Rong-Huay Juang

Presence of three rice sucrose synthase genes as revealed by cloning and sequencing of cDNA

By sequencing cDNA clones, we have concluded that three distinct sucrose genes are expressed in rice (Oryza sativa cv. Tainong 67). When the amino acid sequences deduced from these cDNAs as well as those of known sucrose synthase are compared, the highest divergence is found in the C-termini. The most suitable DNA sequences for use as specific for the mRNA derived from these genes have been suggested.

Oven-drying method for polyacrylamide gel slab packed in cellophane sandwich

Polyacrylamide gel slabs can be dried quickly without elaborate tools and the results are similar or even better than those obtained with a commercial drying apparatus. The discontinuous, sodium dodecyl sulfate, and gradient polyacrylamide gel slabs yielded similar results regardless of the staining methods, e.g., Coomassie blue, periodate-Schiffs reagent, or ammoniacal silver.

Phytochelatin synthase is regulated by protein phosphorylation at a threonine residue near its catalytic site.

Heavy metals are toxic to most living organisms and cause health problems by contaminating agricultural products. In plants, phytochelatin synthase (PCS, EC 2.3.2.15) uses glutathione (GSH) as its substrate to catalyze the synthesis of heavy metal-binding peptides, known as phytochelatins (PC). PCS has been described as a constitutive enzyme that may be controlled by post-translational modifications. However, the detailed mechanism of its catalytic activity is not clear. In this study, in vitro experiments demonstrate that PCS activity increased following phosphorylation by casein kinase 2 (CK2) and decreased following treatment with alkaline phosphatase. Site-directed mutagenesis experiments at amino acids on AtPCS1 indicate that Thr 49 is the site for phosphorylation. This is further supported by fact that the mutant AtPCS1(T49A) cannot be phosphorylated, and its activity is significantly lower than that of the wild-type enzyme. In the modeled three-dimensional structure of AtPCS1, Arg 183 is within close proximity to Thr 49. The mutant AtPCS1(R183A) can be phosphorylated, but it shows much lower catalytic activity than the wild-type protein. This result suggested that Arg 183 may play an important role in the catalytic mechanism of AtPCS1. The possibility of the presence of a second substrate-binding site as a result of the interaction of these two amino acids is discussed. In addition, the activity of AtPCS1 was also found to be modulated by the C-terminal domain. The N-terminal catalytic domain of AtPCS1 was expressed (AtPCS1-N), and its catalytic activity was found to be even more sensitive to Cd or phosphorylation status than was the full-length enzyme.

Canine CD8 T cells showing NK cytotoxic activity express mRNAs for NK cell-associated surface molecules

Natural killer (NK) cells have been considered to be a group of lymphocytes lacking clonally distributed receptors for antigens typical of T cells and B cells. In some mammalian species, including humans, a subpopulation of CD8(+) peripheral blood lymphocytes (PBLs) exhibits NK activity. This NK subpopulation has not been well characterized in mammals and its characterization is particularly poor in the dog. In this study, we demonstrated that a subset of canine CD8(+) cells derived from PBLs and lymphokine (IL-2)-activated killers (LAKs) of PBLs that was CD3(+), CD4(-), CD21(-), CD5(lo), alpha/betaTCR(+), and gamma/deltaTCR(-) contained substantially higher levels of mRNAs for NK cell-related receptors (NKp30, NKp44, NKG2D, 2B4, and CD16 for PBL, and NKG2D and CD56 for LAK) than the corresponding CD8(-) cells. This subset of CD8(+) lymphocytes derived from LAKs also displayed significantly higher NK cytotoxic activity than the corresponding CD8(-) cells. In contrast, CD8(+) cells derived from nonstimulated PBLs showed very low levels of NK cytotoxic activity. Our results indicate that, in IL-2-stimulated PBLs, canine CD8(+) cells are an important subset associated with NK cytotoxic activity.

A comprehensive evaluation of imidazole-zinc reverse stain for current proteomic researches

In this paper, we comprehensively evaluated the capability of imidazole‐zinc reverse stain (ZN) in comparative proteomics. Three commonly used protein gel staining methods, including silver (SN), SYPRO Ruby (SR), and CB stain were investigated alongside for comparison purpose. A transparency scanning procedure, which may deliver more even and contrasting gel images, was found best for documenting ZN stained gels. Our results showed that ZN was more sensitive than SN, SR, and CB. It may reveal as few as 1.8 ng of proteins in a gel. Moreover, ZN was found to provide a linear dynamic range of staining for revealing proteins up to 140 ng, and show an insignificant staining preference. To analyze a ZN stained 2‐D gel image that generally comprises an apparent but even background, the Melanie 4 software was found more suitable than others. Furthermore, ZN demonstrated an equivalent or better MS compatibility than the other three staining methods. Intense and comprehensive MS profiles were frequently observed for ZN stained gel spots. Approximate two‐third of ZN stained gel spots were successfully identified for protein identities. Taken together, our results suggest that the prompt, cost effective and versatile ZN is well suited for current proteomic researches.

Detection of H6 influenza antibody by blocking enzyme-linked immunosorbent assay

Low pathogenic H6N1 avian influenza viruses (AIVs) have circulated in domestic chickens since 1972 in Taiwan. Detection of avian influenza (AI) antibody is a routine work for AI control in Taiwan. The currently available commercial enzyme-linked immunosorbent assays (ELISAs) are unable to differentiate antibody responses between different subtypes. To this end, a panel of monoclonal antibodies (mAbs) to A/chicken/Taiwan/2838V/00 (H6N1) was developed and implemented a blocking ELISA (bELISA) to detect the H6 antibody. These mAbs were confirmed specific to H6 AIVs. One monoclonal antibody was purified and labeled with horseradish peroxidase to set up a bELISA. The cut-off value was calculated to be 30% inhibition percentage from 138 H6-negative sera. The sensitivity and specificity of the bELISA were 100% and 97%, respectively. The bELISA detected seroconversion in H6-infected farms earlier than hemagglutination inhibition test. The results show that this bELISA could be used to detect H6 infection in the field.

Plastidial Starch Phosphorylase in Sweet Potato Roots Is Proteolytically Modified by Protein-Protein Interaction with the 20S Proteasome

Post-translational regulation plays an important role in cellular metabolism. Earlier studies showed that the activity of plastidial starch phosphorylase (Pho1) may be regulated by proteolytic modification. During the purification of Pho1 from sweet potato roots, we observed an unknown high molecular weight complex (HX) showing Pho1 activity. The two-dimensional gel electrophoresis, mass spectrometry, and reverse immunoprecipitation analyses showed that HX is composed of Pho1 and the 20S proteasome. Incubating sweet potato roots at 45°C triggers a stepwise degradation of Pho1; however, the degradation process can be partially inhibited by specific proteasome inhibitor MG132. The proteolytically modified Pho1 displays a lower binding affinity toward glucose 1-phosphate and a reduced starch-synthesizing activity. This study suggests that the 20S proteasome interacts with Pho1 and is involved in the regulation of the catalytic activity of Pho1 in sweet potato roots under heat stress conditions.

Preparation of monoclonal antibodies against poor immunogenic avian influenza virus proteins

This study established a novel method of pre-screening peptides for monoclonal antibody (mAb) production. Whole virus particles were used as antigens to produce mAbs in the first stage. However, most mAbs obtained from this method were aimed toward hemagglutinin. For this reason, synthetic peptides were used as antigens for mAb production that aimed at the AIV proteins with low abundance or poor immunogenicity in the virus particle. The peptides that showed high immunogenicity were designed using bioinformatic tools for immunization. For high-throughput, a rabbit was used to screen the immunogenicities of the synthetic peptides. Those showed high immunity were used for mAb preparation in mice. Several new mAbs against PB2, PA, M1, M2, NS1 and NS2 proteins were successfully obtained in this study. Furthermore, the epitopes of M1 and NS1 mAbs were determined using competitive western blot assay and competitive ELISA. This study might simplify the mAb preparation and serves as the basis for developing mAb against poor immunogenic proteins.

Multi-antigen avian influenza a (H7N9) virus-like particles: particulate characterizations and immunogenicity evaluation in murine and avian models

BackgroundHuman infection with avian influenza A virus (H7N9) was first reported in China in March 2013. Since then, hundreds of cases have been confirmed showing severe symptoms with a high mortality rate. The virus was transmitted from avian species to humans and has spread to many neighboring areas, raising serious concerns over its pandemic potential. Towards containing the disease, the goal of this study is to prepare a virus-like particle (VLP) that consists of hemagglutinin (HA), neuraminidase (NA) and matrix protein 1 (M1) derived from the human isolate A/Taiwan/S02076/2013(H7N9) for potential vaccine development.ResultsFull length HA, NA, and M1 protein genes were cloned and expressed using a baculoviral expression system, and the VLPs were generated by co-infecting insect cells with three respective recombinant baculoviruses. Nanoparticle tracking analysis and transmission electron microscopy were applied to verify the VLPs’ structure and antigenicity, and the multiplicity of infection of the recombinant baculoviruses was adjusted to achieve the highest hemagglutination activity. In animal experiments, BALB/c mice and specific-pathogen-free chickens receiving the VLP immunization showed elevated hemagglutination inhibition serum titer and antibodies against NA and M1 proteins. In addition, examination of cellular immunity showed the VLP-immunized mice and chickens exhibited an increased splenic antigen-specific cytokines production.ConclusionsThe H7N9 VLPs possess desirable immunogenicity in vivo and may serve as a candidate for vaccine development against avian influenza A (H7N9) infection.

A monoclonal antibody recognizes a highly conserved neutralizing epitope on hemagglutinin of H6N1 avian influenza virus

Neutralizing antibodies on the globular head of the hemagglutinin (HA) of avian influenza virus (AIV) are crucial for controlling this disease. However, most neutralizing antibodies lack cross reaction. This report describes the identification of a hemagglutinin epitope on the globular head near the receptor binding site of the H6N1 AIV. A monoclonal antibody named EB2 was prepared against the H6N1 AIV HA. Flow cytometry of AIV-infected chicken embryo fibroblast, DF-1 cells and specific-pathogen-free embryonated eggs were used to verify the neutralizing activity of this mAb. To narrow down the binding region, partially overlapping HA fragments and synthetic peptides were used to map the epitope by immune-blotting. The linear motif RYVRMGTESMN, located on the surface on the globular head of the HA protein, was identified as the epitope bound by EB2 mAb. Alignment of the EB2-defined epitope with other H6 AIVs showed that this epitope was conserved and specific to H6. We propose that this motif is a linear B-cell epitope of the HA protein and is near the receptor binding site. The identified epitope might be useful for clinical applications and as a tool for further study of the structure and function of the AIV HA protein.