Your search keyword '"Meiying Zheng"' showing total 36 results

1. Positron unveiling high mobility graphene stack interfaces in Li-ion cathodes

Author

Meiying Zheng, Jan Kuriplach, Ilja Makkonen, Rafael Ferragut, Vito Di Noto, Gioele Pagot, Ekaterina Laakso, and Bernardo Barbiellini

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract Carbon-based coatings in Li-ion battery cathodes improve electron conductivity and enable rapid charging. However, the mechanism is not well understood. Here, we address this question by using positrons as non-destructive probes to investigate nano-interfaces within cathodes. We calculate the positron annihilation lifetime in a graphene stack LiCoO2 heterojunction using an ab initio method with a non-local density approximation to accurately describe the electron-positron correlation. This ideal heterostructure represents the standard carbon-based coating performed on cathode nanoparticles to improve the conduction properties of the cathode. We characterize the interface between LiCoO2 and graphene as a p-type Schottky junction and find positron surface states. The intensity of the lifetime component for these positron surface states serves as a descriptor for positive ion ultra-fast mobility. Consequently, optimizing the carbon layer by enhancing this intensity and by analogizing Li-ion adatoms on graphene layers with positrons at surfaces can improve the design of fast-charging channels.

Published

2024

2. Decadal variation of the relationship between the previous autumn IOD and the South China Sea summer monsoon

Author

Meiying Zheng, Feng Xu, Shengyuan Liu, Yongchi Li, Shaojing Zhang, and Jinyi Yang

Subjects

South China Sea summer monsoon (SCSSM), Indian Ocean dipole (IOD), El Niño–Southern oscillation (ENSO), pacific decadal oscillation (PDO), Western Pacific subtropical high (WPSH), tropical Indian Ocean (TIO), Science

Abstract

Using reanalysis data from the ECMWF and Hadley Centre of the UK Meteorological Office, the present study analyzes the relationship between Indian Ocean Dipole (IOD) in the previous autumn (September–November) and South China Sea Summer (June–August) Monsoon (SCSSM) from 1951 to 2021. It is found that the relationship between the two indices was significantly enhanced from the late 1970s to the beginning of the 21st century, with a significant resonance cycle of 2–4a. The previous autumn IOD forced the Gill pattern in the upper troposphere by changing the Sea Surface Temperature Anomaly (SSTA) of the following summer in the Tropical Indian Ocean (TIO), resulting in the anticyclonic circulation anomaly in the Philippine Sea. It eventually alters the southwest monsoon near the South China Sea and the Philippine Sea. However, for a decade or more, as the Pacific Decadal Oscillation (PDO) phase turns from warm to cold and the relationship between El Niño–Southern Oscillation (ENSO) and IOD weakens, the impact of the previous autumn IOD on Indian Ocean SSTA in the summer of the following year weakens, resulting in a decrease in the correlation between the previous autumn IOD and SCSSM. The impact of the previous autumn’s Indian Ocean SSTA on the following year’s SCSSM is more considered in terms of the eastern Bay of Bengal and the Somali Sea basin. In addition, during the warm phase of PDO, the IOD of the previous autumn can cause abnormal summer precipitation in South China by strengthening or weakening the Western Pacific Subtropical High (WPSH) of the following summer, but there is no significant effect in the cold phase of PDO.

Published

2023

3. Heat balance characteristics in the South China Sea and surrounding areas simulated using the TRAMS model—a case study of a summer heavy rain and a winter cold spell

Author

Shaojing Zhang, Feng Xu, Yufeng Xue, Daosheng Xu, Jeremy Cheuk-Hin Leung, Liguo Han, Jinyi Yang, Meiying Zheng, Yongchi Li, Fei Huang, and Banglin Zhang

Subjects

model diagnosis, forecast tendencies, thermal equilibrium, systematic bias, physical parameterization, Science

Abstract

Introduction: This study is first to apply d iagnostic analysis of the forecast tendencies to evaluate the simulation of equilibrium features in the South China Sea and its surrounding areas using The Tropical Regional Atmosphere (TRAMS) model, and further identify the sources of simulation biases of the model.Methods: On the basis of the quasi equilibrium between dynamic and physical processes, the deviation of net forecast tendencies, which reflects the overall equilibrium of the model, serves as a good indicator of the model simulations bias. The sources of the forecast error can be further inferred by decomposing the net forecast tendencies into the dynamic and each physical process.Results: Focusing on moisture and temperature tendencies, the results show that the TRAMS model generally captures the thermal equilibrium characteristics and the contributions of each physical process, which are markedly different between summer and winter and are affected by the Northwest Pacific Subtropical High (WPSH) and deep trough of East Asia respectively. Furthermore, the underestimation of vapour consumption by cloud microphysical parameterisation and the overestimation of sea surface heat flux by boundary layer parameterisation near the surface contribute the most to systematic model bias. The temperature bias from 900 to 300 hPa during winter mainly originates from the responses of radiation, cumulus convection, and cloud microphysical parameterisations because water vapour absorbs long wave radiation, heating the atmosphere, and clouds reduce short wave radi ation absorption, cooling it.Discussion: The presented analyses provide a reference for further optimisation and improvement of the model.

Published

2023

4. Quantum view of Li-ion high mobility at carbon-coated cathode interfaces

Author

Gioele Pagot, Vito Di Noto, Keti Vezzù, Bernardo Barbiellini, Valerio Toso, Alberto Caruso, Meiying Zheng, Xin Li, and Rafael Ferragut

Subjects

Electrochemical energy storage, Electrochemical materials science, Electrochemistry, Materials application, Materials science, Science

Abstract

Summary: Lithium-ion batteries (LIBs) are among the most promising power sources for electric vehicles, portable electronics and smart grids. In LIBs, the cathode is a major bottleneck, with a particular reference to its low electrical conductivity and Li-ion diffusivity. The coating with carbon layers is generally employed to enhance the electrical conductivity and to protect the active material from degradation during operation. Here, we demonstrate that this layer has a primary role in the lithium diffusivity into the cathode nanoparticles. Positron is a useful quantum probe at the electroactive materials/carbon interface to sense the mobility of Li-ion. Broadband electrical spectroscopy demonstrates that only a small number of Li-ions are moving, and that their diffusion strongly depends on the type of carbon additive. Positron annihilation and broadband electrical spectroscopies are crucial complementary tools to investigate the electronic effect of the carbon phase on the cathode performance and Li-ion dynamics in electroactive materials.

Published

2023

5. Effects of soil texture and nitrogen fertilisation on soil bacterial community structure and nitrogen uptake in flue-cured tobacco

Author

Meiying Zheng, Pei Zhu, Jiayu Zheng, Lin Xue, Qifa Zhu, Xianjie Cai, Sen Cheng, Zhongfeng Zhang, Fanyu Kong, and Jiguang Zhang

Subjects

Medicine, Science

Abstract

Abstract We tested the hypothesis that soil texture and nitrogen (N) fertilisation are the primary factors regulating the N cycle and soil bacterial community structure. The response of soil bacterial communities to N fertilisation in different textured soils might help in identifying the specific underlying mechanism and hence management of N fertiliser application in fields. We examined how N fertiliser accumulates in flue-cured tobacco and influences soil bacterial community structure in different textured soils. We conducted plot and micro-plot experimental measurements of N content in soil and tobacco samples using the KNO3 15N isotope technique. Soil bacterial community structure was determined using high-throughput sequencing of 16S rRNA. Nitrogen absorption and utilisation by tobacco plants were highest in sandy loam soils, followed by loam soil and clay loam. The ability of clay loam to supply N was weak during the plant growth period. Absence of fertilisation could reduce bacterial abundance in soils to various degrees. Bacterial diversity was higher in sandy loam soil than in loam soil and clay loam. Soil texture and N fertilisation significantly affected soil bacterial community structure and diversity. Proteobacteria, Acidobacteria, Firmicutes, Bacteroidetes, Actinobacteria, and Chloroflexi were the dominant bacterial phyla, while Bacillus, Nitrobacter, Nitrosospira, Nitrospira, and Rhizobium were the primary N transformation bacteria at the genus level in all treatments. However, relative abundances differed with N fertiliser application, which could lead to differential N availability and N use efficiency of tobacco among soil types. We conclude that both soil texture and N fertilisation influence N accumulation and distribution in flue-cured tobacco and thus regulate soil bacterial communities. N fertiliser application in sandy loam soil should be strictly controlled for its higher N use efficiency, soil bacterial abundance, and diversity.

Published

2021

6. A Positron Implantation Profile Estimation Approach for the PALS Study of Battery Materials

Author

Xin Li, Bernardo Barbiellini, Vito Di Noto, Gioele Pagot, Meiying Zheng, and Rafael Ferragut

Subjects

positron annihilation spectroscopy, implantation profile, li-ion battery, cathode, multilayer material, Physics, QC1-999

Abstract

Positron annihilation spectroscopy is a powerful probe to investigate the interfaces in materials relevant for energy storage such as Li-ion batteries. The key to the interpretation of the results is the positron implantation profile, which is a spatial function related to the characteristics of the materials forming the battery. We provide models for the positron implantation profile in a cathode of a Li-ion battery coin cell. These models are the basis for a reliable visualization of multilayer geometries and their interfaces in thin cathodes of lithium-ion batteries.

Published

2023

7. El Niño Onset Time Affects the Intensity of Landfalling Tropical Cyclones in China

Author

Jinyi Yang, Feng Xu, Shifei Tu, Liguo Han, Shaojing Zhang, Meiying Zheng, Yongchi Li, Shihan Zhang, and Yishun Wan

Subjects

El Niño, onset time, landfalling tropical cyclone, intensity, Meteorology. Climatology, QC851-999

Abstract

In this work, we studied the influence of spring (SP) and summer (SU) El Niño events on the landfalling tropical cyclones (TCs) in China. The results showed that compared to SU El Niño years, the average latitude of the landfalling TCs in SP El Niño years shifted significantly southward and that the average TC intensity was significantly stronger, especially in the post-landfall period. Additionally, more severe tropical storm-level TCs generated over the South China Sea made landfall in China. Meanwhile, in SP El Niño years, landfalling TCs in southern China had a greater landfall intensity, but landfalling TCs in eastern China were the opposite. These changes in TC intensity during the SP El Niño years could be attributed to more favorable dynamical and thermodynamical conditions, which are beneficial for maintaining TC intensity and duration after landfall. These results could have important implications for an in-depth understanding of TC activities, as well as TC disaster prevention and mitigation.

Published

2023

8. Relationship between South China Sea Summer Monsoon and Western North Pacific Tropical Cyclones Linkages with the Interaction of Indo-Pacific Pattern

Author

Shengyuan Liu, Jianjun Xu, Shifei Tu, Meiying Zheng, and Zhiqiang Chen

Subjects

cyclones power dissipation index (PDI), monsoon trough, El Niño southern oscillation (ENSO), Indian Ocean dipole (IOD), Walker circulation, Meteorology. Climatology, QC851-999

Abstract

The South China Sea (SCS) summer monsoon (SCSSM) and Western North Pacific tropical cyclones (TCs) are both tropical systems that interact with each other on multiple scales. This study examines the differences in TCs activity characteristics between anomalous strong and weak SCSSM years, and explores the possible mechanisms behind these differences through the coupling relationship between tropical atmospheric circulation and oceanic surface conditions. Results show that the destructiveness of TCs over the Western North Pacific is stronger during weak SCSSM years than in strong years, whereas the opposite occurs for TCs over the SCS. The interaction between the tropical Indo-Pacific ocean and atmosphere plays a key role in the relationship between SCSSM intensity and TCs activity. In strong (weak) SCSSM years, the sea surface temperature anomaly (SSTA) in the tropical Pacific Ocean tends to correspond to a La Niña-like (El Niño-like) distribution, whereas the tropical Indian Ocean shows an Indian Ocean dipole-negative (positive) phase distribution. Moreover, Walker circulations in both the Indian and Pacific Oceans are coupled during these years, which creates a seesaw-like relationship in the conditions for TCs formation between the SCS and the Western Pacific Ocean. During weak SCSSM years, the formation and activity of TCs over the SCS are suppressed due to the weakened water vapor transport caused by abnormal easterly winds from the eastern Indian Ocean to the southern SCS. Meanwhile, the higher SSTA in the Western Pacific Ocean enhances the TCs activity. In strong SCSSM years, the enhanced monsoon drives a stronger monsoon trough, improving the convective environment over the SCS, whereas in contrast, the Western Pacific Ocean is covered by colder water, resulting in poorer conditions for TCs genesis.

Published

2023

9. Structural and functional insights into the first Bacillus thuringiensis vegetative insecticidal protein of the Vpb4 fold, active against western corn rootworm.

Author

Jean-Louis Kouadio, Meiying Zheng, Michael Aikins, David Duda, Stephen Duff, Danqi Chen, Jun Zhang, Jason Milligan, Christina Taylor, Patricia Mamanella, Timothy Rydel, Colton Kessenich, Timothy Panosian, Yong Yin, William Moar, Kara Giddings, Yoonseong Park, Agoston Jerga, and Jeffrey Haas

Subjects

Medicine, Science

Abstract

The western corn rootworm (WCR), Diabrotica virgifera virgifera LeConte, is a major maize pest in the United States causing significant economic loss. The emergence of field-evolved resistant WCR to Bacillus thuringiensis (Bt) traits has prompted the need to discover and deploy new insecticidal proteins in transgenic maize. In the current study we determined the crystal structure and mode of action (MOA) of the Vpb4Da2 protein (formerly known as Vip4Da2) from Bt, the first identified insecticidal Vpb4 protein with commercial level control against WCR. The Vpb4Da2 structure exhibits a six-domain architecture mainly comprised of antiparallel β-sheets organized into β-sandwich layers. The amino-terminal domains 1-3 of the protein share structural homology with the protective antigen (PA) PA14 domain and encompass a long β-pore forming loop as in the clostridial binary-toxB module. Domains 5 and 6 at the carboxyl-terminal half of Vpb4Da2 are unique as this extension is not observed in PA or any other structurally-related protein other than Vpb4 homologs. These unique Vpb4 domains adopt the topologies of carbohydrate-binding modules known to participate in receptor-recognition. Functional assessment of Vpb4Da2 suggests that domains 4-6 comprise the WCR receptor binding region and are key in conferring the observed insecticidal activity against WCR. The current structural analysis was complemented by in vitro and in vivo characterizations, including immuno-histochemistry, demonstrating that Vpb4Da2 follows a MOA that is consistent with well-characterized 3-domain Bt insecticidal proteins despite significant structural differences.

Published

2021

10. Structural and functional characterization of Mpp75Aa1.1, a putative beta-pore forming protein from Brevibacillus laterosporus active against the western corn rootworm.

Author

Jean-Louis Kouadio, Stephen Duff, Michael Aikins, Meiying Zheng, Timothy Rydel, Danqi Chen, Eric Bretsnyder, Chunsheng Xia, Jun Zhang, Jason Milligan, Artem Evdokimov, Jeffrey Nageotte, Yong Yin, William Moar, Kara Giddings, Yoonseong Park, Agoston Jerga, and Jeffrey Haas

Subjects

Medicine, Science

Abstract

The western corn rootworm (WCR), Diabrotica virgifera virgifera LeConte, is a major corn pest of significant economic importance in the United States. The continuous need to control this corn maize pest and the development of field-evolved resistance toward all existing transgenic maize (Zea mays L.) expressing Bacillus thuringiensis (Bt) insecticidal proteins against WCR has prompted the development of new insect-protected crops expressing distinct structural classes of insecticidal proteins. In this current study, we describe the crystal structure and functional characterization of Mpp75Aa1.1, which represents the first corn rootworm (CRW) active insecticidal protein member of the ETX_MTX2 sub-family of beta-pore forming proteins (β-PFPs), and provides new and effective protection against WCR feeding. The Mpp75Aa1.1 crystal structure was solved at 1.94 Å resolution. The Mpp75Aa1.1 is processed at its carboxyl-terminus by WCR midgut proteases, forms an oligomer, and specifically interacts with putative membrane-associated binding partners on the midgut apical microvilli to cause cellular tissue damage resulting in insect death. Alanine substitution of the surface-exposed amino acids W206, Y212, and G217 within the Mpp75Aa1.1 putative receptor binding domain I demonstrates that at least these three amino acids are required for WCR activity. The distinctive spatial arrangement of these amino acids suggests that they are part of a receptor binding epitope, which may be unique to Mpp75Aa1.1 and not present in other ETX_MTX2 proteins that do not have WCR activity. Overall, this work establishes that Mpp75Aa1.1 shares a mode of action consistent with traditional WCR-active Bt proteins despite significant structural differences.

Published

2021

11. Effects of soil texture and nitrogen fertilisation on soil bacterial community structure and nitrogen uptake in flue-cured tobacco

Author

Zhu Qifa, Pei Zhu, Fanyu Kong, Cheng Sen, Zhongfeng Zhang, Xue Lin, Jiguang Zhang, Meiying Zheng, Cai Xianjie, and Jiayu Zheng

Subjects

Multidisciplinary, Ecology, biology, Soil texture, Science, Soil classification, biology.organism_classification, Microbiology, complex mixtures, Article, Actinobacteria, Environmental sciences, Agronomy, Loam, Soil water, Curing of tobacco, Medicine, Rhizobium, Acidobacteria

Abstract

We tested the hypothesis that soil texture and nitrogen (N) fertilisation are the primary factors regulating the N cycle and soil bacterial community structure. The response of soil bacterial communities to N fertilisation in different textured soils might help in identifying the specific underlying mechanism and hence management of N fertiliser application in fields. We examined how N fertiliser accumulates in flue-cured tobacco and influences soil bacterial community structure in different textured soils. We conducted plot and micro-plot experimental measurements of N content in soil and tobacco samples using the KNO315N isotope technique. Soil bacterial community structure was determined using high-throughput sequencing of 16S rRNA. Nitrogen absorption and utilisation by tobacco plants were highest in sandy loam soils, followed by loam soil and clay loam. The ability of clay loam to supply N was weak during the plant growth period. Absence of fertilisation could reduce bacterial abundance in soils to various degrees. Bacterial diversity was higher in sandy loam soil than in loam soil and clay loam. Soil texture and N fertilisation significantly affected soil bacterial community structure and diversity. Proteobacteria, Acidobacteria, Firmicutes, Bacteroidetes, Actinobacteria, and Chloroflexi were the dominant bacterial phyla, while Bacillus, Nitrobacter, Nitrosospira, Nitrospira, and Rhizobium were the primary N transformation bacteria at the genus level in all treatments. However, relative abundances differed with N fertiliser application, which could lead to differential N availability and N use efficiency of tobacco among soil types. We conclude that both soil texture and N fertilisation influence N accumulation and distribution in flue-cured tobacco and thus regulate soil bacterial communities. N fertiliser application in sandy loam soil should be strictly controlled for its higher N use efficiency, soil bacterial abundance, and diversity.

Published

2021

12. Disabled insecticidal proteins: A novel tool to understand differences in insect receptor utilization

Author

Crystal N. Kretzler, Mao Chen, James A. Baum, Timothy J. Rydel, Artem G Evdokimov, Jeffrey A. Haas, Salvador Sara A, Nuria Jimenez-Juarez, Xiaoran Fu, James K. Roberts, Agoston Jerga, Yanfei Wang, Michael Pleau, Meiying Zheng, Reuben Sequeira, Timothy D. Panosian, William Clinton, Coralie Halls, and Farhad Moshiri

Subjects

0106 biological sciences, Transgene, media_common.quotation_subject, Insect, Insect Control, 01 natural sciences, Biochemistry, Hemolysin Proteins, 03 medical and health sciences, Bacterial Proteins, Bacillus thuringiensis, medicine, Animals, Receptor, Molecular Biology, 030304 developmental biology, media_common, chemistry.chemical_classification, 0303 health sciences, Bacillus thuringiensis Toxins, biology, fungi, Pesticide, biology.organism_classification, Amino acid, Endotoxins, 010602 entomology, Mechanism of action, chemistry, Insect Science, medicine.symptom, Bacteria

Abstract

The development of insect resistance to pesticides via natural selection is an acknowledged agricultural issue. Likewise, resistance development in target insect populations is a significant challenge to the durability of crop traits conferring insect protection and has driven the need for novel insecticidal proteins (IPs) with alternative mechanism of action (MOA) mediated by different insect receptors. The combination or "stacking" of transgenes encoding different insecticidal proteins in a single crop plant can greatly delay the development of insect resistance, but requires sufficient knowledge of MOA to identify proteins with different receptor preferences. Accordingly, a rapid technique for differentiating the receptor binding preferences of insecticidal proteins is a critical need. This article introduces the Disabled Insecticidal Protein (DIP) method as applied to the well-known family of three-domain insecticidal proteins from Bacillus thuringiensis and related bacteria. These DIP's contain amino acid substitutions in domain 1 that render the proteins non-toxic but still capable of competing with active proteins in insect feeding assays, resulting in a suppression of the expected insecticidal activity. A set of insecticidal proteins with known differences in receptor binding (Cry1Ab3, Cry1Ac.107, Cry2Ab2, Cry1Ca, Cry1A.105, and Cry1A.1088) has been studied using the DIP method, yielding results that are consistent with previous MOA studies. When a native IP and an excess of DIP are co-administered to insects in a feeding assay, the outcome depends on the overlap between their MOAs: if receptors are shared, then the DIP saturates the receptors to which the native protein would ordinarily bind, and acts as an antidote whereas, if there is no shared receptor, the toxicity of the native insecticidal protein is not inhibited. These results suggest that the DIP methodology, employing standard insect feeding assays, is a robust and effective method for rapid MOA differentiation among insecticidal proteins.

Published

2019

13. Structural and functional characterization of Mpp75Aa1.1, a putative beta-pore forming protein from Brevibacillus laterosporus active against the western corn rootworm

Author

Milligan Jason S, Jeffrey R. Nageotte, Danqi Chen, Yoonseong Park, Stephen Duff, Jean-Louis Kouadio, Yong Yin, Agoston Jerga, Artem G Evdokimov, Timothy J. Rydel, Chunsheng Xia, Jeffrey A. Haas, William Moar, Jun Zhang, Michael J. Aikins, Kara Giddings, Meiying Zheng, and Eric C. Bretsnyder

Subjects

Insecticides, Life Cycles, Biochemistry, Pore forming protein, Insecticide Resistance, Larvae, Bacillus thuringiensis, Amino Acids, Alanine, chemistry.chemical_classification, Multidisciplinary, Crystallography, biology, Microvilli, Organic Compounds, Physics, Eukaryota, Proteases, Plants, Plants, Genetically Modified, Condensed Matter Physics, Amino acid, Enzymes, Coleoptera, Chemistry, Experimental Organism Systems, Physical Sciences, Crystal Structure, Medicine, Cellular Structures and Organelles, Research Article, Science, Research and Analysis Methods, Zea mays, Model Organisms, Bacterial Proteins, Protein Domains, Plant and Algal Models, Animals, Solid State Physics, Grasses, Pest Control, Biological, Genetically modified maize, Organic Chemistry, Organisms, Chemical Compounds, Biology and Life Sciences, Proteins, Midgut, Cell Biology, biology.organism_classification, Maize, Western corn rootworm, chemistry, Aliphatic Amino Acids, Enzymology, Animal Studies, Serine Proteases, Developmental Biology

Abstract

The western corn rootworm (WCR), Diabrotica virgifera virgifera LeConte, is a major corn pest of significant economic importance in the United States. The continuous need to control this corn maize pest and the development of field-evolved resistance toward all existing transgenic maize (Zea mays L.) expressing Bacillus thuringiensis (Bt) insecticidal proteins against WCR has prompted the development of new insect-protected crops expressing distinct structural classes of insecticidal proteins. In this current study, we describe the crystal structure and functional characterization of Mpp75Aa1.1, which represents the first corn rootworm (CRW) active insecticidal protein member of the ETX_MTX2 sub-family of beta-pore forming proteins (β-PFPs), and provides new and effective protection against WCR feeding. The Mpp75Aa1.1 crystal structure was solved at 1.94 Å resolution. The Mpp75Aa1.1 is processed at its carboxyl-terminus by WCR midgut proteases, forms an oligomer, and specifically interacts with putative membrane-associated binding partners on the midgut apical microvilli to cause cellular tissue damage resulting in insect death. Alanine substitution of the surface-exposed amino acids W206, Y212, and G217 within the Mpp75Aa1.1 putative receptor binding domain I demonstrates that at least these three amino acids are required for WCR activity. The distinctive spatial arrangement of these amino acids suggests that they are part of a receptor binding epitope, which may be unique to Mpp75Aa1.1 and not present in other ETX_MTX2 proteins that do not have WCR activity. Overall, this work establishes that Mpp75Aa1.1 shares a mode of action consistent with traditional WCR-active Bt proteins despite significant structural differences.

Published

2021

14. Crystal structure of a Vip3B family insecticidal protein reveals a new fold and a unique tetrameric assembly

Author

Farhad Moshiri, Jeff Haas, Meiying Zheng, Artem G. Evdokimov, and Casey Lowder

Subjects

Models, Molecular, 0303 health sciences, Protein Folding, Accelerated Communication, Stereochemistry, Protein Conformation, 030302 biochemistry & molecular biology, Bacillus thuringiensis, Crystal structure, Biology, biology.organism_classification, Crystallography, X-Ray, Biochemistry, Quarter century, 03 medical and health sciences, Bacterial Proteins, Acre, Mode of action, Molecular Biology, 030304 developmental biology

Abstract

Vegetatively expressed insecticidal proteins (VIPs) produced by Bacillus thuringiensis fall into several classes of which the third, VIP3, is known for their activity against several key Lepidopteran pests of commercial broad acre crops and because their mode of action does not overlap with that of crystalline insecticidal proteins. The details of the VIP3 structure and mode of action have remained obscure for the quarter century that has passed since their discovery. In the present article, we report the first crystal structure of a full-length VIP3 protein. Crystallization of this target required multiple rounds of construct optimization and screening-over 200 individual sequences were expressed and tested. This protein adopts a novel global fold that combines domains with hitherto unreported topology and containing elements seemingly borrowed from carbohydrate-binding domains, lectins, or from other insecticidal proteins.

Published

2019

15. Comparative study on the electronic structures and redox reactions in LiCrX

Author

Yuewen, He, Xiaohong, Shi, Meiying, Zheng, Shunqing, Wu, Yong, Yang, and Zizhong, Zhu

Abstract

LiCrO

Published

2019

16. Efficient municipal wastewater treatment by oxidation ditch process at low temperature: Bacterial community structure in activated sludge

Author

Yinguang Chen, Yuanshuang Luo, Xiyuan Wang, Deyong Guo, Junqin Yao, and Meiying Zheng

Subjects

Biochemical oxygen demand, Environmental Engineering, 010504 meteorology & atmospheric sciences, 010501 environmental sciences, 01 natural sciences, Waste Disposal, Fluid, Environmental Chemistry, Waste Management and Disposal, Nitrosomonas, 0105 earth and related environmental sciences, biology, Bacteria, Sewage, Chemistry, Microbiota, Chemical oxygen demand, Temperature, biology.organism_classification, Pollution, Activated sludge, Wastewater, Environmental chemistry, Sewage treatment, Nitrification, Nitrospira, Oxidation-Reduction

Abstract

Temperature is a key element affecting the activity of microorganisms in activated sludge. Low water temperature generally leads to decreasing wastewater treatment efficiency and destroying sludge settleability. In this study, activated sludge samples from a municipal wastewater treatment plant (WWTP) implementing oxidation ditch process was used to investigate the bacterial community characteristics of a system that operates well in a cold region (Xinjiang, China) by high-throughput 16S rRNA gene sequencing. The results showed that the influent temperature was 7–12 °C in winter and 13–17 °C in summer, while the sludge volume index (SVI) of samples was between 51 and 74 mL/g. The average removal efficiencies for chemical oxygen demand (COD), biochemical oxygen demand (BOD5), suspended solid (SS), ammonia nitrogen (NH4+-N), total nitrogen (TN), and total phosphorus (TP) were 94%, 95%, 95%, 91%, 73% and 89%, respectively. The bacteria were distributed in 32 phyla and 559 genera. The dominant phyla were Proteobacteria (28.85–48.45%), Bacteroidetes (20.00–31.22%), Chloroflexi (3.59–12.23%), Actinobacteria (1.58–15.54%) and Firmicutes (1.38–10.49%). The dominant genera were Saprospiraceae_norank (4.41–12.23%), Comamonadaceae_unclassified (3.82–8.83%), Anaerolineaceae_norank (1.39–9.35%), Dokdonella (1.13–11.26%), Candidatus_Microthrix (0.26–7.50%), Flavobacterium (0.32–8.14%), Ferribacterium (0.36–5.19%) and Nitrospira (0.084–5.37%), which were different from those found in warm-region WWTPs. Contrary to previous studies, the relative abundance of ammonia-oxidizing bacteria (AOB; Nitrosomonas and Nitrosomonadaceae) and nitrite-oxidizing bacteria (NOB; Nitrospira) increased when the temperature decreased. The successful operation of this WWTP suggests that cold-region WWTPs can achieve good pollutants removal efficiency by simultaneously maintaining an ultra-low sludge load and high dissolved oxygen concentration in the oxidation ditch. The findings of this study provide fundamental knowledge required for an efficient and stable operation of WWTPs in cold regions.

Published

2019

17. Development of enzymes for robust aryloxyphenoxypropionate and synthetic auxin herbicide tolerance traits in maize and soybean crops

Author

Coralie Halls, Marguerite J Varagona, Timothy J. Rydel, Eric J. Sturman, Oscar C Sparks, Brook Van Scoyoc, Goley Michael E, Artem G Evdokimov, Jeffrey R. Nageotte, Adewale M Adio, Christine Ellis, Larue Clayton T, Graeme S Garvey, Andrew M Wollacott, Xiaoran Fu, Meiying Zheng, and Lei Shi

Subjects

0106 biological sciences, Genetically modified crops, Biology, 01 natural sciences, Zea mays, Auxin, chemistry.chemical_classification, Genetically modified maize, Indoleacetic Acids, business.industry, Herbicides, Crop yield, fungi, food and beverages, General Medicine, Weed control, Plants, Genetically Modified, Biotechnology, 010602 entomology, chemistry, Agriculture, Insect Science, Trait, Soybeans, Propionates, business, Weed, Genetic Engineering, Agronomy and Crop Science, 010606 plant biology & botany, Herbicide Resistance

Abstract

BACKGROUND Effective management of weedy species in agricultural fields is essential for maintaining favorable growing conditions and crop yields. The introduction of genetically modified crops containing herbicide tolerance traits has been a successful additional tool available to farmers to better control weeds. However, weed resistance challenges present a need for additional herbicide tolerance trait options. RESULTS To help meet this challenge, a new trait that provides tolerance to an aryloxyphenoxypropionate (FOP) herbicide and members of the synthetic auxin herbicide family, such as 2,4-dichlorophenoxyacetic acid (2,4-D), was developed. Development of this herbicide tolerance trait employed an enzyme engineered with robust and specific enzymatic activity for these two herbicide families. This engineering effort utilized a microbial-sourced dioxygenase scaffold to generate variants with improved enzymatic parameters. Additional optimization to enhance in-plant stability of the enzyme enabled an efficacious trait that can withstand the higher temperature conditions often found in field environments. CONCLUSION Optimized herbicide tolerance enzyme variants with enhanced enzymatic and temperature stability parameters enabled robust herbicide tolerance for two herbicide families in transgenic maize and soybeans. This herbicide tolerance trait for FOP and synthetic auxin herbicides such as 2,4-D could be useful in weed management systems, providing additional tools for farmers to control weeds. © 2019 Society of Chemical Industry.

Published

2019

18. [Physiological changes of Saccharomyces cerevisiae during serial re-pitching: a review]

Author

Huajian, Ding, Jinjing, Wang, Jiaqi, Zhu, Meiying, Zheng, Feiyun, Zheng, Yongxian, Li, Chengtuo, Niu, Chunfeng, Liu, and Qi, Li

Subjects

Microbiological Techniques, Industrial Microbiology, Saccharomyces cerevisiae

Abstract

The morphological structure and physiological indexes of Saccharomyces cerevisiae have changed during serial re-pitching due to the stress conditions in serial handlings and the cells become aging. It is of great significance to study the physiological changes of S. cerevisiae during serial re-pitching to understand the anti-aging effect of S. cerevisiae. In this paper, the changes of the physiological indexes during re-pitching of yeast are summarized, and based on the analysis of the previous works further research directions are proposed.酿酒酵母在进行连续传代的过程中，细胞的形态结构以及细胞内的各项生理指标因受胁迫条件的影响而发生改变，细胞出现逐渐衰老现象。深入了解酿酒酵母在传代中的生理变化对酿酒酵母抗衰老研究具有重要意义。文中综述了酿酒酵母在传代过程中各项生理指标的变化，并提出了进一步研究的方向，以期为酵母在工业生产中的抗衰老研究提供理论依据和参考。.

Published

2018

19. pH control strategy of batch microbial transglutaminase production with Streptoverticillium mobaraense

Author

Meiying, Zheng, Guocheng, Du, and Jian, Chen

Published

2002

20. Structure of the full-length insecticidal protein Cry1Ac reveals intriguing details of toxin packaging intoin vivoformed crystals

Author

Artem G. Evdokimov, Timothy J. Rydel, Sonya J. Franklin, Meiying Zheng, Jeffrey W. Seale, Farhad Moshiri, and Eric J. Sturman

Subjects

Stereochemistry, Toxin, fungi, Biology, biology.organism_classification, medicine.disease_cause, Biochemistry, Crystal, Protein structure, Cry1Ac, In vivo, Bacillus thuringiensis, Biophysics, medicine, Natural enemies, Enhancer, Molecular Biology

Abstract

For almost half a century, the structure of the full-length Bacillus thuringiensis (Bt) insecticidal protein Cry1Ac has eluded researchers, since Bt-derived crystals were first characterized in 1965. Having finally solved this structure we report intriguing details of the lattice-based interactions between the toxic core of the protein and the protoxin domains. The structure provides concrete evidence for the function of the protoxin as an enhancer of native crystal packing and stability.

Published

2014

21. Cover Image, Volume 75, Issue 8

Author

Clayton T Larue, Michael Goley, Lei Shi, Artem G Evdokimov, Oscar C Sparks, Christine Ellis, Andrew M Wollacott, Timothy J Rydel, Coralie E Halls, Brook Van Scoyoc, Xiaoran Fu, Jeffrey R Nageotte, Adewale M Adio, Meiying Zheng, Eric J Sturman, Graeme S Garvey, and Marguerite J Varagona

Subjects

Insect Science, General Medicine, Agronomy and Crop Science

Published

2019

22. The solution structure and dynamics of the DH-PH module of PDZRhoGEF in isolation and in complex with nucleotide-free RhoA

Author

Urszula Derewenda, Jakub Gruszczyk, Aming Zhang, Zygmunt S. Derewenda, Dmitri I. Svergun, Tomasz Cierpicki, John H. Bushweller, Marta Kasterka, Meiying Zheng, Jakub Bielnicki, Maxim V. Petoukhov, and Erik J. Fernandez

Subjects

chemistry.chemical_classification, RHOA, GTP', biology, Chemistry, Protein dynamics, GTPase, Crystal structure, Biochemistry, Crystallography, Protein structure, biology.protein, Nucleotide, Guanine nucleotide exchange factor, Molecular Biology

Abstract

The DH-PH domain tandems of Dbl-homology guanine nucleotide exchange factors catalyze the exchange of GTP for GDP in Rho-family GTPases, and thus initiate a wide variety of cellular signaling cascades. Although several crystal structures of complexes of DH-PH tandems with cognate, nucleotide free Rho GTPases are known, they provide limited information about the dynamics of the complex and it is not clear how accurately they represent the structures in solution. We used a complementary combination of nuclear magnetic resonance (NMR), small-angle X-ray scattering (SAXS), and hydrogen-deuterium exchange mass spectrometry (DXMS) to study the solution structure and dynamics of the DH-PH tandem of RhoA-specific exchange factor PDZRhoGEF, both in isolation and in complex with nucleotide free RhoA. We show that in solution the DH-PH tandem behaves as a rigid entity and that the mutual disposition of the DH and PH domains remains identical within experimental error to that seen in the crystal structure of the complex, thus validating the latter as an accurate model of the complex in vivo. We also show that the nucleotide-free RhoA exhibits elevated dynamics when in complex with DH-PH, a phenomenon not observed in the crystal structure, presumably due to the restraining effects of crystal contacts. The complex is readily and rapidly dissociated in the presence of both GDP and GTP nucleotides, with no evidence of intermediate ternary complexes.

Published

2009

23. Functional genomic analysis of Arabidopsis thaliana glycoside hydrolase family 35

Author

Jonathan E. Poulton, Ming-Che Shih, Hsiao Ping Peng, Joseph T. Miller, Chi-Lien Cheng, Meiying Zheng, Asim Esen, Shin-Han Shiu, Jonas Benson, Young Ock Ahn, and David R. Bevan

Subjects

Pseudogene, Molecular Sequence Data, Arabidopsis, Plant Science, Horticulture, Biochemistry, Evolution, Molecular, Hydrolase, Escherichia coli, Arabidopsis thaliana, Glycoside hydrolase family 35, Molecular Biology, Phylogeny, Genetics, Glycoside hydrolase family 1, biology, Arabidopsis Proteins, Genomics, General Medicine, beta-Galactosidase, biology.organism_classification, Recombinant Proteins, Multigene Family, Heterologous expression, Functional genomics, Genome, Plant

Abstract

In plants, Glycoside Hydrolase (GH) Family 1 β-glycosidases are believed to play important roles in many diverse processes including chemical defense against herbivory, lignification, hydrolysis of cell wall-derived oligosaccharides during germination, and control of active phytohormone levels. Completion of the Arabidopsis thalianagenome sequencing project has enabled us, for the first time, to determine the total number of Family 1 members in a higher plant. Reiterative database searches revealed a multigene family of 48 members that includes eight probable pseudogenes. Manual reannotation and analysis of the entire family were undertaken to rectify existing misannotations and identify phylogenetic relationships among family members. Forty-seven members (designated BGLU1 through BGLU47) share a common evolutionary origin and were subdivided into approximately 10 subfamilies based on phylogenetic analysis and consideration of intron–exon organizations. The forty-eighth member of this family (At3g06510; sfr2) is a β-glucosidase-like gene that belongs to a distinct lineage. Information pertaining to expression patterns and potential functions of Arabidopsis GH Family 1 members is presented. To determine the biological function of all family members, we intend to investigate the substrate specificity of each mature hydrolase after its heterologous expression in the Pichia pastoris expression system. To test the validity of this approach, the BGLU44-encoded hydrolase was expressed in P. pastoris and purified to homogeneity. When tested against a wide range of natural and synthetic substrates, this enzyme showed a preference for β-mannosides including 1,4-β-D-mannooligosaccharides, suggesting that it may be involved in A. thaliana in degradation of mannans, galactomannans, or glucogalactomannans. Supporting this notion, BGLU44 shared high sequence identity and similar gene organization with tomato endosperm β-mannosidase and barley seed β-glucosidase/β-mannosidase BGQ60.

Published

2007

24. [Untitled]

Author

Shiyi Lun, Jian Chen, Meiying Zheng, and Guocheng Du

Subjects

Specific growth, biology, Batch fermentation, Physiology, Chemistry, Tissue transglutaminase, General Medicine, Applied Microbiology and Biotechnology, Lag time, Biochemistry, biology.protein, Fermentation, Food science, Streptoverticillium mobaraense, Microbial transglutaminase, Biotechnology

Abstract

Batch transglutaminase (MTG) fermentations by Streptovertivillium mobaraense WSH-Z2 at various temperatures ranging from 25 to 35 °C were studied. Dry cell weight and MTG activity could reach their maximal values of 25.1 g/l and 2.94 U/ml, respectively at 30 °C. One typical equation was used to describe the relationship between specific growth rate and culture temperature by comparing several typical equations. Different lag time was observed under various culture temperature. The low lag time was observed under high culture temperature. X = −a 0(T − T 0)2 + X 1 + a 1 (1 − exp(a 2 (T − T 1))) and U = −a 0 ′(T − T 0 ′)2 + U 0 + a 1 ′(1 − exp(a 2 ′(T − T 1 ′))) could be used to describe the relationship between temperature and the maximal dry cell weight as well as the maximal MTG activity at each temperature.

Published

2002

25. [Untitled]

Author

Tomohiro Endo, Meiying Zheng, and Wolfgang Zimmermann

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, Chromatography, Enzyme, chemistry, Cyclodextrin, Amylose, Starch, Yield (chemistry), Substrate (chemistry), Organic chemistry, Catalysis, Glucan

Abstract

The synthesis of large-ring cyclodextrins (LR-CD) with cyclodextrin glucanotransferase (CGTase) preparations from the bacterial isolates BT3, BT4, BT25 and BT57 was investigated. All CGTase preparations catalyzed the synthesis of LR-CD with 5% soluble starch or 2% synthetic amylose as substrate. The amount and size of LR-CD synthesized depended on the reaction time and on the particular CGTase preparation used. The yield of LR-CD obtained with the enzyme preparation from BT3 and synthetic amylose as substrate was about 18% of the total glucan amount after a reaction time of 23 h.

Published

2002

26. Dynactin helps target Polo-like kinase 1 to kinetochores via its left-handed beta-helical p27 subunit

Author

Urszula Derewenda, Meiying Zheng, Brett R. Scipioni, Anna K. Kowalska, Ting-Yu Yeh, Frances Ka Yan Cheong, Zygmunt S. Derewenda, and Trina A. Schroer

Subjects

Dynein, Cell Cycle Proteins, macromolecular substances, Chick Embryo, Spindle Apparatus, Biology, Protein Serine-Threonine Kinases, PLK1, Microtubules, General Biochemistry, Genetics and Molecular Biology, Article, Cell Line, Mice, Microtubule, Proto-Oncogene Proteins, Animals, Humans, Prometaphase, Phosphorylation, Kinetochores, Molecular Biology, General Immunology and Microbiology, Kinetochore, General Neuroscience, Dynactin Complex, Spindle apparatus, Cell biology, Protein Structure, Tertiary, Spindle checkpoint, Protein Subunits, Dynactin, Cattle, Microtubule-Associated Proteins

Abstract

Dynactin is a protein complex required for the in vivo function of cytoplasmic dynein, a microtubule (MT)-based motor. Dynactin binds both dynein and MTs via its p150(Glued) subunit, but little is known about the 'pointed-end complex' that includes the protein subunits Arp11, p62 and the p27/p25 heterodimer. Here, we show that the p27/p25 heterodimer undergoes mitotic phosphorylation by cyclin-dependent kinase 1 (Cdk1) at a single site, p27 Thr186, to generate an anchoring site for polo-like kinase 1 (Plk1) at kinetochores. Removal of p27/p25 from dynactin results in reduced levels of Plk1 and its phosphorylated substrates at kinetochores in prometaphase, which correlates with aberrant kinetochore-MT interactions, improper chromosome alignment and abbreviated mitosis. To investigate the structural implications of p27 phosphorylation, we determined the structure of human p27. This revealed an unusual left-handed β-helix domain, with the phosphorylation site located within a disordered, C-terminal segment. We conclude that dynactin plays a previously undescribed regulatory role in the spindle assembly checkpoint by recruiting Plk1 to kinetochores and facilitating phosphorylation of important downstream targets.

Published

2013

27. Involvement of the N-terminal B-box Domain of Arabidopsis BBX32 Protein in Interaction with Soybean BBX62 Protein*

Author

Ann Gibson, Yongcheng Wang, Dongming Jiang, James A. Morrell, Natalia B. Ivleva, Rosemarie Kuehn, Thomas G. Ruff, Paul J. Loida, Sasha Preuss, Grant W. Simmons, Santiago X. Navarro, Xiaoran Fu, Qungang Qi, Meiying Zheng, Erin Bell, Amanda L. McClerren, Marie E. Petracek, and Yanfei Wang

Subjects

Protein domain, Arabidopsis, Plant Biology, Biochemistry, Protein–protein interaction, Protein structure, Arabidopsis thaliana, Amino Acid Sequence, Site-directed mutagenesis, Molecular Biology, Sequence Deletion, Genetics, Zinc finger, biology, Arabidopsis Proteins, fungi, DHR1 domain, food and beverages, Cell Biology, biology.organism_classification, Cell biology, Protein Structure, Tertiary, Soybeans, Carrier Proteins, Protein Binding

Abstract

Previous studies have demonstrated that Arabidopsis thaliana BBX32 (AtBBX32) represses light signaling in A. thaliana and that expression of AtBBX32 in soybean increases grain yield in multiple locations and multiyear field trials. The BBX32 protein is a member of the B-box zinc finger family from A. thaliana and contains a single conserved Zn(2+)-binding B-box domain at the N terminus. Although the B-box domain is predicted to be involved in protein-protein interactions, the mechanism of interaction is poorly understood. Here, we provide in vitro and in vivo evidence demonstrating the physical and functional interactions of AtBBX32 with another B-box protein, soybean BBX62 (GmBBX62). Deletion analysis and characterization of the purified B-box domain indicate that the N-terminal B-box region of AtBBX32 interacts with GmBBX62. Computational modeling and site-directed mutagenesis of the AtBBX32 B-box region identified specific residues as critical for mediating the interaction between AtBBX32 and GmBBX62. This study defines the plant B-box as a protein interaction domain and offers novel insight into its role in mediating specific protein-protein interactions between different plant B-box proteins.

Published

2012

28. Structural features and chaperone activity of the NudC protein family

Author

Meiying Zheng, Alexander J. Burdette, Urszula Derewenda, Kim A. Caldwell, Paweł Ł. Janczyk, Darkhan Utepbergenov, P. Todd Stukenberg, Tomasz Cierpicki, and Zygmunt S. Derewenda

Subjects

Coiled coil, Genetics, Models, Molecular, Fungal protein, Protein family, Plasma protein binding, Biology, Article, Aspergillus nidulans, Structural genomics, Protein–protein interaction, Cell biology, Fungal Proteins, Protein structure, Structural Biology, Gene family, Amino Acid Sequence, Molecular Biology, Molecular Chaperones

Abstract

The NudC family consists of four conserved proteins with representatives in all eukaryotes. The archetypal nudC gene from Aspergillus nidulans is a member of the nud gene family that is involved in the maintenance of nuclear migration. This family also includes nudF, whose human orthologue, Lis1, codes for a protein essential for brain cortex development. Three paralogues of NudC are known in vertebrates: NudC, NudC-like (NudCL), and NudC-like 2 (NudCL2). The fourth distantly related member of the family, CML66, contains a NudC-like domain. The three principal NudC proteins have no catalytic activity but appear to play as yet poorly defined roles in proliferating and dividing cells. We present crystallographic and NMR studies of the human NudC protein and discuss the results in the context of structures recently deposited by structural genomics centers (i.e., NudCL and mouse NudCL2). All proteins share the same core CS domain characteristic of proteins acting either as cochaperones of Hsp90 or as independent small heat shock proteins. However, while NudC and NudCL dimerize via an N-terminally located coiled coil, the smaller NudCL2 lacks this motif and instead dimerizes as a result of unique domain swapping. We show that NudC and NudCL, but not NudCL2, inhibit the aggregation of several target proteins, consistent with an Hsp90-independent heat shock protein function. Importantly, and in contrast to several previous reports, none of the three proteins is able to form binary complexes with Lis1. The availability of structural information will be of help in further studies on the cellular functions of the NudC family.

Published

2011

29. ChemInform Abstract: Enzymatic Synthesis and Analysis of Large-Ring Cyclodextrins

Author

Tomohiro Endo, Wolfgang Zimmermann, and Meiying Zheng

Subjects

Chemistry, General Medicine, Enzymatic synthesis, Ring (chemistry), Combinatorial chemistry

Published

2010

30. The solution structure and dynamics of the DH-PH module of PDZRhoGEF in isolation and in complex with nucleotide-free RhoA

Author

Tomasz, Cierpicki, Jakub, Bielnicki, Meiying, Zheng, Jakub, Gruszczyk, Marta, Kasterka, Maxim, Petoukhov, Aming, Zhang, Erik J, Fernandez, Dmitri I, Svergun, Urszula, Derewenda, John H, Bushweller, and Zygmunt S, Derewenda

Subjects

Protein Conformation, Multiprotein Complexes, Guanine Nucleotide Exchange Factors, Humans, PDZ Domains, rhoA GTP-Binding Protein, Rho Guanine Nucleotide Exchange Factors, Article

Abstract

The DH-PH domain tandems of Dbl-homology guanine nucleotide exchange factors catalyze the exchange of GTP for GDP in Rho-family GTPases, and thus initiate a wide variety of cellular signaling cascades. Although several crystal structures of complexes of DH-PH tandems with cognate, nucleotide free Rho GTPases are known, they provide limited information about the dynamics of the complex and it is not clear how accurately they represent the structures in solution. We used a complementary combination of nuclear magnetic resonance (NMR), small-angle X-ray scattering (SAXS), and hydrogen-deuterium exchange mass spectrometry (DXMS) to study the solution structure and dynamics of the DH-PH tandem of RhoA-specific exchange factor PDZRhoGEF, both in isolation and in complex with nucleotide free RhoA. We show that in solution the DH-PH tandem behaves as a rigid entity and that the mutual disposition of the DH and PH domains remains identical within experimental error to that seen in the crystal structure of the complex, thus validating the latter as an accurate model of the complex in vivo. We also show that the nucleotide-free RhoA exhibits elevated dynamics when in complex with DH-PH, a phenomenon not observed in the crystal structure, presumably due to the restraining effects of crystal contacts. The complex is readily and rapidly dissociated in the presence of both GDP and GTP nucleotides, with no evidence of intermediate ternary complexes.

Published

2009

31. Structure of Thermotoga maritima TM0439: implications for the mechanism of bacterial GntR transcription regulators with Zn2+-binding FCD domains

Author

Li-Wei Hung, Scott A. Lesley, Urszula Derewenda, Marcin Cieslik, Zygmunt S. Derewenda, Minmin Yu, Meiying Zheng, David P. Giedroc, Ian A. Wilson, David R. Cooper, and Nickolas E. Grossoehme

Subjects

Models, Molecular, Protein Conformation, Recombinant Fusion Proteins, Amino Acid Motifs, Bacterial genome size, Computational biology, Crystallography, X-Ray, DNA-binding protein, Conserved sequence, Corynebacterium glutamicum, Structural genomics, Structure-Activity Relationship, Protein structure, Bacterial Proteins, Structural Biology, Nickel, Thermotoga maritima, Amino Acid Sequence, Transcription factor, Conserved Sequence, Binding Sites, biology, General Medicine, Gene Expression Regulation, Bacterial, biology.organism_classification, Research Papers, Protein Structure, Tertiary, DNA-Binding Proteins, Repressor Proteins, Zinc, Biochemistry, Multigene Family, Dimerization

Abstract

The GntR superfamily of dimeric transcription factors, with more than 6200 members encoded in bacterial genomes, are characterized by N-terminal winged-helix DNA-binding domains and diverse C-terminal regulatory domains which provide a basis for the classification of the constituent families. The largest of these families, FadR, contains nearly 3000 proteins with all-alpha-helical regulatory domains classified into two related Pfam families: FadR_C and FCD. Only two crystal structures of FadR-family members, those of Escherichia coli FadR protein and LldR from Corynebacterium glutamicum, have been described to date in the literature. Here, the crystal structure of TM0439, a GntR regulator with an FCD domain found in the Thermotoga maritima genome, is described. The FCD domain is similar to that of the LldR regulator and contains a buried metal-binding site. Using atomic absorption spectroscopy and Trp fluorescence, it is shown that the recombinant protein contains bound Ni(2+) ions but that it is able to bind Zn(2+) with K(d)70 nM. It is concluded that Zn(2+) is the likely physiological metal and that it may perform either structural or regulatory roles or both. Finally, the TM0439 structure is compared with two other FadR-family structures recently deposited by structural genomics consortia. The results call for a revision in the classification of the FadR family of transcription factors.

Published

2009

32. Towards a high‐resolution structure of dynactin

Author

Urszula Derewenda, Meiying Zheng, and Zygmunt S. Derewenda

Subjects

Materials science, Optics, business.industry, Resolution (electron density), Genetics, Dynactin, business, Molecular Biology, Biochemistry, Biotechnology

Published

2006

33. On the mechanism of autoinhibition of the RhoA-specific nucleotide exchange factor PDZRhoGEF

Author

Zygmunt S. Derewenda, Ko Momotani, Tomasz Cierpicki, Mykhaylo V. Artamonov, Avril V. Somlyo, John H. Bushweller, Urszula Derewenda, and Meiying Zheng

Subjects

Conformational change, RHOA, PDZ domain, PDZ Domains, GTPase, Nucleotide exchange factor, 03 medical and health sciences, Mice, 0302 clinical medicine, Structural Biology, Catalytic Domain, Animals, Guanine Nucleotide Exchange Factors, Humans, lcsh:QH301-705.5, 030304 developmental biology, G protein-coupled receptor, 0303 health sciences, biology, Cell biology, lcsh:Biology (General), Biochemistry, Models, Chemical, Mutation, biology.protein, NIH 3T3 Cells, Guanine nucleotide exchange factor, Sequence motif, 030217 neurology & neurosurgery, Rho Guanine Nucleotide Exchange Factors, Research Article

Abstract

BackgroundThe Dbl-family of guanine nucleotide exchange factors (GEFs) activate the cytosolic GTPases of the Rho family by enhancing the rate of exchange of GTP for GDP on the cognate GTPase. This catalytic activity resides in the DH (Dbl-homology) domain, but typically GEFs are multidomain proteins containing other modules. It is believed that GEFs are autoinhibited in the cytosol due to supramodular architecture, and become activated in diverse signaling pathways through conformational change and exposure of the DH domain, as the protein is translocated to the membrane. A small family of RhoA-specific GEFs, containing the RGSL (regulators of G-protein signaling-like) domain, act as effectors of select GPCRsviaGα12/13, although the molecular mechanism by which this pathway operates is not known. These GEFs include p115, LARG and PDZRhoGEF (PRG).ResultsHere we show that the autoinhibition of PRG is caused largely by an interaction of a short negatively charged sequence motif, immediately upstream of the DH-domain and including residues Asp706, Glu708, Glu710 and Asp712, with a patch on the catalytic surface of the DH-domain including Arg867 and Arg868. In the absence of both PDZ and RGSL domains, the DH-PH tandem with additional 21 residues upstream, is 50% autoinhibited. However, within the full-length protein, the PDZ and/or RGSL domains significantly restore autoinhibition.ConclusionOur results suggest a mechanism for autoinhibition of RGSL family of GEFs, in which the RGSL domain and a unique sequence motif upstream of the DH domain, act cooperatively to reduce the ability of the DH domain to bind the nucleotide free RhoA. The activation mechanism is likely to involve two independent steps, i.e. displacement of the RGSL domain and conformational change involving the autoinhibitory sequence motif containing several negatively charged residues.

Published

2009

34. On the mechanism of autoinhibition of the RhoA-specific nucleotide exchange factor PDZRhoGEF.

Author

Meiying Zheng, Cierpicki, Tomasz, Ko Momotani, Artamonov, Mykhaylo V., Derewenda, Urszula, Bushweller, John H., Somlyo, Avril V., and Derewenda, Zygmunt S.

Subjects

*NUCLEOTIDES, *NUCLEIC acids, *OLIGONUCLEOTIDES, *PROMOTERS (Genetics), *PYRIMIDINE nucleotides, *G proteins

Abstract

Background: The Dbl-family of guanine nucleotide exchange factors (GEFs) activate the cytosolic GTPases of the Rho family by enhancing the rate of exchange of GTP for GDP on the cognate GTPase. This catalytic activity resides in the DH (Dbl-homology) domain, but typically GEFs are multidomain proteins containing other modules. It is believed that GEFs are autoinhibited in the cytosol due to supramodular architecture, and become activated in diverse signaling pathways through conformational change and exposure of the DH domain, as the protein is translocated to the membrane. A small family of RhoA-specific GEFs, containing the RGSL (regulators of G-protein signaling-like) domain, act as effectors of select GPCRs via Gα12/13, although the molecular mechanism by which this pathway operates is not known. These GEFs include p115, LARG and PDZRhoGEF (PRG). Results: Here we show that the autoinhibition of PRG is caused largely by an interaction of a short negatively charged sequence motif, immediately upstream of the DH-domain and including residues Asp706, Glu708, Glu710 and Asp712, with a patch on the catalytic surface of the DH-domain including Arg867 and Arg868. In the absence of both PDZ and RGSL domains, the DH-PH tandem with additional 21 residues upstream, is 50% autoinhibited. However, within the full-length protein, the PDZ and/or RGSL domains significantly restore autoinhibition. Conclusion: Our results suggest a mechanism for autoinhibition of RGSL family of GEFs, in which the RGSL domain and a unique sequence motif upstream of the DH domain, act cooperatively to reduce the ability of the DH domain to bind the nucleotide free RhoA. The activation mechanism is likely to involve two independent steps, i.e. displacement of the RGSL domain and conformational change involving the autoinhibitory sequence motif containing several negatively charged residues. [ABSTRACT FROM AUTHOR]

Published

2009

35. Synthesis of Large-Ring Cyclodextrins by Cyclodextrin Glucanotransferases from Bacterial Isolates.

Author

Meiying Zheng, Tomohiro Endo, and Wolfgang Zimmermann

Abstract

The synthesis of large-ring cyclodextrins (LR-CD) with cyclodextrin glucanotransferase (CGTase) preparations from the bacterial isolates BT3, BT4, BT25 and BT57 was investigated. All CGTase preparations catalyzed the synthesis of LR-CD with 5% soluble starch or 2% synthetic amylose as substrate. The amount and size of LR-CD synthesized depended on the reaction time and on the particular CGTase preparation used. The yield of LR-CD obtained with the enzyme preparation from BT3 and synthetic amylose as substrate was about 18% of the total glucan amount after a reaction time of 23 h. [ABSTRACT FROM AUTHOR]

Published

2002

36. Involvement of the N-terminal B-box Domain of Arabidopsis BBX32 Protein in Interaction with Soybean BBX62 Protein.

Author

Qungang Qi, Gibson, Ann, Xiaoran Fu, Meiying Zheng, Kuehn, Rosemarie, Yongcheng Wang, Yanfei Wang, Navarro, Santiago, Morrell, James A., Dongming Jiang, Simmons, Grant, Bell, Erin, Ivleva, Natalia B., McClerren, Amanda L., Loida, Paul, Ruff, Thomas G., Petracek, Marie E., and Preuss, Sasha B.

Subjects

*ARABIDOPSIS, *GENE expression, *SOYBEAN, *CROP genetics, *PROTEIN-protein interactions, *ZINC

Abstract

Previous studies have demonstrated that Arabidopsis thaliana BBX32 (AtBBX32) represses light signaling in A. thaliana and that expression of AtBBX32 in soybean increases grain yield in multiple locations and multiyear field trials. The BBX32 protein is a member of the B-box zinc finger family from A. thaliana and contains a single conserved Zn2+-binding B-box domain at the N terminus. Although the B-box domain is predicted to be involved in protein-protein interactions, the mechanism of interaction is poorly understood. Here, we provide in vitro and in vivo evidence demonstrating the physical and functional interactions of AtBBX32 with another B-box protein, soybean BBX62 (GmBBX62). Deletion analysis and characterization of the purified B-box domain indicate that the N-terminal B-box region of AtBBX32 interacts with GmBBX62. Computational modeling and site-directed mutagenesis of the AtBBX32 B-box region identified specific residues as critical for mediating the interaction between AtBBX32 and GmBBX62. This study defines the plant B-box as a protein interaction domain and offers novel insight into its role in mediating specific proteinprotein interactions between different plant B-box proteins. [ABSTRACT FROM AUTHOR]

Published

2012