Your search keyword '"Pinghua Li"' showing total 27 results

1. Design and optimization of a runway resonator sensor based on BP-NSGA II for anaemic disease.

Author

Luoxuan, Zhang, Pinghua, Li, Jinghao, Liu, and Xuye, Zhuang

Subjects

*OPTIMIZATION algorithms, *QUALITY factor, *RESONATORS, *DETECTORS, *STRUCTURAL design

Abstract

Optical resonators are particularly suitable for anaemia state detection due to small sample size, real-time detection and low power consumption. However, the quality factor and sensitivity of resonant cavity sensors are mutually constrained, so the single objective optimization algorithms proposed so far can only achieve a single optimization of sensitivity or quality factor, which limits chip performance. This article presents a multi-objective optimization design of the runway ring resonant cavity sensor based on the BP-NSGA II algorithm, which has achieved good performance improvement. The simultaneous incorporation of quality factor and sensitivity provides access to key structural design parameters to overcome the limitations of sensitivity and quality factor constraints on each other, thereby improving sensor performance. The results show that the optimized structure has a sensitivity of 439 nm/RIU, a quality factor of 938, a relative error of 1.37% and 3.9% for the sensitivity and quality factor, respectively, a linearity of 0.00004636% for the sensitivity, and a training time of 3 min. The method has the advantages of small errors and short learning time. A new optimization method is provided for the design of the resonant cavity of a runway ring. [ABSTRACT FROM AUTHOR]

Published

2024

2. The pH stability of foot-and-mouth disease virus.

Author

Hong Yuan, Pinghua Li, Xueqing Ma, Zengjun Lu, Pu Sun, Xingwen Bai, Jing Zhang, Huifang Bao, Yimei Cao, Dong Li, Yuanfang Fu, Yingli Chen, Qifeng Bai, Jie Zhang, and Zaixin Liu

Subjects

*HYDROGEN-ion concentration, *FOOT & mouth disease vaccines, *VIRAL replication, *CAPSIDS, *VACCINES

Abstract

This review summarized the molecular determinants of the acid stability of FMDV in order to explore the uncoating mechanism of FMDV and improve the acid stability of vaccines. Background: The foot-and-mouth disease virus (FMDV) capsid is highly acid labile and tends to dissociate into pentameric subunits at acidic condition to release viral RNA for initiating virus replication. However, the acid stability of virus capsid is greatly required for the maintenance of intact virion during the process of virus culture and vaccine production. The conflict between the acid lability in vivo and acid stability in vitro of FMDV capsid promotes the selection of a series of amino acid substitutions which can confer resistance to acid-induced FMDV inactivation. In order to explore the uncoating activity of FMDV and enhance the acid stability of vaccines, we summarized the available works about the pH stability of FMDV. Main body of the abstract: In this review, we analyzed the intrinsic reasons for the acid instability of FMDV from the structural and functional aspects. We also listed all substitutions obtained by different research methods and showed them in the partial capsid of FMDV. We found that a quadrangle region in the viral capsid was the place where a great many pH-sensitive residues were distributed. As the uncoating event of FMDV is dependent on the pH-sensitive amino acid residues in the capsid, this most pH-sensitive position indicates a potential candidate location for RNA delivery triggered by the acid-induced coat disassociation. Short conclusion: This review provided an overview of the pH stability of FMDV. The study of pH stability of FMDV not only contributes to the exploration of molecule and mechanism information for FMDV uncoating, but also enlightens the development of FMDV vaccines, including the traditionally inactivated vaccines and the new VLP (virus-like particle) vaccines. [ABSTRACT FROM AUTHOR]

Published

2017

3. Expression and Stability of Foreign Epitopes Introduced into 3A Nonstructural Protein of Foot-and-Mouth Disease Virus.

Author

Pinghua Li, Xingwen Bai, Yimei Cao, Chenghao Han, Zengjun Lu, Pu Sun, Hong Yin, and Zaixin Liu

Subjects

*FOOT & mouth disease virus, *PICORNAVIRUS infections, *VETERINARY virology, *IMMUNOGLOBULINS, *RNA viruses, *RECOMBINANT viruses, *IMMUNOCYTOCHEMISTRY

Abstract

Foot-and-mouth disease virus (FMDV) is an aphthovirus that belongs to the Picornaviridae family and causes one of the most important animal diseases worldwide. The capacity of other picornaviruses to express foreign antigens has been extensively reported, however, little is known about FMDV. To explore the potential of FMDV as a viral vector, an 11-aminoacid (aa) HSV epitope and an 8 aa FLAG epitope were introduced into the C-terminal different regions of 3A protein of FMDV full-length infectious cDNA clone. Recombinant viruses expressing the HSV or FLAG epitope were successfully rescued after transfection of both modified constructs. Immunofluorescence assay, Western blot and sequence analysis showed that the recombinant viruses stably maintained the foreign epitopes even after 11 serial passages in BHK-21 cells. The 3A-tagged viruses shared similar plaque phenotypes and replication kinetics to those of the parental virus. In addition, mice experimentally infected with the epitope-tagged viruses could induce tag-specific antibodies. Our results demonstrate that FMDV can be used effectively as a viral vector for the delivery of foreign tags. [ABSTRACT FROM AUTHOR]

Published

2012

4. Evaluation of a genetically modified foot-and-mouth disease virus vaccine candidate generated by reverse genetics.

Author

Pinghua Li, Xingwen Bai, Pu Sun, Dong Li, Zengjun Lu, Yimei Cao, Yuanfang Fu, Huifang Bao, Yingli Chen, Baoxia Xie, and Zaixin Liu

Subjects

*IMMUNIZATION, *HEREDITY

Abstract

Background: Foot-and-mouth disease (FMD) is the most economically important and highly contagious disease of cloven-hoofed animals worldwide. Control of the disease has been mainly based on large-scale vaccinations with whole-virus inactivated vaccines. In recent years, a series of outbreaks of type O FMD occurred in China (including Chinese Taipei, Chinese Hong Kong) posed a tremendous threat to Chinese animal husbandry. Its causative agent, type O FMDV, has evolved into three topotypes (East-South Asia (ME-SA), Southeast Asia (SEA), Cathay (CHY)) in these regions, which represents an important obstacle to disease control. The available FMD vaccine in China shows generally good protection against ME-SA and SEA topotype viruses infection, but affords insufficient protection against some variants of the CHY topotype. Therefore, the choice of a new vaccine strain is of fundamental importance. Results: The present study describes the generation of a full-length infectious cDNA clone of FMDV vaccine strain and a genetically modified virus with some amino acid substitutions in antigenic sites 1, 3, and 4, based on the established infectious clone. The recombinant viruses had similar growth properties to the wild O/HN/CHA/93 virus. All swine immunized with inactivated vaccine prepared from the O/HN/CHA/93 were fully protected from challenge with the viruses of ME-SA and SEA topotypes and partially protected against challenge with the virus of CHY topotype at 28 days post-immunization. In contrast, the swine inoculated with the genetically modified vaccine were completely protected from the infection of viruses of the three topotypes. Conclusions: Some amino acid substitutions in the FMDV vaccine strain genome did not have an effect on the ability of viral replication in vitro. The vaccine prepared from genetically modified FMDV by reverse genetics significantly improved the protective efficacy to the variant of the CHY topotype, compared with the wild O/HN/ CHA/93 virus. Thus, the full-length cDNA clone of FMDV can be a useful tool to develop genetically engineered FMDV vaccine candidates to help control porcinophilic FMD epidemics in China. [ABSTRACT FROM AUTHOR]

Published

2012

5. Setaria viridis and Setaria italica, model genetic systems for the Panicoid grasses.

Author

Pinghua Li and Brutnell, Thomas P.

Subjects

*SETARIA, *PLANT genetics, *BIOMASS energy, *MISCANTHUS, *PANICUM

Abstract

Setaria italica and its wild ancestor Setaria viridis are diploid C4 grasses with small genomes of ∼515 Mb. Both species have attributes that make them attractive as model systems. Setaria italica is a grain crop widely grown in Northern China and India that is closely related to the major food and feed crops maize and sorghum. A large collection of S. italica accessions are available and thus opportunities exist for association mapping and allele mining for novel variants that will have direct application in agriculture. Setaria viridis is the weedy relative of S. italica with many attributes suitable for genetic analyses including a small stature, rapid life cycle, and prolific seed production. Setaria sp. are morphologically similar to most of the Panicoideae grasses, including major biofuel feedstocks, switchgrass (Panicum virgatum) and Miscanthus (Miscanthus giganteus). They are broadly distributed geographically and occupy diverse ecological niches. The cross-compatibility of S. italica and S. viridis also suggests that gene flow is likely between wild and domesticated accessions. In addition to serving as excellent models for C4 photosynthesis, these grasses provide novel opportunities to study abiotic stress tolerance and as models for bioenergy feedstocks. [ABSTRACT FROM PUBLISHER]

Published

2011

6. The developmental dynamics of the maize leaf transcriptome.

Author

Pinghua Li, Ponnala, Lalit, Gandotra, Neeru, Lin Wang, Yaqing Si, Tausta, S. Lori, Kebrom, Tesfamichael H., Provart, Nicholas, Patel, Rohan, Myers, Christopher R., Reidel, Edwin J., Turgeon, Robert, Peng Liu, Qi Sun, Nelson, Timothy, and Brutnell, Thomas P.

Subjects

*GENETIC transcription, *GENES, *FOLIAR diagnosis, *PICTURE-writing, CORN genetics

Abstract

We have analyzed the maize leaf transcriptome using Illumina sequencing. We mapped more than 120 million reads to define gene structure and alternative splicing events and to quantify transcript abundance along a leaf developmental gradient and in mature bundle sheath and mesophyll cells. We detected differential mRNA processing events for most maize genes. We found that 64% and 21% of genes were differentially expressed along the developmental gradient and between bundle sheath and mesophyll cells, respectively. We implemented Gbrowse, an electronic fluorescent pictograph browser, and created a two-cell biochemical pathway viewer to visualize datasets. Cluster analysis of the data revealed a dynamic transcriptome, with transcripts for primary cell wall and basic cellular metabolism at the leaf base transitioning to transcripts for secondary cell wall biosynthesis and C4 photosynthetic development toward the tip. This dataset will serve as the foundation for a systems biology approach to the understanding of photosynthetic development. [ABSTRACT FROM AUTHOR]

Published

2010

7. Exploring plant transcriptomes using ultra high-throughput sequencing.

Author

Lin Wang, Pinghua Li, and Brutnell, Thomas P.

Subjects

*GENE expression in plants, *GENETIC regulation in plants, *PLANT genetics, *RNA synthesis, *MESSENGER RNA, *OLIGOADENYLATES

Abstract

Ultra high-throughput sequencing (UHTS) technologies offer the potential to interrogate transcriptomes in detail that has traditionally been restricted to single gene surveys. For instance, it is now possible to globally define transcription start sites, polyadenylation signals, alternative splice sites and generate quantitative data on gene transcript accumulation in single tissues or cell types. These technologies are thus paving the way for whole genome transcriptomics and will undoubtedly lead to novel insights into plant development and biotic and abiotic stress responses. However, several challenges exist to making this technology broadly accessible to the plant research community. These include the current need for a computationally intensive analysis of data sets, a lack of standardized alignment and formatting procedures and a relatively small number of analytical software packages to interpret UHTS outputs. In this review we summarize recent findings from UHTS and discuss potential opportunities and challenges for broad adoption of these technologies in the plant science community. [ABSTRACT FROM PUBLISHER]

Published

2010

8. Arabidopsis transcript and metabolite profiles: ecotype-specific responses to open-air elevated [CO2].

Author

PINGHUA LI, AINSWORTH, ELIZABETH A., LEAKEY, ANDREW D. B., ULANOV, ALEXANDER, LOZOVAYA, VERA, ORT, DONALD R., and BOHNERT, HANS J.

Subjects

*ARABIDOPSIS, *METABOLITES, *ARABIDOPSIS thaliana, *BIOCHEMISTRY, *GROWTH factors, *GENES, *CARBON, *ASTRONOMICAL perturbation, *CELESTIAL mechanics

Abstract

A Free-Air CO2 Enrichment (FACE) experiment compared the physiological parameters, transcript and metabolite profiles of Arabidopsis thaliana Columbia-0 (Col-0) and Cape Verde Island (Cvi-0) at ambient (∼0.375 mg g−1) and elevated (∼0.550 mg g−1) CO2 ([CO2]). Photoassimilate pool sizes were enhanced in high [CO2] in an ecotype-specific manner. Short-term growth at elevated [CO2] stimulated carbon gain irrespective of down-regulation of plastid functions and altered expression of genes involved in nitrogen metabolism resembling patterns observed under N-deficiency. The study confirmed well-known characteristics, but the use of a time course, ecotypic genetic differences, metabolite analysis and the focus on clusters of functional categories provided new aspects about responses to elevated [CO2]. Longer-term Cvi-0 responded by down-regulating functions favouring carbon accumulation, and both ecotypes showed altered expression of genes for defence, redox control, transport, signalling, transcription and chromatin remodelling. Overall, carbon fixation with a smaller commitment of resources in elevated [CO2] appeared beneficial, with the extra C only partially utilized possibly due to disturbance of the C : N ratio. To different degrees, both ecotypes perceived elevated [CO2] as a metabolic perturbation that necessitated increased functions consuming or storing photoassimilate, with Cvi-0 emerging as more capable of acclimating. Elevated [CO2] in Arabidopsis favoured adjustments in reactive oxygen species (ROS) homeostasis and signalling that defined genotypic markers. [ABSTRACT FROM AUTHOR]

Published

2008

9. Coexpression characteristics of trehalose-6-phosphate phosphatase subfamily genes reveal different functions in a network context.

Author

Pinghua Li, Shisong Ma, and Bohnert, Hans J.

Subjects

*GENES, *CHEMICAL reactions, *PROTEIN microarrays, *ARABIDOPSIS thaliana, *GAUSSIAN measures, *GENOMES, *PATHOGENIC microorganisms, *BIOCHEMISTRY

Abstract

Arabidopsis thaliana databases are available that highlight the behavior of the transcriptome under literally hundreds of experimental manipulations, making attempts possible that integrate this information into gene networks. We present and discuss the functioning of a gene network model generated using deposited microarray experiments. Based on a graphical Gaussian model, the network describes conditional coregulation of genes under a variety of external factors and abiotic, biotic and chemical treatments. In this study, we show an aspect of this network that pertains to functions of genes in families where all members appear to carry out the same biochemical reaction. Chosen in this study were 10 genes in the Arabidopsis genome encoding trehalose-6-phosphate phosphatases (TPPs). Nine of these genes were highlighted by the network. Generally, each TPP formed a network associated with genes that identify different functional categories. Thus, network structures were obtained that identified connections to carbon distribution, drought, cold, pathogen responses, calcium and reactive oxygen species/redox signatures, including transcriptional control genes that separated network graphs seeded with different TPP genes. The structure of the transcript coexpression networks, by associating diverse members of gene families into separate clusters, facilitates hypothesis building and in-depth studies of functions of individual genes in families. [ABSTRACT FROM AUTHOR]

Published

2008

10. Effects of chronic ozone exposure on gene expression in Arabidopsis thaliana ecotypes and in Thellungiella halophila.

Author

Pinghua Li, Mane, Shrinivasrao P., Sioson, Allan A., Robinet, Cecilia Vasquez, Heath, Lenwood S., Bohnert, Hans J., and Grene, Ruth.

Subjects

*GENE expression, *GENETIC regulation, *ARABIDOPSIS thaliana, *BRASSICACEAE, *HALOPHILA, *HYDROCHARITACEAE, *MONOCOTYLEDONS, *SPECIES hybridization, *PLANT genetics

Abstract

Arabidopsis thaliana (At) ecotypes Columbia-0 (Col-0), Wassilewskija (WS), Cape Verde Islands (Cvi-0) and a relative, Thellungiella halophila (Th), were exposed to 20–25% over ambient ozone [O3] in a free air concentration enrichment (FACE) experiment ( ), mirroring increases expected in the near future. Col-0 and WS accelerated development and developed lesions within 10 d under increased ozone, while Cvi-0 and Th grew slowly. RNAs were used in microarray hybridizations (Col-0-based 26 000 elements, 70-mer oligonucleotides). A two-step analysis of variance (anova) model, including comparison with values obtained under [O3], was used for analyses. WS showed the greatest number of changes in gene expression in response to ozone. Th showed the least changes, suggesting that its expression state at [O3] was sufficient for resistance at increased ozone. Patterns observed in ambient air controls for Cvi-0 and Col-0 were most similar, while Th showed the greatest number of differences compared with the other controls. Compared with Col-0, however, Cvi-0 showed higher levels of expression of chaperones, receptor kinase-like and photosynthesis-related genes in ambient air. Cvi-0 exhibited ozone-mediated changes in a pathway involving AtSR, a homologue of the mammalian NFκB family of redox-sensitive transcription factors, changes in chaperones, WRKY and C2H2 proteins and antioxidants. WS displayed ozone-mediated decreases in the expression of two AtSR/NFκB family members, C2-domain proteins and genes associated with cell wall growth and changes in the expression of marker genes for programmed cell death (PCD), among them RCD1, a key regulator in this pathway. Microarray data were verified by reverse transcriptase (RT)-PCR. We relate O3-response diversity across the four lines to different responses among signaling and transcriptional response networks and differences in gene expression at [O3] levels. [ABSTRACT FROM AUTHOR]

Published

2006

11. Gene expression profiles in early leaf of rice (Oryza sativa) and foxtail millet (Setaria italica).

Author

Jing Sun, Chen Deng, Xiuru Dai, Haoshu Li, Liying Zhang, Jingke Wang, Hang Zhao, Yirong Yang, NghiVan Phung, Zhiguo Zhang, Pinghua Li, Xuehui Sun, and Tiegang Lu

Subjects

*PLANT anatomy, *RICE, *FOXTAIL millet, *LEAF development, *TRANSCRIPTOMES

Abstract

Plant anatomy is patterned early during leaf development which suggests studying the spatial–temporal transcriptomes of primordia will help identify critical regulative and functional genes. We successfully isolated the leaf primordia tissues from the C3 grass rice and the C4 grass foxtail millet by laser capture microdissection (LCM) and studied the gene expression throughout leaf developmental stages. Our data analysis uncovered the conserved expression patterns of certain gene clusters both in rice and foxtail millet during leaf development. We revealed genes and transcription factors involved in vein formation, stomatal development, and suberin accumulation. We identified 79 candidate genes associated with functional regulation of C4 anatomy formation. Screening phenotype of the candidate genes revealed that knock-out of a putative polar auxin transport related gene NAL1 resulted significantly reduced veinal space in rice leaf. Our present work provides a foundation for future analyses of genes with novel functions in grasses and their role in leaf development, in particular the role in leaves with a contrasting C3 vs. C4 biosynthetic pathway [ABSTRACT FROM AUTHOR]

Published

2024

12. Ribosomal Protein L13 Promotes IRES-Driven Translation of Foot-and-Mouth Disease Virus in a Helicase DDX3-Dependent Manner.

Author

Shichong Han, Shiqi Sun, Pinghua Li, Qun Liu, Zhihui Zhang, Hu Dong, Mengmeng Sun, Wenxue Wu, Xiaojia Wang, and Huichen Guo

Subjects

*GENETIC translation, *FOOT & mouth disease, *VIRUS diseases, *CLASSICAL swine fever virus, *RIBOSOMAL proteins

Abstract

Internal ribosome entry site (IRES)-driven translation is a common strategy among positive-sense, single-stranded RNA viruses for bypassing the host cell requirement of a 5' cap structure. In the current study, we identified the ribosomal protein L13 (RPL13) as a critical regulator of IRES-driven translation of foot-andmouth disease virus (FMDV) but found that it is not essential for cellular global translation. RPL13 is also a determinant for translation and infection of Seneca Valley virus (SVV) and classical swine fever virus (CSFV), and this suggests that its function may also be conserved in unrelated IRES-containing viruses. We further showed that depletion of DEAD box helicase DDX3 disrupts binding of RPL13 to the FMDV IRES, whereas the reduction in RPL13 expression impairs the ability of DDX3 to promote IRES-driven translation directly. DDX3 cooperates with RPL13 to support the assembly of 80S ribosomes for optimal translation initiation of viral mRNA. Finally, we demonstrated that DDX3 affects the recruitment of the eukaryotic initiation factor eIF3 subunits e and j to the viral IRES. This work provides the first connection between DDX3 and eIF3e/j and recognition of the role of RPL13 in modulating viral IRES-dependent translation. This previously uncharacterized process may be involved in selective mRNA translation. [ABSTRACT FROM AUTHOR]

Published

2020

13. Maize network analysis revealed gene modules involved in development, nutrients utilization, metabolism, and stress response.

Author

Shisong Ma, Zehong Ding, and Pinghua Li

Subjects

*BIG data, *BIOLOGY, *PHYSIOLOGICAL stress, *GENE expression, *METABOLISM

Abstract

Background: The advent of big data in biology offers opportunities while poses challenges to derive biological insights. For maize, a large amount of publicly available transcriptome datasets have been generated but a comprehensive analysis is lacking. Results: We constructed a maize gene co-expression network based on the graphical Gaussian model, using massive RNA-seq data. The network, containing 20,269 genes, assembles into 964 gene modules that function in a variety of plant processes, such as cell organization, the development of inflorescences, ligules and kernels, the uptake and utilization of nutrients (e.g. nitrogen and phosphate), the metabolism of benzoxazionids, oxylipins, flavonoids, and wax, and the response to stresses. Among them, the inflorescences development module is enriched with domestication genes (like ra1, ba1, gt1, tb1, tga1) that control plant architecture and kernel structure, while multiple other modules relate to diverse agronomic traits. Contained within these modules are transcription factors acting as known or potential expression regulators for the genes within the same modules, suggesting them as candidate regulators for related biological processes. A comparison with an established Arabidopsis network revealed conserved gene association patterns for specific modules involved in cell organization, nutrients uptake & utilization, and metabolism. The analysis also identified significant divergences between the two species for modules that orchestrate developmental pathways. Conclusions: This network sheds light on how gene modules are organized between different species in the context of evolutionary divergence and highlights modules whose structure and gene content can provide important resources for maize gene functional studies with application potential. [ABSTRACT FROM AUTHOR]

Published

2017

14. Characterization of regulatory modules controlling leaf angle in maize.

Author

Xiaokun Wang, Xianglan Wang, Shilei Sun, Xiaoyu Tu, Kande Lin, Lei Qin, Xingyun Wang, Gang Li, Silin Zhong, and Pinghua Li

Abstract

Leaf angle is an important agronomic trait determining maize (Zea mays) planting density and light penetration into the canopy and contributes to the yield gain in modern maize hybrids. However, little is known about the molecular mechanisms underlying leaf angle beyond the ZmLG1 (liguleless1) and ZmLG2 (Liguleless2) genes. In this study, we found that the transcription factor (TF) ZmBEH1 (BZR1/BES1 homolog gene 1) is targeted by ZmLG2 and regulates leaf angle formation by influencing sclerenchyma cell layers on the adaxial side. ZmBEH1 interacted with the TF ZmBZR1 (Brassinazole Resistant 1), whose gene expression was also directly activated by ZmLG2. Both ZmBEH1 and ZmBZR1 are bound to the promoter of ZmSCL28 (SCARECROW-LIKE 28), a third TF that influences leaf angle. Our study demonstrates regulatory modules controlling leaf angle and provides gene editing targets for creating optimal maize architecture suitable for dense planting. [ABSTRACT FROM AUTHOR]

Published

2022

15. Effects of two amino acid substitutions in the capsid proteins on the interaction of two cell-adapted PanAsia-1 strains of foot-and-mouth disease virus serotype O with heparan sulfate receptor.

Author

Xingwen Bai, Huifang Bao, Pinghua Li, Wei Wei, Meng Zhang, Pu Sun, Yimei Cao, Zengjun Lu, Yuanfang Fu, Baoxia Xie, Yingli Chen, Dong Li, Jianxun Luo, and Zaixin Liu

Abstract

Background: Some cell-adapted strains of foot-and-mouth disease virus (FMDV) can utilize heparan sulfate (HS) as a receptor to facilitate viral infection in cultured cells. A number of independent sites on the capsid that might be involved in FMDV-HS interaction have been studied. However, the previously reported residues do not adequately explain HS-dependent infection of two cell-adapted PanAsia-1 strains (O/Tibet/CHA/6/99tc and O/Fujian/CHA/9/ 99tc) of FMDV serotype O. To identify the molecular determinant(s) for the interaction of O/Tibet/CHA/6/99tc and O/Fujian/CHA/9/99tc with HS receptor, several chimeric viruses and site-directed mutants were generated by using an infectious cDNA of a non-HS-utilizing rescued virus (Cathay topotype) as the genomic backbone. Phenotypic properties of these viruses were determined by plaque assays and virus adsorption and penetration assays in cultured cells. Results: Only two of the rescued viruses encoding VP0 of O/Tibet/CHA/6/99tc or VP1 of O/Fujian/CHA/9/99tc formed plaques on wild-type Chinese hamster ovary (WT-CHO; HS+) cells, but not on HS-negative pgsD-677 cells. The formation of plaques by these two chimeric viruses on WT-CHO cells could be abolished by the introduction of single amino acid mutations Gln-2080→Leu in VP2 of O/Tibet/CHA/6/99tc and Lys-1083→Glu in VP1 of O/Fujian/ CHA/9/99tc, respectively. Nonetheless, the introduced mutation Leu-2080→Gln in VP2 of O/Fujian/CHA/9/99tc for the construction of expectant recombinant plasmid led to non-infectious progeny virus in baby hamster kidney 21 (BHK-21) cells, and the site-directed mutant encoding Glu-1083→Lys in VP1 of O/Tibet/CHA/6/99tc did not acquire the ability to produce plaques on WT-CHO cells. Significant differences in the inhibition of the infectivity of four HS-utilizing viruses by heparin and RGD-containing peptide were observed in BHK-21 cells. Interestingly, the chimeric virus encoding VP0 of O/Fujian/CHA/9/99tc, and the site-directed mutant encoding Gln-2080→Leu in VP2 of O/Tibet/CHA/6/99tc could bind to HS, but there was no expression of the 3A protein of these two viruses in WT-CHO cells. Conclusion: The results suggest that the cooperation of certain specific amino acid residues in the capsid proteins of these two cell-adapted PanAsia-1 strains is essential for viral infectivity, the heparin affinity and the capability on FMDV-HS interaction. [ABSTRACT FROM AUTHOR]

Published

2014

16. Genetic characterization of the cell-adapted PanAsia strain of foot-and-mouth disease virus O/Fujian/CHA/5/99 isolated from swine.

Author

XingWen Bai, HuiFang Bao, PingHua Li, Pu Sun, WenDong Kuang, YiMei Cao, ZengJun Lu, ZaiXin Liu, and XiangTao Liu

Subjects

*FOOT & mouth disease virus, *AMINO acids, *VIROLOGY, *MICROBIAL virulence

Abstract

Background: According to Office International Des Epizooties (OIE) Bulletin, the PanAsia strain of Foot-and-Mouth Disease Virus (FMDV) was invaded into the People's Republic of China in May 1999. It was confirmed that the outbreaks occurred in Tibet, Hainan and Fujian provinces. In total, 1280 susceptible animals (68 cattle, 1212 swine) were destroyed for the epidemic control. To investigate the distinct biological properties, we performed plaque assay, estimated the pathogenicity in suckling mice and determined the complete genomic sequence of FMDV swine-isolated O/Fujian/CHA/5/99 strain. In addition, a molecular modeling was carried out with the external capsid proteins. Results: The pathogenicity study showed that O/Fujian/CHA/5/99 had high virulence with respect to infection in 3-day-old suckling-mice (LD50 = 10-8.3), compared to O/Tibet/CHA/1/99 (LD50 = 10-7.0) which isolated from bovine. The plaque assay was distinguishable between O/Fujian/CHA/5/99 and O/Tibet/CHA/1/99 by their plaque phenotypes. O/Fujian/CHA/5/99 formed large plaque while O/Tibet/CHA/1/99 formed small plaque. The 8,172 nucleotides (nt) of O/Fujian/CHA/5/99 was sequenced, and a phylogenetic tree was generated from the complete nucleotide sequences of VP1 compared with other FMDV reference strains. The identity data showed that O/Fujian/CHA/5/99 is closely related to O/AS/SKR/2002 (94.1% similarity). Based on multiple sequence alignments, comparison of sequences showed that the characteristic nucleotide/amino acid mutations were found in the whole genome of O/Fujian/CHA/5/99. Conclusion: Our finding suggested that C275T substitution in IRES of O/Fujian/CHA/5/99 may induce the stability of domain 3 for the whole element function. The structure prediction indicated that most of 14 amino acid substitutions are fixed in the capsid of O/Fujian/CHA/5/99 around B-C loop and E-F loop of VP2 (antigenic site 2), and G-H loop of VP1 (antigenic site 1), respectively. These results implicated that these substitutions close to heparin binding sites (E136G in VP2, A174 S in VP3) and at antigenic site 1 (T142A, A152T and Q153P in VP1) may influence plaque size and the pathogenicity to suckling mice. The potential of genetic characterization would be useful for microevolution and viral pathogenesis of FMDV in the further study. [ABSTRACT FROM AUTHOR]

Published

2010

17. Structures of Foot-and-Mouth Disease Virus with Bovine Neutralizing Antibodies Reveal the Determinant of Intraserotype Cross-Neutralization.

Author

Yong He, Kun Li, Li Wang, Zixian Sun, Yimei Cao, Pinghua Li, Pu Sun, Huifang Bao, Shasha Zhou, Sheng Wang, Xingwen Bai, Xuerong Liu, Lixia Zhao, Xiuli Fan, Zaixin Liu, Zengjun Lu, Cheng Yang, and Zhiyong Lou

Subjects

*FOOT & mouth disease, *VIRUS diseases, *BOS, *CROSS reactions (Immunology), *THERMAL stability, *IMMUNOGLOBULINS, *CAPSIDS

Abstract

Foot-and-mouth disease virus (FMDV) exhibits broad antigenic diversity with poor intraserotype cross-neutralizing activity. Studies of the determinant involved in this diversity are essential for the development of broadly protective vaccines. In this work, we isolated a bovine antibody, designated R55, that displays cross-reaction with both FMDV A/AF/72 (hereafter named FMDV-AAF) and FMDV A/WH/09 (hereafter named FMDV-AWH) but only has a neutralizing effect on FMDV-AWH. Near-atomic resolution structures of FMDV-AAF-R55 and FMDV-AWH-R55 show that R55 engages the capsids of both FMDV-AAF and FMDV-AWH near the icosahedral 3-fold axis and binds to the bB and BC/HI-loops of VP2 and to the B-B knob of VP3. The common interaction residues are highly conserved, which is the major determinant for cross-reaction with both FMDV-AAF and FMDV-AWH. In addition, the cryo-EM structure of the FMDVAWH-R55 complex also shows that R55 binds to VP3E70 located at the VP3 BC-loop in an adjacent pentamer, which enhances the acid and thermal stabilities of the viral capsid. This may prevent capsid dissociation and genome release into host cells, eventually leading to neutralization of the viral infection. In contrast, R55 binds only to the FMDVAAF capsid within one pentamer due to the VP3E70G variation, which neither enhances capsid stability nor neutralizes FMDV-AAF infection. The VP3E70G mutation is the major determinant involved in the neutralizing differences between FMDV-AWH and FMDVAAF. The crucial amino acid VP3E70 is a key component of the neutralizing epitopes, which may aid in the development of broadly protective vaccines. [ABSTRACT FROM AUTHOR]

Published

2021

18. Two Cross-Protective Antigen Sites on Foot-and-Mouth Disease Virus Serotype O Structurally Revealed by Broadly Neutralizing Antibodies from Cattle.

Author

Kun Li, Yong He, Li Wang, Pinghua Li, Sheng Wang, Pu Sun, Huifang Bao, Yimei Cao, Xuerong Liu, Guoqiang Zhu, Yali Song, Xingwen Bai, Xueqing Ma, Yuanfang Fu, Hong Yuan, Jing Zhang, Jian Wang, Yingli Chen, Dong Li, and Zhiyong Lou

Subjects

*FOOT & mouth disease, *VIRUS diseases, *ANTIGENS, *IMMUNOGLOBULINS, *VIRAL antibodies, *ANIMAL diseases, *MONOCLONAL antibodies

Abstract

Foot-and-mouth disease virus (FMDV) is a highly contagious virus that infects cloven-hoofed animals. Neutralizing antibodies play critical roles in antiviral infection. Although five known antigen sites that induce neutralizing antibodies have been defined, studies on cross-protective antigen sites are still scarce. We mapped two cross-protective antigen sites using 13 bovine-derived broadly neutralizing monoclonal antibodies (bnAbs) capable of neutralizing 4 lineages within 3 topotypes of FMDV serotype O. One antigen site was formed by a novel cluster of VP3-focused epitopes recognized by bnAb C4 and C4-like antibodies. The cryo-electron microscopy (cryo-EM) structure of the FMDV-OTi (O/Tibet/99)-C4 complex showed close contact with VP3 and a novel interprotomer antigen epitope around the icosahedral 3-fold axis of the FMDV particle, which is far beyond the known antigen site 4. The key determinants of the neutralizing function of C4 and C4-like antibodies on the capsid were ßB (T65), the B-C loop (T68), the E-F loop (E131 and K134), and the H-I loop (G196), revealing a novel antigen site on VP3. The other antigen site comprised two group epitopes on VP2 recognized by 9 bnAbs (B57, B73, B77, B82, F28, F145, F150, E46, and E54), which belong to the known antigen site 2 of FMDV serotype O. Notably, bnAb C4 potently promoted FMDV RNA release in response to damage to viral particles, suggesting that the targeted epitope contains a trigger mechanism for particle disassembly. This study revealed two cross-protective antigen sites that can elicit cross-reactive neutralizing antibodies in cattle and provided new structural information for the design of a broad-spectrum molecular vaccine against FMDV serotype O. IMPORTANCE FMDV is the causative agent of foot-and-mouth disease (FMD), which is one of the most contagious and economically devastating diseases of domestic animals. The antigenic structure of FMDV serotype O is rather complicated, especially for those sites that can elicit a cross-protective neutralizing antibody response. Monoclonal neutralization antibodies provide both crucial defense components against FMDV infection and valuable tools for fine analysis of the antigenic structure. In this study, we found a cluster of novel VP3-focused epitopes using 13 bnAbs against FMDV serotype O from natural host cattle, which revealed two cross-protective antigen sites on VP2 and VP3. Antibody C4 targeting this novel epitope potently promoted viral particle disassembly and RNA release before infection, which may indicate a vulnerable region of FMDV. This study reveals new structural information about cross-protective antigen sites of FMDV serotype O, providing valuable and strong support for future research on broadspectrum vaccines against FMD. [ABSTRACT FROM AUTHOR]

Published

2021

19. Nucleolin Promotes IRES-Driven Translation of Foot-and-Mouth Disease Virus by Supporting the Assembly of Translation Initiation Complexes.

Author

Shichong Han, Xiaojia Wang, Junyong Guan, Jinen Wu, Yun Zhang, Pinghua Li, Zaixin Liu, Abdullah, Sahibzada Waheed, Zhihui Zhang, Ye Jin, Shiqi Sun, and Huichen Guo

Subjects

*CLASSICAL swine fever, *FOOT & mouth disease, *VIRUS diseases, *GENETIC translation, *NUCLEOLIN, *CLASSICAL swine fever virus

Abstract

Nucleolin (NCL), a stress-responsive RNA-binding protein, has been implicated in the translation of internal ribosome entry site (IRES)-containing mRNAs, which encode proteins involved in cell proliferation, carcinogenesis, and viral infection (type I IRESs). However, the details of the mechanisms by which NCL participates in IRES-driven translation have not hitherto been described. Here, we identified NCL as a protein that interacts with the IRES of foot-and-mouth disease virus (FMDV), which is a type II IRES. We also mapped the interactive regions within FMDV IRES and NCL in vitro. We found that NCL serves as a substantial regulator of FMDV IRES-driven translation but not of bulk cellular or vesicular stomatitis virus cap-dependent translation. NCL also modulates the translation of and infection by Seneca Valley virus (type III-like IRES) and classical swine fever virus (type III IRES), which suggests that its function is conserved in unrelated IRES-containing viruses. We also show that NCL affects viral replication by directly regulating the production of viral proteins and indirectly regulating FMDV RNA synthesis. Importantly, we observed that the cytoplasmic relocalization of NCL during FMDV infection is a substantial step for viral IRES-driven translation and that NCL specifically promotes the initiation phase of the translation process by recruiting translation initiation complexes to viral IRES. Finally, the functional importance of NCL in FMDV pathogenicity was confirmed in vivo. Taken together, our findings demonstrate a specific function for NCL in selective mRNA translation and identify a target for the development of a broad-spectrum class of antiviral interventions. IMPORTANCE FMDV usurps the cellular translation machinery to initiate viral protein synthesis via a mechanism driven by IRES elements. It allows the virus to shut down bulk cellular translation, while providing an advantage for its own gene expression. With limited coding capacity in its own genome, FMDV has evolved a mechanism to hijack host proteins to promote the recruitment of the host translation machinery, a process that is still not well understood. Here, we identified nucleolin (NCL) as a positive regulator of the IRES-driven translation of FMDV. Our study supports a model in which NCL relocalizes from the nucleus to the cytoplasm during the course of FMDV infection, where the cytoplasmic NCL promotes FMDV IRES-driven translation by bridging the translation initiation complexes with viral IRES. Our study demonstrates a previously uncharacterized role of NCL in the translation initiation of IRES-containing viruses, with important implications for the development of broad antiviral interventions. [ABSTRACT FROM AUTHOR]

Published

2021

20. SMARCA2 is regulated by NORFA-miR-29c, a novel pathway that controls granulosa cell apoptosis and is related to female fertility.

Author

Xing Du, Lu Liu, Wangjun Wu, Pinghua Li, Zengxiang Pan, Lifan Zhang, Jiying Liu, and Qifa Li

Subjects

*GRANULOSA cells, *FERTILITY, *APOPTOSIS, *FUNCTIONAL analysis, *ADENOSINE triphosphatase, *SWINE breeding, *OVARIAN follicle

Abstract

SMARCA2, an evolutionarily conserved catalytic ATPase subunit of SWI/SNF complexes, has been implicated in development and diseases; however, its role in mammalian ovarian function and female fertility is unknown. Here, we identified and characterized the 3'-UTR of the porcine SMARCA2 gene and identified a novel adenylate number variation. Notably, this mutation was significantly associated with sow litter size traits and SMARCA2 levels, due to its influence on the stability of SMARCA2 mRNA in ovarian granulosa cells (GCs). Immunohistochemistry and functional analysis showed that SMARCA2 is involved in the regulation of follicular atresia by inhibiting GC apoptosis. In addition, miR-29c, a pro-apoptotic factor, was identified as a functional miRNA that targets SMARCA2 in GCs and mediates regulation of SMARCA2 expression via the NORFA-SMAD4 axis. Although a potential miR-29c-responsive element was identified within NORFA, negative regulation of miR-29c expression by NORFAwas not due to activity as a competing endogenous RNA. In conclusion, our findings demonstrate that SMARCA2 is a candidate gene for sow litter size traits, because it regulates follicular atresia and GC apoptosis. Additionally, we have defined a novel candidate pathway for sow fertility, the NORFA-TGFBR2-SMAD4-miR-29c-SMARCA2 pathway. [ABSTRACT FROM AUTHOR]

Published

2020

21. Stocking density affects welfare indicators of growing pigs of different group sizes after regrouping.

Author

Lingling Fu, Huizhi Li, Tingting Liang, Bo Zhou, Qingpo Chu, Schinckel, Allan P., Xiaojing Yang, Ruqian Zhao, Pinghua Li, and Ruihua Huang

Subjects

*ANIMAL welfare, *ANIMAL population density, *SWINE farms, *SWINE growth, *SWINE behavior

Abstract

In recent years, the concept of animal welfare began to be accepted by the Chinese people. On some intensive pig farms, the stocking density for growing pigs is too great, leading to decreased animal welfare. In order to study the relationships between stocking density and welfare indicators and determine the optimal stocking density for growing pigs, a total of 243 Landrace × Large White cross barrows were randomly regrouped at 1.6 m2, 1.2 m2 or 0.8 m2 per pig at 135 days of age. Behavior percentages, lesions on the body and tail, body surface temperature (BST), manure on the body and concentrations of salivary cortisol were measured during the first 15 days after regrouping. Pigs housed at 0.8 m2 per animal spent more time drinking (1.89 vs. 1.01%, P = 0.0048) and participating in negative social behavior (0.76 vs. 0.26%, P = 0.0063) than those housed at 1.6 m2 per pig. Pigs housed at 1.2 m2 per animal showed more positive social behaviors (1.28 vs. 0.14%, P = 0.04) than those housed at 1.6 m2. Pigs housed at 0.8 m2 per animal had more lesions on the ears (P < 0.01), front (P < 0.01), middle (P < 0.01) and hind-quarters (P < 0.01) regions than those housed at 1.6 and 1.2 m2. Total scores of lesions on the body were gradually increased (P < 0.01) with the increasing stocking density. Pigs housed at 0.8 m2 per animal had more manure on their bodies than pigs at 1.6 and 1.2 m2 at the 7th, 11th, 13th and 15th day after regrouping. Pigs housed at 0.8 m2 per animal had a greater proportion of pigs with an abnormally high BST than those at 1.6 (10 vs. 1.9%, P = 0.009) and 1.2 (10 vs. 4%, P = 0.037) m2 per pig. Altogether, at the first 15 days after regrouping, pigs housed at 1.2 m2 per animal had decreased housing costs compared to those housed at 1.6 m2 and improved indicators of animal welfare compared to those housed at 0.8 m2. [ABSTRACT FROM AUTHOR]

Published

2016

22. Genome-Wide Association of Carbon and Nitrogen Metabolism in the Maize Nested Association Mapping Population.

Author

Nengyi Zhang, Gibon, Yves, Wallace, Jason G., Lepak, Nicholas, Pinghua Li, Dedow, Lauren, Chen, Charles, Yoon-Sup So, Kremling, Karl, Bradbury, Peter J., Brutnell, Thomas, Stitt, Mark, and Buckler, Edward S.

Subjects

*CARBON metabolism, *NITROGEN metabolism, *GENETIC research, *PLANT genetics, *PLANT metabolites, CORN genetics

Abstract

Carbon (C) and nitrogen (N) metabolism are critical to plant growth and development and are at the basis of crop yield and adaptation. We performed high-throughput metabolite analyses on over 12,000 samples from the nested association mapping population to identify genetic variation in C and N metabolism in maize (Zea mays ssp. mays). All samples were grown in the same field and used to identify natural variation controlling the levels of 12 key C and N metabolites, namely chlorophyll a, chlorophyll b, fructose, fumarate, glucose, glutamate, malate, nitrate, starch, sucrose, total amino acids, and total protein, along with the first two principal components derived from them. Our genome-wide association results frequently identified hits with single-gene resolution. In addition to expected genes such as invertases, natural variation was identified in key C4 metabolism genes, including carbonic anhydrases and a malate transporter. Unlike several prior maize studies, extensive pleiotropy was found for C and N metabolites. This integration of field-derived metabolite data with powerful mapping and genomics resources allows for the dissection of key metabolic pathways, providing avenues for future genetic improvement. [ABSTRACT FROM AUTHOR]

Published

2015

23. Salvianolic Acid B Prevents Bone Loss in Prednisone- Treated Rats through Stimulation of Osteogenesis and Bone Marrow Angiogenesis.

Author

Liao Cui, Ting Li, Yuyu Liu, Le Zhou, Pinghua Li, Bilian Xu, Lianfang Huang, Yan Chen, Yanzhi Liu, Xiaoyan Tian, Jee, Webster S. S., and Tie Wu

Subjects

*GLUCOCORTICOIDS, *ADRENOCORTICAL hormones, *OSTEOPOROSIS, *AUTOIMMUNE diseases, *HEMATOPOIETIC system, *HERBAL medicine

Abstract

Glucocorticoid (GC) induced osteoporosis (GIO) is caused by the long-term use of GC for treatment of autoimmune and inflammatory diseases. The GC related disruption of bone marrow microcirculation and increased adipogenesis contribute to GIO development. However, neither currently available anti-osteoporosis agent is completely addressed to microcirculation and bone marrow adipogenesis. Salvianolic acid B (Sal B) is a polyphenolic compound from a Chinese herbal medicine, Salvia miltiorrhiza Bunge. The aim of this study was to determine the effects of Sal B on osteoblast bone formation, angiogenesis and adipogenesis-associated GIO by performing marrow adipogenesis and microcirculation dilation and bone histomorphometry analyses. (1) In vivo study: Bone loss in GC treated rats was confirmed by significantly decreased BMD, bone strength, cancellous bone mass and architecture, osteoblast distribution, bone formation, marrow microvessel density and diameter along with down-regulation of marrow BMPs expression and increased adipogenesis. Daily treatment with Sal B (40 mg/kg/d) for 12 weeks in GC male rats prevented GC-induced cancellous bone loss and increased adipogenesis while increasing cancellous bone formation rate with improved local microcirculation by capillary dilation. Treatment with Sal B at a higher dose (80 mg/kg/d) not only prevented GC-induced osteopenia, but also increased cancellous bone mass and thickness, associated with increase of marrow BMPs expression, inhibited adipogenesis and further increased microvessel diameters. (2) In vitro study: In concentration from 1026 mol/L to 1027 mol/L, Sal B stimulated bone marrow stromal cell (MSC) differentiation to osteoblast and increased osteoblast activities, decreased GC associated adipogenic differentiation by down-regulation of PPARc mRNA expression, increased Runx2 mRNA expression without osteoblast inducement, and, furthermore, Sal B decreased Dickkopf-1 and increased b-catenin mRNA expression with or without adipocyte inducement in MSC. We conclude that Sal B prevented bone loss in GC-treated rats through stimulation of osteogenesis, bone marrow angiogenesis and inhibition of adipogenesis. [ABSTRACT FROM AUTHOR]

Published

2012

24. Association and haplotype analysis of candidate genes in five genomic regions linked to sow maternal infanticide in a white Duroc x Erhualian resource population.

Author

Congying Chen, Zhuqing Yang, Yanying Li, Na Wei, Pinghua Li, Yuanmei Guo, Jun Ren, Nengshui Ding, and Lusheng Huang

Subjects

*GENETIC research, *GENETIC polymorphisms, *POPULATION genetics, *INFANTICIDE in animals, *GENETIC markers

Abstract

Background: Maternal infanticide is an extreme and failed maternal behavior, which is defined as an active attack on piglets using the jaws, resulting in serious or fatal bite wounds. It brings big economic loss to the pig industry and severe problems to piglets' welfare. But little is known about the genetic background of this behavior. Quantitative trait loci (QTL) for maternal infanticide were identified in a White Duroc × Erhualian intercross by a non-parametric linkage analysis (NPL) in our previous study. In this study, associations of 194 microsatellite markers used in NPL analysis with maternal infanticide behavior were further analyzed by transmission-disequilibrium test (TDT). On this basis, seven genes (ESR2, EAAT2, BDNF, OXTR, 5-HTR2C, DRD1 and GABRA6) at five genomic regions were selected and further analyzed. Associations of single nucleotide polymorphisms (SNPs) and haplotypes in each gene with maternal infanticide behavior were evaluated. Results: Microsatellite markers on pig chromosome (SSC) 2, 13, 15, and X displayed significance at P < 0.05 by both TDT and NPL. Of the seven candidate genes, three ESR2 SNPs had nominal evidence for association (P < 0.05). Allele A at EAAT2 g. 233G > A and allele T at DRD1 g.1013C > G > T also showed evidence of overtransmission to infanticidal sows. In the overall tests of association of haplotypes, candidate genes of ESR2, EAAT2 and DRD1 achieved overall significance level (P < 0.05). Haplotype [A; A; G], [G; A; G], [A; G; G] and [C; C], respectively, from ESR2, EAAT2 and DRD1 showed higher frequencies to infanticidal sows (P < 0.05). Alleles among haplotypes and SNPs which showed an overtransmission to infanticidal sows were from White Duroc. Conclusions: From association tests of SNPs and haplotypes, ESR2, EAAT2 and DRD1 showed significant associations with maternal infanticide. This result supported the existence of QTL for maternal infanticide behavior on SSC1, SSC2 and SSC16. [ABSTRACT FROM AUTHOR]

Published

2011

25. Polymorphic genetic characterization of the ORF7 gene of porcine reproductive and respiratory syndrome virus (PRRSV) in China.

Author

Xiaofang Hao, Zengjun Lu, Wendong Kuang, Pu Sun, Yu Fu, Lei Wu, Qing Zhao, Huifang Bao, Yuanfang Fu, Yimei Cao, Pinghua Li, Xingwen Bai, Dong Li, and Zaixin Liu

Subjects

*PORCINE reproductive & respiratory syndrome, *VIRUS diseases in swine, *SYNDROMES in animals, *VIRAL vaccines

Abstract

Background: Porcine reproductive and respiratory syndrome virus (PRRSV) exhibits extensive genetic variation. The outbreak of a highly pathogenic PRRS in 2006 led us to investigate the extent of PRRSV genetic diversity in China. To this end, we analyzed the Nsp2 and ORF7 gene sequences of 98 Chinese PRRSV isolates. Results: Preliminary analysis indicated that highly pathogenic PRRSV strains with a 30-amino acid deletion in the Nsp2 protein are the dominant viruses circulating in China. Further analysis based on ORF7 sequences revealed that all Chinese isolates were divided into 5 subgroups, and that the highly pathogenic PRRSVs were distantly related to the MLV or CH-1R vaccine, raising doubts about the efficacy of these vaccines. The ORF7 sequence data also showed no apparent associations between geographic or temporal origin and heterogeneity of PRRSV in China. Conclusion: These findings enhance our knowledge of the genetic characteristics of Chinese PRRSV isolates, and may facilitate the development of effective strategies for monitoring and controlling PRRSV in China. [ABSTRACT FROM AUTHOR]

Published

2011

26. Sulphate as a xylem-borne chemical signal precedes the expression of ABA biosynthetic genes in maize roots.

Author

Ernst, Laura, Goodger, Jason Q. D., Alvarez, Sophie, Marsh, Ellen L., Berla, Bert, Lockhart, Eric, Jiyul Jung, Pinghua Li, Bohnert, Hans J., and Schachtman, Daniel P.

Subjects

*SULFATES, *SOIL moisture, *CORN, *XYLEM, *GENES, *GENE expression, *ABSCISIC acid

Abstract

Recent reports suggest that early sensing of soil water stress by plant roots and the concomitant reduction in stomatal conductance may not be mediated by root-sourced abscisic acid (ABA), but that other xylem-borne chemicals may be the primary stress signal(s). To gain more insight into the role of root-sourced ABA, the timing and location of the expression of genes for key enzymes involved in ABA biosynthesis in Zea mays roots was measured and a comprehensive analysis of root xylem sap constituents from the early to the later stages of water stress was conducted. Xylem sap and roots were sampled from plants at an early stage of water stress when only a reduction in leaf conductance was measured, as well as at later stages when leaf xylem pressure potential decreased. It was found that the majority of ABA biosynthetic genes examined were only significantly expressed in the elongation region of roots at a later stage of water stress. Apart from ABA, sulphate was the only xylem-borne chemical that consistently showed significantly higher concentrations from the early to the later stages of stress. Moreover, there was an interactive effect of ABA and sulphate in decreasing maize transpiration rate and Vicia faba stomatal aperture, as compared to ABA alone. The expression of a sulphate transporter gene was also analysed and it was found that it had increased in the elongation region of roots from the early to the later stages of water stress. Our results support the suggestion that in the early stage of water stress, increased levels of ABA in xylem sap may not be due to root biosynthesis, ABA glucose ester catabolism or pH-mediated redistribution, but may be due to shoot biosynthesis and translocation to the roots. The analysis of xylem sap mineral content and bioassays indicate that the anti-transpirant effect of the ABA reaching the stomata at the early stages of water stress may be enhanced by the increased concentrations of sulphate in the xylem which is also transported from the roots to the leaves. [ABSTRACT FROM PUBLISHER]

Published

2010

27. yucca6, a Dominant Mutation in Arabidopsis, Affects Auxin Accumulation and Auxin-Related Phenotypes.

Author

Kim, Jeong Im, Sharkhuu, Altanbadralt, Jing Bo Jin, Pinghua Li, Jae Cheol Jeong, Dongwon Baek, Sang Yeol Lee, Blakeslee, Joshua J., Murphy, Angus S., Bohnert, Hans J., Hasegawa, Paul M., Dae-Jin Yun, and Bressan, Ray A.

Subjects

*ARABIDOPSIS thaliana, *AUXIN, *PHENOTYPES, *MONOOXYGENASES, *PLANT growth, *BIOSYNTHESIS

Abstract

Auxin plays critical roles in many aspects of plant growth and development. Although a number of auxin biosynthetic pathways have been identified, their overlapping nature has prevented a clear elucidation of auxin biosynthesis. Recently, Arabidopsis (Arabidopsis thaliana) mutants with supernormal auxin phenotypes have been reported. These mutants exhibit hyperactivation of genes belonging to the YUCCA family, encoding putative flavin monooxygenase enzymes that result in increased endogenous auxin levels. Here, we report the discovery of fertile dominant Arabidopsis hypertall1-1D and hypertall1-2D (yucca6-ID, -2D) mutants that exhibit typical auxin overproduction phenotypic alterations, such as epinastic cotyledons, increased apical dominance, and curled leaves. However, unlike other auxin overproduction mutants, yucca 6 plants do not display short or hairy root phenotypes and lack morphological changes under dark conditions. In addition, yucca6-ID and yucca6-2D have extremely tall (>1 m) inflorescences with extreme apical dommance and twisted cauline leaves. Microarray analyses revealed that expression of several indole-3-acetic acid-inducible genes, including Aux/IAA, SMALL AUXIN-UP RNA, and GH3, is severalfold higher in yucca6 mutants than in the wild type. Tryptophan (Trp) analog feeding experiments and catalytic activity assays with recombinant YUCCA6 indicate that YUCCA6 is involved in a Trp-dependent auxin biosynthesis pathway. YUCCA6:GREEN FLUORESCENT PROTEIN fusion protein indicates YUCCA6 protein exhibits a nonplastidial subcellular localization in an unidentified intracellular compartment. Taken together, our results identify YUCCA6 as a functional member of the YUCCA family with unique roles in growth and development. [ABSTRACT FROM AUTHOR]

Published

2007