Bzw2 Promotes Proliferation and Lactation of Mammary Epithelial Cell in Dairy Goat

Mitosis of mammary epithelial cell is foundation of mammal lactation. We developed a strategy of combined application of generation of longer cDNA fragments from the serial analysis of gene expression (SAGE) tags for gene identification (GLGI) to screen and identify genes influencing lactating abili...

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Bibliographic Details
Published inJournal of Integrative Agriculture Vol. 11; no. 11; pp. 1884 - 1891
Main Authors SUN, Rui-qiu, LI, Qing-zhang, YAN, Hong-bo, ZHAO, Jing, GAO, Xue-jun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2012
Science Press
Key Laboratory of Dairy Science, Ministry of Education/College of Life Science, Northeast Agricultural University, Harbin 150030, P.R.China
Elsevier
Subjects
Bzw2
Bzw2 mammary epithelial cells proliferation lactation RNAi over-expression
cDNA片段
lactation
mammary epithelial cells
mRNA表达水平
over-expression
proliferation
RNAi
RNA干扰
乳腺上皮细胞
哺乳期
增殖
奶山羊
妇女
RNAi
over-expression
mammary epithelial cells
proliferation
Bzw2
lactation
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Summary:Mitosis of mammary epithelial cell is foundation of mammal lactation. We developed a strategy of combined application of generation of longer cDNA fragments from the serial analysis of gene expression (SAGE) tags for gene identification (GLGI) to screen and identify genes influencing lactating ability of mammary epithelial cell in dairy goat. GLGI as a new tag identification technique was brought about with SAGE. Bzw2 was found as a candidate gene related to lactation by screening Long-SAGE library of mammary gland in dairy goat. Bzw2 cDNA was synthesized by switching mechanism at 5"-end of RNA transcript (SMART) technology. The mRNA level of Bzw2 was relatively higher in early lactation than in other development stages of mammary gland. The proliferation of mammary epithelial cell was inhibited by transfecting specific shRNA of Bzw2. The mRNA levels of Stat5, Csn2 and Prlr were also down-regulated, suggesting the lactating ability of mammary epithelial cell was attenuated after Bzw2 RNAi. The reduction of mammary epithelial cell growth and lactation by Bzw2 RNAi was rescued through over-expression of Bzw2. These results revealed that Bzw2 might play an important role in lactation though the molecular mechanism was still unclear.
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Mitosis of mammary epithelial cell is foundation of mammal lactation. We developed a strategy of combined application of generation of longer cDNA fragments from the serial analysis of gene expression (SAGE) tags for gene identification (GLGI) to screen and identify genes influencing lactating ability of mammary epithelial cell in dairy goat. GLGI as a new tag identification technique was brought about with SAGE. Bzw2 was found as a candidate gene related to lactation by screening Long-SAGE library of mammary gland in dairy goat. Bzw2 cDNA was synthesized by switching mechanism at 5"-end of RNA transcript (SMART) technology. The mRNA level of Bzw2 was relatively higher in early lactation than in other development stages of mammary gland. The proliferation of mammary epithelial cell was inhibited by transfecting specific shRNA of Bzw2. The mRNA levels of Stat5, Csn2 and Prlr were also down-regulated, suggesting the lactating ability of mammary epithelial cell was attenuated after Bzw2 RNAi. The reduction of mammary epithelial cell growth and lactation by Bzw2 RNAi was rescued through over-expression of Bzw2. These results revealed that Bzw2 might play an important role in lactation though the molecular mechanism was still unclear.
Bzw2, mammary epithelial cells, proliferation, lactation, RNAi, over-expression
http://dx.doi.org/
http://www.chinaagrisci.com/Jwk_zgnykxen/fileup/PDF/2012,11(11)-1884.pdf
ISSN:2095-3119
2352-3425
DOI:10.1016/S2095-3119(12)60194-4