Your search keyword '"Zhao, Yanxin"' showing total 539 results

201. NEW BAND STRUCTURES IN ODD-ODD 120I AND 122I

Author

LIU, GONGYE, primary, LI, LI, additional, LI, XIANFENG, additional, MA, YINGJUN, additional, ZHAO, YANXIN, additional, ZHOU, WENPING, additional, YANG, DONG, additional, MA, KEYAN, additional, LI, CONGBO, additional, YANG, YANJI, additional, YU, DEYANG, additional, LU, JINGBIN, additional, WU, XIAOGUANG, additional, ZHU, LIHUA, additional, HE, CHUANGYE, additional, ZHENG, YUN, additional, WANG, LIELIN, additional, HAO, XIN, additional, and LI, GUANGSHENG, additional

Published

2011

202. Granulocyte-colony stimulating factor protects memory impairment in the senescence-accelerated mouse (SAM)-P10

Author

Zhao, Cuiping, primary, Xie, Zhaohong, additional, Wang, Ping, additional, Wang, Yun, additional, Lai, Chao, additional, Zhu, Zhengyu, additional, Liu, Zhen, additional, Cong, Yanbin, additional, Zhao, Yanxin, additional, Zheng, Chengyun, additional, and Bi, Jianzhong, additional

Published

2011

203. High-Efficiency Polymer Solar Cells without Optical Spacer

Author

韩凌洁 Han Lingjie, 杨启满 Yang Qiman, 傅广生 Fu Guangsheng, 韩理 Han Li, 赵艳新 Zhao Yanxin, and 杨少鹏 Yang Shaopeng

Subjects

Materials science, business.industry, Optoelectronics, business, Atomic and Molecular Physics, and Optics, Polymer solar cell, Electronic, Optical and Magnetic Materials

Published

2012

204. Effects of diversities of node movement on virus spreading in MANETs.

Author

Zhao Yanxin, Lin Yaguang, Wang Xiaoming, and Li Li

Abstract

In order to research the effects of diversities of node movement on virus spreading in mobile Ad hoc networks (MANETs), this paper proposed a mobility model to construct a virus spreading model in MANETs based on cellular automata. It investigated not only the effects of diversities of node velocity, moving duration and staying duration but also the effects of direction range on virus spreading in MANETs. The simulations show that a smaller value of diversities of node movement implies a lower speed of virus spreading in MANETs. [ABSTRACT FROM AUTHOR]

Published

2015

205. Comparative proteomic analysis revealing the complex network associated with waterlogging stress in maize ( Zea mays L.) seedling root cells.

Author

Yu, Feng, Han, Xuesong, Geng, Cunjuan, Zhao, Yanxin, Zhang, Zuxin, and Qiu, Fazhan

Published

2015

206. Pretreatment with PTD-Calbindin D 28k Alleviates Rat Brain Injury Induced by Ischemia and Reperfusion

Author

Fan, Yongfeng, primary, Shi, Langfeng, additional, Gu, Yuehua, additional, Zhao, Yanxin, additional, Xie, Jun, additional, Qiao, Jian, additional, Yang, Guo-Yuan, additional, Wang, Yang, additional, and Lu, Chuan-Zhen, additional

Published

2006

207. NEW BAND STRUCTURES IN ODD-ODD 120I AND 122I.

Author

LIU GONGYE, LI LI, LI XIANFENG, MA YINGJUN, ZHAO YANXIN, ZHOU WENPING, YANG DONG, MA KEYAN, LI CONGBO, YANG YANJI, YU DEYANG, LU JINGBIN, WU XIAOGUANG, ZHU LIHUA, HE CHUANGYE, ZHENG YUN, WANG LIELIN, HAO XIN, and LI GUANGSHENG

Subjects

SPECTRUM analysis, CRYSTAL structure, DENSITY functional theory, YRAST states, QUADRUPOLES

Published

2011

208. HIGH SPIN STRUCTURES IN THE 159Lu NUCLEUS.

Author

LI CONGBO, LI XIANFENG, MA YINGJUN, ZHAO YANXIN, LIU GONGYE, LI LI, ZHU LIHUA, WU XIAOGUANG, HE CHUANGYE, LI GUANGSHENG, LIU YING, HAO XIN, and LI XUEQIN

Subjects

NUCLEAR physics, CRYSTAL structure, NEUTRONS, GAMMA rays, SPECTRUM analysis

Published

2011

209. Technical-Economic Calculation of Gas Pipeline Network Based on Value Engineering.

Author

Liu Jiayou and Zhao Yanxin

Published

2009

210. Degradation of metoprolol by UV/sulfite as an advanced oxidation or reduction process: The significant role of oxygen.

Author

Cao, Ying, Li, Juan, Zhao, Yanxin, Zhao, Yumeng, Qiu, Wei, Pang, Suyan, and Jiang, Jin

Subjects

*METOPROLOL, *STRUCTURE-activity relationships, *MOLECULAR orbitals, *DENSITY functional theory, *DEALKYLATION, *OXYGEN, *OXIDATION

Abstract

• Metoprolol degradation was comparatively studied in the UV/sulfite process without and with oxygen. • Both e aq − and H • participated in metoprolol degradation by the UV/sulfite process without oxygen, while SO 4 • − prevailed in the case with oxygen. • e aq − / H • and SO 4 • − might share similar degradation mechanisms. • The toxicity of solution treated by the two UV/sulfite processes was estimated. The degradation of metoprolol (MTP) by the UV/sulfite with oxygen as an advanced reduction process (ARP) and that without oxygen as an advanced oxidation process (AOP) was comparatively studied herein. The degradation of MTP by both processes followed the first-order rate law with comparable reaction rate constants of 1.50 × 10 − 3 se c − 1 and 1.20 × 10 − 3 se c − 1 , respectively. Scavenging experiments demonstrated that both e aq − and H • played a crucial role in MTP degradation by the UV/sulfite as an ARP, while SO 4 • − was the dominant oxidant in the UV/sulfite AOP. The degradation kinetics of MTP by the UV/sulfite as an ARP and AOP shared a similar pH dependence with a minimum rate obtained around pH 8. The results could be well explained by the pH impacts on the MTP speciation and sulfite species. Totally six transformation products (TPs) were identified from MTP degradation by the UV/sulfite ARP, and two additional ones were detected in the UV/sulfite AOP. The benzene ring and ether groups of MTP were proposed as the major reactive sites for both processes based on molecular orbital calculations by density functional theory (DFT). The similar degradation products of MTP by the UV/sulfite process as an ARP and AOP indicated that e aq − / H • and SO 4 • − might share similar reaction mechanisms, primarily including hydroxylation, dealkylation, and H abstraction. The toxicity of MTP solution treated by the UV/sulfite AOP was calculated to be higher than that in the ARP by the Ecological Structure Activity Relationships (ECOSAR) software, due to the accumulation of TPs with higher toxicity. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

211. Genome-Wide Identification, Evolution and Expression Analysis of mTERF Gene Family in Maize.

Author

Zhao, Yanxin, Cai, Manjun, Zhang, Xiaobo, Li, Yurong, Zhang, Jianhua, Zhao, Hailiang, Kong, Fei, Zheng, Yonglian, and Qiu, Fazhan

Subjects

*GENE expression in plants, *PLANT mitochondria, *DATABASE searching, *MICROARRAY technology, *ACCLIMATIZATION (Plants), CORN genetics

Abstract

Plant mitochondrial transcription termination factor (mTERF) genes comprise a large family with important roles in regulating organelle gene expression. In this study, a comprehensive database search yielded 31 potential mTERF genes in maize (Zea mays L.) and most of them were targeted to mitochondria or chloroplasts. Maize mTERF were divided into nine main groups based on phylogenetic analysis, and group IX represented the mitochondria and species-specific clade that diverged from other groups. Tandem and segmental duplication both contributed to the expansion of the mTERF gene family in the maize genome. Comprehensive expression analysis of these genes, using microarray data and RNA-seq data, revealed that these genes exhibit a variety of expression patterns. Environmental stimulus experiments revealed differential up or down-regulation expression of maize mTERF genes in seedlings exposed to light/dark, salts and plant hormones, respectively, suggesting various important roles of maize mTERF genes in light acclimation and stress-related responses. These results will be useful for elucidating the roles of mTERF genes in the growth, development and stress response of maize. [ABSTRACT FROM AUTHOR]

Published

2014

212. The Parkinson's disease-associated gene PINK1 protects neurons from ischemic damage by decreasing mitochondrial translocation of the fission promoter Drp1.

Author

Zhao, Yanxin, Chen, Fangzhe, Chen, Shufen, Liu, Xueyuan, Cui, Mei, and Dong, Qiang

Subjects

*PARKINSON'S disease & genetics, *ISCHEMIA, *MITOCHONDRIAL pathology, *PROMOTERS (Genetics), *DYNAMIN (Genetics), *KINASES, *PARKINSONIAN disorders

Abstract

Our previous study has shown that PTEN-induced novel kinase 1 ( PINK1) knocking down significantly induced mitochondrial fragmentation. Although PINK1 is proved to be associated with autosomal recessive parkinsonism and its function in this chronic pathological process is widely studied, its role in acute energy crisis such as ischemic stroke is poorly known. In this study by employing an oxygen-glucose deprivation ( OGD) neuronal model, we explored the function of PINK1 in cerebral ischemia. Human PINK1, two PINK1 mutants W437X and K219M, or Pink1 sh RNA were transduced before OGD using lentiviral delivery. Our results showed that over-expression of wild-type PINK1 significantly ameliorated OGD induced cell death and energy disturbance including reduced ATP generation and collapse of mitochondrial membrane potential. PINK1 over-expression also reversed OGD increased mitochondrial fragmentation, and suppressed the translocation of the mitochondrial fission protein dynamin-related protein 1 (Drp1) from the cytosol to the mitochondria. Transduction of the mutant PINK1 failed to provide any protective effect, while knockdown of Pink1 significantly increased the severity of OGD-induced neuronal damage. Importantly, inhibition of Drp1 reversed the effects of knocking down Pink1 on neuronal death and ATP production in response to OGD. This study demonstrates that PINK1 prevents ischemic damage in neurons by attenuating mitochondrial translocation of Drp1, which maintains mitochondrial function and inhibits ischemia-induced mitochondrial fission. These novel findings implicate a pivotal role of PINK1 regulated mitochondrial dynamics in the pathology of ischemic stroke. [ABSTRACT FROM AUTHOR]

Published

2013

213. Determination of essential and toxic elements in Cordyceps kyushuensis Kawam by inductively coupled plasma mass spectrometry

Author

Zhang, Guoying, Zhao, Yanxin, Liu, Fengjun, Ling, Jianya, Lin, Jianqiang, and Zhang, Changkai

Subjects

*CORDYCEPS, *INDUCTIVELY coupled plasma spectrometry, *MICROWAVES, *ANALYSIS of variance, *CADMIUM, *HEAVY metals

Abstract

Abstract: In this study, a total of 20 elements (essential, non-essential and toxic): lithium (Li), sodium (Na), potassium (K), gallium (Ga), magnesium (Mg), zinc (Zn), iron (Fe), copper (Cu), manganese (Mn), vanadium (V), chromium (Cr), nickel (Ni), cobalt (Co), molybdenum (Mo), selenium (Se), barium (Ba), tin (Sn), arsenic (As), lead (Pb) cadmium (Cd) and mercury (Hg) in natural and cultured Cordyceps kyushuensis have been determined by means of inductively coupled plasma mass spectrometry (ICP-MS). Cultured stroma, natural stroma and natural worm were digested by microwave-assisted method before analysis. The proposed ICP-MS method was validated by analyzing a certified reference material (CRM) GBW10015 (spinach). The results of one-way analysis of variance (ANOVA) revealed that the element concentrations in the three kinds of samples were significantly different (p <0.05). Except for Mg, Zn, Cu, the values of other elemental contents were the highest in the stroma of natural C. kyushuensis. In comparison with the worm, the concentrations of determined elements in wild stroma were higher. The remarkable difference of elemental contents between cultured and natural stroma may be caused by distinct growing environment. This finding highlighted the usefulness of ICP-MS elemental analysis and enhanced the value of C. kyushuensis as a candidate for nourishing food based on its composition. [Copyright &y& Elsevier]

Published

2013

214. Knockdown of glucose-6-phosphate dehydrogenase (G6PD) following cerebral ischemic reperfusion: The pros and cons

Author

Zhao, Gang, Zhao, Yanxin, Wang, Xingyu, and Xu, Ying

Subjects

*GLUCOSE-6-phosphate dehydrogenase, *CEREBRAL ischemia, *REPERFUSION, *GLUTATHIONE, *OXIDATIVE stress, *DNA damage

Abstract

Abstract: NADPH derived from glucose-6-phosphate dehydrogenase (G6PD), the rate-limiting enzyme of the pentose phosphate pathway, has been implicated not only to promote reduced glutathione (GSH) but also enhance oxidative stress in specific cellular conditions. In this study, the effects of G6PD antisense oligodeoxynucleotides (AS-ODNs) was examined on the CA1 pyramidal neurons following transient cerebral ischemia. Specifically knockdown of G6PD protein expression in hippocampus CA1 subregion at early reperfusion period (1–24h) with a strategy to pre-treated G6PD AS-ODNs significantly reduced G6PD activity and NADPH level, an effect correlated with attenuation of NADPH oxidase activation and superoxide anion production. Concomitantly, pre-treatment of G6PD AS-ODNs markedly reduced oxidative DNA damage and the delayed neuronal cell death in rat hippocampal CA1 region induced by global cerebral ischemia. By contrast, knockdown of G6PD protein at late reperfusion period (48–96h) increased oxidative DNA damage and exacerbated the ischemia-induced neuronal cell death in hippocampal CA1 region, an effect associated with reduced NADPH level and GSH/GSSG ratio. These findings indicate that G6PD not only plays a role in oxidative neuronal damage but also a neuroprotective role during different ischemic reperfusion period. Therefore, G6PD mediated oxidative response and redox regulation in the hippocampal CA1 act as the two sides of the same coin and may represent two potential applications of G6PD during different stage of cerebral ischemic reperfusion. [Copyright &y& Elsevier]

Published

2012

215. Two-dimensional numerical model for debris flows in the Jiangjia Gully, Yunnan Province.

Author

Peng, Hong, Zhao, Yanxin, Cui, Peng, Zhang, Wanshun, Chen, Xuejiao, and Chen, Xiaoqing

Subjects

NATURAL disasters, EROSION, SEDIMENTATION & deposition, MATHEMATICAL models, EQUATIONS

Abstract

Debris flows are recurrent natural hazards in many mountainous regions. This paper presents a numerical study on the propagation of debris flows in natural erodible open channels, in which the bed erosion and sedimentation processes are important. Based on the Bingham fluid theory, a mathematical model of the two-dimensional non-constant debris flow is developed. The governing equations include the continuity and momentum conservation equations of debris flow, the sediment convection-diffusion equation, the bed erosion-deposition equation and the bed-sediment size gradation adjustment equation. The yield stress and shear stress components are included to describe the dynamic rheological properties. The upwind control-volume Finite Volume Method (FVM) is applied to discretize the convection terms. The improved SIMPLE algorithm with velocity-free-surface coupled correction is developed to solve the equations on non-orthogonal, quadrilateral grids. The model is applied to simulate a debris flow event in Jiangjia Gully, Yunnan Province and to predict the flow pattern and bed erosion-deposition processes. The results show the effectiveness of the proposed numercial model in debris flow simulation and potential hazard analysis. [ABSTRACT FROM AUTHOR]

Published

2011

216. Targeting Astrocytes for Stroke Therapy

Author

Zhao, Yanxin and Rempe, David A.

Subjects

ASTROCYTES, GLUTAMIC acid, CEREBRAL ischemia treatment, TARGETED drug delivery, CELL death, CELL physiology, NEUROTOXIC agents

Abstract

Summary: Stroke remains a major health problem and is a leading cause of death and disability. Past research and neurotherapeutic clinical trials have targeted the molecular mechanisms of neuronal cell death during stroke, but this approach has uniformly failed to reduce stroke-induced damage or to improve functional recovery. Beyond the intrinsic molecular mechanisms inducing neuronal death during ischemia, survival and function of astrocytes is absolutely required for neuronal survival and for functional recovery after stroke. Many functions of astrocytes likely improve neuronal viability during stroke. For example, uptake of glutamate and release of neurotrophins enhances neuronal viability during ischemia. Under certain conditions, however, astrocyte function may compromise neuronal viability. For example, astrocytes may produce inflammatory cytokines or toxic mediators, or may release glutamate. The only clinical neurotherapeutic trial for stroke that specifically targeted astrocyte function focused on reducing release of S-100β from astrocytes, which becomes a neurotoxin when present at high levels. Recent work also suggests that astrocytes, beyond their influence on cell survival, also contribute to angiogenesis, neuronal plasticity, and functional recovery in the several days to weeks after stroke. If these delayed functions of astrocytes could be targeted for enhancing stroke recovery, it could contribute importantly to improving stroke recovery. This review focuses on both the positive and the negative influences of astrocytes during stroke, especially as they may be targeted for translation to human trials. [Copyright &y& Elsevier]

Published

2010

217. Impact of Land Use Changes on the Surface Runoff and Nutrient Load in the Three Gorges Reservoir Area, China.

Author

Zhang, Xiao, Chen, Xiaomin, Zhang, Wanshun, Peng, Hong, Xu, Gaohong, Zhao, Yanxin, and Shen, Zhenling

Abstract

Dramatic changes in land use/cover (LULC) patterns have taken place in the Three Gorges Reservoir Area (TGRA) after the construction of the Three Gorges Dam, which have led to hydrological and environment alterations. In this study, eight land use scenarios from 1980 to 2018 were used to evaluate the impact of LULC changes on runoff and nutrient load in the TGRA, using a validated version of the Soil & Water Assessment Tool (SWAT) model. Firstly, we analyzed the LULC characteristic. During the 38-year period, the LULC pattern showed an increase in forestland and a decrease in cropland. The cropland mainly changed into forestland. Construction land realized growth by encroaching mainly on cropland and forestland. Secondly, the temporal–spatial characteristics of runoff and nutrient load were analyzed. In the TGRA, surface runoff and nutrient load exhibited significant tempo-spatial heterogeneity. The runoff depth and the total nitrogen (TN) and total phosphorus (TP) loads increased through 1980 to 2018, and 2005 was a turning point. After 2005, the annual average change rate was larger than before 2005. The area with a larger runoff depth was mainly distributed in the head and middle region as well as on the left bank of the TGRA. The middle and tail region of the TGRA generated relatively higher TN and TP loads. Lastly, the contributions of LULC types on runoff and nutrient load were explored. Forestland had the highest contribution rate to surface runoff, followed by cropland. Cropland had the highest contribution rate to TN and TP, follow by forestland. This study can provide a better understanding of the hydrological consequences of LULC changes and help watershed management in the TGRA. [ABSTRACT FROM AUTHOR]

Published

2022

218. Effective strategy of adding links for maximizing traffic capacity of complex networks.

Author

Zhao Yanxin, Li Li, and Wang Xiaoming

Abstract

The strategies to improve the traffic capacity of networks have become one of the hot topics in the field of complex networks recently. By far, the strategies to enhance the traffic capacity via removing links have been researched a great deal in previous studies while strategies to improve the traffic capacity via adding links have been considered rarely. This paper proposed an efficient strategy to enhance traffic capacity via the process of links increment based on the theory that the maximum node betweenness was inversely proportional to the traffic capacity of networks. The obtained results indicate that the proposed strategy of adding links can not only effectively reduce the average shortest path, but also mostly enhance the traffic capacity of networks compared with the lowest degree strategy and the longest shortest path strategy when the same number of links are added. [ABSTRACT FROM AUTHOR]

Published

2015

219. Using high-throughput phenotyping platform MVS-Pheno to decipher the genetic architecture of plant spatial geometric 3D phenotypes for maize.

Author

Wu, Sheng, Zhang, Ying, Zhao, Yanxin, Wen, Weiliang, Wang, Chuanyu, Lu, Xianju, Guo, Minkun, Guo, Xinyu, Zhao, Jiuran, and Zhao, Chunjiang

Subjects

*GENOME-wide association studies, *CORN breeding, *PLANTING, *CORN, *PLANT indicators

Abstract

• An automated maize plant type 3D phenotype analysis system has been developed. • 44 traits of maize plant architecture were defined and extracted. • 40 significant SNP/QTLs were identified for the 17 traits. • ConvexHull trait may be used as potential indicators for plant architecture. Maize (Zea mays) is one of the world's most important crops, and its abundant and stable yield is crucial for ensuring global food security. Optimizing maize plant architecture can effectively enhance canopy structure, and ensure an ample supply of assimilates, thereby constituting a crucial strategy for achieving high yields in high-density planting systems. In this study, we used the phenotyping platform MVS-Pheno to synchronously collect multi-view image data of plant architecture, and the 3D phenotype analysis algorithm was developed to batch and automatically extract traits of spatial geometric structure. Using this phenotypic acquisition and analysis platform, 44 traits of maize plant architecture were defined and extracted, including 6 categories: basic phenotype, projection area related phenotype, leaf related phenotype, plant architecture dispersion related phenotype, volume related phenotype, and color related phenotype. Based on abundant phenotypic traits of plant architecture, we analyzed the phenotypic variations among a group of 495 inbred lines and further conducted GWAS to reveal the genetic components of the plant architecture. In summary, our work demonstrates valuable advances in high-throughput identification of qualitative traits for plant architecture, which could have major implications for improving high-density tolerant maize breeding and production. [ABSTRACT FROM AUTHOR]

Published

2024

220. Techno-economic Analysis on Water Source Heat Pump System.

Author

Liu Jiayou and Zhao Yanxin

Published

2009

221. Effects of Hemodialysis on Prognosis in Individuals with Comorbid ERSD and ICH: A Retrospective Single-Center Study.

Author

Tan, Yan, Gu, Yongzhe, Zhao, Yichen, Lu, You, Liu, Xueyuan, and Zhao, Yanxin

Abstract

Objectives: End-stage renal disease (ESRD) is one of the most critical risk factors of intracerebral hemorrhage (ICH). We aimed to investigate the effects of maintenance hemodialysis on hematoma volume, edema volume, and prognosis in patients with comorbid ESRD and ICH.Materials and Methods: Patients with comorbid ESRD and ICH were divided into two groups based on whether receiving maintenance hemodialysis. Hematoma and perihemorrhagic edema (PHE) volumes and relative edema ratio after admission were assessed on head computed tomography scans.Results: During the initial diagnosis, the dialysis group had lower PHE volume (16.41 vs 35.90 mL, P = 0.010), total volume of hematoma and edema (31.58 vs 54.58 mL, P = 0.013), and relative edema ratio (0.57 vs 0.92, P = 0.033) than the non-dialysis group. In addition, the peak PHE volume (36.68 vs 84.30 mL, P < 0.001), peak total volume of hematoma and edema (53.45 vs 127.69 mL, P = 0.011), and peak relative edema ratio (1.12 vs 1.92, P = 0.001) within one week after onset were lower in the dialysis group than in the non-dialysis group. The dialysis group had a higher in-hospital mortality rate than the non-dialysis group (40% vs 10%, P = 0.007). At 1-year follow-up, the two groups had similar 1-year-mortality rates and modified Rankin Scale.Conclusions: Hemodialysis can prevent the enlargement of edema and reduce PHE volume shortly after onset. Although dialyzed patients had a higher in-hospital mortality rate, hemodialysis did not affect 1-year survival rate and functional neurologic scales. [ABSTRACT FROM AUTHOR]

Published

2021

222. Stalk architecture, cell wall composition, and QTL underlying high stalk flexibility for improved lodging resistance in maize.

Author

Wang, Xiaqing, Shi, Zi, Zhang, Ruyang, Sun, Xuan, Wang, Jidong, Wang, Shuai, Zhang, Ying, Zhao, Yanxin, Su, Aiguo, Li, Chunhui, Wang, Ronghuan, Zhang, Yunxia, Wang, Shuaishuai, Wang, Yuandong, Song, Wei, and Zhao, Jiuran

Subjects

CORN, STALKING, X-ray microscopy, TRANSCRIPTION factors, SEED industry, CORN breeding

Abstract

Background: Stalk fracture caused by strong wind can severely reduce yields in maize. Stalks with higher stiffness and flexibility will exhibit stronger lodging resistance. However, stalk flexibility is rarely studied in maize. Stalk fracture of the internode above the ear before tasseling will result in the lack of tassel and pollen, which is devastating for pollination in seed production. In this study, we focused on stalk lodging before tasseling in two maize inbred lines, JING724 and its improved line JING724A1 and their F2:3 population. Results: JING724A1 showed a larger stalk fracture angle than JING724, indicating higher flexibility. In addition, compared to JING724, JING724A1 also had longer and thicker stalks, with a conical, frustum-shaped internode above the ear. Microscopy and X-ray microcomputed tomography of the internal stalk architecture revealed that JING724A1 had more vascular bundles and thicker sclerenchyma tissue. Furthermore, total soluble sugar content of JING724A1, especially the glucose component, was substantially higher than in JING724. Using an F2:3 population derived from a JING724 and JING724A1 cross, we performed bulk segregant analysis for stalk fracture angle and detected one QTL located on Chr3: 14.00–19.28 Mb. Through transcriptome data analysis and ∆ (SNP-index), we identified two candidate genes significantly associated with high stalk fracture angle, which encode a RING/U-box superfamily protein (Zm00001d039769) and a MADS-box transcription factor 54 (Zm00001d039913), respectively. Two KASP markers designed from these two candidate genes also showed significant correlations with stalk fracture angle. Conclusions: The internode shape and glucose content are possibly correlated with stalk flexibility in maize. Two genes in the detected QTL are potentially associated with stalk fracture angle. These novel phenotypes and associated loci will provide a theoretical foundation for understanding the genetic mechanisms of lodging, and facilitate the selection of maize varieties with improved flexibility and robust lodging resistance. [ABSTRACT FROM AUTHOR]

Published

2020

223. Sequence polymorphism of the waxy gene in waxy maize accessions and characterization of a new waxy allele.

Author

Luo, Meijie, Shi, Yaxing, Yang, Yang, Zhao, Yanxin, Zhang, Yunxia, Shi, Yamin, Kong, Mengsi, Li, Chunhui, Feng, Zhen, Fan, Yanli, Xu, Li, Xi, Shengli, Lu, Baishan, and Zhao, Jiuran

Subjects

CORN, CORN breeding, GERMPLASM of corn, PHYLOGENETIC models, NUCLEOTIDES

Abstract

Waxy maize has many excellent characteristics in terms of its nutritional and economic value. In recent decades, the waxy maize germplasm has increased dramatically as a result of different selection methods. We collected 200 waxy maize inbred accessions from different origins to study their genetic diversity and phylogenetic relationships, and to identify new waxy mutations. A simple sequence repeat (SSR) analysis revealed wide genetic diversity among the 200 waxy maize accessions. The maize accessions were clustered into three groups. We sequenced the waxy gene from the first to the 14th exon. Nucleotide variation analysis of 167 waxy maize and 14 flint maize lines revealed some nucleotide differences in the waxy gene among different waxy maize groups, and much narrower nucleotide diversity in waxy maize than in flint maize. In a phylogenetic analysis, waxy maize carrying the same mutation allele clustered together, and waxy maize carrying different mutation alleles distributed in different groups; waxy maize was intermixed with flint maize in each branch, and wx-D7 waxy maize separated significantly from waxy maize lines carrying wx-D10, wx-124 and wx-hAT mutant alleles. The wx-hAT was a new waxy mutation identified in this study. It consisted of a 2286-bp transposon inserted into the middle of exon three of the waxy gene. A PCR marker specific for the wx-hAT allele was developed. These results will be useful for the utilization and preservation of the waxy maize germplasm, and the PCR marker has potential uses in waxy maize breeding programs. [ABSTRACT FROM AUTHOR]

Published

2020

224. CUBIC: an atlas of genetic architecture promises directed maize improvement

Author

Liu, Hai-Jun, Wang, Xiaqing, Xiao, Yingjie, Luo, Jingyun, Qiao, Feng, Yang, Wenyu, Zhang, Ruyang, Meng, Yijiang, Sun, Jiamin, Yan, Shijuan, Peng, Yong, Niu, Luyao, Jian, Liumei, Song, Wei, Yan, Jiali, Li, Chunhui, Zhao, Yanxin, Liu, Ya, Warburton, Marilyn L., Zhao, Jiuran, and Yan, Jianbing

Abstract

Background: Identifying genotype-phenotype links and causative genes from quantitative trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize gene discovery and breeding, we present the Complete-diallel design plus Unbalanced Breeding-like Inter-Cross (CUBIC) population, consisting of 1404 individuals created by extensively inter-crossing 24 widely used Chinese maize founders. Results: Hundreds of QTL for 23 agronomic traits are uncovered with 14 million high-quality SNPs and a high-resolution identity-by-descent map, which account for an average of 75% of the heritability for each trait. We find epistasis contributes to phenotypic variance widely. Integrative cross-population analysis and cross-omics mapping allow effective and rapid discovery of underlying genes, validated here with a case study on leaf width. Conclusions: Through the integration of experimental genetics and genomics, our study provides useful resources and gene mining strategies to explore complex quantitative traits.

Published

2020

225. Multi-omics analysis of the development and fracture resistance for maize internode.

Author

Wang, Xiaqing, Zhang, Ruyang, Shi, Zi, Zhang, Ying, Sun, Xuan, Ji, Yulong, Zhao, Yanxin, Wang, Jidong, Zhang, Yunxia, Xing, Jinfeng, Wang, Yuandong, Wang, Ronghuan, Song, Wei, and Zhao, Jiuran

Abstract

The maize stalk is an important mechanical supporting tissue. The stalk fracture resistance is closely related to lodging resistance, and thus the yield. In this study, we showed that the basal zone (BZ) was more fragile than the middle zone (MZ) of the stalk internode before tasseling. In order to clarify the relationship between the different zones and fragile resistance between the internodes, we systematically analyzed the phenotypic, metabolomic and transcriptomic differences. The results indicated that the BZ zone had lower stalk strength, which corresponded to the results of less lignin, cellulose and hemicellulose than that of the MZ. The 27 highly enriched metabolites and 4430 highly expressed genes in the BZ mainly participated in pentose phosphate, and in ribosome and sterol synthesis pathways, respectively. In addition, the BZ had higher vascular bundles density but smaller size compared with the MZ. By contrast, the 28 highly enriched known metabolites and 4438 highly expressed genes in the MZ were mainly involved in lignin synthesis, and secondary metabolites synthesis, respectively, especially the phenylpropanoid synthesis. The results provide a deeper understanding of the relationship between development and fracture differences in stalk, and may facilitate the improvement of field management practice to reduce lodging. [ABSTRACT FROM AUTHOR]

Published

2019

226. Mapping of quantitative trait loci for seedling salt tolerance in maize.

Author

Luo, Meijie, Zhang, Yunxia, Chen, Kuan, Kong, Mengsi, Song, Wei, Lu, Baishan, Shi, Yaxing, Zhao, Yanxin, and Zhao, Jiuran

Subjects

CORN, SALT, SEEDLINGS, CORN breeding, CHROMOSOMES

Abstract

Improved salt tolerance is a major goal for maize breeders, but the control of salt tolerance-related traits in maize is poorly understood. A set of 209 doubled haploid (DH) lines derived from the maize hybrid Xianyu335 was genotyped using 1335 single-nucleotide polymorphism (SNP) markers. Biomass-related traits under salt stress were used as salt tolerance indicators, and a quantitative trait loci (QTL) analysis was conducted in hydroponic culture under salt-stress and normal conditions. Fourteen traits showed significant phenotypic differences between parents, and 16 traits showed transgressive segregation in the DH population. We detected 65 QTL: 41 associated with salt tolerance and 24 related to normal growth. Salt tolerance-related QTL clustered on chromosomes 1, 3, 7, and 9, among which 13 major effect QTL on chromosome 1 individually explained more than 21% of the phenotypic variation. Of these large-effect QTL, QTL controlling seven traits upon salt treatment and two salt tolerance indexes were co-located; they extensively overlapped with the remaining four co-localized QTL related to four other salt tolerance indexes. The QTL identified here shed new light on the molecular mechanism of salt tolerance in maize and may provide robust functional markers for marker-assisted selection of salt tolerant maize varieties. [ABSTRACT FROM AUTHOR]

Published

2019

227. Dynamic plant height QTL revealed in maize through remote sensing phenotyping using a high-throughput unmanned aerial vehicle (UAV).

Author

Wang, Xiaqing, Zhang, Ruyang, Song, Wei, Han, Liang, Liu, Xiaolei, Sun, Xuan, Luo, Meijie, Chen, Kuan, Zhang, Yunxia, Yang, Hao, Yang, Guijun, Zhao, Yanxin, and Zhao, Jiuran

Abstract

Plant height (PH) is a key factor in maize (Zea mays L.) yield, biomass, and plant architecture. We investigated the PH of diverse maize inbred lines (117 temperate lines, 135 tropical lines) at four growth stages using unmanned aerial vehicle high-throughput phenotypic platforms (UAV-HTPPs). We extracted PH data using an automated pipeline based on crop surface models and orthomosaic model. The correlation between UAV and manually measured PH data reached 0.95. Under temperate field conditions, temperate maize lines grew faster than tropical maize lines at early growth stages, but tropical lines grew faster at later growth stages and ultimately became taller than temperate lines. A genome-wide association study identified 68 unique quantitative trait loci (QTLs) for seven PH-related traits, and 35% of the QTLs coincided with those previously reported to control PH. Generally, different QTLs controlled PH at different growth stages, but eight QTLs simultaneously controlled PH and growth rate at multiple growth stages. Based on gene annotations and expression profiles, we identified candidate genes controlling PH. The PH data collected by the UAV-HTPPs were credible and the genetic mapping power was high. Therefore, UAV-HTPPs have great potential for use in studies on PH. [ABSTRACT FROM AUTHOR]

Published

2019

228. Cognitive dysfunction in type 2 diabetes patients accompanied with obstructive sleep apnea syndrome

Author

Li, Huanyin, primary, Gong, Qi, additional, Shao, Jinshan, additional, Liu, Xueyuan, additional, and Zhao, Yanxin, additional

Published

1969

229. A propionate-functionalized polyoxovanadate K2[V10O16(OH)6(CH3CH2CO2)6]·20H2O: As catalyst for degradation of methylene blue.

Author

Wang, Ke, He, Yuzan, Zhao, Yanxin, Ma, Pengtao, and Wang, Jingping

Subjects

*X-ray powder diffraction, *METHYLENE blue, *AQUEOUS solutions, *CATALYTIC activity, *REDUCING agents, *X-ray diffraction

Abstract

By self-assembly of the KVO 3 raw material with propionate ligand using hydrazine hydrate as reducing agents in conventional aqueous solution, a novel propionate-functionalized polyoxovanadate K 2 [V 10 O 16 (OH) 6 (CH 3 CH 2 CO 2) 6 ]·20H 2 O (1) has been successfully synthesized and further structurally characterized by IR spectrum, powder X-ray diffraction (PXRD), thermogravimetric (TG), and single-crystal X-ray diffraction analysis. Structural analysis demonstrates that the polyanion [V 10 O 16 (OH) 6 (CH 3 CH 2 CO 2) 6 ]2− of 1 is composed of the {V 10 }-based polyoxovanadate which is further anchored by 6 propionate ligands to form a propionate-stabilized decavanadate. The {V 10 } building unit of 1 is completely different from the classical [V 10 O 28 ]6− ion. The catalytic property of 1 for the degradation of methylene blue (MB) was investigated, and the result indicates that 1 exhibits excellent catalytic activity for the degradation of MB. Image 1 • Two same {V 5 } subunits are interlinked in staggered pattern forming {V 10 } unit. • The {V 10 } building unit is further anchored by 6 propionate ligands. • Compound 1 shows excellent activity for the degradation of methylene blue. [ABSTRACT FROM AUTHOR]

Published

2019

230. Corrigendum: Abnormal topological organization of the white matter network in Mandarin speakers with congenital amusia.

Author

Zhao, Yanxin, Chen, Xizhuo, Zhong, Suyu, Cui, Zaixu, Gong, Gaolang, Dong, Qi, and Nan, Yun

Published

2016

231. Aperture‐Adjustable and Repairable Metal‐Based MOFs Catalysis Membrane for Water Purification.

Author

Zhang, Hui, Sun, Yinkun, Yang, Junjie, Sun, Zhiyu, Zhao, Yanxin, Li, Xin, Wang, Wei, Lu, Dongwei, and Ma, Jun

Subjects

*WATER purification, *CATALYSIS, *CHARGE exchange, *METAL-organic frameworks, *CATALYTIC activity, *COMPOSITE membranes (Chemistry), *ELECTROSYNTHESIS

Abstract

Precise adjustment of the pore size, damage repair, and efficient cleaning is all challenges for the wider application of inorganic membranes. This study reports a simple strategy of combining dry‐wet spinning and electrosynthesis to fabricate stainless‐steel metal–organic framework composite membranes characterized by customizable pore sizes, targeted reparability, and high catalytic activity for membrane cleaning. The membrane pore size can be precisely customized in the range of 14–212 nm at nanoscale, and damaged membranes can be repaired by targeted treatment in 120 s. In addition, advanced oxidation processes can be used to quickly clean the membrane and achieve 98% flux recovery. The synergistic actions of the membrane matrix and the selective layer increase the adsorption energy of active sites to oxidant, shorten the electron transfer cycle, and enhance the overall catalytic performance. This study can provide a new direction for the development of advanced membranes for water purification and high‐efficiency membrane cleaning methods. [ABSTRACT FROM AUTHOR]

Published

2023

232. Effects of microplastics and nitrogen deposition on soil multifunctionality, particularly C and N cycling.

Author

Zhang, Shuwu, Pei, Lei, Zhao, Yanxin, Shan, Jun, Zheng, Xuebo, Xu, Guangjian, Sun, Yuhuan, and Wang, Fayuan

Subjects

*MICROPLASTICS, *NITROGEN in soils, *POLYLACTIC acid, *BACTERIAL diversity, *DENITRIFICATION, *SOILS

Abstract

Both nitrogen deposition (ND) and microplastics (MPs) pose global change challenges. The effects of MPs co-existing with ND on ecosystem functions are still largely unknown. Herein, we conducted a 10-month soil incubation experiment to explore the effects of polyethylene (PE) and polylactic acid (PLA) MPs on soil multifunctionality under different ND scenarios. We found that the interactions between ND and MPs affected soil multifucntionality. FAPROTAX function prediction indicated that both ND and MPs affected C and N cycling. ND increased some C-cycling processes, such as cellulolysis, ligninolysis, and plastic degradation. MPs also showed stimulating effects on these processes, particularly in the soil with ND. ND significantly decreased the abundance of functional genes NifH , amoA , and NirK , leading to inhibited N-fixation, nitrification, and denitrification. The addition of MPs also modified N-cycling processes: 0.1% PE enriched the bacterial groups for nitrate reduction, nitrate respiration, nitrite respiration, and nitrate ammonification, and 1% PLA MPs enriched N-fixation bacteria at all ND levels. We found that ND caused lower soil pH but higher soil N, decreased bacterial diversity and richness, and changed the composition and activity of functional bacteria, which explains why ND changed soil functions and regulated the impact of MPs. [Display omitted] • Combined effects of MPs and ND on soil multifunctionality were first explored. • Both MPs and ND changed soil bacterial communities and their functions. • Both MPs and ND modified soil multifunctionality, particularly C and N cycling. • The effects of MPs varied with the type and dose of MPs and the ND levels. • ND enriched the functional bacteria for plastic degradation. [ABSTRACT FROM AUTHOR]

Published

2023

233. ORF355 confers enhanced salinity stress adaptability to S‐type cytoplasmic male sterility maize by modulating the mitochondrial metabolic homeostasis.

Author

Xiao, Senlin, Song, Wei, Xing, Jinfeng, Su, Aiguo, Zhao, Yanxin, Li, Chunhui, Shi, Zi, Li, Zhiyong, Wang, Shuai, Zhang, Ruyang, Pei, Yuanrong, Chen, Huabang, and Zhao, Jiuran

Subjects

*CYTOPLASMIC male sterility, *MALE sterility in plants, *AMINO acid metabolism, *HOMEOSTASIS, *CORN, *SALINITY, *REACTIVE oxygen species, *EFFECT of stress on animals

Abstract

Moderate stimuli in mitochondria improve wide‐ranging stress adaptability in animals, but whether mitochondria play similar roles in plants is largely unknown. Here, we report the enhanced stress adaptability of S‐type cytoplasmic male sterility (CMS‐S) maize and its association with mild expression of sterilizing gene ORF355. A CMS‐S maize line exhibited superior growth potential and higher yield than those of the near‐isogenic N‐type line in saline fields. Moderate expression of ORF355 induced the accumulation of reactive oxygen species and activated the cellular antioxidative defense system. This adaptive response was mediated by elevation of the nicotinamide adenine dinucleotide concentration and associated metabolic homeostasis. Metabolome analysis revealed broad metabolic changes in CMS‐S lines, even in the absence of salinity stress. Metabolic products associated with amino acid metabolism and galactose metabolism were substantially changed, which underpinned the alteration of the antioxidative defense system in CMS‐S plants. The results reveal the ORF355‐mediated superior stress adaptability in CMS‐S maize and might provide an important route to developing salt‐tolerant maize varieties. [ABSTRACT FROM AUTHOR]

Published

2023

234. Yrast Band in 122I and Band Termination.

Author

Liu Gongye, Li Li, Li Xianfeng, Ma Yingjun, Zhao Yanxin, Yang Dong, Li Congbo, Ma Keyan, Yu Deyang, Yang Yanji, Lu Jingbin, Zhu Lihua, Wu Xiaoguang, He Chuangye, Zheng Yun, Wang Lielin, Hao Xin, and Li Guangsheng

Published

2012

235. Modelling water quality and quantity with the influence of inter-basin water diversion projects and cascade reservoirs in the Middle-lower Hanjiang River.

Author

Wang, Yonggui, Zhang, Wanshun, Zhao, Yanxin, Peng, Hong, and Shi, Yingyuan

Subjects

*WATER quality, *RESERVOIRS, *WATER diversion, *SPATIO-temporal variation, *HYDRODYNAMICS

Abstract

The effects of inter-basin water diversion projects and cascade reservoirs are typically complex and challenging, as the uncertain temporal-spatial variation of both water quality and quantity. The purpose of this paper is to propose a coupled 1D hydrodynamic model with water-quality model to analyze the effects of current and future inter-basin water diversion projects, i.e., South-to-North Water Diversion Project (SNWD) and Yangtze-Hanjiang Water Diversion Project (YHWD), and cascade reservoirs (CRS) on water quantity and quality in the middle-lower Hanjiang River. Considering water use and pollution contribution, the middle-lower Hanjaing River basin is generalized and divided into 18 land use units with tributaries, reservoirs and water exchanges. Each unit is considered with the processes of lateral inflow, point and non-point pollution loads, irrigation return flow, and stream-aquifer exchanges in the model. The long-term time series from 1956 to 1998 of water quality and quantity with four engineering scenarios is collected. The validation of results shows that the relative errors between the simulated and observed values at certain control sections are within 5% for water levels and 20% for water quality. The water level will be decreased by 0.38–0.65 m (decreasing rate 0.44–2.68%), the annual runoff will be significantly decreased over 4 billion m 3 and the water quality will be changed after the SNWD. As a compensation project, the YHWD partly offsets the negative effects of the SNWD in water flow rate, but at the same time it rises the water level and reduces the flow velocity. This, together with the effect of cascade reservoirs, leads to water quality concentration increasing and deteriorating to Grade IV of the Chinese Surface Water Quality Criteria. The water resource reduction and water quality problems in the Middle-lower Hanjiang River require attention after these projects. [ABSTRACT FROM AUTHOR]

Published

2016

236. Electrified ceramic membrane actuates non-radical mediated peroxymonosulfate activation for highly efficient water decontamination.

Author

Zhao, Yumeng, Sun, Meng, Zhao, Yanxin, Wang, Li, Lu, Dongwei, and Ma, Jun

Subjects

*PEROXYMONOSULFATE, *CERAMICS, *WATER efficiency, *DECONTAMINATION (From gases, chemicals, etc.), *CHARGE exchange, *MEMBRANE separation, *WATER filtration, *FILTERS & filtration

Abstract

• A Janus electrified ceramic membrane (ECM) with dual electrodes was fabricated. • ECM activated peroxymonosulfate by singlet oxygenation and electron transfer. • Peroxymonosulfate/ECM filtration showed high-efficiency water decontamination. • Janus ECM surpassed single-sided ECM at energy efficiency and contaminants removal. Electrified ceramic membranes (ECMs) achieve high water decontamination efficiency mainly through implementing in situ radical-mediated oxidation in membrane filtration, whereas ECMs leveraging non-radical pathways are rarely explored. Herein, we demonstrated a Janus ECM realizing ultra-efficient micropollutant (MP) removal via electro-activating peroxymonosulfate (PMS) in a fast, flow-through single-pass electro-filtration. The Janus ECM features two separate palladium (Pd) functionalized electrocatalytic reaction zones engineered on its two sides. We confirmed that the PMS/electro-filtration system induced non-radical pathways for MP degradation, including singlet oxygenation and mediating direct electron transfer (DET) from MP to PMS. Under the design of the ECM featuring dual electrocatalytic reaction zones in the ceramic membrane intrapores, the Janus ECM showed over one-fold increase in micropollutant removal rate as 94.5% and lower electric energy consumption as 1.78 Wh g−1 MP in the PMS electro-activation process, as compared with the conventional ECM assembly implementing only half-cell reaction. This finding manifested the Janus ECM configuration advantage for maximizing the PMS electro-activation efficiency via singlet oxygenation intensification and direct usage of cathode for DET mediation. The Janus ECM boosted the PMS electro-activation and water decontamination efficiency by enhancing the convective mass transfer and the spatial confinement effect. Our work demonstrated a high-efficiency PMS electro-activation method based on electro-filtration and maximized the non-radical mediated PMS oxidation for MP removal, expanding the ECM filtration strategies for water decontamination. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

237. Comparative analysis of mitochondrial genomes of maize CMS-S subtypes provides new insights into male sterility stability.

Author

Xiao, Senlin, Xing, Jingfeng, Nie, Tiange, Su, Aiguo, Zhang, Ruyang, Zhao, Yanxin, Song, Wei, and Zhao, Jiuran

Subjects

*MALE sterility in plants, *MITOCHONDRIAL DNA, *CYTOPLASMIC male sterility, *AMINO acid sequence, *MITOCHONDRIA, *CORN, *GENOMES, *MITOCHONDRIAL DNA abnormalities

Abstract

Background: Cytoplasmic male sterility (CMS) is a trait of economic importance in the production of hybrid seeds. In CMS-S maize, exerted anthers appear frequently in florets of field-grown female populations where only complete male-sterile plants were expected. It has been reported that these reversions are associated with the loss of sterility-conferring regions or other rearrangements in the mitochondrial genome. However, the relationship between mitochondrial function and sterility stability is largely unknown. Results: In this study, we determined the ratio of plants carrying exerted anthers in the population of two CMS-S subtypes. The subtype with a high ratio of exerted anthers was designated as CMS-Sa, and the other with low ratio was designated as CMS-Sb. Through next-generation sequencing, we assembled and compared mitochondrial genomes of two CMS-S subtypes. Phylogenetic analyses revealed strong similarities between the two mitochondrial genomes. The sterility-associated regions, S plasmids, and terminal inverted repeats (TIRs) were intact in both genomes. The two subtypes maintained high transcript levels of the sterility gene orf355 in anther tissue. Most of the functional genes/proteins were identical at the nucleotide sequence and amino acid sequence levels in the two subtypes, except for NADH dehydrogenase subunit 1 (nad1). In the mitochondrial genome of CMS-Sb, a 3.3-kilobase sequence containing nad1-exon1 was absent from the second copy of the 17-kb repeat region. Consequently, we detected two copies of nad1-exon1 in CMS-Sa, but only one copy in CMS-Sb. During pollen development, nad1 transcription and mitochondrial biogenesis were induced in anthers of CMS-Sa, but not in those of CMS-Sb. We suggest that the impaired mitochondrial function in the anthers of CMS-Sb is associated with its more stable sterility. Conclusions: Comprehensive analyses revealed diversity in terms of the copy number of the mitochondrial gene nad1-exon1 between two subtypes of CMS-S maize. This difference in copy number affected the transcript levels of nad1 and mitochondrial biogenesis in anther tissue, and affected the reversion rate of CMS-S maize. The results of this study suggest the involvement of mitochondrial robustness in modulation of sterility stability in CMS-S maize. [ABSTRACT FROM AUTHOR]

Published

2022

238. A newly characterized allele of ZmR1 increases anthocyanin content in whole maize plant and the regulation mechanism of different ZmR1 alleles.

Author

Luo, Meijie, Lu, Baishan, Shi, Yaxing, Zhao, Yanxin, Wei, Zhiyuan, Zhang, Chunyuan, Wang, Yuandong, Liu, Hui, Shi, Yamin, Yang, Jinxiao, Song, Wei, Lu, Xiaoduo, Fan, Yanli, Xu, Li, Wang, Ronghuan, and Zhao, Jiuran

Subjects

*ANTHOCYANINS, *PLANTING, *ALLELES, *GENE expression, *GENE families, *FLAVONOIDS

Abstract

Key message: The novel ZmR1CQ01 allele for maize anthocyanin synthesis was identified, and the biological function and regulatory molecular mechanisms of three ZmR1 alleles were unveiled. Anthocyanins in maize are valuable to human health. The R1 gene family is one of the important regulatory genes for the tissue-specific distribution of anthocyanins. R1 gene allelic variations are abundant and its biological function and regulatory molecular mechanisms are not fully understood. By exploiting genetic mapping and transgenic verification, we found that anthocyanin pigmentation in maize leaf midrib was controlled by ZmR1 on chromosome 10. Allelism test of maize zmr1 EMS mutants confirmed that anthocyanin pigmentation in leaf sheath was also controlled by ZmR1. ZmR1CQ01 was a novel ZmR1 allelic variation obtained from purple maize. Its overexpression caused the whole maize plant to turn purple. ZmR1B73 allele confers anthocyanin accumulation in near ground leaf sheath rather than in leaf midribs. The mRNA expression level of ZmR1B73 was low in leaf midribs, resulting in no anthocyanin accumulation. ZmR1B73 overexpression promoted anthocyanin accumulation in leaf midribs. Loss of exon 5 resulted in ZmR1ZN3 allele function destruction and no anthocyanin accumulation in leaf midrib and leaf sheath. DNA affinity purification sequencing revealed 1010 genes targeted by ZmR1CQ01, including the bz2 in anthocyanin synthesis pathway. RNA-seq analysis showed 55 genes targeted by ZmR1CQ01 changed the expression level significantly, and the expression of genes encoding key enzymes in flavonoid and phenylpropanoid biosynthesis pathways were significantly up-regulated. ZmR1 functional molecular marker was developed. These results revealed the effects of transcriptional regulation and sequence variation on ZmR1 function and identified the genes targeted by ZmR1CQ01 at the genome-wide level. [ABSTRACT FROM AUTHOR]

Published

2022

239. Phenotype identification and genome-wide association study of ear-internode vascular bundles in maize (<italic>Zea mays</italic>)

Author

Zhao, Huan, Zhang, Ying, Lu, Xianju, Zhao, Yanxin, Wang, Chuanyu, Wen, Weiliang, Duan, Minxiao, Zhao, Shuaihao, Wang, Jinglu, and Guo, Xinyu

Subjects

*X-ray computed microtomography, *GENOME-wide association studies, *PROTEIN transport, *PHENOTYPIC plasticity, *PHENOTYPES

Abstract

The vascular bundle in the ear-internode of maize is a key conduit for transporting photosynthetic materials between “source” and “sink”, making it critically important to examine its micro-phenotypes and genetic architecture to identify advantageous characteristics and cultivate high-yielding and high-quality varieties. Unfortunately, the limited observation methods and scope of study precludes any comprehensive and systematic investigations into the microscopic phenotypes and genetic mechanisms of vascular bundle in maize ear-internode. In this study, 47 phenotypic traits were extracted in 495 maize inbred lines using micro computed tomography (Micro-CT) scanning technology and a deep learning-based phenotype acquisition method for stem vascular bundle, which included stem slice-related, epidermis zone-related, periphery zone-related, inner zone-related and vascular bundles-related traits. Phenotypic analysis indicated that there was extensive phenotypic variation of vascular bundle traits in ear-internode, especially that in the inner zone. Of these, 30 phenotypic traits with heritability greater than 0.70 were conducted for GWAS, and a total of 4,225 significant SNPs and 416 candidate genes with detailed functional annotations were identified. Furthermore, 20 genes were highly expressed in stem-related tissues, especially in maize internodes. Functional analysis of candidate genes indicated that the pathways obtained for candidate genes of different trait groups were distinct, mainly involved in vitamin synthesis and metabolism, transport of substances, carbohydrate derivative catabolic process, protein transport and localization, and anatomical structure development. The results of this study will help to further understand the phenotypic traits of stem vascular bundles and provide a reference for revealing the genetic mechanism of maize ear-internode vascular bundles. [ABSTRACT FROM AUTHOR]

Published

2024

240. Spatial-temporal distribution and evolutionary characteristics of water environment sudden pollution incidents in China from 2006 to 2018.

Author

Xu, Jing, Xu, Min, Zhao, Yanxin, Wang, Shaofei, Tao, Minghui, and Wang, Yonggui

Published

2021

241. Adiponectin Levels Are Associated with White Matter Lesions (WMLs) and Cognitive Impairment.

Author

Quan, Hui, Yu, Tongya, Lin, Yingying, Pan, Jie, Mao, Bingjie, Wang, Xuan, Xie, Junchao, Liu, Xueyuan, and Zhao, Yanxin

Subjects

*COGNITION disorder risk factors, *COGNITION, *MAGNETIC resonance imaging, *WHITE matter (Nerve tissue), *PSYCHOLOGICAL tests, *ADIPONECTIN, *ENZYME-linked immunosorbent assay

Abstract

Background and Objective. White matter lesions (WMLs) are imaging changes characterized by hyperintensities on T2-weighted or FLAIR images, which are closely related to the decline of cognitive function. However, the etiology and pathogenesis of WMLs remain undetermined. The aim of this study was to analyze the relationship between adiponectin levels and cognitive decline in persons with or without white matter lesions. Method. In the present study, 126 patients, 90 cases in the WML group and 36 cases in the control group, were analyzed to explore the relationship between adiponectin and WMLs. All patients underwent an MRI scan to assess whether white matter lesions happened. And the serum levels of adiponectin were detected by ELISA. Results. In this study, according to Fazekas criteria, WMLs were divided into different severity groups. With the increase of WML score, the level of adiponectin decreased, and linear correlation analysis shows that adiponectin is negatively correlated with the severity of white matter lesions (p < 0.001). And adiponectin level was significantly positively correlated with MoCA score (p < 0.05). Moreover, adiponectin in the WMLs combined with the cognitive impairment group was significantly reduced (p < 0.01). Conclusion. The level of adiponectin is independently associated with WMLs and cognitive function, which suggests that adiponectin may be a protective factor for WMLs and cognitive function. [ABSTRACT FROM AUTHOR]

Published

2022

242. Neurotransmitter-stimulated neuron-derived sEVs have opposite effects on amyloid β-induced neuronal damage.

Author

Dou, Yunxiao, Xie, Junchao, Tan, Yan, Zhang, Min, Zhao, Yanxin, and Liu, Xueyuan

Subjects

*GABAERGIC neurons, *EXTRACELLULAR vesicles, *AMYLOID, *CELL anatomy, *GLUTAMATE receptors, *CELL death, *ALZHEIMER'S disease

Abstract

The ratio of excitatory to inhibitory neurotransmitters is essential for maintaining the firing patterns of neural networks, and is strictly regulated within individual neurons and brain regions. Excitatory to inhibitory (E/I) imbalance has been shown to participate in the progression of neurodegenerative diseases, including Alzheimer's disease (AD). Glutamate excitotoxicity and GABAergic neuron dysfunction appear to be key components of the neuronal cell death that takes place in AD. Since extracellular vesicles (EVs) are now explored as an important vehicle in transmitting signals between cells, we hypothesized that the function of neuron-derived small EVs (sEVs) might be regulated by the status of neurotransmitter balance and that sEVs might affect amyloid β (Aβ) toxicity on neurons. This study aimed to reveal the effects of sEVs from unbalanced neurotransmitter-stimulated neurons on Aβ-induced toxicity. We demonstrated the opposite effects of the two groups of sEVs isolated from neurons stimulated by glutamate or GABA on Aβ toxicity in vivo and in vitro. The sEVs released from GABA-treated neurons alleviated Aβ-induced damage, while those released from glutamate-treated neurons aggravated Aβ toxicity. Furthermore, we compared the microRNA (miRNA) composition of sEVs isolated from glutamate/GABA/PBS-treated neurons. Our results showed that glutamate and GABA oppositely regulated miR-132 levels in sEVs, resulting in the opposite destiny of recipient cells challenged with Aβ. Our results indicated that manipulating the function of sEVs by different neurotransmitters may reveal the mechanisms underlying the pathogenesis of AD and provide a promising strategy for AD treatment. [ABSTRACT FROM AUTHOR]

Published

2021

243. Molecular dissection of maize seedling salt tolerance using a genome‐wide association analysis method.

Author

Luo, Meijie, Zhang, Yunxia, Li, Jingna, Zhang, Panpan, Chen, Kuan, Song, Wei, Wang, Xiaqing, Yang, Jinxiao, Lu, Xiaoduo, Lu, Baishan, Zhao, Yanxin, and Zhao, Jiuran

Subjects

*GENOME-wide association studies, *LOCUS (Genetics), *GENETIC variation, *SINGLE nucleotide polymorphisms, *PHENOTYPIC plasticity, *CORN, *CHLORIDE channels

Abstract

Summary: Salt stress is a major devastating abiotic factor that affects the yield and quality of maize. However, knowledge of the molecular mechanisms of the responses to salt stress in maize is limited. To elucidate the genetic basis of salt tolerance traits, a genome‐wide association study was performed on 348 maize inbred lines under normal and salt stress conditions using 557 894 single nucleotide polymorphisms (SNPs). The phenotypic data for 27 traits revealed coefficients of variation of >25%. In total, 149 significant SNPs explaining 6.6%–11.2% of the phenotypic variation for each SNP were identified. Of the 104 identified quantitative trait loci (QTLs), 83 were related to salt tolerance and 21 to normal traits. Additionally, 13 QTLs were associated with two to five traits. Eleven and six QTLs controlling salt tolerance traits and normal root growth, respectively, co‐localized with QTL intervals reported previously. Based on functional annotations, 13 candidate genes were predicted. Expression levels analysis of 12 candidate genes revealed that they were all responsive to salt stress. The CRISPR/Cas9 technology targeting three sites was applied in maize, and its editing efficiency reached 70%. By comparing the biomass of three CRISPR/Cas9 mutants of ZmCLCg and one zmpmp3 EMS mutant with their wild‐type plants under salt stress, the salt tolerance function of candidate genes ZmCLCg and ZmPMP3 were confirmed. Chloride content analysis revealed that ZmCLCg regulated chloride transport under sodium chloride stress. These results help to explain genetic variations in salt tolerance and provide novel loci for generating salt‐tolerant maize lines. [ABSTRACT FROM AUTHOR]

Published

2021

244. Natural variations in the P-type ATPase heavy metal transporter gene ZmHMA3 control cadmium accumulation in maize grains.

Author

Tang, Bin, Luo, Meijie, Zhang, Yunxia, Guo, Huanle, Li, Jingna, Song, Wei, Zhang, Ruyang, Feng, Zhen, Kong, Mengsi, Li, Han, Cao, Zhongyang, Lu, Xiaoduo, Li, Delin, Zhang, Jianhua, Wang, Ronghuan, Wang, Yuandong, Chen, Zhihui, Zhao, Yanxin, and Zhao, Jiuran

Subjects

*GENOME-wide association studies, *HEAVY metals, *CORN breeding, *CORN, *AMINO acid sequence, *ADENOSINE triphosphatase, *CADMIUM

Abstract

Cadmium (Cd) accumulation in maize grains is detrimental to human health. Developing maize varieties with low Cd content is important for safe consumption of maize grains. However, the key genes controlling maize grain Cd accumulation have not been cloned. Here, we identified one major locus for maize grain Cd accumulation (qCd1) using a genome-wide association study (GWAS) and bulked segregant RNA-seq analysis with a biparental segregating population of Jing724 (low-Cd line) and Mo17 (high-Cd line). The candidate gene ZmHMA3 was identified by fine mapping and encodes a tonoplast-localized heavy metal P-type ATPase transporter. An ethyl methane sulfonate mutant analysis and an allelism test confirmed that ZmHMA3 influences maize grain Cd accumulation. A transposon in intron 1 of ZmHMA3 is responsible for the abnormal amino acid sequence in Mo17. Based on the natural sequence variations in the ZmHMA3 gene of diverse maize lines, four PCR-based molecular markers were developed, and these were successfully used to distinguish five haplotypes with different grain Cd contents in the GWAS panel and to predict grain Cd contents of widely used maize inbred lines and hybrids. These molecular markers can be used to breed elite maize varieties with low grain Cd contents. [ABSTRACT FROM AUTHOR]

Published

2021

245. Genome-wide identification, characterization, and expression analysis of the monovalent cation-proton antiporter superfamily in maize, and functional analysis of its role in salt tolerance.

Author

Kong, Mengsi, Luo, Meijie, Li, Jingna, Feng, Zhen, Zhang, Yunxia, Song, Wei, Zhang, Ruyang, Wang, Ronghuan, Wang, Yuandong, Zhao, Jiuran, Tao, Yongsheng, and Zhao, Yanxin

Subjects

*FUNCTIONAL analysis, *CORN, *CORN breeding, *MONOVALENT cations, *SALT, *GENE targeting

Abstract

Na+, K+ and pH homeostasis are important for plant life and they are controlled by the monovalent cation proton antiporter (CPA) superfamily. The roles of ZmCPAs in salt tolerance are not fully elucidated. In this study, we identified 35 ZmCPAs comprising 13 Na+/H+ exchangers (ZmNHXs), 16 cation/H+ exchanger (ZmCHXs), and 6 K+ efflux antiporters (ZmKEAs). All ZmCPAs have transmembrane domains and most of them were localized to plasma membrane or tonoplast. ZmCHXs were specifically highly expressed in anthers, while ZmNHXs and ZmKEAs showed high expression in various tissues. ZmNHX5 and ZmKEA2 were up-regulated in maize seedlings under both NaCl and KCl stresses. Yeast complementation experiments revealed the roles of ZmNHX5 , ZmKEA2 in NaCl tolerance. Analysis of the maize mutants further validated the salt tolerance functions of ZmNHX5 and ZmKEA2. Our study highlights comprehensive information of ZmCPAs and provides new gene targets for salt tolerance maize breeding. • We are the first to genome-widely identify monovalent cation-proton antiporter (CPA) superfamily in maize. • The 35 CPA genes include 13 Na+/H+ exchangers (ZmNHXs), 16 cation/H+ exchanger (ZmCHXs) and 6 K+ efflux antiporters (ZmKEAs). • Yeast complementation experiments and maize mutant analysis validated the salt tolerance functions of ZmNHX5 and ZmKEA2. [ABSTRACT FROM AUTHOR]

Published

2021

246. Two-dimensional elasticity solution for free vibration of simple-supported beams with arbitrarily and continuously varying thickness.

Author

Li, Zhiyuan, Xu, Yepeng, Huang, Dan, and Zhao, Yanxin

Subjects

*FREE vibration, *TIMOSHENKO beam theory, *BOUNDARY value problems, *FOURIER series, *ANALYTICAL solutions

Abstract

This paper studies the analytical solution for the vibration of simply supported beams with arbitrarily and continuously varying thickness based on the two-dimensional elasticity theory. The general expression of stress function, which exactly satisfies the governing differential equations and the boundary conditions, is derived. Frequency equation governing the free vibration of beams with variable thickness can be obtained by using the Fourier sinusoidal series expansion on the upper and lower surfaces of the beam. The present solution method ensures a rapid convergence and meets the need of high accuracy in modern precise instruments. Several examples are provided to show the application of the proposed solution method which can be used to assess the validity of various approximate solutions and numerical methods for the beams with arbitrarily and continuously varying thickness. [ABSTRACT FROM AUTHOR]

Published

2020

247. Resveratrol Abrogates Hypoxia-Induced Up-Regulation of Exosomal Amyloid-β Partially by Inhibiting CD147.

Author

Xie, Junchao, Li, Xiaoyan, Zhou, Yuchen, Wu, Jiayan, Tan, Yan, Ma, Xiaoye, Zhao, Yichen, Liu, Xueyuan, and Zhao, Yanxin

Subjects

*AMYLOID beta-protein precursor, *EXOSOMES, *RESVERATROL, *ALZHEIMER'S disease

Abstract

Hypoxia promotes both total extracellular and exosomal amyloid-β (Aβ) production and aggravates Alzheimer's disease (AD). Resveratrol (RSV) has been proved to be neuroprotective in AD models, and down-regulated the expression of CD147, an additional subunit of γ-secretase. In this study, we aimed to explore the role and mechanisms of RSV in hypoxia-induced upregulation of Aβ, especially exosomal Aβ. SH-SY5Y cells and HEK293 cells overexpressing amyloid precursor protein (APP) as well as C57BL/6 mice were treated with RSV and exposed to hypoxic conditions. The expression of SIRT1 or CD147 was modulated by transfection of specific siRNAs or plasmid. Aβ1-40 and Aβ1-42 levels were determined by ELISA. Hypoxia increased the levels of both Aβ1-40 and Aβ1-42 in the hippocampal lysates and serum-derived exosomes of mice. Hypoxia also increased both Aβ1-40 and Aβ1-42 levels in the total culture medium (CM), cell-derived exosomal lysates, and exosome-free CM of both cell lines. Treatment with RSV abrogated these changes in Aβ expression, inhibited the hypoxia-induced down-regulation of SIRT1 and up-regulation of CD147. Knockdown of SIRT1 promote total Aβ level but has no effect on exosomal Aβs expression. Knockdown of CD147 inhibits both total and exosomal Aβs expression. Furthermore, overexpressing CD147 in cells exposed to hypoxia facilitated the production of Aβ1-40 and Aβ1-42, while application of RSV reduced the CD147 expression as well as Aβ levels in both exosomes and exosome-free CM. These results suggested that RSV abrogated hypoxia-induced up-regulation of total and exosomal Aβ partially by inhibiting CD147. [ABSTRACT FROM AUTHOR]

Published

2019

248. Pollution source identification and abatement for water quality sections in Huangshui River basin, China.

Author

Wang, Yonggui, Ding, Xuelian, Chen, Yan, Zeng, Weihua, and Zhao, Yanxin

Subjects

*WATER quality, *WATERSHEDS, *SEWAGE disposal plants, *POLLUTION, *SEWAGE irrigation, *WATERSHED management

Abstract

Accurately obtaining the pollution sources and their contribution rates is the basis for refining watershed management. Although many source analysis methods have been proposed, a systematic framework for watershed management is still lacking, including the complete process of pollution source identification to control. We proposed a framework for identification and abatement of pollutants and applied in the Huangshui River Basin. A newer contaminant flux variation method based on a one-dimensional river water quality model was used to calculate the contribution of pollutants. The contributions of various factors to the over-standard parameters of water quality sections at different spatial and temporal scales were calculated. Based on the calculation results, corresponding pollution abatement projects were developed, and the effectiveness of the projects was evaluated through scenario simulation. Our results showed that the large scale livestock and poultry farms and sewage treatment plants were the largest sources of total nitrogen (TP) in Xiaoxia bridge section, with contribution rates of 46.02% and 36.74%, respectively. Additionally, the largest contribution sources of ammonia nitrogen (NH 3 –N) were sewage treatment plants (36.17%) and industrial sewage (26.33%). Three towns that contributed the most to TP were Lejiawan Town (14.4%), Ganhetan Town (7.3%) and Handong Hui Nationality town (6.6%), while NH 3 –N mainly from the Lejiawan Town (15.9%), Xinghai Road Sub-district (12.4%) and Mafang Sub-district (9.5%). Further analysis found that point sources in these towns were the main contributor to TP and NH 3 –N. Accordingly, we developed abatement projects for point sources. Scenario simulation indicated that the TP and NH 3 –N could be significantly improved by closing down and upgrading relevant sewage treatment plants and building facilities for large scale livestock and poultry farms. The framework adopted in this study can accurately identify pollution sources and evaluate the effectiveness of pollution abatement projects, which is conducive to the refined water environment management. • A framework of pollution source identification and abatement is proposed. • Contaminant flux variation method was put forward for quantifying contribution. • Water quality scenarios models provide pollution management strategies. • Point source contributes the biggest for ammonia nitrogen and total phosphorus. • Impact from point sources on water quality was greater during the dry season. [ABSTRACT FROM AUTHOR]

Published

2023

249. Activation of TRPV4 induces intraneuronal tau hyperphosphorylation via cholesterol accumulation.

Author

Du, Kangshuai, Dou, Yunxiao, Chen, Kui, and Zhao, Yanxin

Subjects

*TRPV cation channels, *TAU proteins, *PHOSPHORYLATION, *CHOLESTEROL, *ALZHEIMER'S disease

Abstract

Transient receptor potential vanilloid 4 (TRPV4) is a non-selective cation channel, whose aberrant function in neurons has been reported to participate in the progression of brain disorders, including Alzheimer's disease (AD). However, the influence of TRPV4 activation on tau hyperphosphorylation in AD has not yet been elucidated. Since disturbed brain cholesterol homeostasis is considered to be related to excessive tau phosphorylation, this study aimed to explore whether dysregulation of TRPV4 affects tau phosphorylation and whether it involves cholesterol unbalance. Our data indicated that TRPV4 activation increased tau phosphorylation in the cortex and hippocampus of P301S tauopathy mouse model and aggravated its cognitive decline. In addition, we detected that TRPV4 activation upregulated cholesterol levels in primary neurons, and the elevation of cholesterol promoted hyperphosphorylation of tau. TRPV4 knockdown improved tau hyperphosphorylation by reducing intracellular cholesterol accumulation. Our results suggest that activation of TRPV4 may take part in the pathological mechanism of AD by promoting intraneuronal tau hyperphosphorylation in a cholesterol-dependent manner. • TRPV4 activation aggravates cognitive decline in P301S tauopathy mouse model. • TRPV4 activation induces tau hyperphosphorylation in vivo and in vitro. • TRPV4 knockdown could reduce intraneuronal cholesterol accumulation. [ABSTRACT FROM AUTHOR]

Published

2023

250. Molecular mapping of quantitative trait loci for three kernel-related traits in maize using a double haploid population.

Author

Shi, Zi, Song, Wei, Xing, Jinfeng, Duan, Minxiao, Wang, Fengge, Tian, Hongli, Xu, Liwen, Wang, Shuaishuai, Su, Aiguo, Li, Chunhui, Zhang, Ruyang, Zhao, Yanxin, Luo, Meijie, Wang, Jidong, and Zhao, Jiuran

Subjects

*HAPLOIDY, *KERNEL functions, *GRAIN yields, *SINGLE nucleotide polymorphisms, *PHENOTYPES

Abstract

Kernel size and kernel weight are important factors possibly involved in the determination of grain yield in maize, so identifying the genetic basis of kernel-related traits provides insights into the breeding of high-yield maize varieties. Kernel length (KL), kernel width (KW) and hundred kernel weight (HKW) were evaluated in three various planting conditions for the 240 field-grown double haploid (DH) lines derived from the single-cross hybrid Xianyu335. Variations in KL, KW and HKW were observed among DH lines, and all three traits showed a broad sense heritability of 76%. A total of 964 single nucleotide polymorphisms (SNPs) from the MaizeSNP3072 chip was utilised to create a high-density genetic map of 1546.4 cM and to identify quantitative trait loci (QTLs). Using composite interval mapping, a total of five, seven and five QTLs have been mapped for KL, KW and HKW, respectively. qkl1-2 and qkl4-1 explained 17.8% and 14.2% of the phenotypic variation in KL, respectively, and the other three QTLs contributed 3.2-4.0%. The phenotypic variation explained (PVE) of seven QTLs responsible for KW ranged from 3.3 to 9.5%. Three QTLs for HKW, qhkw1, qhkw5 and qhkw10 each explained more than 10% of the phenotypic variation, and qhkw4 and qhkw9 accounted for 3.0% and 6.0%, respectively. Due to their detection in multiple planting environments, the loci mapped here appear to be potential targets for the improvement of maize grain yield. [ABSTRACT FROM AUTHOR]

Published

2017