Improved geographical origin discrimination for tea using ICP-MS and ICP-OES techniques in combination with chemometric approach.

BACKGROUND: There is an urgent need to strengthen the testing and certification of geographically iconic foods, as well as to use discriminatory science and technology for their regulation and verification. Multi-element and stable isotope analyses were combined to provide a new chemometric approach for improving the discrimination tea samples from different geographical origins. Different stoichiometric methods [principal component analysis (PCA), hierarchical cluster analysis (HCA), partial least squares-discriminant analysis (PLS-DA), back propagation based artificial neural network (BP-ANN) and linear discriminant analysis (LDA)] were used to demonstrate this discrimination approach using Yongchuanxiuya tea samples in an experimental test. RESULTS: Multi-element and stable isotope analyses of tea samples using inductively coupled plasma mass spectrometry and inductively coupled plasma optical emission spectrometry easily distinguished the geographical origins. However, the clustering ability of the two unsupervised learning methods (PCA and HCA) were worse compared to that of the three supervised learning methods (PLS-DA, BP-ANN and LDA). BP-ANN and LDA, with 100% recognition and prediction abilities, were found to be better than PLS-DA. 86 Sr and 112 Cd were the markers enabling the successful classification of tea samples according to their geographical origins. Under the validation by 'blind' dataset, the prediction accuracies of the BP-ANN and LDA methods were all greater than 90%. The LDA method showed the best performance, with an accuracy of 100%. CONCLUSION: In summary, determination of mineral elements and stable isotopes using inductively coupled plasma mass spectrometry and inductively coupled plasma optical emission spectrometry techniques coupled with chemometric methods, especially the LDA method, is a good approach for improving the authentication of a diverse range of tea. The present study contributes toward generalizing the use of fingerprinting mineral elements and stable isotopes as a promising tool for testing the geographic roots of tea and food worldwide. © 2020 Society of Chemical Industry.

Loss of Protein Function Causing Severe Phenotypes of Female-Restricted Wieacker Wolff Syndrome due to a Novel Nonsense Mutation in the ZC4H2 Gene.

Pathogenic variants of zinc finger C4H2-type containing (ZC4H2) on the X chromosome cause a group of genetic diseases termed ZC4H2-associated rare disorders (ZARD), including Wieacker-Wolff Syndrome (WRWF) and Female-restricted Wieacker-Wolff Syndrome (WRWFFR). In the current study, a de novo c.352C>T (p.Gln118*) mutation in ZC4H2 (NM_018684.4) was identified in a female neonate born with severe arthrogryposis multiplex congenita (AMC) and Pierre-Robin sequence (cleft palate and micrognathia). Plasmids containing the wild-type (WT), mutant-type (MT) ZC4H2, or GFP report gene (N) were transfected in 293T cell lines, respectively. RT-qPCR and western blot analysis showed that ZC4H2 protein could not be detected in the 293T cells transfected with MT ZC4H2. The RNA seq results revealed that the expression profile of the MT group was similar to that of the N group but differed significantly from the WT group, indicating that the c.352C>T mutation resulted in the loss of function of ZC4H2. Differentially expressed genes (DEGs) enrichment analysis showed that c.352C>T mutation inhibited the expression levels of a series of genes involved in the oxidative phosphorylation pathway. Subsequently, expression levels of ZC4H2 were knocked down in neural stem cells (NSCs) derived from induced pluripotent stem cells (iPSCs) by lentiviral-expressed small hairpin RNAs (shRNAs) against ZC4H2. The results also demonstrated that decreasing the expression of ZC4H2 significantly reduced the growth of NSCs by affecting the expression of genes related to the oxidative phosphorylation signaling pathway. Taken together, our results strongly suggest that ZC4H2 c.352C>T (p.Gln118*) mutation resulted in the loss of protein function and caused WRWFFR.

Rapid screening for chromosomal aneuploidies using array-MLPA.

BACKGROUND: Chromosome abnormalities, especially trisomy of chromosome 21, 13, or 18 as well as sex chromosome aneuploidy, are a well-established cause of pregnancy loss. Cultured cell karyotype analysis and FISH have been considered reliable detectors of fetal abnormality. However, results are usually not available for 3-4 days or more. Multiplex ligation-dependent probe amplification (MLPA) has emerged as an alternative rapid technique for detection of chromosome aneuploidies. However, conventional MLPA does not allow for relative quantification of more than 50 different target sequences in one reaction and does not detect mosaic trisomy. A multiplexed MLPA with more sensitive detection would be useful for fetal genetic screening. METHODS: We developed a method of array-based MLPA to rapidly screen for common aneuploidies. We designed 116 universal tag-probes covering chromosomes 13, 18, 21, X, and Y, and 8 control autosomal genes. We performed MLPA and hybridized the products on a 4-well flow-through microarray system. We determined chromosome copy numbers by analyzing the relative signals of the chromosome-specific probes. RESULTS: In a blind study of 161 peripheral blood and 12 amniotic fluid samples previously karyotyped, 169 of 173 (97.7%) including all the amniotic fluid samples were correctly identified by array-MLPA. Furthermore, we detected two chromosome X monosomy mosaic cases in which the mosaism rates estimated by array-MLPA were basically consistent with the results from karyotyping. Additionally, we identified five Y chromosome abnormalities in which G-banding could not distinguish their origins for four of the five cases. CONCLUSIONS: Our study demonstrates the successful application and strong potential of array-MLPA in clinical diagnosis and prenatal testing for rapid and sensitive chromosomal aneuploidy screening. Furthermore, we have developed a simple and rapid procedure for screening copy numbers on chromosomes 13, 18, 21, X, and Y using array-MLPA.

Donor-host mitochondrial compatibility improves efficiency of bovine somatic cell nuclear transfer.

BACKGROUND: The interaction between the karyoplast and cytoplast plays an important role in the efficiency of somatic cell nuclear transfer (SCNT), but the underlying mechanism remains unclear. It is generally accepted that in nuclear transfer embryos, the reprogramming of gene expression is induced by epigenetic mechanisms and does not involve modifications of DNA sequences. In cattle, oocytes with various mitochondrial DNA (mtDNA) haplotypes usually have different ATP content and can further affect the efficiency of in vitro production of embryos. As mtDNA comes from the recipient oocyte during SCNT and is regulated by genes in the donor nucleus, it is a perfect model to investigate the interaction between donor nuclei and host oocytes in SCNT. RESULTS: We investigated whether the in vitro development of reconstructed bovine embryos produced by SCNT would be influenced by mtDNA haplotype compatibility between the oocytes and donor cells. Embryos from homotype A-A or B-B showed significantly higher developmental ability at blastocyst stages than the heterotype A-B or B-A combinations. Post-implantation development ability, pregnancy rate up to day 90 of gestation, as well as percent of term births were higher in the homotype SCNT groups than in the heterotype groups. In addition, homotype and heterotype SCNT embryos showed different methylation patterns of histone 3-lysine 9 (H3K9) genome-wide and at pluripotency-related genes (Oct-4, Sox-2, Nanog). CONCLUSION: Both histone and DNA methylation show that homotype SCNT blastocysts have a more successful epigenetic asymmetry pattern than heterotype SCNT blastocysts, which indicates more complete nuclear reprogramming. This may result from variability in their epigenetic patterns and responses to nuclear reprogramming. This suggests that the compatibility of mtDNA haplotypes between donor cells and host oocytes can significantly affect the developmental competence of reconstructed embryos in SCNT, and may include an epigenetic mechanism.

Monitoring the authenticity of pu'er tea via chemometric analysis of multielements and stable isotopes.

Mineral elements and stable isotopes combined with stoichiometric methods were used as a potential tool for first authenticating Chinese tea according to it's production year. A total of 86 mineral elements and stable isotope compositions were determined from the Xiangzhujing Pu'er tea in five different production years using ICP-MS and ICP-OES. On the basis of 78 statistically significant mineral elements and stable isotopes, HCA, PCA, PLS-DA, BP-ANN, and LDA were employed to build authentication models for predicting the Pu'er tea with different production years. The clustering results of the HCA and PCA were worse than that of PLS-DA, BP-ANN, and LDA. The PLS-DA model displayed a perfect model performance (R2X = 0.86, R2Y = 0.974, and Q2 = 0.922). The authentication performance of LDA and BP-ANN revealed their 100% recognition sensitivity and prediction ability and was thus better than that of PLS-DA. Mn, 68Zn, and 203Tl were the markers for enabling the successful authentication of Pu'er tea with different production years. This study contributes toward generalizing the use of mineral element and stable isotope fingerprinting combined with LDA and BP-ANN as a promising tool for authentication of tea worldwide.

Hematopoietic stem cell engraftment by early-stage in utero transplantation in a mouse model.

A novel intrauterine transplantation (IUT) approach was developed to improve the efficiency of engraftment of hematopoietic stem cells (HSCs). HSCs with a green fluorescent protein (GFP) reporter gene were transplanted in utero on days 12.5, 13.5 and 14.5 post coitum (p.c.). The degree of chimerism of donor cells in recipient newborn mice was examined using fluorescent microscopy, polymerase chain reaction (PCR), fluorescence-activated cell sorting (FACS), and fluorescence in situ hybridization (FISH) analyses. Microscopic examination revealed the presence of green fluorescent signal in the peripheral blood of the chimeric mice. The highest survival rate (47%) as well as the highest chimerism rate (73%) were achieved by our new approach in the newborn mice that were subjected to in utero transplantation (IUT) on day 12.5 p.c. (E12.5) compared to the conventional IUT method. FACS analysis indicated that 1.55+/-1.10% of peripheral blood cells from the newborn mice were GFP-positive donor cells. FISH showed that cells containing the donor-specific GFP sequence were present in the bone marrow (BM) of the chimeric mice. Thus, the efficiency of chimera production with this new method of IUT was significantly improved over the existing IUT techniques and instruments.

[Construction of the oocyte-specific expressing phiC31 integrase vector pZP3-INT and its expression in mouse oocytes].

Streptomyces phage phiC31 integrase is a site-specific recombinase, which can catalyze site-specific, unidirectional recombination between the attP site and attB site. To explore whether it can be used to mediate the recombination of specific gene in oocytes, GV-stage oocytes were collected from 3-week-old Kunming White mice by puncturing antral follocles with a sharp needle, and micro-injected with oocyte-specific expressing phiC31 integrase vector pZP3-INT and site -specific recombination detection vector pBCPB+. phiC31 integrase mRNA were detected by RT-PCR and the recombination of pBCPB+ was evaluated by PCR in mouse oocytes at 48 h after injection. Both can get corresponding bands. These results indicated that the expression of phiC31 integrase can be driven by ZP3 promoter efficiently and phiC31 integrase can mediate the site-specific recombination between attP site and attB site in mouse GV-stage oocytes. It could be a powerful tool for the study of recombination of specific gene in mouse oocytes and would provide an alternative way for the mouse oocyte genome manipulation.

Array-MLPA: comprehensive detection of deletions and duplications and its application to DMD patients.

Multiplex ligation-dependent probe amplification (MLPA) is widely used to screen genes of interest for deletions and duplications. Since MLPA is usually based on size-separation of the amplification products, the maximum number of target sequences that can be screened in parallel is usually limited to approximately 40. We report the design of a robust array-based MLPA format that uses amplification products of essentially uniform size (100-120 bp) and distinguishes between them by virtue of incorporated tag sequences. We were thus able to increase probe complexity to 124, with very uniform product yields and signals that have a low coefficient of variance. The assay designed was used to screen the largest set studied so far (249 patients) of unrelated Duchenne muscular dystrophy (DMD) cases from the Chinese population. In a blind study we correctly assigned 98% of the genotypes and detected rearrangements in 181 cases (73%); i.e., 163 deletions (65%), 13 duplications (5%), and five complex rearrangements (2%). Although this value is significantly higher for Chinese patients than previously reported, it is similar to that found for other populations. The location of the rearrangements (76% in the major deletion hotspot) is also in agreement with other findings. The 96-well flow-through microarray system used in this research provides high-throughput and speed; hybridization can be completed in 5 to 30 minutes. Since array processing and data analysis are fully automated, array-MLPA should be easy to implement in a standard diagnostic laboratory. The universal array can be used to analyze any tag-modified MLPA probe set.

Effect of individual heifer oocyte donors on cloned embryo development in vitro.

The aim of this study was to determine the effect of individual oocyte donors on cloned embryo development in vitro. Five Holstein heifers of varied genetic origins were subject to ovum pick up (OPU) once weekly. In total, 913 oocytes were recovered from 1304 follicles. A mean of 7.7+/-0.4 oocytes was recovered per session per animal. Individual mean oocyte production varied significantly in quantity but not in quality (morphological categories) among heifers. Oocytes from individual heifers were used as recipient cytoplasm for somatic cell nuclear transfer (SCNT). Cumulus cells, collected from a single Holstein cow genetically unrelated to the oocyte donor, were used as donor cells. Although the percentage of reconstructed embryos that started to cleave was nearly constant, the percentage of cleaved embryos that developed into blastocysts showed clear individual heifer variation (61%, 51%, 31%, 28% and 24%, respectively), with a mean of 38% showing blastocyst formation. In vitro fertilization (IVF) was also conducted with oocyte from the same heifers used in SCNT. A variation of blastocyst production among individual heifers was also shown in the IVF experiment, but the rank of oocyte donor based on the blastocyst rate was changed. In conclusion, individual oocyte donor may have an effect on cloned embryo development in vitro, which differed from the effect on IVF embryos.

Construction and characteristics of 3-end enriched cDNA library from individual embryos of cattle.

To analyze stage-specific gene expression profiles of pre-implantation embryos and evaluate potential viability, techniques were adapted to generate 3-end enriched cDNA libraries from individual embryos of cattle based on RT-PCR methodology. The reproducibility of constructing a cDNA library was tested by five independent PCR experiments with specific primers for the presence of several rare genes such as DNMT1 (DNA methylation transferase 1), DNMT2, DNMT3A, Oct-4/3 (octmer-binding transcription factor), IFN-iota, IGF-2r (insulin like growth factor 2 receptor), and the housekeeping genes, H2A and beta-actin. Results indicated repeatability and that a proportion of expressed genes in the cDNA library from an individual embryo was not affected by limited PCR amplification. From the cDNA library, 134 clones were randomly selected for sequencing and showed that structure related elements accounted for 33.5% of transcripts and the energy- and metabolism-related genes were also an important component being 11.9% in the cDNA library. Approximately 14% of genes in the library were functionally unknown including greater than 5% of genes that were likely novel because there was no identity in Genbank. The frequency of structure-related genes such as beta-actin and ribosomal proteins in the cDNA library corresponded to other reports and suggested that the cDNA library constructed by RT-PCR might be proportional to the mRNA populations. The cDNA libraries constructed from different stage embryos will provide a powerful tool to explore novel genes relevant to embryogenesis, determine the profiling of stage-specific gene expression, and evaluate the potential viability of embryos.

Development of an HSV-tk transgenic mouse model for study of liver damage.

The herpes simplex virus thymidine kinase/ganciclovir (HSV-tk/GCV) system that selectively depletes cells expressing HSV-tk upon treatment with GCV has provided a valuable tool for developing a new animal model expressing the desired tissue damage. In this paper, an HSV-tk vector with an albumin promoter/enhancer was constructed. Based on the favourable killing effect on Hep-G2 cells by the recombinant construct, the HSV-tk transgenic mouse strains were developed. One strain of the TK transgenic mouse (TK5) was studied intensively. Integration of the target gene was confirmed primarily by PCR. Fluorescence in situ hybridization following G-banding analysis demonstrated that the insertion site was located at 2F1-G3. The hepatocyte-specific transcription and expression of HSV-tkwas verified by reverse transcription (RT)-PCR as well as by immunohistochemical staining. When two second-generation mice (TK5-F1 and TK5-F2) were injected with GCV, the pathogenic alterations in the liver were readily identified, including the appearance of vaculation in the hepatocytes with inflammatory infiltration in the liver, and diffuse proliferation of hepatocytes. In addition, the blood test demonstrates a significant increase of serum alanine aminotransferase, aspartate aminotransferase and total bilirubin. In conclusion, the transgenic mouse model with hepatocyte-specific expressed HSV-tk developed hepatitis with administration of GCV, had morphological and clinical chemical characteristics indicative of hepatocellular disease and should be useful for the the study of inducible liver-specific diseases.

Improving in vitro development of cloned bovine embryos with hybrid (Holstein-Chinese Yellow) recipient oocytes recovered by ovum pick up.

In the present study, oocytes from F1 hybrid cattle, as well as their parental lines, were recovered by ovum pick up (OPU) and used as recipient cytoplasm for somatic cell nuclear transfer (SCNT). Four F1 hybrid (Holstein dam x Chinese Yellow sire), 10 Holstein and four Chinese Yellow cattle were subjected to OPU once weekly. There were no significant differences among breeds for number of recovered oocytes per session (overall average, 7.8+/-0.5; mean+/-S.E.M.), quality of the recovered oocytes, or oocyte maturation rate (72-73%). Matured oocytes were all used as recipient cytoplasm (without selection) and a single batch of cumulus cells collected from a Holstein cow were used as donor cells. Although reconstructed embryos initiated cleavage sooner when the recipient cytoplasm was from hybrid cattle versus the two parental breeds, the overall cleavage rate was indistinguishable among breeds. At Day 8, the blastocyst rate from the cleaved embryos (51% versus 37% and 27%), the total number of cells per blastocyst (135+/-4.1 versus 116+/-3.6 and 101+/-4.2), and the percentage of Grade-A (excellent quality) blastocysts (54% versus 42% and 29%) in the hybrid group were all higher than that of Holstein and Yellow groups. Furthermore, the proportion of blastocysts obtained at Day 7 (as a percentage of the total number of blastocysts) was greater in the hybrid group than in Holstein and Yellow groups (89% versus 71% and 63%). In conclusion, the use of F1 hybrid oocytes as recipient cytoplasm significantly improved in vitro development of cloned bovine embryos relative to oocytes derived from the parental lines.

[Suppression of enhanced green fluorescent protein expression in cells by RNA interference].

OBJECTIVE: To evaluate the role of RNA interference (RNAi) in silencing the enhanced green fluorescent protein (eGFP) expression in 293T and Mel cells. METHODS: Nested-PCR was used to amplify H1 promoter from human 293T cells for driving RNAi synthesis. RNAi vectors (TR1) for silencing the eGFP expression was constructed. The eGFP vector and RNAi vector (TR1) were then co-transfected into the 293T and Mel cells, in which the silencing effect on eGFP expression was investigated by fluorescence microscopy, reverse transcription-PCR(RT-PCR), fluorescence-assited cell sorting(FACS) analysis and real-time RT-PCR. RESULTS: RNAi could effectively reduce more than 50 percent of eGFP expression in 293T cells as well as in Mel cells. CONCLUSION: The RNAi vector constructed in this way paper can effectively inhibit eGFP expression in cells.

[The effect of HSV-tk/GCV on hepatic specific damage driven by murine ALB promoter/enhancer].

The recombinant vector (pLLTK), containing murine serum albumin (ALB) gene promoter/enhancer directing the herpes simplex virus thymidine kinase (HSV-tk) gene expression was constructed to study its effect on hepatic cell-specific damage. Firstly,in order to compare the hepatic cell-specific transcriptional activity, three vectors were constructed in which green fluorescent protein (GFP) gene was used as a reporter marker. Vector pLE was driven by murine serum ALB gene promoter,whereas pLLE contained not only murine ALB promoter but also an enhancer located at upstream of the promoter was included. In the meanwhile, the vector pLEL had a murine ALB promoter and enhancer placed at the downstream from GFP. After transfected into Hep-G2 (a human hepatic cell line) and HC-11 (a murine breast epithelial cell line), GFP expression was examined by using fluorescence microscope as well as flow cytometer. Secondly, the vector pLLTK was used to observe the killing effect on Hep-G2 cells. The results demonstrated that ALB promoter/enhancer was able to direct hepatic cell-specific GFP expression. Furthermore, HSV-tk expression in Hep-G2 cells was ganciclovir (GCV)sensitive. After seven days of culture with GCV, pLLTK-transfected Hep-G2 cells showed an obvious cell death (53%) when detected by 3-4,5 dimethylthiozol-2-yl-2, 5-diphenyl tetrazolium bromide colorimetry (MTT) assay. Compared to the untreated group, there were no obvious changes in cellular growth inhibition rate in the Hep-G2 cells transfected with a blank control vector pcDNA3. 1 (only 2% of cells appeared cell death). All these results indicated that the above constructs were hepatocyte-specific. It therefore paves a way for further creating a liver-specific damage animal model by transgenic approach using HSV-tk gene expression driven by the ALB promoter/enhancer.

[A study of the effect of locus control region elements HS2 and HS3 on beta-globin gene expression].

HS2 and HS3 are important elements of human beta-globin locus control region (LCR). To study the effect of HS2, HS3, and HS2-HS3 on human beta-globin gene expression, a series of expression cassettes were constructed, in which the reporter gene encoding the enhanced green fluorescent protein (EGFP) was driven by the beta-globin promotor and under the control of HS2, HS3, and HS2-HS3. These constructs were transfected transiently into MEL and K562 cell lines mediated with liposome and their expression was measured with FACS as well as semi-quantitative RT-PCR method. The results showed that 3.2-kb HS2 could significantly enhance the activity of beta-globin promotor in MEL and K562 cells, while 3-kb HS3 could do only in MEL cells. There was no synergistic function in transient expression in the cassettes with the combination of HS2 and HS3 in MEL and K562 cells.

[Molecular cloning and analysis of bovine prolactin full-long genomic as well as cDNA sequences].

In this report, a full-length sequence of bovine prolactin (bPRL) genomic DNA with 9388 bp, which has been accepted by GenBank (Accession Number: AF426315), was firstly cloned by Long PCR procedures. This sequence consists of 5 exons, 4 introns, 854 bp of 5' upstream regulatory region and 69 bp of 3' UTR. Accession number of protein encoded by AF426315 sequence in GenBank is AAL28075 that is composed of 229 amino acid residues, in which signal sequence resides in 1-30 sites and mature polypeptide consists of 199 amino acid residues. The recombinant plasmid containing bPRL genomic DNA was then transfected into eukaryotic cells (COS-7), followed by RT-PCR procedure. An 804 bp of bPRL cDNA containing all the encoding region was obtained, indicating that the bPRL genomic DNA reported herein had its biological function at the transcriptional level. Results derived from information searching by Blast program revealed that there were various SNP sites in the sequences of bPRL mRNAs and ESTs collected in GenBank, which located mainly in downstream encoding region and 3' UTR. These SNP sites did not alter the related amino acids encoded. In addition, mRNA sequences encoding 5' signal sequence of bPRL gene was highly conserve.

[High expression of human FIX(hFIX) in transgenic mice directed by goat beta-casein gene promoter].

To probe the feasibility of efficient production of human clotting factor IX(hFIX) with the approach of mammary gland bioreactor of transgenic animals, we constructed hFIX mammary gland expression vector containing promoter, exon 1, intron 1 and exon 2 of the goat beta-casein gene about 6.7 kb fragment as well as full-length of hFIX cDNA and its modified intron 1 sequence. By using transgenic products and 12 transgenic founders (9 female, 3 male) were produced, and the integration rate thus was 11.2%. ELISA assay and Western blot showed that the milk of 8 female transgenic mice had hFIX expression with high clotting activities. The highest hFIX expression in the milk of one transgenic mouse reached 52.9 mg/L, and the highest clotting activity of the transgene milk was 279.2%. FISH experiments indicated that hFIX DNA was integrated in different chromosomes in different mice. This result indicated that the hFIX mammary gland expression vector based on the goat beta-casein promoter can efficiently direct high expression of hFIX gene in the milk of transgenic mice, which maintained high clotting activity.

A chimeric mouse model established by allogenic in utero transplantation.

In utero stem cells transplantation is a promising approach to the prenatal treatment of diseases. In order to investigate the fate of the stem cells after in utero transplantation, we have established a chimeric mouse model with the method of in utero transplantation. Mononuclear cells (including stem cells/progenitor cells) derived from male mouse bone marrow were injected into fetal mouse peritoneal cavity during the pre-immune period. The donor cells in the circulatory blood of female recipients were identified by fluorescence in situ hybridization (FISH), and the Y-chromosome specific DNA was detected by PCR as well as real-time quantitative PCR after the recipient mice were born. The results showed that a total of 4 female recipient mice were chimeric in their peripheral blood. Significantly, the donor cells in three chimeric mice persisted up to six months.

[Goat beta-lactoglobulin gene cloning and high expression in the mammary gland of transgenic mice].

To clone goat beta-lactoglobulin (BLG) gene,two fragments were amplified from goat genomic DNA by LD-PCR method. The fragments were inserted in T-vectors before being spliced into the whole 7.2 kb BLG gene at a single restriction enzyme site of NarI. Consequently, the eukaryotic expression vector was constructed. All the clones were proved to be correct by restriction enzyme cutting and sequencing analysis. Six Founders (3 male symbol, 3 female symbol) of goat BLG transgenic mice were obtained by microinjection and BLG genes integration were confirmed by both PCR and Southern blot analyses. The milk was collected from two lactating female transgenic mice and goat BLG protein contents were measured with ELISA. The results showed that goat BLG protein in milk of the two mice were 23.49 mg/mL and 2.19 mg/mL, respectively.

[Mammary gland dual-expression construct containing prolactin and foreign DNAs can promote the expression of foreign proteins in mammary cells].

To investigate the feasibility in the promotion of the expression of foreign proteins, such as human lactinferrin (hLF) and thrombopoietin (TPO), in the transgenic animals-mammary gland bioreactor by bovine prolactin (bPRL), two types of mammary gland dual-expression vectors containing bPRL and foreign DNAs were constructed. In one type of vector, both foreign and bPRL DNAs were linked by internal ribosome entry site (IRES) which shared one goat 6.7 kb of beta-casein promoter; while in the other type of vector, the transcriptions of the foreign gene as well as bPRL were respectively directed by 6.7 kb goat beta-casein promoter and 2.0 kb of goat beta-casein promoter. After transfection of the vectors with lipofectin method, the expression of foreign proteins were measured by RT-PCR as well as ELISA assay. The results showed that bPRL could obviously promote the expression of foreign proteins (hLF and TPO) in cultured cells. The hLF expression level was increased from 12.6 microg/L to 18.4 microg/L and 37.2 microg/L in the COS-7 cells (African green monkey kidney cell) (P<0.05), and from 13.7 microg/L to 20.7 microg/L and 19.9 microg/L in the HC-11 cells (epithelial cell of mouse mammary gland) (P<0.05) by two vectors, respectively. TPO expression level was increased from 572 ng/L to 1340 ng/L in the COS-7 cell (P<0.05), and from 783 ng/L to 1040 ng/L in the HC-11 cell (P<0.05) by the vector which have two promoters. This work indicate that bovine prolactin can effectively increase the expression of foreign genes in mammal cells.