Your search keyword '"Yingbo Li"' showing total 363 results

1. Efficient isolated microspore culture protocol for callus induction and plantlet regeneration in japonica rice (Oryza sativa L.)

Author

Runhong Gao, Yingjie Zong, Shuwei Zhang, Guimei Guo, Wenqi Zhang, Zhiwei Chen, Ruiju Lu, Chenghong Liu, Yifei Wang, and Yingbo Li

Subjects

Isolated microspore culture, Oryza sativa L., Low-temperature pre-treatment, Microspore developmental stage, Callus induction, Plantlet regeneration, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Isolated microspore culture is a useful biotechnological technique applied in modern plant breeding programs as it can produce doubled haploid (DH) plants and accelerate the development of new varieties. Furthermore, as a single-cell culture technique, the isolated microspore culture provides an excellent platform for studying microspore embryogenesis. However, the reports on isolated microspore culture are rather limited in rice due to the low callus induction rate, poor regeneration capability, and high genotypic dependency. The present study developed an effective isolated microspore culture protocol for high-frequency androgenesis in four japonica rice genotypes. Several factors affecting the isolated microspore culture were studied to evaluate their effects on callus induction and plantlet regeneration. Results Low-temperature pre-treatment at 4 ℃ for 10–15 days could effectively promote microspore embryogenesis in japonica rice. A simple and efficient method was proposed for identifying the microspore developmental stage. The anthers in yellow-green florets located on the second type of primary branch on the rice panicle were found to be the optimal stage for isolated microspore culture. The most effective induction media for callus induction were IM2 and IM3, depending on the genotype. The optimal concentration of 2, 4-D in the medium for callus induction was 1 mg/L. Callus induction was negatively affected by a high concentration of KT over 1.5 mg/L. The differentiation medium suitable for japonica rice microspore callus comprised 1/2 MS, 2 mg/L 6-BA, 0.5 mg/L NAA, 30 g/L sucrose, and 6 g/L agar. The regeneration frequency of the four genotypes ranged from 61–211 green plantlets per 100 mg calli, with Chongxiangjing showing the highest regeneration frequency. Conclusions This study presented an efficient protocol for improved callus induction and green plantlet regeneration in japonica rice via isolated microspore culture, which could provide valuable support for rice breeding and genetic research.

Published

2024

2. Effect of ultra-fine supplementary cementitious materials on the properties of calcium sulfoaluminate cement-based ultra-high performance concrete

Author

Yang Meng, Danying Gao, Lin Yang, Jinqian Fang, Yingbo Li, and Tingting Zhang

Subjects

Calcium sulfoaluminate cement, Ultra-high performance concrete, Hydration, Pore structure, Micromorphology, Environmental benefit, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Ultra-high performance concrete prepared by calcium sulfoaluminate cement (CSAC-UHPC) possesses promising applications because of its excellent early strength, durability and environmental benefits. However, the impacts of supplementary cementitious materials (SCMs), an important components for UHPC, on the properties of CSAC-UHPC remain ambiguous in international research. To well complement this subject, effects of three ultra-fine SCMs, ground granulated blast furnace slag (GGBFS), limestone powder (LP) and silica fume (SF), on the properties of CSAC-UHPC were investigated, including flowability, setting time, hydration process, microstructure and mechanical strength. Results showed that the flowability of CSAC-UHPC increased with the GGBFS and LP content increasing, respectively, and decreased with the SF content increasing. Meanwhile, the addition of GGBFS, LP and SF had a limited regulation of the setting time, with the initial and final setting time between separately 13—26 min and 19—35 min, but it inhibited the hydration of CSAC-UHPC and reduced the total amount of hydration products, among which the effect was most pronounced by SF. Moreover, the replacement to cement with 10 % mass fraction of GGBFS, LP and SF, individually, could refine the pore structure of CSAC-UHPC, and further increasing the replacement rate was detrimental to the development of micromorphology. The content of GGBFS and LP should not exceed 10 % without compromising the mechanical strength of CSAC-UHPC, while SF was not suitable for addition. The flexural strength at 4 h of CSAC-UHPC with 10 % GGBFS and LP reached 8.1 MPa and 7.9 MPa, and the compressive strength at 4 h reached 49.4 MPa and 48.1 MPa, respectively. Also, they have a carbon footprint reduction of approximately 25—40 % and an embodied energy reduction of approximately 25—35 %, compared to ordinary UHPC.

Published

2024

3. An environmentally sensitive zinc-selective two-photon NIR fluorescent turn-on probe and zinc sensing in stroke

Author

Junfeng Wang, Qibing Liu, Yingbo Li, and Yi Pang

Subjects

Near-infrared, Molecular imaging, Thrombus, Stroke, Therapeutics. Pharmacology, RM1-950

Abstract

A two-photon near infrared (NIR) fluorescence turn-on sensor with high selectivity and sensitivity for Zn2+ detection has been developed. This sensor exhibits a large Stokes' shift (∼300 nm) and can be excited from 900 to 1000 nm, with an emission wavelength of ∼785 nm, making it ideal for imaging in biological tissues. The sensor's high selectivity for Zn2+ over other structurally similar cations, such as Cd2+, makes it a promising tool for monitoring zinc ion levels in biological systems. Given the high concentration of zinc in thrombi, this sensor could provide a useful tool for in vivo thrombus imaging.

Published

2024

4. Ankyrons: There Might Be a 'Gold Mine' for Students, Scientists, and Clinicians

Author

Yingbo Li and Junfeng Wang

Subjects

Medical technology, R855-855.5, Chemistry, QD1-999

Published

2024

5. Transcriptomics integrated with metabolomics reveals the effect of cold stress on rice microspores

Author

Yingbo Li, Yingjie Zong, Wenrui Li, Guimei Guo, Longhua Zhou, Hongwei Xu, Runhong Gao, and Chenghong Liu

Subjects

Microspore embryogenesis, Cold stress, Rice, Transcriptome, Metabolomics, Botany, QK1-989

Abstract

Abstract Background Microspore culture is one of the important biotechnological tools in plant breeding. The induction of microspore embryogenesis is a critical factor that affects the yield of microspore-derived embryo productions. Cold treatment has been reported to reprogram the gametophytic pathway in various plant species. However, the exact mechanism(s) underlying the effect of cold pre-treatment of floral buds on the efficiency of ME is still not clear. Results In this study, the effects of cold stress on the microspore totipotency of rice cultivar Zhonghua 11 were investigated. Our results revealed that a 10-day cold treatment is necessary for microspore embryogenesis initiation. During this period, the survival rate of microspores increased and reached a peak at 7 days post treatment (dpt), before decreasing at 10 dpt. RNA-seq analysis showed that the number of DEGs increased from 3 dpt to 10 dpt, with more downregulated DEGs than upregulated ones at the same time point. GO enrichment analysis showed a shift from ‘Response to abiotic stimulus’ at 3 dpt to ‘Metabolic process’ at 7 and 10 dpt, with the most significant category in the cellular component being ‘cell wall’. KEGG analysis of the pathways revealed changes during cold treatment. Mass spectrometry was used to evaluate the variations in metabolites at 10 dpt compared to 0 dpt, with more downregulated DEMs being determined in both GC-MS and LC-MS modes. These DEMs were classified into 11 categories, Most of the DEMs belonged to ‘lipids and lipid-like molecules’. KEGG analysis of DEMs indicates pathways related to amino acid and nucleotide metabolism being upregulated and those related to carbohydrate metabolism being downregulated. An integration analysis of transcriptomics and metabolomics showed that most pathways belonged to ‘Amino acid metabolism’ and ‘Carbohydrate metabolism’. Four DEMs were identified in the interaction network, with stearidonic acid involving in the most correlations, suggesting the potential role in microspore totipotency. Conclusions Our findings exhibited the molecular events occurring during stress-induced rice microspore. Pathways related to ‘Amino acid metabolism’ and ‘Carbohydrate metabolism’ may play important roles in rice microspore totipotency. Stearidonic acid was identified, which may participate in the initiation of microspore embryogenesis.

Published

2023

6. Mechanism of Damage and Deterioration of Red Sandstone in South China under Different pH Treatments

Author

Shuguang Zhang, Shutian Zhao, Jiaqi Liu, Zhifeng Liu, Dipeng Zhu, and Yingbo Li

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

Groundwater in southern China region contains various chemical compositions. By comparing the effects of acidic, neutral, and alkaline solutions on mechanical properties and internal structure, the changes in mechanical parameters and microstructure of chemical solution etched samples were obtained. The results show that as the pH of the solution increases from 2 to 12, the peak strength and elastic modulus of the rock samples initially increase and then decrease, while axial strain and Poisson’s ratio first decrease and then increase. The degree of deterioration of rock samples by different chemical solutions follows the order strong acid (pH ≤ 4) > strong alkali (pH ≥ 10) > weak acid (4 weak alkali (8 ≤ pH neutral (pH = 7). Alkaline and neutral solutions mainly corrode the surface of rock samples, with the wave velocity of the rock core higher than that of the surface. The wave velocities of alkaline solutions at different pH values after corrosion are essentially the same as that of pH = 7 neutral solution, ~2,850 m/s. Acidic solutions corrode both the surface and core of rock samples, with the wave velocities of the core and surface being similar. After corrosion by pH = 2 acidic solution, the wave velocity of the rock samples decreases to 2,505 m/s. With increasing acidity or alkalinity of the chemical solution, the internal pores of the rock transition from micropores to mesopores and macropores. Compared to pH = 7 neutral solution, the porosity of rock samples increases by 59.13% and 24.17% after corrosion by pH = 2 and pH = 12 solutions, respectively. Acidic and alkaline solutions exhibit distinct mechanisms: acidic solutions corrode particles and framework to form continuous fractures, whereas alkaline solutions generate new substances filling the fractures through hydration reactions. By introducing chemical damage variables and considering threshold factors, a chemical damage constitutive model is constructed to effectively describe the impact of chemical corrosion on mechanical properties. This systematic study of the chemical environment’s influence on internal structures reveals the erosion mechanisms of acidic, alkaline, and neutral saline solutions, which is crucial for the stability of underground engineering surrounding rocks and geological disaster prevention in southern China.

Published

2024

7. Creep Energy Evolution of Red-Bed Soft Rocks in South China under Chemical-Stress-Seepage Coupling

Author

Shuguang Zhang, Fanyao Peng, Yingbo Li, Zhifeng Liu, and Wenbo Liu

Subjects

Geology, QE1-996.5

Abstract

The red-bed soft rocks in South China have obvious creep characteristics and are prone to engineering geological disasters such as landslide and foundation settlement under the action of rainfall, groundwater, and load. In order to reveal its creep characteristics and mechanism under complex conditions, a step-loading creep test was carried out under chemical-stress-seepage coupling, and the energy evolution law of the whole creep process was analyzed based on linear energy storage and energy dissipation theory. The results also show that the acid chemical solution has the greatest influence on the triaxial strength and creep strength, and the creep damage and energy evolution of red-bed soft rock are universal. The creep damage and total strain increase with the increase of acidity, the decrease of confining pressure, and the increase of seepage pressure. The evolution law of creep damage shows the characteristics of slow-acceleration-rapid growth, and with the increase of load level, it has obvious transfer and accumulation. After entering the constant velocity creep stage, the damage rate begins to accelerate. The proportion of instantaneous strain and creep strain in the total strain increment is about 50%, and confining pressure has little influence on their respective proportions. The instantaneous strain is more sensitive to the acidity of the chemical solution, and the proportion of creep strain increases gradually with the increase of seepage pressure. The relationship between elastic energy density and total energy density is linear. The elastic energy density and dissipated energy density in the loading stage and creep stage all increase nonlinearly with loading time. The density of dissipated energy in the creep phase is lower than that in the loading phase, but the opposite is true in the higher stress phase, and the law of energy dissipation can explain the hardening damage effect in the creep process of soft rock samples. The research results provide a new perspective for us to reveal the mechanical properties and failure mechanism of red-bed soft rocks and provide an important theoretical basis for predicting and evaluating the creep instability and long-term stability of such rocks.

Published

2024

8. Application of clitoris exposure + episioplasty + dermabrasion + platelet-rich plasma injection + chemexfoliation in vulvar lichen sclerosus

Author

Xianhui Shang, Changmei Chen, Hong Ma, Peng Zhao, Yuchen Mao, Hong Liu, Cao Wang, Kaiyi Mao, Zhen Luo, Yingbo Li, Guangxu Zhou, and Hongyang Tan

Subjects

clitoris exposure, episioplasty, dermabrasion, PRP injection, chemexfoliation, VLS, Pediatrics, RJ1-570

Abstract

IntroductionTo investigate the therapeutic effect of clitoris exposure + episioplasty + dermabrasion + platelet-rich plasma (PRP) injection + chemexfoliation on vulvar lichen sclerosus (VLS).MethodsTwenty children with VLS (under 14 years old) at our hospital from July 2020 to November 2022 were enrolled and treated with clitoris exposure + episioplasty + dermabrasion + PRP injection + chemexfoliation. Additionally, symptomatic changes and improvements in signs were recorded.ResultsSignificant therapeutic effects were achieved in all children enrolled in this study. The Cattanco score was 8.02 ± 1.22 points before surgery, 2.21 ± 0.70 points 3 months after surgery, and 2.61 ± 0.59 points 6 months after surgery, demonstrating that the score after surgery was significantly lower than that before surgery (p < 0.05). Mild complications (one case of mild vulvar swelling, one case of minor bleeding, and one case of superficial ulcer) were observed in three children after surgery, with an overall complication incidence of 15%; all complications were improved after the intervention, and no severe adverse reactions were observed. Recurrence was observed in one child (5%) 6 months after surgery.ConclusionClitoris exposure + episioplasty + dermabrasion + PRP injection + chemexfoliation is an effective approach for the treatment of VLS.Systematic Review Registrationhttps://www.chictr.org.cn/searchproj.html, identifier: ChiCTR2100054787.

Published

2023

9. A Step Toward an NIR-Emitting ESIPT Probe for Smart Zn2+ Sensing in Different Environments

Author

Junfeng Wang, Yingbo Li, and Yi Pang

Subjects

Medical technology, R855-855.5, Chemistry, QD1-999

Published

2023

10. Single low-dose INC280-loaded theranostic nanoparticles achieve multirooted delivery for MET-targeted primary and liver metastatic NSCLC

Author

Yige Sun, Jie Yang, Yingbo Li, Jing Luo, Jiemei Sun, Daoshuang Li, Yuchen Wang, Kai Wang, Lili Yang, Lina Wu, and Xilin Sun

Subjects

NSCLC, Liver metastasis, Capmatinib, Perfluorocarbon, Pulmonary delivery, 19F-MRI, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Non-small cell lung cancer (NSCLC) patients with primary tumors and liver metastases have substantially reduced survival. Since mesenchymal-epithelial transition factor (MET) plays a significant role in the molecular mechanisms of advanced NSCLC, small molecule MET inhibitor capmatinib (INC280) hold promise for clinically NSCLC treatment. However, the major obstacles of MET-targeted therapy are poor drug solubility and off-tumor effects, even oral high-dosing regimens cannot significantly increase the therapeutic drug concentration in primary and metastatic NSCLC. Methods We developed a multirooted delivery system INC280-PFCE nanoparticles (NPs) by loading INC280 into perfluoro-15-crown-5-ether for improving MET-targeted therapy. Biodistribution and anti-MET/antimetastatic effects of NPs were validated in orthotopic NSCLC and NSCLC liver metastasis models in a single low-dose. The efficacy of INC280-PFCE NPs was also explored in human NSCLC specimens. Results INC280-PFCE NPs exhibited excellent antitumor ability in vitro. In orthotopic NSCLC models, sustained release and prolonged retention behaviors of INC280-PFCE NPs within tumors could be visualized in real-time by 19F magnetic resonance imaging (19F-MRI), and single pulmonary administration of NPs showed more significant tumor growth inhibition than oral administration of free INC280 at a tenfold higher dose. Furthermore, a single low-dose INC280-PFCE NPs administered intravenously suppressed widespread dissemination of liver metastasis without systemic toxicity. Finally, we verified the clinical translation potential of INC280-PFCE NPs in human NSCLC specimens. Conclusions These results demonstrated high anti-MET/antimetastatic efficacies, real-time MRI visualization and high biocompatibility of NPs after a single low-dose.

Published

2022

11. Phenotypic and transcriptomic characterization of an ABA-sensitive mutant generated by microspore embryogenesis in barley

Author

Yingbo Li, Guimei Guo, Hongwei Xu, Yingjie Zong, Shuwei Zhang, Linli Huang, Runhong Gao, Ruiju Lu, Longhua Zhou, and Chenghong Liu

Subjects

Barley, microspore embryogenesis, mutant, ABA sensitive, transcriptomic, Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

Barley (Hordeum vulgare L.) has been recognized as an ideal model plant to study the mechanism of environmental adaptation for crop improvement owing to its wide adaption to abiotic stresses. Abscisic acid is an essential hormone involved in many abiotic stresses. Here, an ABA-sensitive barley mutant (abas1) was generated by microspore embryogenesis. On exogenous ABA treatment, the seedlings of abas1 presented less plant height, root length, shoot and root dry matter than the wild type, and more genes showedigher expressional intensity and up-regulation models by RNA-Seq profiling. The gene ontology analysis revealed that the regulation of DEGs may lead to the activation of the ROS pathway and consumption of more energy in abas1, specifically. Furthermore, the up-regulation of two candidate genes (P450 and NsLTP) in abas1 may contribute to the variation of ABA sensitivity. Our findings provide more valuable material and information toward the understanding of the mechanism of ABA response in barley.

Published

2022

12. Effects of chronic sleep restriction on the neuro‐phenotypes of Ctnnd2 knockout mice

Author

Man Xu, Xiaoya Wang, Luyi Wang, Shali Wang, Jing Deng, Yan Wang, Yingbo Li, Sen Pan, Ailing Liao, Yihao Tao, and Shujiang Tan

Subjects

synapse, sleep restriction, dendritic spines, Ctnnd2, cognition, autism, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction Sleep abnormalities are highly correlated with neurodevelopmental disorders, such as intellectual disability, attention deficit hyperactivity disorder, and autism spectrum disorders (ASD). The severity of behavioral abnormalities is correlated with the presence of sleep abnormalities. Based on previous research, we investigated that Ctnnd2 gene deletion in mice lead to ASD‐like behaviors and cognitive defects. Given the importance of sleep in individuals with ASD, this study aimed to determine the effects of chronic sleep restriction (SR) on wild‐type (WT) mice and on Ctnnd2 deletion‐induced, neurologically related phenotypes in mice. Method WT and Ctnnd2 knockout (KO) mice were both subjected to manual SR (5 h per day) for 21 consecutively days separately, then we compared neurologically related phenotypes of WT mice, WT mice subjected to SR, KO mice, and KO mice subjected to SR using a three‐chamber assay, direct social interaction test, open‐field test, Morris water maze, Golgi staining, and Western blotting. Results The effects of SR on WT and KO mice were different. After SR, social ability and cognition were impaired in both WT and KO mice. Repetitive behaviors were increased, and exploration abilities were decreased in KO mice but not in WT mice. Moreover, SR reduced the density and area of mushroom‐type dendritic spines in WT rather than KO mice. Finally, the PI3K/Akt‐mTOR pathway was found to be involved in the effects induced by SR‐impaired phenotypes in WT and KO mice. Conclusion Overall, results of the present study may have implications for the role of disrupted sleep in patients with CTNND2 gene‐related autism and the evolution of neurodevelopmental disorders.

Published

2023

13. Clinical Application of Thromboelastography in Patients With Severe Fever With Thrombocytopenia Syndrome

Author

Yingbo Li BS, Changjuan An MS, Peng Xue BS, Lina Ni MS, Xia Yu BS, Jiangli Qu BS, Yingjie Yao BS, and Chengyong Yu BS

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Aim To investigate the clinical application of thromboelastography (TEG) in severe fever with thrombocytopenia syndrome (SFTS). Methods One hundred and fifty-seven patients with SFTS were included in the study. The participants were distributed into 3 groups; A, B, and C. And 103 patients in group A met the clinical criteria as they exhibited slight liver and kidney dysfunction. Group B consisted of 54 patients with SFTS who were critically ill while group C was a healthy control group with 58 participants. Results Patients with SFTS exhibited lower coagulation than the healthy participants. Group B patients exhibited significantly lower coagulation compared to group A. There was no significant difference in platelet count and fibrinogen content between patients in group A and group B, but platelet aggregation function and fibrinogen activity were significantly lower in group B patients. Conclusion Our results suggest that it is risky to solely rely on platelet count and the fibrinogen in SFTS. Monitoring of TEG and other coagulation indexes should be emphasized.

Published

2023

14. Microglia and astrocytes underlie neuroinflammation and synaptic susceptibility in autism spectrum disorder

Author

Yue Xiong, Jianhui Chen, and Yingbo Li

Subjects

autism spectrum disorders, microglia, astrocytes, neuroinflammation, synaptic pruning, mitochondria, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Autism spectrum disorder (ASD) is a common neurodevelopmental disorder with onset in childhood. The mechanisms underlying ASD are unclear. In recent years, the role of microglia and astrocytes in ASD has received increasing attention. Microglia prune the synapses or respond to injury by sequestrating the injury site and expressing inflammatory cytokines. Astrocytes maintain homeostasis in the brain microenvironment through the uptake of ions and neurotransmitters. However, the molecular link between ASD and microglia and, or astrocytes remains unknown. Previous research has shown the significant role of microglia and astrocytes in ASD, with reports of increased numbers of reactive microglia and astrocytes in postmortem tissues and animal models of ASD. Therefore, an enhanced understanding of the roles of microglia and astrocytes in ASD is essential for developing effective therapies. This review aimed to summarize the functions of microglia and astrocytes and their contributions to ASD.

Published

2023

15. Progranulin improves neural development via the PI3K/Akt/GSK-3β pathway in the cerebellum of a VPA-induced rat model of ASD

Author

Lili Wang, Jianhui Chen, Yuling Hu, Ailing Liao, Wenxia Zheng, Xiaoqing Wang, Junying Lan, Jingjing Shen, Shali Wang, Feng Yang, Yan Wang, Yingbo Li, and Di Chen

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Autism spectrum disorder (ASD) is a neurodevelopmental disease featuring social interaction deficits and repetitive/stereotyped behaviours; the prevalence of this disorder has continuously increased. Progranulin (PGRN) is a neurotrophic factor that promotes neuronal survival and differentiation. However, there have not been sufficient studies investigating its effect in animal models of autism. This study investigated the effects of PGRN on autistic phenotypes in rats treated with valproic acid (VPA) and assessed the underlying molecular mechanisms. PGRN was significantly downregulated in the cerebellum at postnatal day 14 (PND14) and PND35 in VPA-exposed rats, which simultaneously showed defective social preference, increased repetitive behaviours, and uncoordinated movements. When human recombinant PGRN (r-PGRN) was injected into the cerebellum of newborn ASD model rats (PND10 and PND17), some of the behavioural defects were alleviated. r-PGRN supplementation also reduced cerebellar neuronal apoptosis and rescued synapse formation in ASD rats. Mechanistically, we confirmed that PGRN protects neurodevelopment via the PI3K/Akt/GSK-3β pathway in the cerebellum of a rat ASD model. Moreover, we found that prosaposin (PSAP) promoted the internalisation and neurotrophic activity of PGRN. These results experimentally demonstrate the therapeutic effects of PGRN on a rat model of ASD for the first time and provide a novel therapeutic strategy for autism.

Published

2022

16. Transcriptomic and Metabolomic Analyses Reveal the Importance of Lipid Metabolism and Photosynthesis Regulation in High Salinity Tolerance in Barley (Hordeum vulgare L.) Leaves Derived from Mutagenesis Combined with Microspore Culture

Author

Hongwei Xu, Nigel G. Halford, Guimei Guo, Zhiwei Chen, Yingbo Li, Longhua Zhou, Chenghong Liu, and Rugen Xu

Subjects

barley, mutagenesis, salt tolerance, microspore, transcriptome, metabolome, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Barley is the most salt-tolerant cereal crop. However, little attention has been paid to the salt-tolerant doubled haploids of barley derived from mutagenesis combined with isolated microspore culture. In the present study, barley doubled haploid (DH) line 20, which was produced by mutagenesis combined with isolated microspore culture, showed stably and heritably better salt tolerance than the wild type H30 in terms of fresh shoot weight, dry shoot weight, K+/Na+ ratio and photosynthetic characteristics. Transcriptome and metabolome analyses were performed to compare the changes in gene expression and metabolites between DH20 and H30. A total of 462 differentially expressed genes (DEGs) and 152 differentially accumulated metabolites (DAMs) were identified in DH20 compared to H30 under salt stress. Among the DAMs, fatty acids were the most accumulated in DH20 under salt stress. The integration of transcriptome and metabolome analyses revealed that nine key biomarkers, including two metabolites and seven genes, could distinguish DH20 and H30 when exposed to high salt. The pathways of linoleic acid metabolism, alpha-linolenic acid metabolism, glycerolipid metabolism, photosynthesis, and alanine, aspartate and glutamate metabolism were significantly enriched in DH20 with DEGs and DAMs in response to salt stress. These results suggest that DH20 may enhance resilience by promoting lipid metabolism, maintaining energy metabolism and decreasing amino acids metabolism. The study provided novel insights for the rapid generation of homozygous mutant plants by mutagenesis combined with microspore culture technology and also identified candidate genes and metabolites that may enable the mutant plants to cope with salt stress.

Published

2023

17. Comparative transcriptome analysis reveals compatible and recalcitrant genotypic response of barley microspore-derived embryogenic callus toward Agrobacterium infection

Author

Yingbo Li, Guimei Guo, Hongwei Xu, Ting He, Yingjie Zong, Shuwei Zhang, Muhammad Faheem, Ruiju Lu, Longhua Zhou, and Chenghong Liu

Subjects

Agrobacterium, Transformation, Barley, Microspore-derived embryogenic callus, Genotype, Transcriptome analysis, Botany, QK1-989

Abstract

Abstract Background The Agrobacterium mediated transformation has been routinely used in lots of plant species as a powerful tool to deliver genes of interest into a host plant. However, the transformation of elite and commercially valuable cultivar is still limited by the genotype-dependency, and the efficiency of Agrobacterium infection efficiency is crucial for the success of transformation. Results In this study, the microspore-derived embryogenic calli (MDEC) of barley elite cultivars and breeding lines were employed as unique subjects to characterize the genotypic response during Agrobacterium infection process. Our results identified compatible barley genotypes (GanPi 6 and L07, assigned as GP6-L07 group) and one recalcitrant genotype (Hong 99, assigned as H99) for the Agrobacterium strain LBA4404 infection using GUS assay. The accumulation trend of reactive oxygen species (ROS) was similar among genotypes across the time course. The results of RNA-seq depicted that the average expressional intensity of whole genomic genes was similar among barley genotypes during Agrobacterium infection. However, the numbers of differentially expressed genes (DEGs) exhibited significant expressional variation between GP6-L07 and H99 groups from 6 to 12 h post-inoculation (hpi). Gene ontology (GO) enrichment analysis revealed different regulation patterns for the predicted biological processes between the early (up-regulated DEGs overrepresented at 2 hpi) and late stages (down-regulated DEGs overrepresented from 6 to 24 hpi) of infection. KEGG analysis predicted 12 pathways during Agrobacterium infection. Among which one pathway related to pyruvate metabolism was enriched in GP6 and L07 at 6 hpi. Two pathways related to plant hormone signal transduction and DNA replication showed expressional variation between GP6-L07 and H99 at 24 hpi. It was further validated by qRT-PCR assay for seven candidate genes (Aldehyde dehydrogenase, SAUR, SAUR50, ARG7, Replication protein A, DNA helicase and DNA replication licensing factor) involved in the three pathways, which are all up-regulated in compatible while down-regulated in recalcitrant genotypes, suggesting the potential compatibility achieved at later stage for the growth of Agrobacterium infected cells. Conclusions Our findings demonstrated the similarity and difference between compatible and recalcitrant genotypes of barley MDEC upon Agrobacterium infection. Seven candidate genes involved in pyruvate metabolism, hormonal signal transduction and DNA replication were identified, which advocates the genotypic dependency during Agrobacterium infection process.

Published

2021

18. Comparative study of different surgical approaches for treatment of UPJ obstruction according to the degree/severity of hydronephrosis factor

Author

Peng Zhao, Cao Wang, Kaiyi Mao, Zhen Luo, Yingbo Li, Guangxu Zhou, Hongyang Tan, Hong Liu, Yucheng Mao, Hong Ma, Xianhui Shang, and Bin Liu

Subjects

retroperitoneal laparoscope, transperitoneal laparoscope, UPJO, children, pyeloplasty, Pediatrics, RJ1-570

Abstract

ObjectiveTo compare the efficacy of two different surgical approaches during and after pyeloplasty according to the degree/severity of hydronephrosis factor.Materials and methodsSixty child patients with UPJ obstruction admitted to our hospital from August 2019 to October 2021 were collected. Patients who underwent retroperitoneal laparoscopic pyeloplasty (RPLP) were enrolled into Group A (n = 20), while those who received transperitoneal laparoscopic pyeloplasty (TLP) were selected as Group B (n = 40). Clinical parameters, including gender, age, laterality of UPJ obstruction, degree/severity of hydronephrosis, body weight, operation time, drainage tube indwelling time, complete oral feeding time, and length of hospital stay, were compared between the two groups.ResultsAll 60 child patients were operated upon successfully without conversion to open surgery. There were no statistically significant differences in gender, age, laterality of UPJ obstruction, and body weight between the two groups, while the operation time of TLP was shorter than that of RPLP, indicating a statistically significant difference (P < 0.001). The differences in complete oral feeding time, drainage tube indwelling time, and length of hospital stay were statistically significant between the two groups, and RPLP was superior to TLP in terms of postoperative recovery time (P < 0.001). A stratified comparison showed that there were no statistically significant differences in anteroposterior diameter ≤ 20 mm, while there were statistically significant differences in anteroposterior diameter >20 mm. Hydronephrosis is reviewed after 3 months of the operation, degree/severity of hydronephrosis have been reduced.ConclusionBoth RPLP and TLP are safe and feasible in the treatment of UPJ obstruction, and their overall surgical effects are equivalent. For child patients with anteroposterior diameter ≤ 20 mm, RPLP is available, while patients with anteroposterior diameter >20 mm, TLP is recommended.

Published

2022

19. A novel algorithm of individual tree crowns segmentation considering three-dimensional canopy attributes using UAV oblique photos

Author

Lingting Lei, Tian Yin, Guoqi Chai, Yingbo Li, Yueting Wang, Xiang Jia, and Xiaoli Zhang

Subjects

Oblique photogrammetry, Individual tree crowns segmentation, Adaptive-kernel bandwidth mean-shift algorithm, Canopy attributes, Physical geography, GB3-5030, Environmental sciences, GE1-350

Abstract

Extracting the individual tree crowns (ITCs) information is significant to fine forest resource investigation and carbon storage estimation. UAV oblique photogrammetry (UOP) can obtain point cloud data with high density due to higher presence of overlap, which has potential for tree crown information extraction. Many ITCs segmentation methods have been proposed to extract individual tree information. However, accurate ITCs segmentation using UOP data remains a challenge due to the uncertainties in environments with high heterogeneity of forest canopy vertical structure. Here, we proposed a novel approach, adaptive-kernel bandwidth mean-shift algorithm (AMS) considering three-dimensional canopy attributes, to segment ITCs using UOP data in complex forest environment. First, we developed a kernel bandwidth model with automatic adaptive parameter assignment using tree height derived from UOP data and applied it to the mean-shift algorithm. We demonstrated the generality of our algorithm in different tree species plots of a subtropical forest in China with overall precision f ≥ 0.72 and crown width rRMSE ≤ 0.13. Compared with the fixed-kernel bandwidth mean-shift algorithm (FMS) and seed region growth algorithm (SRG), the average f and rRMSE of the AMS algorithm were improved by 0.04 and 0.12, 0.16 and 0.11 respectively. Then, we evaluated the segmentation effect of AMS algorithm with point cloud densities of 25%, 50%, 75% and 100% respectively. We found that the segmentation accuracy decreases with decreasing point cloud density, but 75% of the point cloud density can satisfy most ITCs segmentation needs. In addition, we used LiDAR data (∼45 pts/m2) obtained by UAV to validate generalization ability of our approach, and the average r, p and f reached 0.97, 0.73 and 0.83. These results showed that the AMS algorithm can solve the ITCs segmentation problem in forests with complex structures using UOP and LiDAR point cloud data, which can support the accurate survey and scientific management of forest resources and provide basic data for the accurate estimation of forest carbon sinks.

Published

2022

20. Direct Visualization of the Evolution of a Single‐Atomic Cobalt Catalyst from Melting Nanoparticles with Carbon Dissolution

Author

Luyao Zhang, Yanyan Li, Lei Zhang, Kun Wang, Yingbo Li, Lei Wang, Xinyu Zhang, Feng Yang, and Zhiping Zheng

Subjects

carbon dissolution, environmental transmission electron microscope, molten nanoparticles, single‐atom catalyst, structure evolution, Science

Abstract

Abstract Transition metal single‐atom catalysts (SACs) are of immense interest, but how exactly they are evolved upon pyrolysis of the corresponding precursors remains unclear as transition metal ions in the complex precursor undergo a series of morphological changes accompanied with changes in oxidation state as a result of the interactions with the carbon support. Herein, the authors record the complete evolution process of Co SAC during the pyrolysis a Co/Zn‐containing zeolitic imidazolate framework. Aberration‐corrected environmental TEM coupled with in‐situ EELS is used for direct visualization of the evolution process at 200–1000 °C. Dissolution of carbon into the nanoparticles of Co is found to be key to modulating the wetting behavior of nanoparticles on the carbon support; melting of Co nanoparticles and their motion within the zeolitic architecture leads to the etching of the framework structure, yielding porous C/N support onto which Co‐single atoms reside. This uniquely structured Co SAC is found to be effective for the oxidation of a series of aromatic alkanes to produce selective ketones among other possible products. The carbon dissolution and melting/sublimation‐driven structural dynamics of transition metal revealed here will expand the methodology in synthesizing SACs and other high‐temperature processes.

Published

2022

21. Comparative Analysis of Root Transcriptome of High-NUE Mutant and Wild-Type Barley under Low-Nitrogen Conditions

Author

Runhong Gao, Longhua Zhou, Guimei Guo, Yingbo Li, Zhiwei Chen, Ruiju Lu, Chenghong Liu, and Jianmin Chen

Subjects

barley (Hordeum vulgare L.), low-N stress, root architecture, transcriptome, differentially expressed genes, Agriculture

Abstract

Although nitrogen (N) deficiency greatly affects N absorption and metabolism in barley, the global transcriptomic changes in morphological and physiological adaptation to altered N availability remains largely unclear. We conducted a comparative transcriptome analysis of roots in A9-29 (low N tolerant line of barley) and Hua 30 (low N-sensitive variety of barley) under low N conditions to elucidate the responses and the underlying molecular mechanism. The results demonstrated that the root architecture was strongly influenced and that the root morphological indexes (total root length, total root area surface, and root volume) were remarkably promoted in A9-29 compared to Hua30 under low N stress. The transcriptome analysis of roots identified 1779 upregulated differentially expressed genes (DEGs) and 1487 downregulated DEGs specifically expressed in A9-29 under low N stress. Specific DEGs in A9-29 were largely enriched in energy metabolism, lipid metabolism, and the metabolism of other amino acids. In addition, transcription factor genes ERFs and IAA-related genes were specifically expressed in A9-29. To conclude, this study could provide a foundation for improving low N tolerance in barley.

Published

2023

22. Rooting binder-free tin nanoarrays into copper substrate via tin-copper alloying for robust energy storage

Author

Jiangfeng Ni, Xiaocui Zhu, Yifei Yuan, Zhenzhu Wang, Yingbo Li, Lu Ma, Alvin Dai, Matthew Li, Tianpin Wu, Reza Shahbazian-Yassar, Jun Lu, and Liang Li

Subjects

Science

Abstract

The authors here report a binder-free electrode based on tin nanoarrays deposited on copper substrate. It is found that the locally formed electrochemically inactive tin-copper alloys work as a glue that bridges tin and copper to survive harsh cycling conditions in sodium ion batteries.

Published

2020

23. Transcriptome and Metabolome Analyses Reveal Complex Molecular Mechanisms Involved in the Salt Tolerance of Rice Induced by Exogenous Allantoin

Author

Juan Wang, Yingbo Li, Yinxiao Wang, Fengping Du, Yue Zhang, Ming Yin, Xiuqin Zhao, Jianlong Xu, Yongqing Yang, Wensheng Wang, and Binying Fu

Subjects

allantoin, rice, salt stress, antioxidant, transcriptome, metabolite, Therapeutics. Pharmacology, RM1-950

Abstract

Allantoin is crucial for plant growth and development as well as adaptations to abiotic stresses, but the underlying molecular mechanisms remain unclear. In this study, we comprehensively analyzed the physiological indices, transcriptomes, and metabolomes of rice seedlings following salt, allantoin, and salt + allantoin treatments. The results revealed that exogenous allantoin positively affects the salt tolerance by increasing the contents of endogenous allantoin with antioxidant activities, increasing the reactive oxygen species (ROS)–scavenging capacity, and maintaining sodium and potassium homeostasis. The transcriptome analysis detected the upregulated expression genes involved in ion transport and redox regulation as well as the downregulated expression of many salt-induced genes related to transcription and post-transcriptional regulation, carbohydrate metabolism, chromosome remodeling, and cell wall organization after the exogenous allantoin treatment of salt-stressed rice seedlings. Thus, allantoin may mitigate the adverse effects of salt stress on plant growth and development. Furthermore, a global metabolite analysis detected the accumulation of metabolites with antioxidant activities and intermediate products of the allantoin biosynthetic pathway in response to exogenous allantoin, implying allantoin enhances rice salt tolerance by inducing ROS scavenging cascades. These results have clarified the transcript-level and metabolic processes underlying the allantoin-mediated salt tolerance of rice.

Published

2022

24. ACE R-CNN: An Attention Complementary and Edge Detection-Based Instance Segmentation Algorithm for Individual Tree Species Identification Using UAV RGB Images and LiDAR Data

Author

Yingbo Li, Guoqi Chai, Yueting Wang, Lingting Lei, and Xiaoli Zhang

Subjects

individual tree species identification, ACE R-CNN, Mask R-CNN, attention complementary module, edge detection, UAV RGB and CHM data, Science

Abstract

Accurate and automatic identification of tree species information at the individual tree scale is of great significance for fine-scale investigation and management of forest resources and scientific assessment of forest ecosystems. Despite the fact that numerous studies have been conducted on the delineation of individual tree crown and species classification using drone high-resolution red, green and blue (RGB) images, and Light Detection and Ranging (LiDAR) data, performing the above tasks simultaneously has rarely been explored, especially in complex forest environments. In this study, we improve upon the state of the Mask region-based convolution neural network (Mask R-CNN) with our proposed attention complementary network (ACNet) and edge detection R-CNN (ACE R-CNN) for individual tree species identification in high-density and complex forest environments. First, we propose ACNet as the feature extraction backbone network to fuse the weighted features extracted from RGB images and canopy height model (CHM) data through an attention complementary module, which is able to selectively fuse weighted features extracted from RGB and CHM data at different scales, and enables the network to focus on more effective information. Second, edge loss is added to the loss function to improve the edge accuracy of the segmentation, which is calculated through the edge detection filter introduced in the Mask branch of Mask R-CNN. We demonstrate the performance of ACE R-CNN for individual tree species identification in three experimental areas of different tree species in southern China with precision (P), recall (R), F1-score, and average precision (AP) above 0.9. Our proposed ACNet–the backbone network for feature extraction–has better performance in individual tree species identification compared with the ResNet50-FPN (feature pyramid network). The addition of the edge loss obtained by the Sobel filter further improves the identification accuracy of individual tree species and accelerates the convergence speed of the model training. This work demonstrates the improved performance of ACE R-CNN for individual tree species identification and provides a new solution for tree-level species identification in complex forest environments, which can support carbon stock estimation and biodiversity assessment.

Published

2022

25. Reactive Oxygen Species-Based Nanomaterials for Cancer Therapy

Author

Yingbo Li, Jie Yang, and Xilin Sun

Subjects

reactive oxygen species, nanomaterials, cancer therapy, nanomedicine, nanocarriers, Chemistry, QD1-999

Abstract

Nanotechnology advances in cancer therapy applications have led to the development of nanomaterials that generate cytotoxic reactive oxygen species (ROS) specifically in tumor cells. ROS act as a double-edged sword, as they can promote tumorigenesis and proliferation but also trigger cell death by enhancing intracellular oxidative stress. Various nanomaterials function by increasing ROS production in tumor cells and thereby disturbing their redox balance, leading to lipid peroxidation, and oxidative damage of DNA and proteins. In this review, we outline these mechanisms, summarize recent progress in ROS-based nanomaterials, including metal-based nanoparticles, organic nanomaterials, and chemotherapy drug-loaded nanoplatforms, and highlight their biomedical applications in cancer therapy as drug delivery systems (DDSs) or in combination with chemodynamic therapy (CDT), photodynamic therapy (PDT), or sonodynamic therapy (SDT). Finally, we discuss the advantages and limitations of current ROS-mediated nanomaterials used in cancer therapy and speculate on the future progress of this nanotechnology for oncological applications.

Published

2021

26. Assessing social support impact on depression, anxiety, and stress among undergraduate students in Shaanxi province during the COVID-19 pandemic of China.

Author

Kun Guo, Xiaoye Zhang, Simin Bai, Halimatus Sakdiah Minhat, Ahmad Iqmer Nashriq Mohd Nazan, Jianan Feng, Xiuqin Li, Guihua Luo, Xiaoping Zhang, Jujun Feng, Yingbo Li, Mingyu Si, Youlin Qiao, Jing Ouyang, and Suhainizam Saliluddin

Subjects

Medicine, Science

Abstract

Following the 2019 coronavirus disease (COVID-19) outbreak in China, undergraduate students may experience psychological changes. During emergency circumstances, social support is an important factor influencing the mental health condition among undergraduate students in Shaanxi province. This study aims to find the factors associated with mental health symptoms of depression, anxiety, and stress among undergraduate students in Shaanxi province during the COVID-19 pandemic in China. A cross-sectional study was conducted from Feb 23 to Mar 7, 2020. A total of 1278 undergraduate students from the universities located in Shaanxi province participated in this study. The mental health symptoms were measured by 12-item Perceived Social Support Scale (PSSS) and Depression Anxiety Stress Scale (DASS-21) instruments. This survey showed that females receive more social support compared to males (t = -5.046, P

Published

2021

27. Global N6-Methyladenosine Profiling Revealed the Tissue-Specific Epitranscriptomic Regulation of Rice Responses to Salt Stress

Author

Yinxiao Wang, Fengping Du, Yingbo Li, Juan Wang, Xiuqin Zhao, Zhikang Li, Jianlong Xu, Wensheng Wang, and Binying Fu

Subjects

epitranscriptome, gene regulation, m6A methylation, MeRIP-seq, rice, salt stress, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

N6-methyladenosine (m6A) methylation represents a new layer of the epitranscriptomic regulation of plant development and growth. However, the effects of m6A on rice responses to environmental stimuli remain unclear. In this study, we performed a methylated-RNA immunoprecipitation sequencing analysis and compared the changes in m6A methylation and gene expression in rice under salt stress conditions. Salt stress significantly increased the m6A methylation in the shoots (p value < 0.05). Additionally, 2537 and 2304 differential m6A sites within 2134 and 1997 genes were identified in the shoots and roots, respectively, under salt stress and control conditions. These differential m6A sites were largely regulated in a tissue-specific manner. A unique set of genes encoding transcription factors, antioxidants, and auxin-responsive proteins had increased or decreased m6A methylation levels only in the shoots or roots under salt stress, implying m6A may mediate salt tolerance by regulating transcription, ROS homeostasis, and auxin signaling in a tissue-specific manner. Integrating analyses of m6A modifications and gene expression changes revealed that m6A changes regulate the expression of genes controlling plant growth, stress responses, and ion transport under saline conditions. These findings may help clarify the regulatory effects of m6A modifications on rice salt tolerance.

Published

2022

28. Molecular Dissection of the Gene OsGA2ox8 Conferring Osmotic Stress Tolerance in Rice

Author

Yinxiao Wang, Fengping Du, Juan Wang, Yingbo Li, Yue Zhang, Xiuqin Zhao, Tianqing Zheng, Zhikang Li, Jianlong Xu, Wensheng Wang, and Binying Fu

Subjects

gibberellin 2-oxidase gene, osmotic stress tolerance, jasmonate, rice, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Gibberellin 2-oxidase (GA2ox) plays an important role in the GA catabolic pathway and the molecular function of the OsGA2ox genes in plant abiotic stress tolerance remains largely unknown. In this study, we functionally characterized the rice gibberellin 2-oxidase 8 (OsGA2ox8) gene. The OsGA2ox8 protein was localized in the nucleus, cell membrane, and cytoplasm, and was induced in response to various abiotic stresses and phytohormones. The overexpression of OsGA2ox8 significantly enhanced the osmotic stress tolerance of transgenic rice plants by increasing the number of osmotic regulators and antioxidants. OsGA2ox8 was differentially expressed in the shoots and roots to cope with osmotic stress. The plants overexpressing OsGA2ox8 showed reduced lengths of shoots and roots at the seedling stage, but no difference in plant height at the heading stage was observed, which may be due to the interaction of OsGA2ox8 and OsGA20ox1, implying a complex feedback regulation between GA biosynthesis and metabolism in rice. Importantly, OsGA2ox8 was able to indirectly regulate several genes associated with the anthocyanin and flavonoid biosynthetic pathway and the jasmonic acid (JA) and abscisic acid (ABA) biosynthetic pathway, and overexpression of OsGA2ox8 activated JA signal transduction by inhibiting the expression of jasmonate ZIM domain-containing proteins. These results provide a basis for a future understanding of the networks and respective phenotypic effects associated with OsGA2ox8.

Published

2021

29. Rapid Generation and Analysis of a Barley Doubled Haploid Line with Higher Nitrogen Use Efficiency Than Parental Lines by F1 Microspore Embryogenesis

Author

Hongwei Xu, Yingbo Li, Runhong Gao, Rugen Xu, Guimei Guo, Ruiju Lu, Nigel G. Halford, Zhiwei Chen, and Chenghong Liu

Subjects

barley, microspore, doubled haploid line, nitrogen use efficiency, RNA-seq, Botany, QK1-989

Abstract

Creating varieties with high nitrogen use efficiency (NUE) is crucial for sustainable agriculture development. In this study, a superior barley doubled haploid line (named DH45) with improved NUE was produced via F1 microspore embryogenesis with three rounds of screening in different nitrogen levels by hydroponic and field experiments. The molecular mechanisms responsible for the NUE of DH45 surpassing that of its parents were investigated by RNA-seq analysis. A total of 1027 differentially expressed genes (DEGs) were identified that were up- or down-regulated in DH45 under low nitrogen conditions but showed no significant differences in the parents. GO analysis indicated that genes involved in nitrogen compound metabolic processes were significantly enriched in DH45 compared with the parents. KEGG analysis showed the MAPK signaling pathway plant to be highly enriched in DH45 relative to its parents, as well as genes involved in alanine, aspartate and glutamate metabolism, and arginine biosynthesis. In conclusion, our study revealed the potential to fix trait superiority in a line by combining crossing with F1 microspore culture technologies in future crop breeding and also identified several candidate genes that are expressed in shoots and may enable barley to cope with low-nitrogen stress.

Published

2021

30. Dynamics of H3K27me3 Modification on Plant Adaptation to Environmental Cues

Author

Qingwen Shen, Yisheng Lin, Yingbo Li, and Guifeng Wang

Subjects

H3K27me3, epigenetics, environmental cues, polycomb repressive complex 2, polycomb repressive complex 1, demethylase, Botany, QK1-989

Abstract

Given their sessile nature, plants have evolved sophisticated regulatory networks to confer developmental plasticity for adaptation to fluctuating environments. Epigenetic codes, like tri-methylation of histone H3 on Lys27 (H3K27me3), are evidenced to account for this evolutionary benefit. Polycomb repressive complex 2 (PRC2) and PRC1 implement and maintain the H3K27me3-mediated gene repression in most eukaryotic cells. Plants take advantage of this epigenetic machinery to reprogram gene expression in development and environmental adaption. Recent studies have uncovered a number of new players involved in the establishment, erasure, and regulation of H3K27me3 mark in plants, particularly highlighting new roles in plants’ responses to environmental cues. Here, we review current knowledge on PRC2-H3K27me3 dynamics occurring during plant growth and development, including its writers, erasers, and readers, as well as targeting mechanisms, and summarize the emerging roles of H3K27me3 mark in plant adaptation to environmental stresses.

Published

2021

31. Expression analysis of three SERK-like genes in barley under abiotic and biotic stresses

Author

Yingbo Li, Chenghong Liu, Guimei Guo, Ting He, Zhiwei Chen, Runhong Gao, Hongwei Xu, Muhammad Faheem, Ruiju Lu, and Jianhua Huang

Subjects

Barley, SERK-like genes, stress, expression analysis, Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

Somatic embryogenesis receptor-like kinases (SERKs), a subfamily of receptor-like kinases, showed important roles in plant response to abiotic and biotic stresses in addition to embryogenesis and organogenesis in numerous plant species. In the present study, three orthologs of SERK genes (HvSERK1/2/3) were isolated from barley, and their expression patterns during in vitro culture of microspores as well as their responses to different stresses including salinity and powdery mildew were characterized. Sequence analysis suggested that three HvSERK genes were highly conserved in the grass family. Subcellular localization showed the HvSERK1 protein located on the plasma membrane. The HvSERK1 transcript was up-regulated during the microspore culture period, suggesting its roles in microspore embryogenesis. HvSERK1 and HvSERK3 showed the highest expression level in the leaves; however no difference was detected for HvSERK2 expression in different plants’ tissues. Under salt stress, all three HvSERK genes were quickly induced in microspore-derived embryogenic calli, whereas only HvSERK1 was up-regulated in the roots of barley seedlings. Moreover, only HvSERK2 was induced in the barley leaves upon powdery mildew inoculation. These results suggest that barley SERK genes may participate in barley microspores’ development and plant response toward salt and fungal stress, and the function of them has some evolutionary changes.

Published

2017

32. Elevated frequencies of total and MAIT cell subsets in patients with knee osteoarthritis

Author

Ding Zhao, Wei Zhong, Dongfeng Han, Yingbo Li, Yanfang Jiang, and Guishan Gu

Subjects

Osteoarthritis, MAIT cells, Cd8αα, Knee osteoarthritis, Multi-joint impairment, Medicine, Biology (General), QH301-705.5

Abstract

Background Osteoarthritis (OA) is characterized by the degeneration of joint cartilage, with concomitant changes in the synovium and subchondral bone. Recently, the inflammatory response and involvement of several types of T-cells has been implicated in the development of OA. This study investigated the frequency of MR1-restricted mucosal-associated invariant T (MAIT) cells in patients with knee OA. Methods Forty-five patients recently diagnosed with knee OA and 21 age- and gender-matched healthy controls were recruited for this study. Percentages of circulating MAIT cells were assessed by flow cytometry. Plasma cytokine levels were measured using cytometric bead arrays. Associations between the percentages of MAIT cells, plasma cytokine levels, and clinical parameters of OA (erythrocyte sedimentation rate [ESR] and the Western Ontario and McMaster Universities Osteoarthritis Index [WOMAC]) were analyzed using the Spearman correlation test. Results The percentages of total, CD8αα, and CD8αβ MAIT cells were higher in patients with OA compared to healthy controls. The percentages of total and CD8αα MAIT cells were higher in patients with multi-joint OA (MOA) compared to patients with knee-only OA (KOA). Plasma IFN-γ and TNF-α levels were elevated in patients with OA compared to healthy controls, and there was a positive correlation between plasma IFN-γ levels and the percentages of total, CD8αα, and CD8αβ MAIT cells. Plasma IFN-γ and IL-17 levels were higher in patients with MOA compared to healthy controls or patients with KOA. There were positive correlations between the percentages of total and CD8αα MAIT cells and clinical parameters (ESR and WOMAC scores) in patients with OA or MOA. Binary logistic regression analysis shown the frequency of MAIT cells was associated with the risk of OA. Conclusions MAIT cells and their subpopulations were significantly increased in patients with OA and have potential as biological markers of OA disease severity, especially in patients with MOA.

Published

2019

33. Transcriptome Analysis Identifies Candidate Genes and Functional Pathways Controlling the Response of Two Contrasting Barley Varieties to Powdery Mildew Infection

Author

Yingbo Li, Guimei Guo, Longhua Zhou, Yunyun Chen, Yingjie Zong, Jianhua Huang, Ruiju Lu, and Chenghong Liu

Subjects

powdery mildew, barley, plant defense, transcriptome analysis, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Powdery mildew caused by Blumeria graminis f. sp. hordei (Bgh) is one of the most serious diseases in barley. The numerous barley varieties across China provide valuable genetic resources to screen the resistant germplasm and to discover the primary genes of resistance to powdery mildew. In this study, Chinese barley variety Feng 7 was identified as a highly resistant genotype which limited Bgh colonization by cell apoptosis using leaf staining assay, while another variety Hua 30 showed high susceptibility. The performance of high resistance to Bgh in F1 plants from the two varieties suggested dominant gene(s) controlled the resistance to powdery mildew in Feng 7. To understand the host transcriptional response to Bgh infection, these two barley varieties Feng 7 and Hua 30 were inoculated with Bgh, and their transcriptional profiling using RNA sequencing (RNA-seq) at four time points (12 h post-inoculation (hpi), 24 hpi, 48 hpi, and 72 hpi) were compared. 4318 differentially expressed genes (DEGs), including 2244 upregulated and 2074 downregulated genes, were detected in Feng 7, compared with Hua 30 at 12 hpi. 4907 DEGs (2488 upregulated and 2419 downregulated) were detected at 24 hpi. 4758 DEGs (2295 upregulated and 2463 downregulated) were detected at 48 hpi. 3817 DEGs (2036 upregulated and 1781 downregulated) were detected at 72 hpi. The results showed the number of DEGs between two varieties peaked at 24 hpi (for the upregulated) or 48 hpi (for the downregulated), which is matched with the processing of Bgh infection. In addition, the number of upregulated DEGs involved in the functional pathways of plant defense (mitogen-activated protein kinase (MAPK) pathway and plant hormone signal transduction) is elevated remarkably at 24 hpi. Six candidate genes (PR13, glutaredoxin, alcohol dehydrogenase, and cytochrome P450) were identified in Feng 7. All of them present continuous expression at higher levels upon Bgh infection, compared with the performance in Hua 30, which revealed the potential contribution to Feng 7 mediate resistance to Bgh. In conclusion, the candidate genes and relevant pathways provided key information towards understanding the defense of barley to Bgh attack and the molecular mechanisms of different genetic resistance to powdery mildew.

Published

2019

34. A Developmental Study of Abnormal Behaviors and Altered GABAergic Signaling in the VPA-Treated Rat Model of Autism

Author

Qianling Hou, Yan Wang, Yingbo Li, Di Chen, Feng Yang, and Shali Wang

Subjects

autism, GABA, VPA, GAD67, autistic-like behaviors, motor coordination, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Although studies have investigated the role of gamma-aminobutyric acid (GABA)ergic signaling in rodent neural development and behaviors relevant to autism, behavioral ontogeny, as underlain by the changes in GABAergic system, is poorly characterized in different brain regions. Here, we employed a valproic acid (VPA) rat model of autism to investigate the autism-like behaviors and GABAergic glutamic acid decarboxylase 67 (GAD67) expression underlying these altered behaviors in multiple brain areas at different developmental stages from birth to adulthood. We found that VPA-treated rats exhibited behavioral abnormalities relevant to autism, including delayed nervous reflex development, altered motor coordination, delayed sensory development, autistic-like and anxiety behaviors and impaired spatial learning and memory. We also found that VPA rats had the decreased expression of GAD67 in the hippocampus (HC) and cerebellum from childhood to adulthood, while decreased GAD67 expression of the temporal cortex (TC) was only observed in adulthood. Conversely, GAD67 expression was increased in the prefrontal cortex (PFC) from adolescence to adulthood. The dysregulated GAD67 expression could alter the excitatory-inhibitory balance in the cerebral cortex, HC and cerebellum. Our findings indicate an impaired GABAergic system could be a major etiological factor occurring in the cerebral cortex, HC and cerebellum of human cases of autism, which suggests enhancement of GABA signaling would be a promising therapeutic target for its treatment.

Published

2018

35. Expression Analysis of Nitrogen Metabolism-Related Genes Reveals Differences in Adaptation to Low-Nitrogen Stress between Two Different Barley Cultivars at Seedling Stage

Author

Zhiwei Chen, Chenghong Liu, Yifei Wang, Ting He, Runhong Gao, Hongwei Xu, Guimei Guo, Yingbo Li, Longhua Zhou, Ruiju Lu, and Jianhua Huang

Subjects

Genetics, QH426-470

Abstract

The excess use of nitrogen fertilizers causes many problems, including higher costs of crop production, lower nitrogen use efficiency, and environmental damage. Crop breeding for low-nitrogen tolerance, especially molecular breeding, has become the major route to solving these issues. Therefore, in crops such as barley (Hordeum vulgare L.), it is crucial to understand the mechanisms of low-nitrogen tolerance at the molecule level. In the present study, two barley cultivars, BI-04 (tolerant to low nitrogen) and BI-45 (sensitive to low nitrogen), were used for gene expression analysis under low-nitrogen stress, including 10 genes related to primary nitrogen metabolism. The results showed that the expressions of HvNIA2 (nitrite reductase), HvGS2 (chloroplastic glutamine synthetase), and HvGLU2 (ferredoxin-dependent glutamate synthase) were only induced in shoots of BI-04 under low-nitrogen stress, HvGLU2 was also only induced in roots of BI-04, and HvGS2 showed a rapid response to low-nitrogen stress in the roots of BI-04. The expression of HvASN1 (asparagine synthetase) was reduced in both cultivars, but it showed a lower reduction in the shoots of BI-04. In addition, gene expression and regulation differences in the shoots and roots were also compared between the barley cultivars. Taken together, the results indicated that the four above-mentioned genes might play important roles in low-nitrogen tolerance in barley.

Published

2018

36. Transient Overexpression of HvSERK2 Improves Barley Resistance to Powdery Mildew

Author

Yingbo Li, Qingwei Li, Guimei Guo, Ting He, Runhong Gao, Muhammad Faheem, Jianhua Huang, Ruiju Lu, and Chenghong Liu

Subjects

barley, SERK, powdery mildew, transient overexpression, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Somatic embryogenesis receptor-like kinases (SERKs) play an essential role in plant response to pathogen infection. Here we identified three SERK genes (HvSERK1/2/3) from barley, and aimed to determine their implication in defense responses to barley powdery mildew (Bgh). Although HvSERK1/2/3 share the characteristic domains of the SERK family, only HvSERK2 was significantly induced in barley leaves during Bgh infection. The expression of HvSERK2 was rapidly induced by hydrogen peroxide (H2O2) treatment, but not by treatment with salicylic acid (SA), methyl jasmonate (MeJA), ethephon (ETH), or abscisic acid (ABA). Bioinformatics analysis of the cloned HvSERK2 promoter revealed that it contains several elements responsible for defense responses against pathogens. Promoter functional analysis showed that the HvSERK2 promoter was induced by Bgh and H2O2. Subcellular localization analysis of HvSERK2 indicated that it is mainly located on the plasma membrane. Transient overexpression of HvSERK2 in epidermal cells of the susceptible barley cultivar Hua 30 reduced the Bgh haustorium index from 58.6% to 43.2%. This study suggests that the HvSERK2 gene plays a positive role in the improvement of barley resistance to powdery mildew, and provides new insight into the function of SERK genes in the biotic stress response of plants.

Published

2018

37. c-Met targeting enhances the effect of irradiation and chemical agents against malignant colon cells harboring a KRAS mutation.

Author

Yingbo Li, Jinxi Wang, Xing Gao, Weihua Han, Yongxiang Zheng, Huan Xu, Chuanling Zhang, Qiuchen He, Lihe Zhang, Zhongxin Li, and Demin Zhou

Subjects

Medicine, Science

Abstract

Although EGFR-targeted therapy has been beneficial to colorectal cancer patients, several studies have showed this clinical benefit was restricted to patients with wild-type KRAS exon 2 colorectal cancer. Therefore, it is crucial to explore efficient treatment strategies in patients with KRAS mutations. c-Met is an emerging target for the development of therapeutics against colorectal cancer. In this study, we first used the SW620 cell line, which has an activating KRAS mutation, to generate a stable cell line with conditional regulation of c-Met, which is an essential gene for growth and an oncogene. Using this approach, we evaluated the benefits of combined c-Met-targeted therapy with irradiation or chemical agents. In this cell line, we observed that the proliferation and migration of SW620 cells were reduced by the induction of c-Met shRNA. Furthermore, c-Met knockdown enhanced the anti-proliferative effects of 5-FU and Taxol but not cisplatin, irinotecan or sorafenib. These enhancements were also observed in another colon cancer cells line HCT-116, which also has a KRAS mutation. The response of SW620 cells to irradiation was also enhanced by c-Met knockdown. This method and obtained data might have important implications for exploring the combinatory effects of targeted therapies with conventional medications. Moreover, the data suggested that the combination of c-Met-targeted therapy with chemotherapy or irradiation might be an effective strategy against colorectal cancer harboring a KRAS mutation.

Published

2014

38. The Hv-SGT1 gene from Haynaldia villosa contributes to resistances towards both biotrophic and hemi-biotrophic pathogens in common wheat (Triticum aestivum L.).

Author

Liping Xing, Chen Qian, Aizhong Cao, Yingbo Li, Zhengning Jiang, Minghao Li, Xiahong Jin, Jiameng Hu, Yiping Zhang, Xiue Wang, and Peidu Chen

Subjects

Medicine, Science

Abstract

The SGT1 protein is essential for R protein-mediated and PAMPs-triggered resistance in many plant species. Here we reported the isolation and characterization of the Hv-SGT1 gene from Haynaldiavillosa (2n = 14, VV). Analysis of the subcellular location of Hv-SGT1 by transient expression of a fusion to GFP indicated its presence in the cytoplasm and nucleus. Levels of Hv-SGT1 transcripts were increased by inoculation with either the biotrophic pathogen Blumeriagraminis DC. f. Sp. tritici (Bgt) or the hemi-biotrophic pathogen Fusariumgraminearum (Fg). Levels of Hv-SGT1 showed substantial increase following treatment with H2O2 and methyl jasmonate (MeJA), only slightly induced following exposure to ethephon or abscisic acid, but not changed following exposure to salicylic acid. The demonstration that silencing of Hv-SGT1 substantially reduced resistance to Bgt indicated that Hv-SGT1 was an essential component of disease resistance in H. villosa. The over-expression of Hv-SGT1 in Yangmai 158 enhanced resistance to powdery mildew, and this correlated with increased levels of whole-cell reactive oxygen intermediates at the sites of penetration by the pathogens. Compared with wild-type plants, the expression levels of genes related to the H2O2 and JA signaling pathways were lower in the Hv-SGT1 silenced plants and higher in the Hv-SGT1 over-expressing plants. Therefore, the involvement of Hv-SGT1 in H2O2 production correlates with the hypersensitive response and jasmonic acid signaling. Our novel demonstration that wheat with over-expressed Hv-SGT1 showed enhanced resistance to both powdery mildew and FHB suggests that it could served as a transgenic genetic resource in wheat breeding for multiple disease resistance.

Published

2013

39. On the Achievable User Number of the Downlinks in Cellular-Based Machine-to-Machine Communications

Author

Yingbo Li, Chen Chen, Lin Bai, and Ye Jin

Subjects

Electronic computers. Computer science, QA75.5-76.95

Abstract

In cellular-based machine-to-machine (M2M) networks, supporting large number of machine-type communications (MTC) users (devices) has become a critical challenge in both the uplink and downlink channels. In this paper, we focus on the downlink beamforming using zero-forcing dirty paper coding (DPC). In order to characterize the system's ability of user admission, we consider the achievable user number, which is defined as the number of users whose signal-to-interference plus-noise ratios exceed a target threshold. Due to the complexity of the optimal scheme, we propose two algorithms with random user scheduling and greedy user scheduling in maximizing the achievable user number by dynamical power assignment. Using the joint distribution of effective channel gains, we derive the achievable user number of both the scheduling schemes. An upper bound on the achievable user number of the greedy scheme is then derived which is shown to be tight when there are a large number of users. From numerical results, we show that both of the schemes enjoy a linear increase in the achievable user number as the number of transmitter antennas increases. The performance of the greedy scheduling scheme is close to the optimal scheduling scheme.

Published

2012

40. Service level optimizing and shared bike rebalancing based on multi-agent deep reinforcement learning.

Author

Jiahui Feng, Yingbo Li, and Hefu Liu

Published

2024

41. Computer Architecture and Chip Design for DIKWP Artificial Consciousness.

Author

Kunguang Wu, Yucong Duan, Liang Chen, Yingbo Li, and Qi Qi

Published

2023

42. Advances in the Design and Application of a High Performance Micro-Nano Remote Sensing Satellite.

Author

Yuan Yao, Yu Zhou, Yingbo Li, Yun Xing, Chunzhu Yuan, and Haopeng Zhang 0001

Published

2022

43. On-Board Intelligent Processing for Remote Sensing Images Based on 20KG Micro-Nano Satellite.

Author

Yuan Yao, Yu Zhou, Chunzhu Yuan, Yingbo Li, and Haopeng Zhang 0001

Published

2021

44. Melatonin improves synapse development by PI3K/Akt signaling in a mouse model of autism spectrum disorder.

Author

Luyi Wang, Man Xu, Yan Wang, Feifei Wang, Jing Deng, Xiaoya Wang, Yu Zhao, Ailing Liao, Feng Yang, Shali Wang, and Yingbo Li

Published

2024

45. Quantification of interfacial interaction related with adhesive membrane fouling by genetic algorithm back propagation (GABP) neural network

Author

Bowen Li, Liguo Shen, Ying Zhao, Wei Yu, Hongjun Lin, Cheng Chen, Yingbo Li, and Qianqian Zeng

Subjects

Biomaterials, Colloid and Surface Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2023

46. Effect of bubble size and spatial distribution on the flow and mixing of steel

Author

Yingbo Li, Jing Li, Fucheng Zhu, and Jinmiao Ma

Subjects

Mechanics of Materials, Mechanical Engineering, Materials Chemistry, Metals and Alloys

Published

2023

47. Alveolar Macrophages-Mediated Translocation of Intratracheally Delivered Perfluorocarbon Nanoparticles to Achieve Lung Cancer 19F-MR Imaging

Author

Hongbin Wang, Xiaona Li, Jing Wang, Jiannan Wang, Hongyan Zou, Xuesong Hu, Linqing Yang, Penghui Shen, Rong A, Kaiqi Wang, Yingbo Li, Jie Yang, Kai Wang, Lili Yang, Lina Wu, and Xilin Sun

Subjects

Mechanical Engineering, General Materials Science, Bioengineering, General Chemistry, Condensed Matter Physics

Published

2023

48. A chromosome-scale genome assembly of Dasypyrum villosum provides insights into its application as a broad-spectrum disease resistance resource for wheat improvement

Author

Xu Zhang, Haiyan Wang, Haojie Sun, Yingbo Li, Yilong Feng, Chengzhi Jiao, Mengli Li, Xinying Song, Tong Wang, Zongkuan Wang, Chunxia Yuan, Li Sun, Ruiju Lu, Wenli Zhang, Jin Xiao, and Xiue Wang

Subjects

Plant Science, Molecular Biology

Published

2023

49. Structural Framework-Guided Universal Design of High-Entropy Compounds for Efficient Energy Catalysis

Author

Han Wu, Qi Lu, Yajing Li, Menghan Zhao, Jiajun Wang, Yingbo Li, Jinfeng Zhang, Xuerong Zheng, Xiaopeng Han, Naiqin Zhao, Jiajun Li, Yanhui Liu, Yida Deng, and Wenbin Hu

Subjects

Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis

Abstract

High-entropy compounds with extraordinary properties due to the synergistic effect of multiple components have exhibited great potential and attracted extensive attention in various fields, including physics, mechanical property analysis, and energy storage. Achieving universal stability and synthesis of high-entropy compounds with a wide range of components and structures continues to be difficult due to the high complexity of multicomponent mixing. Here, we propose a design strategy with high generality for realizing the stability and synthesis of high-entropy compounds that one metal site like the framework in the compound structures with bimetallic sites stabilizes another site to accommodate different elements. Several typical metal compounds with bimetallic sites, including perovskite hydroxides, layered double hydroxide, spinel sulfide, perovskite fluoride, and spinel oxides, have been synthesized into high-entropy compounds. High-entropy perovskite hydroxides (HEPHs) as representative compounds have been synthesized with a highly wide range of components even a septenary component and exhibit great oxygen evolution activity. Our work provides a design platform to develop more high-entropy compound systems with promising development potential for electrocatalysts.

Published

2022

50. Rapid Joule-Heating Synthesis for Manufacturing High-Entropy Oxides as Efficient Electrocatalysts

Author

Han Wu, Qi Lu, Yajing Li, Jiajun Wang, Yingbo Li, Rui Jiang, Jinfeng Zhang, Xuerong Zheng, Xiaopeng Han, Naiqin Zhao, Jiajun Li, Yida Deng, and Wenbin Hu

Subjects

Mechanical Engineering, General Materials Science, Bioengineering, General Chemistry, Condensed Matter Physics

Abstract

High-entropy oxide (HEO) including multiple principal elements possesses great potential for various fields such as basic physics, mechanical properties, energy storage, and catalysis. However, the synthesis method of high-entropy compounds through the traditional heating approach is not conducive to the rapid properties screening, and the current elemental combinations of HEO are also highly limited. Herein, we report a rapid synthesis method for HEO through the Joule-heating of nickel foil with dozens of seconds. High-entropy rocksalt oxides (HERSO) with the new elemental combination, high-entropy spinel oxides (HESO), and high-entropy perovskite oxide (HEPO) have been synthesized through the Joule-heating. The synthesized HERSO with new elemental combinations proves to be a great promotion of OER activity due to the synergy of multiple components and the continuous electronic structure experimentally and theoretically. The demonstrated synthesis approach and the new component combination of HERSO provide a broad platform for the development of high-entropy materials and catalysts.

Published

2022