Megumi Yoshioka scite author profile

BackgroundAlthough a variety of animals have been used to produce polyclonal antibodies against antigens, the production of antigen-specific monoclonal antibodies from animals remains challenging.ResultsWe propose a simple and rapid strategy to produce monoclonal antibodies from a variety of animals. By staining lymph node cells with an antibody against immunoglobulin and a fluorescent dye specific for the endoplasmic reticulum, plasma/plasmablast cells were identified without using a series of antibodies against lineage markers. By using a fluorescently labeled antigen as a tag for a complementary cell surface immunoglobulin, antigen-specific plasma/plasmablast cells were sorted from the rest of the cell population by fluorescence-activated cell sorting. Amplification of cognate pairs of immunoglobulin heavy and light chain genes followed by DNA transfection into 293FT cells resulted in the highly efficient production of antigen-specific monoclonal antibodies from a variety of immunized animals.ConclusionsOur technology eliminates the need for both cell propagation and screening processes, offering a significant advantage over hybridoma and display strategies.

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Bacillus subtilis pgsE (Formerly ywtC) stimulates poly‐γ‐glutamate production in the presence of zinc

Yamashiro

Yoshioka

Ashiuchi

2010

Biotech & Bioengineering

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Poly-γ-glutamate (PGA) is a versatile nylon-like material, and enhanced production of PGA is required for various bio-industrial applications. In this study, we first examined the effects of available sugars on the production of Bacillus subtilis PGA, and demonstrated the good applicability of pentoses (e.g., D-xylose). Then, we characterized the pgsE gene of B. subtilis, which encodes a 6.5-kDa protein of 55 amino acids (PgsE), as a genetic tool for increasing the yield of PGA without changing its structural features (e.g., polymer stereochemistry and molecular size distribution). In the presence of Zn(2+), the induction of PgsE tripled the PGA productivity of B. subtilis subsp. chungkookjang. This finding will contribute to the establishment of an improved PGA-production system.

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Age-Specific Profiles of Antibody Responses against Respiratory Syncytial Virus Infection

et al. 2017

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Respiratory syncytial virus (RSV) is one of the most prevalent causative agents of lower respiratory tract infections worldwide, especially in infants around 3 to 4 months old. Infants at such a young age have maternally-transferred passive antibodies against RSV but do not have active immune systems efficient enough for the control of RSV infection. In order to elucidate age-specific profiles of immune responses against RSV protection, antibody responses were examined by using blood samples in both acute and convalescent phases obtained from child patients and adult patients. In addition to the serum neutralization activity, antibody responses to the RSV fusion protein (F protein) were dissected by analyzing levels of total IgG, IgG subclasses, the binding stability, and the levels of antibody for the neutralization epitopes. It was suggested that children's antibody responses against RSV are matured over months and years in at least 5 stages based on 1) levels of the neutralization titer and IgG3 for F protein in the convalescent phase, 2) geometric mean ratios of the neutralization titers and levels of IgG1 and IgG2 for F protein in the convalescent phase compared to those levels in the acute phase, 3) the affinity maturation of IgG for F protein and the cross reactivity of IgG for RSV glycoproteins of groups A and B, 4) levels of neutralization epitope-specific IgG, and 5) augmentation of overall antibody responses due to repetitive RSV infection.

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Target-selective joint polymerase chain reaction: A robust and rapid method for high-throughput production of recombinant monoclonal antibodies from single cells

2011

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BackgroundDuring the development of a therapeutic antibody, large numbers of monoclonal antibodies are required to screen for those that are best suited for the desired activity. Although the single cell-based immunoglobulin variable gene cloning technique is a powerful tool, the current methods remain an obstacle to the rapid production of large numbers of recombinant antibodies.ResultsWe have developed a novel overlap extension polymerase chain reaction, the target-selective joint polymerase chain reaction (TS-jPCR), and applied it to the generation of linear immunoglobulin gene expression constructs. TS-jPCR is conducted using a PCR-amplified immunoglobulin variable gene and an immunoglobulin gene-selective cassette (Ig-cassette) that contains all essential elements for antibody expression and overlapping areas of immunoglobulin gene-specific homology. The TS-jPCR technique is simple and specific; the 3'-random nucleotide-tailed immunoglobulin variable gene fragment and the Ig-cassette are assembled into a linear immunoglobulin expression construct, even in the presence of nonspecifically amplified DNA. We also developed a robotic magnetic beads handling instrument for single cell-based cDNA synthesis to amplify immunoglobulin variable genes by rapid amplification of 5' cDNA ends PCR. Using these methods, we were able to produce recombinant monoclonal antibodies from large numbers of single plasma cells within four days.ConclusionOur system reduces the burden of antibody discovery and engineering by rapidly producing large numbers of recombinant monoclonal antibodies in a short period of time.

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Megumi Yoshioka

Rapid production of antigen-specific monoclonal antibodies from a variety of animals

Bacillus subtilis pgsE (Formerly ywtC) stimulates poly‐γ‐glutamate production in the presence of zinc

Age-Specific Profiles of Antibody Responses against Respiratory Syncytial Virus Infection

Target-selective joint polymerase chain reaction: A robust and rapid method for high-throughput production of recombinant monoclonal antibodies from single cells

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