In this study, we examined whether Hanganutziu‐Deicher (H‐D) antigens are important as an immunogenic non‐a1,3‐galactose (Gal) epitope in pigs with a disrupted a1,3‐ galactosyltransferase gene. The targeting efficiency of the AO blood genotype was achieved (2.2%) in pig fibroblast cells. A total of 1800 somatic cell nuclear transfer (SCNT) embryos were transferred to 10 recipients. One recipient developed to term and naturally delivered two piglets. The a1,3‐galactosyltransferase activity in lung, liver, spleen, and testis of heterozygote a1,3‐galactosyltransferase gene knockout (GalT‐KO) pigs was significantly decreased, whereas brain and heart showed very low decreasing levels of a1,3‐ galactosyltransferase activity when compared to those of control. Enzyme‐linked lectinosorbent assay showed that the heterozygote GalT‐KO pig had more sialyla2,6‐ and sialyla2,3‐ linked glycan than the control. Furthermore, the heart, liver, and kidney of the heterozygote GalT‐KO pig had a higher N‐glycolylneuraminic acid (Neu5Gc) content than the control, whereas the lung of the heterozygote GalT‐KO pig had Neu5Gc content similar to the control. Collectively, the data strongly indicated that Neu5Gc is a more critical xenoantigen to overcoming the next acute immune rejection in pig to human xenotransplantation.

Genomic reprogramming factors in the GV cytoplasm improved cloning efficiency in mice through the pre‐exposure of somatic cell nuclei to a GV cytoplasmic extract prior to nuclear transfer. In this study, a pig GV oocyte extract (pGV extract) was developed. Treatment of pig fibroblasts with the pGV extract promoted colony formation after 2–3 weeks in culture, concomitant with the expression of stem cell markers (Oct‐4, Rex1, Nanog, Sox2) and repression of differentiated cell markers (CKAP2, NPR3 ). Using fibroblasts transfected with human Oct‐4 promoter‐driven enhanced green fluorescent protein (Oct4‐EGFP), pGV extract treatment induced the reactivation of the Oct‐4 promoter in Oct4 ‐ EGFP cells by 10 days post‐treatment. These transgenic donor cells were injected into 8‐cell embryos. Oct‐4 promoter activity was subsequently detected in most ICM cells of the host blastocyst. Interestingly, reconstructed embryos with pGV extract‐treated Oct4‐ EGFP fibroblast nuclei showed prolonged expression of Oct4 in the ICM of embryos. Additionally, the pGV extract promoted somatic cell reprogramming and cloned embryo development when assessed by measuring histone H3‐K9 hypomethylation, the expression of Oct4 and Nanog in blastocysts, and the production of increased numbers of high‐ quality blastocysts. Under specific culture conditions, pGV extract‐treated fibroblast cells differentiated into neuronal, pancreas, cardiac, and endothelial lineages that were confirmed by antibodies against specific marker proteins. These data provide evidence for the generation of stem‐like cells from differentiated somatic cells by treatment with GV oocyte extracts in pig.

Accumulating evidence suggests that chemotherapy can cause long‐term detrimental effects and alter the biology of the recipient environment. Therefore, a subsequent report claimed that the transplantation of female germline stem cells (FGSCs) into the ovaries of recipient mice that were pretreated with a high dose of busulfan and cyclophosphamide (B/C) resulted in the successful production of offspring. Therefore, this study was conducted to further clarify the impact of female germ cell transplantation on female ovaries after B/C treatment. RT‐PCR analysis showed that the period of germ cell depletion coincide with decreased Figla, Lhx8, Nobox, Kit, and Sox3 gene expression in the B/Ctreated ovary. However, depletion of female germ cells is mediated by a Fas/FasL‐, Kit/ Kitl‐, TNF‐, p53‐ and autophagy‐ independent pathway. Also, histological analysis is similar to that of Nobox null‐derived ovaries, indicating that follicle death after B/C treatment might be caused by down‐regulating of Nobox pathway. When female mice during 15 weeks after B/C treatment were checked for reproductive activity, B/C treated mice did not produce their pups. In addition, when 3×106 GFP positive primordial follicles were injected into B/C treated female mouse ovaries, donor follicle were not able to colonize into the ovaries of recipients. In conclusion, these data from a preclinical mouse model strongly suggested that female ovary until 15 weeks after B/C treatment could not support environment for maturing of exogenous FGSCs.

Hematopoietic stem cells (HSCs) are the self‐renewing, multipotent progenitors that give rise to all types of mature blood cells. The hallmark properties of HSCs are the ability to balance self‐renewal versus differentiation cell fate decisions to provide sufficient primitive cells to sustain haematopoiesis, while generating more mature cells with specialized capacities. In the present experiment, we optimized the techniques for isolation and identification of hematopoietic stem cells from cow peripheral blood. The objective of this study was to optimize the more accurate methodology for separation of mononuclear cells (MNCs) from peripheral blood and identification of HSCs by using a specific cell surface marker i.e. CD34. A total 10 peripheral blood samples were collected from Holstein dairy cows from jugular vein. We used Ficoll 400 in different concentrations from 1 to 12% and Ficollpaque Plus (1.077 g/ml) at different centrifugation speed and time. After Giemsa staining, we found more than 98% recovery of monocytes with Ficollpaque Plus (1.077 g/ml). It was demonstrated that Ficollpaque Plus (1.077 g/ml) and centrifugation at 400xg for 30 min is the best method for separation of MNCs from bovine peripheral blood. Separated MNCs were immediately subjected for magnetic activated cell sorting (MACS) by using CD34 microbead kit. HSCs (CD34+ cells) recovery was 0.307% of peripheral blood. Peripheral blood MNCs and CD34+ cells were morphologically characterized by Giemsa staining. CD34+ cells were also confirmed by immunochemistry using FITC conjugated CD34 antibodies. HSCs were also confirmed by progenitor assay including burst forming unit‐erythroid (BFU‐E), colony forming cells‐ granulocyte (CFC‐G), colony forming cells‐ macrophage (CFC‐M), colony forming cells‐ granulocyte macrophage (CFU‐GM) and colony forming cells‐ granulocyte erythroid macrophage monocyte (CFCGEMM) on Methocult 4435.

Oct4 and Nanog are transcription factors involved in pluripotency of stem cells. In general, Oct4 is up-regulated by Nanog. In previous results, however, Oct4 was differentially regulated by various doses of Nanog in P19 cells. High dose Nanog down-regulated the Oct4 expression. This negative feedback event was performed by DNMT and HDAC through the inhibitor assays (5-AZA-cytidine and trichostatin A). To identify the precise recruited sites for DNMT and HDAC, ChIP assay was performed in differential doses of Nanog. As a result, HDAC1, HDAC2, DNMT3A and Nanog were recruited to CR2, CR3, CR1, and CR4 upon high dose Nanog, respectively. Next, to investigate the differentiation potency of the cells upon high dose Nanog, RT-PCR with specific markers for three germ layers was performed. However, there was no increase for three germ layers in high dose Nanog treated cells except E-cadherin expression. E-cadherin is a specific marker for epithelial cells. Taken together, high dose Nanog induces Oct4 down-regulation and results in differentiating embryonic carcinoma cells to epithelial cell type. These results will be helpful for study on regulation of pluripotency-related genes in embryonic stem cells. * This study was supported by 2012 Post Doctoral Fellowship Program of National Institute of Animal Science, Rural Development Administration, Republic of Korea. This work received grant support from the Agenda Program (No.PJ007577), Rural Development Administration, Republic of Korea.

Although there are a number of reports regarding the toxicity evaluation of inorganic nanoparticles, knowledge on biodegradable nanomaterials, which have always been considered safe, is still limited. For example, the toxicity of chitosan nanoparticles, one of the most widely used drug/gene delivery vehicles, is largely unknown. In this report, we examined the cytotoxic effects of chitosan nanoparticles on mouse embryos at the blastocyst stage and in vivo implantation by embryo transfer. Blastocysts treated with 250 nm chitosan nanoparticles exhibited significantly increased apoptosis and a corresponding decrease in total cell number, which was concentration‐dependent. Moreover, the TUNEL positive signal in the embryos exposed to chitosan nanoparticles showed an increased of the ICM and the implantation success rate was lower than that of their control counterparts. Our results collectively indicate that in vitro exposure to chitosan nanoparticles induces apoptosis and retards implantation development after transfer to host mice. The results collectively show that chitosan nanoparticles have the potential to induce embryo cytotoxicity. Further studies are required to establish effective protection strategies against the cytotoxic effects of these nanoparticles.

Semen can be divided into two parts. One is cellular part which contains sperms the other is liquid part which is called by seminal plasma. The seminal plasma is a nutritive and protective medium for the sperms. Fructose, which is major energy source, is supplied to sperms swim to female oocyte. Alkalic property protects sperms from hostile environment of female reproductive organ. Also, seminal plasma induces tolerance to preexisted immune cells, and changes intra‐uterine environment to better conditions for fertilized embryos to implant. However, the effects of seminal plasma in in vitro culture of fertilized embryos are unclear. Second fraction of fresh semen was obtained from a normal farm pig. The semen was centrifuged to remove sperms, and then supernatant was filtrated. The filtered seminal plasma was stored in — 30℃. In this study, electrically activated and chemically activated porcine embryos were employed to investigate the developmental rate after 2 hours treatment of none, 0.1%, 0.5%, and 1% seminal plasma in culture media by two days of activation. Both electrically and chemically activated embryos, cleavage rate and cell numbers of blastocysts were not significant difference within four groups. Blastocyst formation rate of electrically activated embryos also did not show significant difference within any groups. However 0.1% seminal plasma treatment group showed significantly increase of blastocyst formation rate in chemically activated group (None; 24.8%, 0.1%; 31.7%, 0.5%; 19.4, and 1%; 16.5%, respectively. p<0.05).

Cathepsin B, a lysosomal cystein protease that plays an important role in the degradation of intracellular proteins in lysosomes, is detected in a wide variety of cells including bovine oocytes and embryos. Although the mode of action of cathepsin B is not fully understood, a strong relationship was observed between cathepsin B and apoptosis in many types of cells. Cathepsin B was found to induce the apoptotic pathway through activating initiator caspases rather than executioner caspases. Thus, the aim of this study was evaluated the effect of capthesin B inhibitor, E-64, on blastocyst developmental competence and subsequent preimplantation quality of the IVF and SCNT bovine embryos. After IVF and SCNT procedures, presumptive bovine embryos were cultured in CR1aa medium supplemented with E-64 for 24 h. Then, samples were additionally cultured in CR1aa medium without E-64 for 5 days. In our results, the frequency of blastocyst formation was higher when treated with E-64 compared with the control group (p<0.05). Furthermore, the blastocyst cell number was enhanced and apoptosis reduced (TUNELpositive nuclei number) by E-64 treatment in both IVF and SCNT bovine embryos (p<0.05). In the real-time quantitative RT-PCR, the expression of anti-apoptotic Bcl-xL gene was shown to be increased in the blastocyst stage, whereas expression of proapoptotic Bax was decreased. In conclusion, our results indicate that E-64 improves the developmental competence and embryonic qualities of bovine IVF and SCNT embryos by modulating cathepsin B induced apoptosis during the preimplantation stage.

Phosphoprotein Enriched in Astrocytes (PEA15) is a 15kD-sized intracellular signaling protein, highly expressed in astrocytes and constitutively expressed in peripheral tissues. Recently it was found that PEA15 expression was elevated in patients suffering type 2 diabetes and suggested to be involved in the syndrome of insulin resistance. To investigate the functional role of PEA15 for the control of blood glucose level, we produced a transgenic pig over-expressing mouse PEA15 (mPEA15). As a model animal, pig has many advantages. They have a higher fecundity and a short generation time and are physiologically similar to human. Using the transgenic pig, we carried out a series of experiments to establish a link between PEA15 expression and the insulin resistance. Our results suggested that, compared with control pig, mPEA15 pig has, (1) a higher blood resistin level, (2) a lower cell membrane-embeded GLUT4 level, and (3) a lower glucose clearing ability based on oral glucose tolerance test (OGTT). When our results combined, it can be concluded that mPEA15 over-expressing pig has many symptoms of insulin resistance and these pigs will become a useful disease model to investigate diabetes mellitus in the near future.

The purpose of this thesis is to examine the effect of hormone treatment in blastocyst development of in vitro cultured porcine oocyte. Oocytes used in the study was matured in vitro in the presence of 10% FBS or 10% pFF, and treated with FSH, LH or FSH+ LH, and the rate of blastocyst development was assessed based on the expression of autophagic genes. There was no significant differences in blastocyst development between oocytes maturaed in 10% FBS or 10% pFF. In vitro matured oocytes treated with FSH+LH showed blastocyst development rate as high as that of untreated oocytes, while groups treated with LH only showed a decrease in blastocyst development. About the expression of cell death assosiated factors, mRNA levels of autophagy and apoptosis genes were increased in oocytes matured in 10% FBS and treated with LH. Oocytes that did not receive hormone treatment showed low expression of most cell death genes except ATG5. When oocytes were matured in 10% pFF, ATG5 expression was the highest in FSH treated group, while LC3 showed strong expression in all hormone treated groups. On the other hand, the expression level of mTOR and caspase-3 did not show significant differences between groups. We also examined the protein level of apoptotic genes in the blastocyst. The amount of caspase-3 protein was similar between groups matured in 10% FBS and 10% pFF, but was the highest when treated with LH. Blastocysts treated with FSH and FSH+LH showed similar level of caspase-3 protein, while the level was the lowest when hormone treatment was not given. Within the blastocyst, caspase-3 was mostly expressed in trophoblast cells when matured in 10% FBS, while maturation in 10% pFF caused expression of this protein in the inner cell mass (ICM). Expression of MAP1LC3A was higher in groups matured in 10% pFF than groups matured in 10% FBS in all types of hormone treatment. Among the blastocysts matured in 10% pFF, MAP1LC3A level increased in the order of untreated < FSH < FSH+ LH. Expression of MAP1LC3A within the FBS-matured blastocyst was concentrated to the trophoblast, while pFF-matured blastocyst showed expression in both trophoblast and ICM. The expression of mTOR showed a pattern opposite to that of MAP1LC3A. That is, its expression was the lowest in 10% FBS group without hormone treatment. In both FBS and pFF group, and in all three combinations of hormone treatment, mTOR expression was ovserved mostly in ICM. Together, these results indicated that hormone treatments tend to induce expression of genes associated with programmed cell death. We suggest that proper induction of programmed cell death by FSH and LH treatment would increase the rate of blastocyst development. * This work was supported by BioGreen 21 Program (No. PJ008029). Rural Development Administation, Republic of Korea.

The objective of this study was to investigate the proteome composition in pretermand term‐derived human umbilical cord. Umbilical cord samples were collected from 6 preterm infants with gestational age less than 36 weeks or 4 full terms together with medical information during prenatal period. Several biomarkers are routinely used clinically for predicting preterm labor; however, these factors are either nonspecific or detected too late. Protein profiles were performed on samples from both preterm‐ and termderived human umbilical cord by using Two‐dimensional gel electrophoresis (2‐DE). Approximately 200 different proteins were identified between preterm‐ and term‐delivered umbilical cords. Among them, differentially expressed 34 proteins were identified in 48 protein spots. In the preterm‐derived human umbilical cords, 15 proteins were present at higher levels (2.0‐ to 9.28‐fold increases) and 19 were present at lower levels (2.0‐ to 11.8‐ fold decreases or not detectable) compared to the control term‐derived umbilical cords. Proteomics approaches such as 2‐DE could greatly facilitate the discovery of new and better biomarkers. The high sensitivity and specificity achieved by the combined use of the selected biomarkers show great potential for the early detection of Adverse pregnancy outcomes such as pre‐eclampsia, small for gestational age infants, preterm delivery and placental abruption are associated with higher mortality. Increased amount of HIF‐1 α, GAPDH and HSP27 were observed in preterm‐derived umbilical cords was due to hypoxia‐ dependant and oxidative stress‐independent manner. Moreover, we isolated HUVEC (Human umbilical vascular endothelial cells) from preterm‐ and term‐derived umbilical cords and examined LDH activity. The results of the current study may provide important insights into the molecular mechanisms underlying umbilical cord development and also these data will contribute to a better understanding of the composition of preterm‐ and term ‐ derived human umbilical cord and aid the discovery of novel biomarkers for the prenatal diagnosis of fetal abnormalities

Light-emitting diodes are used in applications as diverse as aviation lighting, automotive lighting, advertising, general lighting, and traffic signals. LED panel light source used in an experiment on plant and mushroom growth. To establish the optimum artificial light illumination method for Pleurotus eryngii in closed mushroom factory system, the effects of red LED light quality on growth was investigated. The humidity was maintained more than 90% and temperature was 15~16℃, and CO2 density was 500ppm. The fresh weightand height were higher under red LED light (650nm, 73.1 Pmol/m 2s) comparing with control (fluorescent lamp, 10~20 lux). β-aminoisobutyric acid and total phenol content were higher under red LED light (650nm, 73.1 Pmol/m2s).

The resistance levels to carbamate (CB) and organophosphate (OP) insecticides were determined by topical application in 14 field strains of Nilaparvata lugens. The resistance levels to CB and OP were 1.3~47.5-fold and 1.4~14.4-fold higher than a susceptible strain, respectively. A quantitative sequencing (QS) protocol was established to determine the allele frequencies of four acetylcholinesterase point mutations putatively associated with CB and OP resistance. The allele frequencies of the four mutations (G119A, F/Y330S, F331H and I332L) in field strains ranged from ca. 0.0~51.7%, 0.0~88.9%, 2.5~47.7%, 5.1~56.0% and 6.7~57.3%, respectively. The F331H and I332L were tightly linked each other, suggesting these mutations may occur simultaneously. In the correlation analysis, G119A was not well correlated with actual resistance levels (r2= < 0.232), whereas F331H and I332L showed a better correlation with the resistance levels of benzofuranyl methylcarbamates (r2= 0.595). This finding indicates that F331H and I332L mutation frequencies may be used as molecular markers for detecting carbamate resistance in N. lugens. A QS protocol detecting the F331H and I332L mutation frequencies would be employed as a supportive tool for rapid monitoring of CB insecticide resistance levels in N. lugens

The screening of effective lethal genes was conducted via the systemic delivery of dsRNA for the RNA interference (RNAi)-based management of Tetranychus urticae. Four candidate genes (coatomer protein complex, T-COP; M1 metalloprotease, T-M1MP; Ribosomal protein S4, T-RPS4; A subunit of V-ATPase, T-VATPase) with a reference genes (EGFP) were tested for the experiment. Translocated dsRNA to the leaf disc (ca. 30 mm diameter) was detected at 12 h post-treatment, indicating that dsRNA could move through leaf veins. In the evaluation of mortality, the T-COP, T-RPS4 and T-VATPase exerted moderate levels of toxicity at 72 h post-treatment among four dsRNA tested. Knockdown of the target genes were confirmed by quantitative PCR, suggesting that RNAi of target genes was accomplished by feeding dsRNA. In summary, the dsRNA delivery via leaf disc was effective in screening lethal genes, and some genes, such as T-COP, T-M1MP, T-RPS4 and T-VATPase, can be applicable for establishing a RNAi-based control system against T. urticae.

We analyzed molecular and enzymatic properties of three cholinesterases (ChEs; ClAChE1, ClAChE2 and ClSChE) from Cimex lectularius. The ClAChE1 and ClAChE2 were generally present as a membrane-anchored dimeric insoluble form in the brain and ganglia. In the case of ClSChE, monomeric and dimeric soluble forms were observed. To investigate enzymatic properties, three ChEs were functionally expressed using baculovirus expression system. ClAChE1 revealed a significantly higher activity than ClAChE2 to acetylthiocholine iodide (ATChI) substrate. Kinetic analysis using two choline substrates (ATChI and butyrylthiocholine iodide) demonstrated that ClAChE2 had higher catalytic efficiency but lower substrate specificity than ClAChE1. Inhibition assay was conducted by using three inhibitors (BW284C51, eserine, Iso-OMPA) and two insecticides (chlorpyrifos-methyl and carbaryl). Two ClAChEs revealed high sensitivities to BW284C51, eserine, chlorpyrifos-methyl and carbaryl, but were not sensitive to Iso-OMPA. This inhibition profile confirmed that both ClAChEs are categorized as ChEs. Interestingly, the salivary specific cholinesterase did not show any measurable activities to choline substrates, confirming its non-synaptic function in C. lectularius

Metcalfa pruinosa (Say), native to North America, is spreading rapidly in the Korean Peninsula, causing serious damages on many deciduous forest trees, ornamental trees, and agricultural crops. Before the first report from Korea in 2005, M. pruinosa has not been reported from any other countries in the Eastern Palaearctic, while it has been record in Italy in 1979, and rapidly spreading into many European countries. To trace the invasion route of this species, we analyzed haplotype analysis of the mitochondrial cytochrome c oxidase subunit-I (mtCOI, 577bp), and developed microsatellite markers. In the haplotype analysis, a total of fourteen haplotypes were found from 69 individuals in 18 populations: 12 haplotypes (native region), 4 haplotypes (European region) and 2 haplotypes (Korea). Interestingly, Korean populations were clustered with some European populations. Eight polymorphic microsatellite loci were developed, and population structures were analyzed from 145 individuals in 8 populations. The origin and invasion route of M. pruinosa are under investigation.

In this study we apply Support Vector Machine (SVM) to the prediction of geo-effective halo coronal mass ejections (CMEs). The SVM, which is one of machine learning algorithms, is used for the purpose of classification and regression analysis. We use halo and partial halo CMEs from January 1996 to April 2010 in the SOHO/LASCO CME Catalog for training and prediction. And we also use their associated X-ray flare classes to identify front-side halo CMEs (stronger than B1 class), and the Dst index to determine geo-effective halo CMEs (stronger than -50 nT). The combinations of the speed and the angular width of CMEs, and their associated X-ray classes are used for input features of the SVM. We make an attempt to find the best model by using cross-validation which is processed by changing kernel functions of the SVM and their parameters. As a result we obtain statistical parameters for the best model by using the speed of CME and its associated X-ray flare class as input features of the SVM: Accuracy=0.66, PODy=0.76, PODn=0.49, FAR=0.72, Bias=1.06, CSI=0.59, TSS=0.25. The performance of the statistical parameters by applying the SVM is much better than those from the simple classifications based on constant classifiers.