielded the maximum electrical resistivity. Moreover, incorporating SCBA in UHPC enhanced its tensile stress-sensing performance compared to SCBA-free UHPC. Among the various SCBA contents tested, UHPC with 0.3 wt% SCBA presented the best linearity, with values of 8.8% for loading and 17.0% for unloading, respectively, which were significantly lower than those for SCBA-free UHPC, which were 14.0% and 60.0%, respectively. Additionally, UHPC with 0.9 wt% SCBA gained the lowest hysteresis and repeatability, with values of 13.3% and 5.3%, respectively, which were much lower than those for SCBA-free UHPC, which were 50% and 51.6%, respectively. The tensile stress-sensing performance of UHPC is influenced by three key aspects: the gap between adjacent conductive fillers, contact resistance, and the connectivity of the electrical network, which are subject to change due to varying stress states and SCBA concentrations. This study should aid SCBA use and promote UHPC's practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

11. Performance Evaluation of Thermal Insulation Rubberized Mortar Modified by Fly Ash and Glass Fiber.

Author

Pan, Zezhou, Liu, Feng, Li, Huawei, Li, Xiaohui, Wang, Daochu, Ling, Zao, Zhu, Huanyu, and Zhu, Yuhao

Subjects

MORTAR, FLY ash, THERMAL insulation, GLASS fibers, RUBBER powders, RUBBER waste

Abstract

The utilization of waste rubber as a viable option for manufacturing building materials holds great significance for the sustainable development of the construction industry. This study explores the addition of two additives, fly ash (FA) and glass fiber (GF), to rubberized mortar in order to improve its performance. The impact of different waste rubber powder (RP) replacement rates and modified additive dosages on the performance of rubberized mortar, including fluidity, mechanical properties, drying shrinkage, impact resistance, and thermal insulation properties, was investigated. Furthermore, the analytic hierarchy process (AHP) was adopted to study the priorities of the rubberized mortar modified by FA and GF. The results indicate that the addition of RP leads to a decrease in mortar fluidity, mechanical properties, and drying shrinkage. However, it can enhance its impact resistance and thermal insulation properties. The additives, FA and GF, have a significant influence on the properties of rubberized mortar. By means of AHP method analysis, this study concludes that the optimal comprehensive properties of FA- and GF-modified rubberized mortar can be achieved by replacing 10% of sand with RP and using 10% FA and 0.4% GF. This study presents a configuration method for modified thermal insulation rubberized mortar, and it may lead to FA and GF being considered potential candidates for developing environmentally friendly building materials. [ABSTRACT FROM AUTHOR]

Published

2024

12. Comparative Metabolomic and Transcriptomic Analyses Reveal Distinct Ascorbic Acid (AsA) Accumulation Patterns between PCA and PCNA Persimmon Developing Fruit.

Author

Wang, Yiru, Diao, Songfeng, Li, Huawei, Ye, Lingshuai, Suo, Yujing, Zheng, Yanhao, Sun, Peng, Han, Weijuan, and Fu, Jianmin

Subjects

VITAMIN C, PROLIFERATING cell nuclear antigen, PERSIMMON, FRUIT, METABOLOMICS, FRUIT yield

Abstract

Persimmon fruit has a high nutritional value and significantly varies between pollination-constant astringent (PCA) and pollination-constant non-astringent (PCNA) persimmons. The astringency type affects sugar, flavonoids, and tannin accumulation and is well known in persimmon fruit. However, the impact of the fruit astringency type on ascorbic acid (AsA) accumulation is limited. In this study, typical PCA varieties ('Huojing' and 'Zhongshi5') and PCNA varieties ('Yohou' and 'Jiro') of persimmon fruit were sampled at four developing stages (S1–S4) to provide valuable information on AsA content variation in PCA and PCNA persimmon. Persimmon fruit is rich in ascorbic acid; the AsA content of the four varieties 'Zhongshi5', 'Huojing', 'Jiro', and 'Youhou' mature fruit reached 104.49, 48.69, 69.69, and 47.48 mg/100 g. Fruit of the same astringency type persimmon showed a similar AsA accumulation pattern. AsA content was significantly higher in PCA than PCNA fruit at S1–S3. The initial KEGG analysis of metabolites showed that galactose metabolism is the major biosynthetic pathway of AsA in persimmon fruit. There were significant differences in galactose pathway-related metabolite content in developing PCA and PCNA fruit, such as Lactose, D-Tagatose, and D-Sorbitol content in PCA being higher than that of PCNA. Combined gene expression and WGCNA analyses showed that the expression of the GME (evm.TU.contig4144.37) gene was higher in PCA-type than in PCNA-type fruit in S1–S3 and exhibited the highest correlation with AsA content (r = 690 **, p < 0.01). Four hub genes, including the DNA methylation gene, methyltransferase gene, F-box, and Actin-like Protein, were identified as potential regulators of the GME gene. These results provide basic information on how astringency types affect AsA accumulation and will provide valuable information for further investigation on AsA content variation in persimmon fruit. [ABSTRACT FROM AUTHOR]

Published

2023

13. Strength and Mechanism of Granite Residual Soil Strengthened by Microbial-Induced Calcite Precipitation Technology.

Author

Wang, Rong, Li, Huawei, Chen, Zichuang, Liu, Fang, Wei, Muwang, Liu, Feiyu, Wang, Qian, and Hu, Changbin

Subjects

CALCITE, GRANITE, DECAY rates (Radioactivity), SOILS, INTERNAL friction, CRYSTAL morphology

Abstract

High rainfall environmental conditions can easily cause erosion or collapse of the granite residual soil slope. However, traditional slope reinforcement methods have drawbacks such as poor landscape effect, high energy consumption of raw materials, and environmental pollution. This study studied the application of microbial-induced calcite precipitation (MICP) in the reinforcement of granite residual soil. The consolidation effect of various methods was investigated, and the influence of cementing liquid concentration and pH value on consolidation under optimal curing conditions was explored. The results showed that the bacteria concentration reached OD600 = 3.0 and urease activity was 31.64 mM/min, which positively impact the production of calcium carbonate and the stability of crystal morphology. In addition, the soaking method was found to have the most effective consolidation effect on the surface soil samples, with the lowest disintegration rate. On the other hand, the peristaltic pump grouting method is the most effective in strengthening depth. This method resulted in a 513.65% increase in unconfined compressive strength (UCS), a 297.98% increase in cohesion, and a 101.75% increase in internal friction angle. This study also found that after seven rounds of grouting, the highest UCS was achieved in consolidated soil samples with a 0.5 mol/L cementing solution concentration, reaching 1.602 MPa. The UCS of soil samples increases as the pH value of the cementing fluid increases within the range of 6–8. As the pH value reaches 8–9, the strength increases and stabilizes gradually. These research findings can serve as an experimental basis for strengthening granite residual soil slopes and a guide for improving microbial geotechnical strengthening methods. [ABSTRACT FROM AUTHOR]

Published

2023

14. Research Progress on Porcine Reproductive and Respiratory Syndrome Virus NSP7 Protein.

Author

Li, Huawei, Luo, Qin, Jing, Huiyuan, Song, Yuzhen, Kong, Weili, Zhao, Mengmeng, and Zhu, Qingge

Subjects

*PORCINE reproductive & respiratory syndrome, *VIRAL proteins, *SWINE farms, *PLANT viruses, *DRUG development

Abstract

Simple Summary: Research on the NSP7 protein is of great significance in the diagnosis, prevention, and control of porcine reproductive and respiratory syndrome virus (PRRSV). We summarize its genetic variation, recombination hotspots and breakpoints, replication, virulence, immune mechanisms, and interaction with viral proteins and host proteins, which provide theoretical support for its application in PRRS diagnosis, novel vaccine design, and therapeutic drug development. Porcine reproductive and respiratory syndrome (PRRS) is a highly contagious and severe infectious disease caused by the PRRS virus (PRRSV). PRRS is characterized by reproductive disorders in sows and respiratory dysfunction in pigs. Non-structural protein 7 (NSP7) is one of the most conserved functional proteins in PRRSV, and it plays an important role in viral replication and humoral immune responses in infected hosts. This review discusses the biological characteristics of NSP7 to provide theoretical support for its application in PRRS diagnosis, novel vaccine design, and therapeutic drug development. [ABSTRACT FROM AUTHOR]

Published

2023

15. Optimal Scheduling of the Wind-Photovoltaic-Energy Storage Multi-Energy Complementary System Considering Battery Service Life.

Author

Li, Yanpin, Wang, Huiliang, Zhang, Zichao, Li, Huawei, Wang, Xiaoli, Zhang, Qifan, Zhou, Tong, Zhang, Peng, and Chang, Fengxiang

Subjects

SERVICE life, CARBON emissions, MICROGRIDS, PARTICLE swarm optimization, WIND power, CARBON offsetting, RENEWABLE energy sources

Abstract

Under the background of "peak carbon dioxide emissions by 2030 and carbon neutrality by 2060 strategies" and grid-connected large-scale renewables, the grid usually adopts a method of optimal scheduling to improve its ability to cope with the stochastic and volatile nature of renewable energy and to increase economic efficiency. This article proposes a short-term optimal scheduling model for wind–solar storage combined-power generation systems in high-penetration renewable energy areas. After the comprehensive consideration of battery life, energy storage units, and load characteristics, a hybrid energy storage operation strategy was developed. The model uses the remaining energy in the system after deducting wind PV and energy storage output as the "generalized load". An improved particle swarm optimization (PSO) is used to solve the scheduling schemes of different running strategies under different objectives. The optimization strategy optimizes the battery life-loss coefficient from 0.073% to 0.055% under the target of minimizing the mean squared deviation of "generalized load", which was optimized from 0.088% to 0.053% under the minimized fluctuation of combined system output and optimized from 0.092% to 0.081% under the minimized generation costs of the combined system. The results show that the model can ensure a stable operation of the combined system, and the operation strategy proposed in this article effectively reduces battery life loss while reducing the total power generation cost of the system. Finally, the superiority of the improved PSO algorithm was verified. [ABSTRACT FROM AUTHOR]

Published

2023

16. Transcriptome and Metabolome Reveal Distinct Sugar Accumulation Pattern between PCNA and PCA Mature Persimmon Fruit.

Author

Han, Weijuan, Wang, Yiru, Li, Huawei, Diao, Songfeng, Suo, Yujing, Li, Taishan, Sun, Peng, Li, Fangdong, and Fu, Jianmin

Subjects

TREHALOSE, SUCROSE, PROLIFERATING cell nuclear antigen, PERSIMMON, FRUIT, STARCH metabolism, SUGARS

Abstract

Persimmon (Diospyros kaki) fruit have significant variation between pollination-constant non-astringent (PCNA) and pollination-constant astringent (PCA) persimmons. The astringency type affects not only the soluble tannin concentration but also the accumulation of individual sugars. Thus, we comprehensively investigate the gene expression and metabolite profiles of individual sugars to resolve the formation of flavor differences in PCNA and PCA persimmon fruit. The results showed that soluble sugar, starch content, sucrose synthase, and sucrose invertase were significantly different between PCNA and PCA persimmon fruit. The sucrose and starch metabolism pathway was considerably enriched, and six sugar metabolites involving this pathway were significantly differentially accumulated. In addition, the expression patterns of diferentially expressed genes (such as bglX, eglC, Cel, TPS, SUS, and TREH genes) were significantly correlated with the content of deferentially accumulated metabolites (such as starch, sucrose, and trehalose) in the sucrose and starch metabolism pathway. These results indicated that the sucrose and starch metabolism pathway maintained a central position of sugar metabolism between PCNA and PCA persimmon fruit. Our results provide a theoretical basis for exploring functional genes related to sugar metabolism and provide useful resources for future studies on the flavor differences between PCNA and PCA persimmon fruit. [ABSTRACT FROM AUTHOR]

Published

2023

17. Diversity of Catechin Content in the Leaves of Persimmon Germplasms.

Author

Wang, Yiru, Suo, Yujing, Li, Huawei, Han, Weijuan, Sun, Peng, Li, Fangdong, and Fu, Jianmin

Subjects

PERSIMMON, CATECHIN, PHENOLS, GENETIC variation, PROLIFERATING cell nuclear antigen

Abstract

Catechins are essential phenolic compounds in persimmon. However, the catechin content in the leaves of persimmon germplasms has not been systematically and comprehensively evaluated. To systematically assess catechin variation in different growth stages and astringency types of persimmon leaves, the young and adult leaves catechin content of 249 persimmon germplasms from Korea, Japan, and 16 provinces in China was quantified using an HPLC method. The results showed that the content of (−)-epicatechin (EC) and (−)-gallocatechin gallate (GCG) had higher coefficient of variation (CV) values in persimmon young leaves (106.74%) and adult leaves (91.49%), respectively. The genetic diversity H' of (+)-catechin (CA) and (+)-gallocatechin (GC) content was higher in young leaves (2.00 and 2.03), and the H' value of (−)-epigallocatechin (EGC) and CA content was higher in adult leaves (1.98 and 1.92). The non-galloylated catechins, EGC, EC, and CA, were significantly positively correlated with each other in both young and adult leaves. Catechins of persimmon leaves showed different accumulation patterns in different growth stages and astringency types; (−)-epigallocatechin gallate (EGCG) and CA had the highest average content in the persimmon germplasms of Guangxi and Shanxi provinces of China, respectively. The content of (+)-catechin gallate (CG) was found to be significantly higher in Japanese pollination-constant non-astringent (J-PCNA) persimmon leaves, and EC, GCG had the highest levels in Chinese PCNA (C-PCNA) type. The 249 germplasms were classified into five clusters (Cluster I-V) by SOM clustering based on the content of nine catechins, with EC, CA, and GC having the highest content in Cluster V of the adult leaves. In addition, four excellent germplasms of Cluster III had the highest EGC and GC content in young leaves. Thus, the critical period for catechin utilization of persimmon leaves can be further determined, and provide theoretical references for excellent germplasm screening. [ABSTRACT FROM AUTHOR]

Published

2023

18. Identification and Expression Analysis of the bHLH Gene Family Members in Diospyros kaki.

Author

Han, Weijuan, Zhang, Qi, Suo, Yujing, Li, Huawei, Diao, Songfeng, Sun, Peng, Huang, Lin, and Fu, Jianmin

Subjects

GENE expression, GENE families, DIOSPYROS, HELIX-loop-helix motifs, SECONDARY metabolism, PROTEIN synthesis, ANTHOCYANINS

Abstract

Basic helix–loop–helix (bHLH) proteins belong to one of the largest families involved in plant growth, development, signal transduction, and secondary metabolism. Although bHLH genes have been previously identified in persimmon (Diospyros kaki), systematic studies have not been reported. A total of 59 bHLH family members have been identified from the "Xiaoguotianshi" persimmon transcriptome. These proteins were clustered into 12 groups from I to XII based on their phylogenetic relationships with Arabidopsis thaliana. Combined with the phylogenetic analysis, in silico expression patterns of five developmental stages, the protein–protein interaction analysis between DkbHLH and DkMYB proteins showed that the bHLH_Cluster-15548.1 protein sequence was identified to be highly similar to the AtGL3 (AT5G41315.1) protein, which is associated with flavonoid and proanthocyanidin (PA) biosynthesis. This study presents the systematic analysis of bHLH genes from D. kaki and provides valuable information for further research on the involvement of bHLH protein in anthocyanin biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2023

19. Diversity of Fruit Quality in Astringent and Non−Astringent Persimmon Fruit Germplasm.

Author

Han, Weijuan, Zhang, Qi, Pu, Tingting, Wang, Yiru, Li, Huawei, Luo, Ying, Li, Taishan, and Fu, Jianmin

Subjects

FRUIT quality, PERSIMMON, GERMPLASM, FRUIT, CLUSTER analysis (Statistics)

Abstract

Persimmon (Diospyros kaki Thunb.) is an economically important tree with a long history of cultivation in China. So far, a total of approximately 1000 varieties have been found in China. To systematically evaluate the diversity of persimmon fruit quality, 22 quality measures of appearance, intrinsic, and sensory quality were evaluated using 61 typical persimmon fruit. According to the findings, the coefficient of variation (CV) of 15 appearance and intrinsic quality index values ranged from 13.81% (fruit shape index) to 165.80% (firmness), and the CV values of 7 intrinsic quality attributes were all higher than 50%, with the CV of total polyphenols and ironic soluble pectin contents (ISP) being as high as 159.82% and 143.80%, respectively. These findings showed that several persimmon germplasm resources had a highly diverse range of fruit quality, wide variation, and distribution. Insoluble tannin and soluble sugar were shown to have a substantial positive correlation with the sensory flavor indexes (p < 0.05), indicating their significance in influencing the flavor quality of persimmon fruit. Cluster analysis was performed utilizing 15 indexes of appearance, intrinsic quality, and 7 indexes of sensory quality. The samples were divided into two groups: group I consisted of 52 pollination−constant and astringent (PCA) and 1 pollination−-variant astringent (PVA) persimmon resources, and group II consisted of 6 pollination−constant non−astringent (PCNA) and 2 pollination−variant non−astringent (PVNA) persimmon resources. The results were consistent with the classification based on the mode of astringency loss, indicating that there was a significant difference in the quality of astringent and non−astringent persimmon fruit. This study provides theoretical references for the development and application of persimmon germplasm resources. [ABSTRACT FROM AUTHOR]

Published

2023

20. Metabolome and Transcriptome Analysis Reveal the Accumulation Mechanism of Carotenoids and the Causes of Color Differences in Persimmon (Diospyros kaki Thunb.) Fruits.

Author

Ye, Lingshuai, Mai, Yini, Wang, Yiru, Yuan, Jiaying, Suo, Yujing, Li, Huawei, Han, Weijuan, Sun, Peng, Diao, Songfeng, and Fu, Jianmin

Subjects

PERSIMMON, CAROTENOIDS, LYCOPENE, DIOSPYROS, TRANSCRIPTOMES, FRUIT, COLOR

Abstract

To explore the mechanisms of the color formation of different colored persimmon fruits, we used two different colored persimmon cultivars (yellow-peeled persimmon fruit 'Zhongshi No.6' and red-peeled persimmon fruit 'Hongdenglong') as materials to study the synthesis and accumulation of carotenoids in three stages (full green, color transition, and full yellow or red) using targeted metabolomic and transcriptomic methods. A total of 14 carotenoids and 30 carotenoid lipids were identified in the peel of the two persimmon cultivars. After analysis, it was found that the total carotenoid content of the red persimmon cultivar was higher than that of the yellow persimmon cultivar. The contents of lycopene, α-carotenoid, β-carotenoid, (E/Z)-phytoene, and β-cryptoxanthin are the main reasons for the difference in total carotenoid content between the two persimmon cultivars, especially lycopene. Twelve structural genes involved in the metabolism of carotenoids were also found in this study. In comprehensive metabolome and transcriptome analysis, we found that, between the two persimmon cultivars, lycopene was the key metabolite responsible for the color difference, and PSY, LCYE, and ZDS were the key genes that regulated the differences in lycopene accumulation. The results of this study provide us with new information regarding persimmon fruit synthesis and accumulation. In addition, they also provide a theoretical foundation for improving persimmon fruit germplasm. [ABSTRACT FROM AUTHOR]

Published

2022

21. "The 20 July 2021 Major Flood Event" in Greater Zhengzhou, China: A Case Study of Flooding Severity and Landscape Characteristics.

Author

Duan, Yanbo, Gao, Yu Gary, Zhang, Yusen, Li, Huawei, Li, Zhonghui, Zhou, Ziying, Tian, Guohang, and Lei, Yakai

Subjects

FLOODS, NATURAL disasters, CLIMATE extremes, VACANT lands, STORMS, FLOOD risk

Abstract

Climate change and rapid urbanization are two global processes that have significantly aggravated natural disasters, such as drought and flooding. Urbanization without resilient and sustainable planning and execution could lead to undesirable changes in landscapes and stormwater regulation capacity. These changes have exacerbated the effects of extreme climatic events with disastrous consequences in many cities worldwide. Unfortunately, the major storm in Zhengzhou, China on 20 July 2021 was one of these examples. This event provided a rare opportunity to study the key roles of green infrastructures (GI) in mitigating flooding risks in a major urban center after a devasting flood event. Using the data from high-resolution images collected via two satellites, a comprehensive study of the Jialu System in Greater Zhengzhou was conducted to systematically compare how far the river water had reached before and after the 20 July 2021 major storm in order to identify the main weak links in the city's GI and stormwater management system. A flood inundation intensity index (FI) in the Upper (UJLR), Middle (MJLR), and Lower (LJLR) Regions of the Jialu River System was generated. Bivariate Moran's I, a correlation coefficient between FI and landscape characteristics, was calculated and used to identify problem areas for future improvements. Our results showed that the MJLR had the severest flooding impacts. LJLR had the biggest change in how far the river water reached after flooding, ranging from 4.59 m to 706.28 m. In UJLR, the percentages of mine, crop land, and green space had the highest global bivariate Moran's I correlation coefficients. In MJLR, the percentages of vacant land, impervious surfaces, and water body had the highest global bivariate Moran's I correlation coefficients. In LJLR, the percentages of vacant land, water body, and crop land had the highest global bivariate Moran's I correlation coefficients. The total percentages of both high landscape characteristics indices-high flood inundation intensity indices and low landscape characteristics indices-high flood inundation intensity indices areas are 12.96%, 13.47%, and 13.80% in UJLR, MJLR, and LJLR, respectively. These land cover composition types identified for each region can be treated as areas of primary focus. However, GeoDector Model (GDM) analyses showed that our eight variables of landscape characteristics were not independent. Hence, a more comprehensive approach integrating all eight variables is still necessary in future flood mitigation efforts. [ABSTRACT FROM AUTHOR]

Published

2022

22. Characterizing Temporal Dynamics of Urban Heat Island in a Rapidly Expanding City: A 39 Years Study in Zhengzhou, China.

Author

Li, Huawei, Jombach, Sandor, Tian, Guohang, Li, Yuanzheng, and Meng, Handong

Subjects

URBAN heat islands, HEAT waves (Meteorology), URBAN growth, CITIES & towns, CITY dwellers, GLOBAL warming, URBAN morphology, URBAN planning

Abstract

Extreme heat wave weather phenomena have erupted worldwide in recent years. The urban heat island (UHI) effect has exacerbated urban heat waves with serious consequences for urban energy and residents' health. Therefore, a better understanding of the dynamics of the UHI effect and the influencing factors is needed in the context of carbon neutrality and global warming. This study used long-term observation and statistical data to investigate the urban heat island intensity (UHII) over the past 39 years (1981–2019) and to analyze the temporal changes of the UHI effect and the relationship between the UHI effect and indicators of rapid urbanization in Zhengzhou, China. The results showed that Zhengzhou is warming 2.2-times faster than the global land warming trend of about +0.9 °C from 1981 to 2019. There is a clear phase characteristic of the heat island effect in Zhengzhou, and it offers a rapid upward trend after 2000 and a positive correlation with the urbanization process; it was found that the social and economic conditions of urban expansion in Zhengzhou have a significant relationship with UHII. We also found that the denser the urban built-up area, the more obvious the heat island effect. Compared with other countries, the influence of national policies on urban development is an indirect factor influencing the change of UHI specifically for Chinese cities. This research could provide a reference for understanding the temporal dynamics of UHI in an expanding large city for sustainable urban planning and mitigating urban warming and environmental problems. [ABSTRACT FROM AUTHOR]

Published

2022

23. Identification and Analysis of MADS-box, WRKY, NAC, and SBP-box Transcription Factor Families in Diospyros oleifera Cheng and Their Associations with Sex Differentiation.

Author

Mai, Yini, Diao, Songfeng, Yuan, Jiaying, Wang, Liyuan, Suo, Yujing, Li, Huawei, Han, Weijuan, Wang, Yiru, Ye, Lingshuai, Liu, Yang, Pu, Tingting, Zhang, Qi, Sun, Peng, and Fu, Jianmin

Subjects

SEX differentiation (Embryology), TRANSCRIPTION factors, SYSTOLIC blood pressure, DIOSPYROS, FORKHEAD transcription factors, FLOWER development, PROTEIN domains

Abstract

Transcription factors are crucial for plant growth and development. MADS-box, WRKY, NAC, and SBP-box, some of the most vital transcription factors, are not well identified in Diospyros spp., and their floral development and sex differentiation related functions remain unknown. We identified and analysed 53 MADS-box, 66 WRKY, 83 NAC, and 17 SBP-box transcription factors using the chromosomal D. oleifera genome. There were six DolSBPs identified as miR156 and miR157 targets. According to the multiple sequence alignments of Arabidopsis and D. oleifera proteins and their conserved domains and motifs, DolMADSs were divided into 23 type I and 30 type II. The DolWRKYs, DolNACs, and DolSBPs were divided into 7, 16, and 6 subgroups, respectively. It was found that one DolMADS, five DolWRKYs, one DolNAC, and four DolSBPs may promote unisexual female flowers development, while three DolMADSs, four DolWRKYs, and one DolNAC may enhance unisexual male flowers development. The functions among the different members of the same family may, thus, vary widely. The results will help to elucidate the evolution of the MADS-box, WRKY, NAC, and SBP-box genes families in D. oleifera and to determine their functions in flower development for Diospyros spp. [ABSTRACT FROM AUTHOR]

Published

2022

24. Research on the Operational Strategy of the Hybrid Wind/PV/Small-Hydropower/Facility-Agriculture System Based on a Microgrid.

Author

Ren, Yan, Ren, Linmao, Zhang, Kai, Liu, Dong, Yao, Xianhe, and Li, Huawei

Subjects

WIND power, RENEWABLE energy sources, MICROGRIDS, HYBRID systems, POWER resources, ENERGY consumption

Abstract

The use of renewable energy sources, such as wind, photovoltaics (PV), and hydropower, to supply facility agriculture may effectively mitigate food and environmental pollution problems and ensure continuity of the energy supply. The operating conditions of a hybrid system are complex, so the operating strategy is very important for system configuration and scheduling purposes. In the current study, first, a hybrid wind/PV/small-hydropower/facility-agricultural system was constructed. Then, the chaotic particle swarm method was applied to optimize hybrid system operation, and a scheduling strategy of the hybrid system was proposed. Finally, combined with an example, according to wind and PV power output and load curves, supply-to-load curves for wind, PV, and small hydropower were obtained. The operational strategy proposed in this study maximizes the utilization of wind and solar resources and rationally allocates hydropower resources. The aforementioned operational strategy provides a basis for hybrid system capacity allocation and scheduling. [ABSTRACT FROM AUTHOR]

Published

2022

25. A C-Vine Copula-Based Quantile Regression Method for Streamflow Forecasting in Xiangxi River Basin, China.

Author

Li, Huawei, Huang, Guohe, Li, Yongping, Sun, Jie, Gao, Pangpang, and Liu, Wen-Cheng

Abstract

In this study, a C-vine copula-based quantile regression (CVQR) model is proposed for forecasting monthly streamflow. The CVQR model integrates techniques for vine copulas and quantile regression into a framework that can effectively establish relationships between the multidimensional response-independent variables as well as capture the upper tail or asymmetric dependence (i.e., upper extreme values). The CVQR model is applied to the Xiangxi River basin that is located in the Three Gorges Reservoir area in China for monthly streamflow forecasting. Multiple linear regression (MLR) and artificial neural network (ANN) are also compared to illustrate the applicability of CVQR. The results show that the CVQR model performs best in the calibration period for monthly streamflow prediction. The results also indicate that MLR has the worst effects in extreme quantile (flood events) and confidence interval predictions. Moreover, the performance of ANN tends to be overestimated in the process of peak prediction. Notably, CVQR is the most effective at capturing upper tail dependences among the hydrometeorological variables (i.e., floods). These findings are very helpful to decision-makers in hydrological process identification and water resource management practices. [ABSTRACT FROM AUTHOR]

Published

2021

26. Study of Sexual-Linked Genes (OGI and MeGI) on the Performance of Androecious Persimmons (Diospyros kaki Thunb.).

Author

Wang, Liyuan, Han, Weijuan, Diao, Songfeng, Suo, Yujing, Li, Huawei, Mai, Yini, Wang, Yiru, Sun, Peng, Fu, Jianmin, and Venkatesh, Jelli

Subjects

DIOSPYROS, PERSIMMON, PHENOTYPES, DNA methylation, PROMOTERS (Genetics), GENETIC sex determination, PLANT gene silencing

Abstract

It is reported that the production of floral sexual phenotype in hexaploid monoecious persimmon (Diospyros kaki) is closely related to a pseudogene called OGI, and a short interspersed nuclear element (SINE)-like insertion (named Kali) in the OGI promoter leads to the gene silence. As a result, DNA methylation level of MeGI promoter determines the development of male or female flowers. However, the molecular mechanism in androecious D. kaki, which only bear male flowers, remains elusive. Here, real-time quantitative polymerase chain reaction (RT-qPCR), molecular cloning, and bisulfite PCR sequencing technique were carried out using 87 materials, including 56 androecious resources, 15 monoecious, and 16 gynoecious cultivars, to investigate the performance of OGI and MeGI on the specific androecious type of D. kaki in China. In conclusion, the Kali insertion was exactly located in the OGI promoter region, and the OGI gene and the Kali sequence were existing and conserved in androecious D. kaki. Meanwhile, we also demonstrated that the MeGI gene was widespread in our investigated samples. Ultimately, our result convincingly provided evidence that the low expression of OGI is probably ascribed to the presence of Kali displaying strong methylation in the OGI promoter, and low expression of MeGI, as well as high DNA methylation level, in the promoter was closely connected with the production of male flowers; this result was consistent with the monoecious persimmon model. Our findings provide predominant genetic aspects for investigation into androecious D. kaki, and future perfecting the sex-determining mechanisms in persimmon. [ABSTRACT FROM AUTHOR]

Published

2021

27. Starch Granule Size Distribution and Pasting Characteristic Response to Post-Anthesis Combined Stress of Waterlogging and Shading.

Author

Li, Huawei, Wang, Zongshuai, Zhuo, Qicui, Zhang, Bin, Wang, Fahong, and Jiang, Dong

Subjects

AMYLOPECTIN, WHEAT starch, STARCH, GLUTEN, WHEAT, GELATION, SURFACE area

Abstract

The combined stress of waterlogging and shading (WS) caused by continuous rain threatens the production of high-quality weak gluten wheat in China (Triticum aestivum L.). To evaluate its influences on wheat quality formation, Yangmai 158 was chosen to be subjected to WS at 0–7 days after anthesis (DAA, WS0–7), 8–15 DAA (WS8–15), 16–23 DAA (WS16–23), and 24–31 DAA (WS24–31), respectively, with non-stressed plants as control (Non-WS). Compared with Non-WS, WS reduced the amylopectin content and enhanced amylose content in the mature grains. WS enhanced the number and surface but reduced the size of the starch granules. The number, volume, and surface area percentages of B-type starch granules were enhanced, and the number and volume percentages of A-type starch granules were reduced by WS. The peak viscosity and gelatinization temperature were enhanced and the low viscosity and final viscosity were decreased by WS. WS applied at the mid-grain-filling stage (WS8–15 and WS16–23) had greater modification on the starch content, granule size distribution and pasting characteristics than that applied at early (WS0–7) or late (WS24–31). The changes of starch pasting characteristics under WS had a significant correlation with the amylase and amylopectin content, amylase/amylopectin, and the ratio of the volume percent of B-type and A-type starch granules. [ABSTRACT FROM AUTHOR]

Published

2020

28. Analysis of Cooling and Humidification Effects of Different Coverage Types in Small Green Spaces (SGS) in the Context of Urban Homogenization: A Case of HAU Campus Green Spaces in Summer in Zhengzhou, China.

Author

Li, Huawei, Meng, Handong, He, Ruizhen, Lei, Yakai, Guo, Yuchen, Ernest, Amoako-atta, Jombach, Sandor, and Tian, Guohang

Subjects

*LEAF area index, *URBAN heat islands, *ATMOSPHERIC temperature, *SOLAR radiation, *HUMIDITY

Abstract

In the context of global warming, more and more cities are experiencing extreme Urban Heat Island (UHI) effects and extreme weather phenomena, but urban green spaces are proven to mitigate UHI. Most of UHI's research focuses on the large scale and uses remote sensing methods, which do not reflect the dynamic characteristics in detail and do not detect internal influencing factors of the green space cooling effect. Therefore, this study focused on Small Green Spaces (SGS), carrying out the measurement of the meteorological parameters (temperature, relative humidity, wind direction, wind speed, photosynthetic radiation) of the 16 sites in four types of coverage (Impervious surface; Shrub-grass; Tree-grass; Tree-shrub-grass) in a university campus. At the same time, the coverage characteristic parameters, such as Canopy Density (CD), Leaf Area Index (LAI), Photosynthetically Active Radiation (PAR), Mean Leaf Angle (MLA), of each plot were analyzed and compared. The results showed that there were significant differences in temperature among different coverage types in SGS. The biggest difference was concentrated in the noon period when solar radiation is strongest during the day. The difference between the four types of coverage with vegetation at night was small. The maximum air temperature difference among the four types could reach 8.9 ℃ and the maximum relative humidity difference was 28.5%. The cooling effect of the multi-layer vegetation-covered (Tree-shrub-grass) area was the largest compared to the impervious surface, indicating that tree cover was the core factor affecting the temperature. Temperature and relative humidity had a close correlation with surface coverage types and some plant community characteristics (such as CD and LAI). The cooling and humidifying effects of plants were also related to PAR and leaf angle. The results provide suggestions for green space management and landscape design. [ABSTRACT FROM AUTHOR]

Published

2020

29. Programmed Cell Death Facilitates the Formation of Unisexual Male and Female Flowers in Persimmon (Diospyros kaki Thunb.).

Author

Wang, Liyuan, Li, Huawei, Suo, Yujing, Han, Weijuan, Diao, Songfeng, Mai, Yini, Sun, Peng, Li, Fangdong, and Fu, Jianmin

Subjects

*GENITALIA, *DIOSPYROS, *PERSIMMON, *FLOWERS, *TRANSMISSION electron microscopy

Abstract

Most varieties of persimmon (Diospyros kaki Thunb.) are gynoecious, while just a few are either monoecious, androgynomonoecious, or androecious. Persimmon flowers initially contain the original androecium and gynoecium followed by arrest of either pistil or stamen primordia before maturity. Abortion of inappropriate primordium in persimmon may be related to programmed cell death (PCD). To test this hypothesis, hematoxylin and eosin (H&E) staining, terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) assay, cyt-c immunohistochemistry (IHC) assay, transmission electron microscopy (TEM) observation, and real-time quantitative polymerase chain reaction (RT-qPCR) were used to clarify the occurrence and molecular regulatory mechanism of PCD in male and female floral buds during the 14 days prior to the second crucial morphological stage when inappropriate sexual primordia were arrested to form unisexual flowers. Accordingly, dead cells in inappropriate sex organs were largely accumulated during the microsporocyte and macrosporocyte period of male and female floral buds, respectively. This may explain the abortion of inappropriate sex organs, leading to unisexual flowers. PCD is necessary for normal growth and development in persimmons, as dead cells could also be observed in the normal flower organs. High levels of a gene homologous to AMC9 may have accelerated the arrest of the pistil primordium during differentiation, leading to male unisexual flowers, and high levels of genes homologous to MeGI, BAG5, AifA, and HSP70 in female floral buds were positively correlated with the arrest of stamen primordium. Future studies may try to transform unisexual flowers into hermaphroditic flowers by the regulation of PCD artificially, which will be helpful to the controlled pollination experiments. [ABSTRACT FROM AUTHOR]

Published

2020

30. Salt Priming Protects Photosynthetic Electron Transport against Low-Temperature-Induced Damage in Wheat.

Author

Li, Hui, Li, Huawei, Lv, Yanjie, Wang, Yongjun, Wang, Zongshuai, Xin, Caiyun, Liu, Shengqun, Zhu, Xiancan, Song, Fengbin, and Li, Xiangnan

Subjects

*ELECTRON transport, *WHEAT, *WINTER wheat, *QUANTUM efficiency, *LOW temperatures, *GERMINATION

Abstract

Low temperature limits the photochemical efficiency of photosystems in wheat plants. To test the effect of salt priming on the photosynthetic electron transport in wheat under low temperature, the germinating seeds of a winter wheat cv. Jimai44 were primed with varying concentrations of NaCl solutions (0, 10, 30, and 50 mM NaCl, indicated by S0, S10, S30, and S50, respectively) for 6 d, and after 11 d of recovery, the seedlings were subsequently exposed to 24-h low-temperature stress (2 °C). Under low temperature, the S30 plants possessed the highest absorption flux per reaction center and higher density of reaction center per cross-section among the treatments. In addition, S30 plants had higher trapped energy flux for reducing QA and fraction of QA-reducing reaction centers and non-QB reducing center than the non-primed plants under low temperature, indicating that S30 plants could maintain the energy balance of photosystems and a relatively higher maximum quantum efficiency of photosystem II under low temperature. In addition, the low temperature-induced MDA accumulation and cell death were alleviated by salt priming in S30 plants. It was suggested that salt priming with an optimal concentration of NaCl solution (30 mM) during seed germination enhanced the photochemical efficiency of photosystems in wheat seedlings, which could be a potential approach to improve cold tolerance in wheat at an early stage. [ABSTRACT FROM AUTHOR]

Published

2020

31. Anthocyanin Accumulation in the Leaves of the Purple Sweet Potato (Ipomoea batatas L.) Cultivars.

Author

Li, GuoLiang, Lin, Zhaomiao, Zhang, Hong, Liu, Zhonghua, Xu, Yongqing, Xu, Guochun, Li, Huawei, Ji, Rongchang, Luo, Wenbin, Qiu, Yongxiang, Qiu, Sixin, and Tang, Hao

Subjects

SWEET potatoes, ANTHOCYANINS, TIME-of-flight mass spectrometry, REGULATOR genes, CULTIVARS, BIOSYNTHESIS, LIQUID chromatography

Abstract

Sweet potato anthocyanins are water-soluble pigments with many physiological functions. Previous research on anthocyanin accumulation in sweet potato has focused on the roots, but the accumulation progress in the leaves is still unclear. Two purple sweet potato cultivars (Fushu No. 23 and Fushu No. 317) with large quantities of anthocyanin in the leaves were investigated. Anthocyanin composition and content were assessed with ultra-performance liquid chromatography diode-array detection (UPLC-DAD) and ultra-performance liquid chromatography/quadrupole time-of-flight mass spectrometry (UPLC-QTOF-MS), and the expressions of genes were detected by qRT-PCR. The two cultivars contained nine cyanidin anthocyanins and nine peonidin anthocyanins with an acylation modification. The acylation modification of anthocyanins in sweet potato leaves primarily included caffeoyl, p-coumaryl, feruloyl, and p-hydroxy benzoyl. We identified three anthocyanin compounds in sweet potato leaves for the first time: cyanidin 3-p-coumarylsophoroside-5-glucoside, peonidin 3-p-coumarylsophoroside-5-glucoside, and cyanidin 3-caffeoyl-p-coumarylsophoroside-5-glucoside. The anthocyanidin biosynthesis downstream structural genes DFR4, F3H1, anthocyanin synthase (ANS), and UDP-glucose flavonoid 3-O-glucosyltransferase (UFGT3), as well as the transcription factor MYB1, were found to be vital regulatory genes during the accumulation of anthocyanins in sweet potato leaves. The composition of anthocyanins (nine cyanidin-based anthocyanins and nine peonidin-based anthocyanins) in all sweet potato leaves were the same, but the quantity of anthocyanins in leaves of sweet potato varied by cultivar and differed from anthocyanin levels in the roots of sweet potatoes. The anthocyanidin biosynthesis structural genes and transcription factor together regulated and controlled the anthocyandin biosynthesis in sweet potato leaves. [ABSTRACT FROM AUTHOR]

Published

2019

32. Mechanical, Electrical, and Tensile Self-Sensing Properties of Ultra-High-Performance Concrete Enhanced with Sugarcane Bagasse Ash.

Author

Lian J, Wang Y, Fu T, Easa SM, Zhou Y, and Li H

Abstract

Although sugarcane bagasse ash (SCBA) possesses favorable cementitious properties, previous research has primarily focused on improving the mechanical performance of conventional concrete- or cement-based composites. Limited attention has been given to ultra-high-performance concrete (UHPC) with SCBA, especially regarding its tensile -sensing properties. This study aimed to comprehensively evaluate the effect of SCBA on the mechanical, electrical, and tensile self-sensing properties of UHPC. The results demonstrated that incorporating SCBA below the critical concentration of 3.0 wt% enhanced the mechanical properties of UHPC. Notably, adding 3.0 wt% SCBA remarkably improved the compressive, flexural, and tensile strengths of UHPC, resulting in increases of 13.1%, 17.4%, and 20.6%, respectively. However, excessive incorporation of SCBA adversely affected the mechanical properties due to reduced workability of UHPC, increased generation of harmful voids, and a lower degree of hydration caused by the excess SCBA. Furthermore, the inclusion of SCBA influenced the electrical resistivity of UHPC, and specifically, an SCBA content of 0.3 wt% yielded the maximum electrical resistivity. Moreover, incorporating SCBA in UHPC enhanced its tensile stress-sensing performance compared to SCBA-free UHPC. Among the various SCBA contents tested, UHPC with 0.3 wt% SCBA presented the best linearity, with values of 8.8% for loading and 17.0% for unloading, respectively, which were significantly lower than those for SCBA-free UHPC, which were 14.0% and 60.0%, respectively. Additionally, UHPC with 0.9 wt% SCBA gained the lowest hysteresis and repeatability, with values of 13.3% and 5.3%, respectively, which were much lower than those for SCBA-free UHPC, which were 50% and 51.6%, respectively. The tensile stress-sensing performance of UHPC is influenced by three key aspects: the gap between adjacent conductive fillers, contact resistance, and the connectivity of the electrical network, which are subject to change due to varying stress states and SCBA concentrations. This study should aid SCBA use and promote UHPC's practical applications.

Published

2023

33. Salt Priming Protects Photosynthetic Electron Transport against Low-Temperature-Induced Damage in Wheat.

Author

Li H, Li H, Lv Y, Wang Y, Wang Z, Xin C, Liu S, Zhu X, Song F, and Li X

Abstract

Low temperature limits the photochemical efficiency of photosystems in wheat plants. To test the effect of salt priming on the photosynthetic electron transport in wheat under low temperature, the germinating seeds of a winter wheat cv. Jimai44 were primed with varying concentrations of NaCl solutions (0, 10, 30, and 50 mM NaCl, indicated by S0, S10, S30, and S50, respectively) for 6 d, and after 11 d of recovery, the seedlings were subsequently exposed to 24-h low-temperature stress (2 °C). Under low temperature, the S30 plants possessed the highest absorption flux per reaction center and higher density of reaction center per cross-section among the treatments. In addition, S30 plants had higher trapped energy flux for reducing Q A and fraction of Q A -reducing reaction centers and non-Q B reducing center than the non-primed plants under low temperature, indicating that S30 plants could maintain the energy balance of photosystems and a relatively higher maximum quantum efficiency of photosystem II under low temperature. In addition, the low temperature-induced MDA accumulation and cell death were alleviated by salt priming in S30 plants. It was suggested that salt priming with an optimal concentration of NaCl solution (30 mM) during seed germination enhanced the photochemical efficiency of photosystems in wheat seedlings, which could be a potential approach to improve cold tolerance in wheat at an early stage., Competing Interests: The authors declare no conflict of interest.

Published

2019