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  • 2区Q1影响因子: 2.9
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    1. Discriminant canonical tool for inferring the effect of αS1, αS2, β, and κ casein haplotypes and haplogroups on zoometric/linear appraisal breeding values in Murciano-Granadina goats.
    1. 判别标准工具推断αS1的影响,αS2,β,κ酪蛋白单和haplogroups动物测定的/线性评估在Murciano-Granadina山羊育种值。
    期刊:Frontiers in veterinary science
    日期:2023-07-07
    DOI :10.3389/fvets.2023.1138528
    Genomic tools have shown promising results in maximizing breeding outcomes, but their impact has not yet been explored. This study aimed to outline the effect of the individual haplotypes of each component of the casein complex (αS1, β, αS2, and κ-casein) on zoometric/linear appraisal breeding values. A discriminant canonical analysis was performed to study the relationship between the predicted breeding value for 17 zoometric/linear appraisal traits and the aforementioned casein gene haplotypic sequences. The analysis considered a total of 41,323 zoometric/linear appraisal records from 22,727 primiparous does, 17,111 multiparous does, and 1,485 bucks registered in the Murciano-Grandina goat breed herdbook. Results suggest that, although a lack of significant differences ( > 0.05) was reported across the predictive breeding values of zoometric/linear appraisal traits for αS1, αS2, and κ casein, significant differences were found for β casein ( < 0.05). The presence of β casein haplotypic sequences GAGACCCC, GGAACCCC, GGAACCTC, GGAATCTC, GGGACCCC, GGGATCTC, and GGGGCCCC, linked to differential combinations of increased quantities of higher quality milk in terms of its composition, may also be connected to increased zoometric/linear appraisal predicted breeding values. Selection must be performed carefully, given the fact that the consideration of apparently desirable animals that present the haplotypic sequence GGGATCCC in the β casein gene, due to their positive predicted breeding values for certain zoometric/linear appraisal traits such as rear insertion height, bone quality, anterior insertion, udder depth, rear legs side view, and rear legs rear view, may lead to an indirect selection against the other zoometric/linear appraisal traits and in turn lead to an inefficient selection toward an optimal dairy morphological type in Murciano-Granadina goats. Contrastingly, the consideration of animals presenting the GGAACCCC haplotypic sequence involves also considering animals that increase the genetic potential for all zoometric/linear appraisal traits, thus making them recommendable as breeding animals. The relevance of this study relies on the fact that the information derived from these analyses will enhance the selection of breeding individuals, in which a desirable dairy type is indirectly sought, through the haplotypic sequences in the β casein locus, which is not currently routinely considered in the Murciano-Granadina goat breeding program.
  • 4区Q3影响因子: 2.5
    2. Selection-marker-free modification of the murine beta-casein gene using a lox2272 [correction of lox2722] site.
    2. 使用lox2272[lox2722的校正]位点对小鼠β-酪蛋白基因进行无选择标记的修饰。
    作者:Kolb A F
    期刊:Analytical biochemistry
    日期:2001-03-01
    DOI :10.1006/abio.2000.4984
    Gene targeting and site-specific recombination strategies allow the precise modification of the eukaryotic genome. Many of the recombination strategies currently used, however, will introduce a selection marker gene at the modified site. DNA sequences of prokaryotic origin like vector sequences, selection marker, and reporter genes have been shown to markedly influence the regulation of the modified genomic loci. In order to avoid the insertion of excess sequences, a biphasic recombination strategy involving homologous recombination and Cre-recombinase-mediated cassette exchange (RMCE) was devised and used to insert a foreign gene into the beta-casein gene in murine embryonic stem cells. The incompatibility of the heterospecific lox sites used for the recombinase-mediated cassette exchange was found to be critical for the success of the strategy. The frequently used mutant site lox511, which differs from the natural loxP site by a single point mutation, proved unsuitable for this approach. A mutant lox site carrying two point mutations, however, was highly effective and 90% of the selected cell clones carried the desired modification. This biphasic recombination strategy allows for the efficient and precise modification of gene loci without the concomitant introduction of a selectable marker gene.
  • 2区Q1影响因子: 2.5
    3. Production of microhomologous-mediated site-specific integrated LacS gene cow using TALENs.
    3. 现场具体microhomologous介导的生产使用TALEN的整合LACS基因牛。
    作者:Su Xiaohu , Wang Shenyuan , Su Guanghua , Zheng Zhong , Zhang Jiaqi , Ma Yunlong , Liu Zongzheng , Zhou Huanmin , Zhang Yanru , Zhang Li
    期刊:Theriogenology
    日期:2018-07-20
    DOI :10.1016/j.theriogenology.2018.07.011
    Gene editing tools (Zinc-Finger Nucleases, ZFN; Transcription Activator-Like Effector Nucleases, TALEN; and Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)/CRISPR-associated (Cas)9, CRISPR-Cas9) provide us with a powerful means of performing genetic engineering procedures. A combinational approach that utilizes both somatic cell nuclear transfer (SCNT) and somatic cell gene editing facilitates the generation of genetically engineered animals. However, the associated research has utilized markers and/or selected genes, which constitute a potential threat to biosafety. Microhomologous-mediated end-joining (MMEJ) has showed the utilization of micro-homologous arms (5-25 bp) can mediate exogenous gene insertion. Dairy milk is a major source of nutrition worldwide. However, most people are not capable of optimally utilizing the nutrition in milk because of lactose intolerance. Sulfolobus solfataricus β-glycosidase (LacS) is a lactase derived from the extreme thermophilic archaeon Sulfolobus solfataricus. Our finally aim was to site-specific integrated LacS gene into cow's genome through TALEN-mediated MMEJ and produce low-lactose cow. Firstly, we constructed TALENs vectors which target to the cow's β-casein locus and LacS gene expression vector which contain TALEN reorganization sequence and micro-homologous arms. Then we co-transfected these vectors into fetal derived skin fibroblasts and cultured as monoclone. Positive cell clones were screened using 3' junction PCR amplification and sequencing analysis. The positive cells were used as donors for SCNT and embryo transfer (ET). Lastly, we detected the genotype through PCR of blood genomic DNA. This resulted in a LacS knock-in rate of 0.8% in TALEN-treated cattle fetal fibroblasts. The blastocyst rate of SCNT embryo was 27%. The 3 months pregnancy rate was 20%. Finally, we obtained 1 newborn cow (5%) and verified its genotype. We obtained 1 site-specific marker-free LacS transgenic cow. It provides a basis to solve lactose intolerance by gene engineering breeding. This study also provides us with a new strategy to facilitate gene knock-ins in livestock using techniques that exhibit improved biosafety and intuitive methodologies.
  • 1区Q1影响因子: 15.7
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    4. Zinc-finger nickase-mediated insertion of the lysostaphin gene into the beta-casein locus in cloned cows.
    4. 锌指nickase-mediated溶葡球菌酶基因插入克隆牛的β-酪蛋白轨迹。
    期刊:Nature communications
    日期:2013-01-01
    DOI :10.1038/ncomms3565
    Zinc-finger nickases (ZFNickases) are a type of programmable nuclease that can be engineered from zinc-finger nucleases to induce site-specific single-strand breaks or nicks in genomic DNA, which result in homology-directed repair. Although zinc-finger nuclease-mediated gene disruption has been demonstrated in pigs and cattle, they have not been used to target gene addition into an endogenous gene locus in any large domestic species. Here we show in bovine fetal fibroblasts that targeting ZFNickases to the endogenous β-casein (CSN2) locus stimulates lysostaphin gene addition by homology-directed repair. We find that ZFNickase-treated cells can be successfully used in somatic cell nuclear transfer, resulting in live-born gene-targeted cows. Furthermore, the gene-targeted cows secrete lysostaphin in their milk and in vitro assays demonstrate the milk's ability to kill Staphylococcus aureus. Our success with this strategy will facilitate new transgenic technologies beneficial to both agriculture and biomedicine.
  • 1区Q1影响因子: 6.2
    5. Novel Functional Recombinant Human Follicle-Stimulating Hormone Acquired from Goat Milk.
    5. 从羊奶中获得的新型功能性重组人促卵泡激素。
    期刊:Journal of agricultural and food chemistry
    日期:2021-03-01
    DOI :10.1021/acs.jafc.0c07208
    An animal mammary bioreactor is regarded as an excellent biological system which is applied to produce large-scale recombinant proteins in milk. However, there are no effective methods to produce a large amount of some pharmaceutical proteins, such as human follicle-stimulating hormone (FSH), by large animal mammary gland bioreactors due to the fact that accumulation of excessive bioactive FSH might cause serious diseases in animals. Here, we report a novel strategy of preparing recombinant human FSH (rhFSH) from goat mammary glands, which could avoid the accumulation of bioactive FSH in goats. First, the single inactive FSHα and FSHβ subunits expressed in goat mammary epithelial cells and goat mammary glands were performed to reassemble and were found to self-assemble into a complete heterodimer rhFSH at 4 °C and pH 7.4. Further, a cyclic adenosine monophosphate (cAMP) induction assay showed that the cAMP levels in cell lysate of HEK 293/FSHR cells were increased by about 8-fold in reassembled rhFSH groups than that in the control group ( < 0.01). Pharmacokinetic analysis indicated that the reassembled rhFSH from goat mammary glands was comparable to that of the commercially available Gonal-F ( > 0.05). In addition, the increasing dose of reassembled rhFSH significantly promoted ovulation of mouse and ovary weight gain of Sprague Dawley rat compared with the control groups and maximum values were up to 3-fold ( < 0.01) and 2.8-fold ( < 0.01), respectively. The reassembled rhFSH showed a similar effect to Gonal-F in inducing expression of FSH target genes and activating the PI3K pathway in granulosa cells. Our study developed a novel method to produce rhFSH and provided the basis for preparing FSH by the goat mammary gland bioreactor with less health problems on the producing animals.
  • 3区Q2影响因子: 3.4
    6. Establishment of an immortalized sheep mammary epithelial cell line for studying milk fat and protein synthesis.
    6. 用于研究乳脂和蛋白质合成的永生化绵羊乳腺上皮细胞系的建立。
    期刊:Journal of food science
    日期:2024-09-25
    DOI :10.1111/1750-3841.17370
    The mammary gland, crucial for milk production in mammals, presents challenges for in vitro study due to its complex structure and limited cell lifespan. We addressed this by introducing the SV40 large T antigen into primary mammary epithelial cells (MECs) from sheep, creating an immortalized T-tag MEC line. This line, stable for over 50 passages, maintained typical epithelial cell morphology during long-term culture. Through transcriptome sequencing and validation, we discovered 3833 differentially expressed genes between MECs and T-tag MEC line, encompassing key biological processes and signaling pathways like cell cycle, p53, and cancer. The cell line, expressing MEC markers (KRT8, KRT18, proliferating cell nuclear antigen, SV40, CSN2, and acetyl-CoA carboxylase alpha), proved capable of synthesizing milk fat and protein. Despite its infinite proliferation potential, the T-tag MEC line showed no tumor formation in mice or cell migration in vitro, indicating stability. This development offers a valuable resource for studying MECs in dairy sheep, facilitating the advancement of long-term culture systems and in vitro lactation bioreactors.
  • 2区Q1影响因子: 3.5
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    7. Genetically Engineered Goats as Efficient Mammary Gland Bioreactors for Production of Recombinant Human Neutrophil Peptide 1 Using CRISPR/Cas9.
    7. 基因工程山羊作为高效乳腺生物反应器,利用 CRISPR / Cas9 生产重组人中性粒细胞肽 1。
    期刊:Biology
    日期:2024-05-23
    DOI :10.3390/biology13060367
    Mammary gland bioreactors are promising methods for recombinant protein production. Human neutrophil peptide 1 (HNP1) exhibits antibacterial and immune-modulating properties. This study aims to establish a method to generate goats secreting HNP1 using the mammary gland as bioreactors. HNP1 transgenic goats were generated by using CRISPR/Cas9 technology to knock-in (KI) the HNP1 sequence into exon 7 of the goat β-casein (CSN2) gene under the control of the CSN2 promoter. One-cell stage embryos were cytoplasmically injected with a mixture of Cas9 mRNA, sgRNA, and a homologous plasmid including the T2A-HNP1 sequences, followed by transfer to recipient goats. A total of 22 live offspring goats were delivered, and 21 of these goats (95.45%) exhibited targeted edits at the locus, and 2 female goats (9.09%) demonstrated successful HNP1 integration. Western blot and ELISA analyses confirmed the presence of HNP1 protein at high levels in the milk of these HNP1-positive goats, with mean concentrations of 22.10 µg/mL and 0.0092 µg/mL during the initial 60 days of lactation. Furthermore, milk from these transgenic goats exhibited notable antibacterial activity against Escherichia coli and Staphylococcus aureus, demonstrating the functionality of the expressed HNP1 protein. In conclusion, we established an efficient method for developing new transgenic goat lines as a mammary gland bioreactor, and the bioactive HNP1 protein secreted by the transgenic goat has the potential to combat microbial resistance.
  • 2区Q2影响因子: 3.6
    8. Development and characterization of in vitro self-assembled recombinant human follicle stimulating hormone originated from goat mammary epithelial cells.
    8. 体外自组装的开发和鉴定重组人促卵泡激素起源于山羊乳腺上皮细胞。
    期刊:Molecular and cellular endocrinology
    日期:2021-02-11
    DOI :10.1016/j.mce.2021.111211
    Follicle stimulating hormone (FSH), composed of FSHα and FSHβ subunits, is essential for female follicle development and male spermatogenesis. The recombinant human FSH (rhFSH) products on the market are mainly generated from mammalian cells and are expensive. Large animal mammary gland bioreactors are urgently needed to produce large amounts of rhFSH. However, there are currently no effective methods to prepare rhFSH by large animals mainly due to the fact that excessive accumulation of FSH might cause many adverse effects in animals. We herein report the development and characterization of functional self-assembled rhFSH produced in goat mammary epithelial cells (GMECs). FSHα and FSHβ stably expressed in Chinese hamster ovary (CHO) cell lines were secreted into culture medium and well glycosylated. Importantly, FSHα and FSHβ expressed apart were able to assemble into functional FSH. We next inserted human FSHα or FSHβ gene separately into goat β-Lactoglobulin locus in GMECs by CRISPR/Cas9. Inactive FSHα and FSHβ subunits expressed from GMECs assembled into rhFSH as analyzed by His-tag pull down assay. Functional assessment of rhFSH by cAMP induction assay, mouse ovulation induction and rat ovarian weight gain experiments showed that the bioactivity of self-assembled rhFSH expressed by GMECs was comparable to that of Gonal-F both in vitro and in vivo. Our study demonstrated that FSHα and FSHβ can be separately expressed and assembled into functional rhFSH, and provided the basis for future preparing FSH by goat mammary gland bioreactor with less health problems on the producing animals.
  • 4区Q3影响因子: 2.3
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    9. Double-Gene Copromoting Expression Analysis in tPA/GH Transgenic Goat Mammary Epithelial Cells and Thrombolytic Activity of tPA In Vitro.
    9. tPA/GH转基因山羊乳腺上皮细胞双基因共促表达分析及tPA体外溶栓活性。
    期刊:BioMed research international
    日期:2022-05-06
    DOI :10.1155/2022/6484073
    Human tissue-plasminogen activator (tPA) is a thrombolytic drug widely used in the treatment of stroke, pulmonary thrombosis, acute myocardial infarction, and other thrombotic diseases. The double genes cointegrated into the organisms and cells can produce a synergistic effect, which will improve the expression level of the target gene. However, the study of the integration of the GH and tPA genes to improve the expression level of tPA has not yet been reported. In order to elucidate this, we generated monoclonal goat mammary epithelial cell lines with tPA/GH double-gene integration and analyzed the tPA expression level in single- and double-gene integrated cells. We selected the mammary gland-specific expressing vectors BLC14/tPA and BLC14/GH with the -lactoglobulin gene as a regulatory sequence in our previous research. The tPA and GH genes were electronically cotransfected into goat mammary epithelial cells. Resistant cell lines were screened by G418, and transgenic monoclonal cell lines were confirmed by PCR. The tPA expression was induced by prolactin and detected in the cell induction solution after 48 h by ELISA and Western blotting. We detected the tPA biological activity in vitro by fibrin agarose plate assay (FAPA). The results showed that a total of 207 resistant monoclonal cells were obtained, including 126 cell lines with tPA monogenic integration and 51 cell lines with tPA/GH double-gene integration. The rate of double-gene integration was 24.6% (51/207). A total of 48 cells expressed tPA, of which 25.3% (19/75) cells expressed single gene, and 56.9% (29/51) cells expressed double genes. The concentration of tPA in single-gene-expressing cells was 8.0-64.0 g/mL, and the tPA level in double-gene-expressing cells was significantly higher (200-7200 g/mL). In addition, the tPA had a relatively strong in vitro thrombolytic activity determined by FAPA. The results showed that goat mammary epithelial cell lines with tPA/GH gene integration were successfully established by electrotransfection, and the expression level of tPA in double-gene integrated cell lines was significantly increased. This study provided a new way for the preparation of a transgenic goat and other animal with high tPA expression by somatic cell nuclear transfer. The findings also laid a foundation for efficient production of pharmaceutical proteins in transgenic animal mammary gland bioreactors in the future.
  • 3区Q2影响因子: 3.1
    10. Site specific insertion of a transgene into the murine α-casein (CSN1S1) gene results in the predictable expression of a recombinant protein in milk.
    10. 将转基因位点特异性插入鼠 α - 酪蛋白 (CSN1S1) 基因导致重组蛋白在乳中的可预测表达。
    期刊:Biotechnology journal
    日期:2024-01-01
    DOI :10.1002/biot.202300287
    Gene loci of highly expressed genes provide ideal sites for transgene expression. Casein genes are highly expressed in mammals leading to the synthesis of substantial amounts of casein proteins in milk. The α-casein (CSN1S1) gene has assessed as a site of transgene expression in transgenic mice and a mammary gland cell line. A transgene encoding an antibody light chain gene (A1L) was inserted into the α-casein gene using sequential homologous and site-specific recombination. Expression of the inserted transgene is directed by the α-casein promoter, is responsive to lactogenic hormone activation, leads to the synthesis of a chimeric α-casein/A1L transgene mRNA, and secretion of the recombinant A1L protein into milk. Transgene expression is highly consistent in all transgenic lines, but lower than that of the α-casein gene (4%). Recombinant A1L protein accounted for 0.5% and 1.6% of total milk protein in heterozygous and homozygous transgenic mice, respectively. The absence of the α-casein protein in homozygous A1L transgenic mice leads to a reduction of total milk protein and delayed growth of the pups nursed by these mice. Overall, the data demonstrate that the insertion of a transgene into a highly expressed endogenous gene is insufficient to guarantee its abundant expression.
  • 3区Q1影响因子: 3.9
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    11. Evaluation of the α-casein (CSN1S1) locus as a potential target for a site-specific transgene integration.
    11. 评估α-酪蛋白(CSN1S1)位点作为位点特异性转基因整合的潜在靶点。
    期刊:Scientific reports
    日期:2022-05-14
    DOI :10.1038/s41598-022-12071-1
    Transgenic animals are an important tool in biotechnology, including the production of recombinant proteins in the milk. Traditionally, expression constructs are based on hybrid vectors bearing mammary gland specific regulatory elements from the α-casein (Csn1s1), β-casein (Csn2), whey acidic protein (WAP), or β-lactoglobulin (BLG) genes. Overexpression from the randomly integrated vectors typically provides high levels of expression, but has drawbacks due to unpredictable genome localization. CRISPR-Cas9 targeted transgene integration into the endogenous casein locus could alleviate the need for extensive animal screening to achieve high and reproducible expression levels. We decided to evaluate such a "precise" integration approach, placing the human granulocyte-macrophage colony-stimulating factor (hGMCSF) gene under control of the mouse endogenous alpha-S1-casein (Csn1s1) promoter. We designed two types of transgene integrations: a knock-in in the second exon of the Csn1s1 (INS-GM) and a full-size Csn1s1 replacement with hGMCSF (REP-GM) which was never tested before. The INS-GM approach demonstrated low transgene expression and milk protein levels (0.4% of Csn2 transcripts; 2-11 µg/ml hGMCSF). This was probably caused by the absence of the 3'-polyadenylation signal in the hGMCSF transgene. REP-GM animals displayed high transgene expression, reaching and slightly exceeding the level of the endogenous Csn1s1 (30-40% of Csn2 transcripts), but yielded less hGMCSF protein than expected (0.2-0.5 mg/ml vs 25 mg/ml of Csn1s1), indicating that translation of the protein is not optimal. Homozygous inserts leading to the Csn1s1 knock-out did not have any long standing effects on the animals' health. Thus, in our experimental design, site-specific transgene integration into the casein locus did not provide any significant advantage over the overexpression approach.
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