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miR-143 inhibits proliferation and induces apoptosis of mammary epithelial cells in dairy goat
Zhibin Ji,Guizhi Wang,Lei Hou,Zhaohua Liu,Jianmin Wang,Tianle Chao 한국통합생물학회 2016 Animal cells and systems Vol.20 No.2
MicroRNAs are a class of post-transcriptional regulators of gene expression in multicellular organisms, which play important roles in cell fate, organ morphogenesis and carcinogenesis. In the present study, we demonstrated the critical roles of miR-143 on mammary epithelial cells of dairy goat. The test results of cell count, methylthiazolyldiphenyl-tetrazolium bromide, Hoechst33342/PI (propidium iodide) and flow cytometry showed miR-143-induced G0/G1 phase arrest, inhibited proliferation and promoted apoptosis of mammary epithelial cells; the qRT-PCR test of marker genes related to cell proliferation and apoptosis, BAX and BCL-2, supported the same conclusions. Our study presents evidence that miR-143 is an important post-transcription regulator involving in mammary cells survival, and it may have a value function in mammary gland development, lactation or involution.
Identification and Function Prediction of Novel MicroRNAs in Laoshan Dairy Goats
Ji, Zhibin,Wang, Guizhi,Zhang, Chunlan,Xie, Zhijing,Liu, Zhaohua,Wang, Jianmin Asian Australasian Association of Animal Productio 2013 Animal Bioscience Vol.26 No.3
MicroRNAs are a class of endogenous small RNAs that play important roles in post-transcriptional gene regulation by directing degradation of mRNAs or facilitating repression of target gene translation. In this study, three small RNA cDNA libraries from the mammary gland tissues of Laoshan dairy goats (Capra hircus) were constructed and sequenced, individually. Through Solexa high-throughput sequencing and bioinformatics analysis, we obtained 50 presumptive novel miRNAs candidates, and 55,448 putative target genes were predicted. GO annotations and KEGG pathway analyses showed the majority of target genes were involved in various biological processes and metabolic pathways. Our results discovered more information about the regulation network between miRNAs and mRNAs and paved a foundation for the molecular genetics of mammary gland development in goats.
Jingjuan Hu,Haihua Luo,Jieyan Wang,Wenli Tang,Junqi Lu,Shan Wu,Zhi Xiong,Guizhi Yang,Zhenguo Chen,Tian Lan,Hongwei Zhou,Jing Nie,Yong Jiang,Peng Chen 생화학분자생물학회 2017 Experimental and molecular medicine Vol.49 No.-
Chronic high-salt diet-associated renal injury is a key risk factor for the development of hypertension. However, the mechanism by which salt triggers kidney damage is poorly understood. Our study investigated how high salt (HS) intake triggers early renal injury by considering the ‘gut-kidney axis’. We fed mice 2% NaCl in drinking water continuously for 8 weeks to induce early renal injury. We found that the ‘quantitative’ and ‘qualitative’ levels of the intestinal microflora were significantly altered after chronic HS feeding, which indicated the occurrence of enteric dysbiosis. In addition, intestinal immunological gene expression was impaired in mice with HS intake. Gut permeability elevation and enteric bacterial translocation into the kidney were detected after chronic HS feeding. Gut bacteria depletion by non-absorbable antibiotic administration restored HS loadinginduced gut leakiness, renal injury and systolic blood pressure elevation. The fecal microbiota from mice fed chronic HS could independently cause gut leakiness and renal injury. Our current work provides a novel insight into the mechanism of HS-induced renal injury by investigating the role of the intestine with enteric bacteria and gut permeability and clearly illustrates that chronic HS loading elicited renal injury and dysfunction that was dependent on the intestine.