Hirohito Yamakawa scite author profile

A qualitative method for detection of peanuts in foods using polymerase chain reaction was developed. A universal primer pair CP 03‐5′/CP 03‐3′ was designed to confirm the validity of the DNAs for PCR. The plant‐specific amplified fragments were detected from 13 kinds of plants using the universal primer pair. In addition, for the specific detection of peanuts with high sensitivity, the primer pair agg 04‐5′/agg 05‐3′ was designed to detect the gene encoding the peanut agglutinin precursor. The primer pair specifically generates a 95‐bp amplified fragment from peanut genomic DNA. Five hundred femto grams of peanut genomic DNA can be detected using the established method. The same qualitative results were obtained from both model processed and nonprocessed food samples containing 0.001, 0.01 and 0.1% of peanut. Moreover, it was shown that the trace amount of peanut in the commercial food products could be qualitatively detected using this method. The reproducibility and applicability of the proposed methods were verified in a six‐laboratory collaborative study.

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Cryopreservation of Bovine Pre-Morula-Stage In Vitro Matured/In Vitro Fertilized Embryos after Delipidation and before Use in Nucleus Transfer

Ushijima¹,

Yamakawa²,

Nagashima

1999

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We have determined that the tolerance of in vitro matured/in vitro fertilized (IVM/IVF) bovine embryos to cryopreservation at the pre-morula stage can be improved by removal of cytoplasmic lipid droplets by centrifugation. Nucleus transfer was also performed using cryopreserved, delipated (lipid droplets removed) 8- to 16-cell-stage blastomeres of IVM/IVF embryos as donor nuclei. In vitro developmental ability of the delipated embryos to the blastocyst stage (20 of 126) was found to be equal to that of undelipated embryos (35 of 176); and of 53 delipated embryos cryopreserved at the 8- to 16-cell stage, 12 developed into blastocysts in vitro after thawing. On the other hand, only 2 of 43 undelipated embryos and 5 of 59 sham-operated embryos survived (p < 0.05). When blastomeres isolated from cryopreserved, delipated 8- to 16-cell-stage embryos were used for nucleus transfer, 57 of 80 successfully fused with enucleated oocytes, which was significantly lower than the fusion rate obtained with blastomeres of unfrozen, undelipated embryos (93 of 104, p < 0.01). However, the developmental rate to the blastocyst stage for nucleus transfer embryos reconstituted with frozen, delipated blastomeres (9 of 57) was not different from that of the nucleus transfer embryos with unfrozen, undelipated embryos (23 of 93). These results confirm that removal of cytoplasmic lipid droplets from bovine IVM/IVF zygotes allows for successful cryopreservation at the 8- to 16-cell stage and that blastomeres from these embryos can be used as donors of karyoplasts for nucleus transfer.

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Freezability of porcine blastocysts at different peri-hatching stages

Nagashima

Yamakawa

Niemann³

1992

Theriogenology

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Introduction of α(1,2)‐fucosyltransferase and its effect on a‐Gal epitopes in transgenic pig

Koike

Kannagi

Takuma³

et al. 1996

Xenotransplantation

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Hyperacute rejection (from pig to human) is thought to result from activation of complement initiated by the binding of host natural antibodies to α‐galactosyl (α‐Gal) epitopes of donor endothelial cells. However, α‐Gal epitope shares a common precursor with H antigen in humans. This means that H antigens as well as α‐Gal epitopes are synthesized in a competitive manner by different enzymes. We thought that it would be possible to convert α‐Gal epitopes into H antigens by introducing cDNA of α(1,2)‐fucosyltransferase (α1–2FT) into porcine cells, and so, pig embryos were microinjected with αl‐2FT cDNA. Transgenic pigs that carried α1–2FT were thus established. Cytotoxicity of fibrocytes derived from skin of transgenic pig was measured by 51Cr release assay, which showed that H antigen‐expressing cells were significantly resistant to a challenge with human sera. These experiments indicate that our method provides a new strategy which contributes to a successful discordant xenotransplantation.

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Development of Taxon-Specific Sequences of Common Wheat for the Detection of Genetically Modified Wheat

Iida

Yamashiro²,

Yamakawa³

et al. 2005

J. Agric. Food Chem.

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Qualitative and quantitative Polymerase Chain Reaction (PCR) systems aimed at the specific detection and quantification of common wheat DNA are described. Many countries have issued regulations to label foods that include genetically modified organisms (GMOs). PCR technology is widely recognized as a reliable and useful technique for the qualitative and quantitative detection of GMOs. Detection methods are needed to amplify a target GM gene, and the amplified results should be compared with those of the corresponding taxon-specific reference gene to obtain reliable results. This paper describes the development of a specific DNA sequence in the waxy-D1 gene for common wheat (Triticum aestivum L.) and the design of a specific primer pair and TaqMan probe on the waxy-D1 gene for PCR analysis. The primers amplified a product (Wx012) of 102 bp. It is indicated that the Wx012 DNA sequence is specific to common wheat, showing homogeneity in qualitative PCR results and very similar quantification accuracy along 19 distantly related common wheat varieties. In Southern blot and real-time PCR analyses, this sequence showed either a single or a low number of copy genes. In addition, by qualitative and quantitative PCR using wx012 primers and a wx012-T probe, the limits of detection of the common wheat genome were found to be about 15 copies, and the reproducibility was reliable. In consequence, the PCR system using wx012 primers and wx012-T probe is considered to be suitable for use as a common wheat-specific taxon-specific reference gene in DNA analyses, including GMO tests.

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