Schmallenberg virus (SBV), a novel orthobunyavirus, was first isolated in 2011. SBV preferentially infects the central nervous system of cattle and sheep and causes fever, diarrhea, a drop in milk yields, congenital malformations and stillbirths. Until June 2014, more than 200 scientific publications regarding SBV have been published. Although more than 20 articles on SVB were published in China, most of these articles provided only a brief introduction of the disease without fully discussing the associated disease characteristics. As a new disease, it has been made a focus of the National Research Center for Exotic Animal Diseases at the China Animal Health and Epidemiology Center. In this review, in order to provide a reference for research into SBV in China, we have reviewed the state of current research progress on the etiology, diagnosis and epidemiology of SBV, and vaccine development.
Animals ; Bunyaviridae Infections ; diagnosis ; epidemiology ; veterinary ; virology ; Cattle ; China ; epidemiology ; Goats ; Host Specificity ; Orthobunyavirus ; classification ; genetics ; isolation & purification ; physiology ; Sheep

This study was performed to produce transgenic Korean native goat (Capra hircus) by laparoscopic embryo transfer (ET) to overcome the limitations of ET performed by laparotomy. Transgenic embryos were produced by DNA pronuclear microinjection of in vivo zygotes. The recipient goats were synchronized for estrus by using an introvaginal progesterone devices as a controlled internal drugreleasing insert (CIDR) for 13 days and injection of 400 IU PMSG 48 h before removal of the insert. Embryos were transferred on day 3 and 4 after removal of the insert. Recipient goats were deprived of feed for 48 h, then suspended in a laparotomy cradle at an angle of 45degrees. After obtaining a sufficient pneumoperitoneum, the laparoscope and forceps were inserted abdominally through 5 mm trocar sleeves. Examination of the ovaries and uterus was performed and then 213 embryos were transferred into the oviducts via the infundibula of 76 recipient goats. To compare pregnancy rates, ET was also performed by laparotomy in 82 recipient goats. The pregnancies in the recipient goats were diagnosed by ultrasound on day 30 after embryo transfer. The pregnancy rate with laparoscopic ET was significantly higher than with ET performed by laparotomy (46.1% vs. 28.6%, p < 0.05). In addition, the pregnancy rates were compared between ovulated and non-ovulated ovaries of the recipient goats in the laparoscopic ET group. No significant difference was observed between the pregnancy rates of ovulated and non-ovulated ovaries (41.3% vs. 33.3%, p < 0.05) suggesting that ET may also be possible in non-ovulated recipients through artificial rupture of Graafian follicles. These results suggest that laparoscopic ET is a highly efficient method for the transfer of goat embryos.
Animals ; Animals, Genetically Modified/*embryology ; Embryo Transfer/methods/*veterinary ; Female ; Goats/*genetics/physiology ; Laparoscopy/*veterinary ; Laparotomy/*veterinary ; Microinjections/veterinary ; Oocytes

Congenital Neospora caninum infection was diagnosed in two Saanen goat kids from two distinct herds with a history of abortion and weak newborn goat kids in the Southern region of the State of Minas Gerais, Brazil. The first kid was weak at birth, had difficulty to rise and was unable to nurse. Gross lesions of porencephaly and hydrocephalus ex vacuo were seen. Multifocal necrosis, gliosis and non-supurative encephalitis were observed in the brain. Several parasitic cysts with a thick wall that reacted strongly only with polyclonal antiserum to Neospora caninum were seen in the cerebral cortex, brain stem and cerebellum. The second kid was born from a Neospora caninum seropositive mother that aborted in the last pregnancy. It was born without clinical signs. The diagnosis of neosporosis was based on antibody titer of 1:800 to N. caninum by indirect fluorescence antibody test obtained from blood collected before the goat kid ingested the colostrum and Neospora caninum DNA was detected by polymerase chain reaction and sequenced from placenta. This is the first report of neosporosis in goats in the southeast region of Brazil.
Animals ; Antibodies, Protozoan/immunology ; Brazil ; Coccidiosis/congenital/immunology/parasitology/*veterinary ; Female ; Goat Diseases/congenital/immunology/*parasitology ; Goats ; Molecular Sequence Data ; Neospora/genetics/immunology/*isolation & purification/physiology ; Pregnancy

The preimplantation development competences of somatic cell nuclear transfer (SCNT) embryos reconstructed with enuleated goat (Capra hircus) Metaphase II (MII) oocytes matured in vivo and whole cells derived from adult fibroblasts of several mammalian species (goat, boer goat, bovine, tahr, panda) and human patient were evaluated. Results obtained from our experiments revealed that these reconstructed SCNT embryos could complete preimplantation development to form blastocysts. The fusion rate and blastocyst rate of intra-species SCNT embryos (Capra hircus as control) was 78.67 (557/708); 56.29% (264/469), that of sub-species or inter-species SCNT embryos were: boer goat 78.18% (541/692); 33.90% (40/118), bovine 70.53% (146/207); 22.52% (25/111), tahr 53.51% (61/114); 5.26% (3/570), panda 79.82% (1159/1452); 8.35% (75/898) and human 68.76% (317/461); 5.41% (16/296), respectively. It is concluded that (1) there are no relationships between fusion rate and relativeness of the recipient cytoplasm to nucleus donor cells, (2) cytoplast of the goat MII oocyte can support the preimplantation development of SCNT embryos reconstructed with nucleus from other species, (3) the blastocyst rate of close relative inter-species SCNT embryos is higher than that of distant relative inter-species SCNT embryos.
Animals ; Cattle ; Cloning, Organism ; veterinary ; Embryo Culture Techniques ; methods ; veterinary ; Embryo, Mammalian ; physiology ; Embryonic Development ; physiology ; Female ; Fibroblasts ; cytology ; Goats ; embryology ; genetics ; Humans ; Nuclear Transfer Techniques ; veterinary ; Oocytes ; cytology ; physiology ; Pregnancy

OBJECTIVEThe aim of this study was to investigate the expression of collagen in the process of masseter muscle reattachment to the cortical and cancellous bones of mandible.

METHODSA total of nine adult goats were used in the study. One was the control. The other eight were treated with bilateral detachment of the masseter muscles. The biopsies of bone and muscle were taken at 2, 4, 8 and 12 weeks after the operation. The characteristics of the healing muscle-bone interfaces were examined using immunohistochemical techniques.

RESULTSImmunohistochemical analysis illustrated that the locations of collagen type I, II and III were different during the healing process, but similar in the cortical and cancellous bones.

CONCLUSIONThis study demonstrates that the distribution of the three types of collagens at the muscle-bone interfaces is associated with time, but not related with their locations.

Animals ; Collagen ; biosynthesis ; genetics ; Collagen Type I ; biosynthesis ; genetics ; Collagen Type II ; biosynthesis ; genetics ; Collagen Type III ; biosynthesis ; genetics ; Female ; Goats ; Male ; Mandible ; metabolism ; pathology ; surgery ; Masseter Muscle ; metabolism ; pathology ; surgery ; Wound Healing ; physiology

Toxoplasma gondii is a eukaryotic parasite of the phylum Apicomplexa, which infects all warm-blood animals, including humans. In the present study, we examined sequence variation in dense granule 20 (GRA20) genes among T. gondii isolates collected from different hosts and geographical regions worldwide. The complete GRA20 genes were amplified from 16 T. gondii isolates using PCR, sequence were analyzed, and phylogenetic reconstruction was analyzed by maximum parsimony (MP) and maximum likelihood (ML) methods. The results showed that the complete GRA20 gene sequence was 1,586 bp in length among all the isolates used in this study, and the sequence variations in nucleotides were 0-7.9% among all strains. However, removing the type III strains (CTG, VEG), the sequence variations became very low, only 0-0.7%. These results indicated that the GRA20 sequence in type III was more divergence. Phylogenetic analysis of GRA20 sequences using MP and ML methods can differentiate 2 major clonal lineage types (type I and type III) into their respective clusters, indicating the GRA20 gene may represent a novel genetic marker for intraspecific phylogenetic analyses of T. gondii.
Animals ; Base Sequence ; Brazil ; China ; Deer ; *Genetic Variation ; Genotype ; Goats ; Humans ; Molecular Sequence Data ; Phylogeny ; Protozoan Proteins/*genetics/metabolism ; Sheep ; Swine ; Toxoplasma/classification/*genetics/isolation & purification/parasitology/physiology ; Toxoplasmosis/*parasitology ; Toxoplasmosis, Animal/*parasitology ; United States

In order to research developmental competence of transgenic somatic cell by serial nuclear transplantation, goat cloned embryos were compared with recloned embryos in ability of in vitro development. Fetal fibroblasts including human finger-domain lacking t-PA gene was microinjected into cytoplasm of the MII oocytes. Goat embryos (G0) were cloned by this procedure. A single blastomere from 16 - 64-cell goat cloned embryos (G0) was microinjected into Intracytoplasm of the MII oocytes. Goat embryos (G) were cloned by this procedure. Goat embryos (G2, G3) were recloned by using 16 - 64-cell recloned embryos. The developmental time of donor embryo affected the developmental rate of recloned embryos (G1, G2). The results show: the cleavage rate of cloned embryos (G0) (76.45% +/- 1.17%) was no difference significantly with recloned embryos (G1 G2 G3) (72.18% +/- 1.97%, 76.05% +/- 2.38%, 75.99% +/- 2.84%); the developmental rate of morulae and blastocysts of cloned embryos (47.20% +/- 2.93%, 11.00% +/- 1.42%) were higher than these of recloned embryos(34.99% +/- 2.66%, 28.23% +/- 2.00%, 23.34% +/- 1.99%) (3.87% +/- 0.67%, 2.08% +/- 1.66%, 0); the morulae rate(29.57% +/- 1.53%, 24.43% +/- 1.87%) and blastocysts rate(1.96% +/- 1.31%, 2.01% +/- 1.34%) of recloned embryos (G1 G2) from 16-cell recloned embryos were lower than those(34.32% +/- 1.31%, 29.76% +/- 1.66% and 3.86% +/- 1.03%, 3.48% +/- 0.34% )from 32 - 64-cell recloned embryos (P > 0.05). In conclusion, nuclear transfer embryos should not were recloned mostly; and the embryos recloned by using 32 - 64-cell embryos achieved higher developmental ability compared with using 16-cell embryos.
Animals ; Animals, Genetically Modified ; Blastomeres ; cytology ; physiology ; Cloning, Organism ; methods ; veterinary ; Embryo Culture Techniques ; Embryo, Mammalian ; cytology ; Female ; Fibroblasts ; cytology ; Gene Deletion ; Goats ; Humans ; Nuclear Transfer Techniques ; veterinary ; Oocytes ; cytology ; physiology ; Pregnancy ; RING Finger Domains ; genetics ; physiology ; Tissue Plasminogen Activator ; genetics ; metabolism

Toxoplasma gondii is an opportunistic protozoan parasite that can infect almost all warm-blooded animals including humans with a worldwide distribution. Micronemes play an important role in invasion process of T. gondii, associated with the attachment, motility, and host cell recognition. In this research, sequence diversity in microneme protein 6 (MIC6) gene among 16 T. gondii isolates from different hosts and geographical regions and 1 reference strain was examined. The results showed that the sequence of all the examined T. gondii strains was 1,050 bp in length, and their A + T content was between 45.7% and 46.1%. Sequence analysis presented 33 nucleotide mutation positions (0-1.1%), resulting in 23 amino acid substitutions (0-2.3%) aligned with T. gondii RH strain. Moreover, T. gondii strains representing the 3 classical genotypes (Type I, II, and III) were separated into different clusters based on the locus of MIC6 using phylogenetic analyses by Bayesian inference (BI), maximum parsimony (MP), and maximum likelihood (ML), but T. gondii strains belonging to ToxoDB #9 were separated into different clusters. Our results suggested that MIC6 gene is not a suitable marker for T. gondii population genetic studies.
Amino Acid Sequence ; Animals ; Base Sequence ; Cats ; Cell Adhesion Molecules/chemistry/*genetics/metabolism ; Deer ; *Genetic Variation ; Genotype ; Goats ; Humans ; Molecular Sequence Data ; Phylogeny ; Protozoan Proteins/chemistry/*genetics/metabolism ; Sequence Alignment ; Sheep ; Swine ; Toxoplasma/classification/*genetics/isolation & purification/physiology ; Toxoplasmosis/*parasitology ; Toxoplasmosis, Animal/*parasitology

OBJECTIVETo evaluate the osteogenic potential of bone morphogenetic protein (BMP)-2 gene transfected goat bone marrow-derived mesenchymal stem cells (MSCs).

METHODSGoat bone marrow-derived MSCs were transfected by Adv-human bone morphogenetic protein (hBMP)-2 gene (Group 1), Adv-beta gal transfected MSCs (Group 2) and uninfected MSCs (Group 3). Western blot analysis, alkaline phosphatase staining, Von Kossa staining and transmission electron microscopy were adopted to determine the phenotype of MSCs. Then the cells were injected into thigh muscles of the nude mice. Radiographical and histological evaluations were performed at different intervals.

RESULTSOnly Adv-hBMP-2 transfected MSCs produced hBMP-2. These cells were positive for alkaline phosphatase staining at the 12th day and were positive for Von Kossa staining at the 16th day after gene transfer. Electron microscopic observation showed that there were more rough endoplasmic reticulum, mitochondria and lysosomes in Adv-hBMP-2 transfected MSCs compared to MSCs of other two groups. At the 3rd and 6th weeks after cell injection, ectopic bones were observed in muscles of nude mice of Group 1. Only fibrous tissue or a little bone was found in other two groups.

CONCLUSIONSBMP-2 gene transfected MSCs can differentiate into osteoblasts in vitro and induce bone formation in vivo.

Animals ; Blotting, Western ; Bone Marrow Cells ; cytology ; metabolism ; Bone Morphogenetic Protein 2 ; Bone Morphogenetic Proteins ; genetics ; Cell Differentiation ; Genetic Therapy ; Goats ; Humans ; Mesenchymal Stromal Cells ; cytology ; metabolism ; Mice ; Mice, Nude ; Osteogenesis ; physiology ; Staining and Labeling ; Tissue Engineering ; Transfection ; Transforming Growth Factor beta ; genetics