Tadao Fujimura scite author profile

Heterozygous alpha 1,3-galactosyltransferase (GT) gene knockout pigs were produced with transgenic pig fetal cells expressing both human decay-accelerating factor (hDAF) and N-acetylglucosaminyltransferase III (GnT-III). In this study, we assessed the gene targeting efficiency in the transgenic pig fetal cells derived from different fetal tissues such as brain, skin, heart, and liver, or fetal carcass. Targeted cell colonies were selected by hygromycin B. The GT-knockout colonies (KO colonies) were obtained equally from the cells derived from all tissues except liver. Staining with five antibodies against intermediate filaments, all examined KO cell lines stained positive for vimentin with the exception of a colony that stained positive for both vimentin and glial fibrillary acidic protein simultaneously. This is the first study to produce KO cells from the astrocytes. Some of these KO cell lines were used for nuclear transfer (NT) to obtain KO pig fetuses. Fourteen fetuses were obtained from two recipients of the embryo transfer and eight of them had normal ploidy. The cells from the KO pig fetuses were also used for NT to produce cloned KO pigs. Two healthy clone pigs were born. These pigs were determined to have a heterozygous knockout GT gene and the two transgenes. The cells collected from the KO pigs were shown to have similar expression levels of hDAF and GnT-III compared to their original transgenic pigs and less than a half levels of the alphaGal epitopes existed in wild-type pig cells.

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A Real-Time Quantitative PCR Detection Method for Pork, Chicken, Beef, Mutton, and Horseflesh in Foods

Tanabe

Hase²,

Yano³

et al. 2007

Bioscience, Biotechnology, and Biochemistry

115

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Production of alpha 1,3‐Galactosyltransferase gene‐deficient pigs by somatic cell nuclear transfer: A novel selection method for gal alpha 1,3‐Gal antigen‐deficient cells

Fujimura¹,

Takahagi²,

Shigehisa³

et al. 2008

Molecular Reproduction Devel

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The objective of the present study was to isolate alpha 1,3-galactosyltransferase (GalGT)-gene double knockout (DKO) cells using a novel simple method of cell selection method. To obtain GalGT-DKO cells, GalGT-gene single knockout (SKO) fetal fibroblast cells were cultured for three to nine passages and GalGT-null cells were separated using a biotin-labeled IB4 lectin attached to streptavidin-coated magnetic beads. After 15-17 days of additional cultivation, seven GalGT-DKO cell colonies were obtained from a total of 2.5 x 10(7) GalGT-SKO cells. A total of 926 somatic nuclear transferred embryos reconstructed with the DKO cells were transferred into eight recipient pigs, producing four farrowed, three liveborns, and six stillborns. Absence of GalGT gene in the cloned pigs was confirmed by PCR and Southern blotting. Flow cytometric analysis revealed that alphaGal antigens were not present in the cells of the cloned DKO pigs.

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Development of efficient strategies for the production of genetically modified pigs

Nagashima

Fujimura²,

Takahagi³

et al. 2003

Theriogenology

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Tadao Fujimura

Somatic cell reprogramming-free generation of genetically modified pigs

Production of α1,3‐galactosyltransferase gene knockout pigs expressing both human decay‐accelerating factor and N‐acetylglucosaminyltransferase III

A Real-Time Quantitative PCR Detection Method for Pork, Chicken, Beef, Mutton, and Horseflesh in Foods

Production of alpha 1,3‐Galactosyltransferase gene‐deficient pigs by somatic cell nuclear transfer: A novel selection method for gal alpha 1,3‐Gal antigen‐deficient cells

Development of efficient strategies for the production of genetically modified pigs

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