Laboratory Animal and Comparative Medicine ›› 2015, Vol. 35 ›› Issue (5): 421-424.DOI: 10.3969/j.issn.1674-5817.2015.05.017
Previous Articles Next Articles
JING Ya-xing1, BAI Lu2, GAO Huan-yun2, ZHENG Zhen-yu1,2
Received:2014-12-30
Online:2015-10-25
Published:2015-10-25
CLC Number:
JING Ya-xing,BAI Lu,GAO Huan-yun,et al. The Current Research Status of Gut Microbes in Mice[J]. Laboratory Animal and Comparative Medicine, 2015, 35(5): 421-424. DOI: 10.3969/j.issn.1674-5817.2015.05.017.
| [1] Gerritsen J.Intestinal microbiota in human health and disease: the impact of probiotics[J]. Genes Nutr, 2011, 6(3):209-240. [2] 陈恒, 叶盛, 左延文, 等. 肠道微生物与肥胖关系研究进展[J]. 现代预防医学, 2008, 35(4):608-616. [3] 魏婷婷, 胡芳, 杜彩贺, 等. 应用PCR-DGGE技术分析BKS-2型糖尿病模型小鼠盲肠内容物微生物菌群结构[J]. 生物技术通报, 2012, 11(4):146-151. [4] 柳尧波, 凌泽春. 猪胃肠道微生物菌群的研究现状浅析[J]. 山东农业科学, 2011, 27(10):90-94. [5] Ley RE, Peterson DA, Gordon JJ.Ecological and evolutionary forces shaping microbial diversity in the human intestine[J]. Cell, 2006, 124(4):837-848. [6] Gauffin CP, Aguero G, Perdigon G.Adjuvant effects of Lactobaciilus casei added to renutrition diet in malnourished mouse model[J]. Biocell, 2002, 6(1):35-48. [7] 倪江, 杨维仁. 肠道微生物与宿主代谢关的研究进展[J]. 饲料博览, 2012, 3(7):9-12. [8] 魏泓. 我国实验用小型猪的应用研究前景[J]. 实验动物科学与管理, 2004, 21(2):371-381. [9] Backhed F, Ding H, Wang T, et al.The gut microbiota as an environmental factor that regulates fat storage[J]. Proc Natl Acad Sci U S A, 2004, 101(44):15718-15723. [10] 李伟. 几种常用实验动物与人肠道主要菌群多样性比较[D]. 重庆: 西南大学生命科学学院, 2011. [11] 陈杏云, 曾本华, 魏泓, 等. 高脂饮食对菌群人源化小鼠肠道菌群结构的影响[J]. 食品科学, 2013, 34(17):278-280. [12] 曾本华, 唐欢, 李文霞, 等. 肥胖患者HFA小鼠模型的建立[J]. 中国微生态学杂志, 2012, 24(4):4-8. [13] 赵艳姣, 崔亚利, 陈宝江, 等. 葡萄糖氧化酶对饲喂含霉变饲料小鼠体重和肠道微生物的影响[J]. 动物营养学报, 2014, 26(11):3531-3536. [14] Simpson JM, Mccracken VJ, White BA, et al.Application of denaturant gradient gel electrophoresis for the analysis of the porcine gastrointestinal microbiota[J]. J Microbiol Methods, 1999, 36(3):167-179. [15] 张勇. 益生菌Lactobacillus casei Zhang对大鼠糖耐量受损改善作用和Ⅱ型糖尿病预防作用[D]. 呼和浩特: 内蒙古农业大学, 2013. [16] 尹业师, 王欣. 影响实验小鼠肠道菌群的多因素比较研究[J]. 实验动物科学, 2012, 29(4):12-16. [17] 王友湘, 陈庆森. 瑞士乳杆菌对小鼠肠道微生物区系的影响[J]. 食品科学, 2008, 29(9):542-546. [18] 于萍, 王加启, 卜登攀, 等. 日粮添加纳豆芽孢杆菌对断奶后犊牛胃肠道纤维分解菌的影响[J]. 中国农业大学学报, 2009, 14(1):111-116. [19] 王春晖, 陈海强, 胡汝晓, 等. 香菇酶解物对小鼠免疫及肠道菌群的影响研究[J]. 微生物学通报, 2012, 39(6):820-826. [20] 谢婧雯, 王烨, 朱明, 等. 多形拟杆菌对糖尿病模型小鼠的影响[J]. 中国微生态学杂志, 2013, 25(8):869-873, 881. [21] 梁庆红, 张琳, 段恕诚. 肠道正常菌群对机体免疫调节和造血功能影响的研究进展[J]. 临床儿科杂志, 2005, 23(7):489-491. [22] 高倩, 王友明, 吴旧生. 肠道菌群变化对实验小鼠肠黏膜免疫的影响[J]. 中国实验动物学报, 2012, 20(5):45-49,99. [23] Moreau MC.Intestinal flora, probiotics and effects on the in testinal IgA immune response[J]. Arch Pediatr, 2000, 7(Suppl 2):247s-248s. [24] Kim HS, Park H, Cho IY, et a1. Dietary supplementation of probiotic Bacilluspolyfermentwus,Bispan strain,modulates natural killer cell and T cell subset populations and immune globulin G levels in human subjects[J]. J Med Food, 2006, 9(3):321-327. [25] Paturi G, Phillips M, Jones M, et a1. Immune enhancing effects of Lactobacillus acidophilus LAFTI L10 and Lactoba cillus paracasci LAFTI L26 in mice[J]. Int J Food Microbiol, 2007, 115(1):115-118. [26] Upadhyay V, Pomyko V, Kim TJ, et a1. Lymphotoxin regu lates commensal responses to enable diet-induced obesity[J]. Nat Immunol, 2012, 13(10):947-953. [27] 高巍, 盂庆翔. 生长育肥猪胃肠道正常厌氧菌群的数量和分区[J]. 中国农业大学学报, 2000, 5(5):88-93. [28] 臧建军, 车向荣, 岳文斌. 猪禽肠道微生物调控的研究[J]. 中国饲料, 2002, 5(16):10-12. [29] 付国兵, 张丽明. 仔猪肠道微生态的研究进展[J]. 营养与日粮, 2009, 12(11):24-26. [30] 张冉. 肉质性状相关基因的表达及消化道菌群多样性与动物生长发育的关系[D]. 济南: 山东大学, 2014. [31] Round JL, Mazmanian SK.The gut microbiota shapes intestinal immune reponses during health and disease[J]. Nat Rev Immunol, 2009, 9(5):313-323. [32] Moreau MC, Ducluzeau R, Guy-Grand D.Increase in the population of duodenal immunoglobulin A plasmocytes in axenic mice associated with different living or dead bacterial strains of intestinal origin[J]. Infect Immun, 1978, 21(2):532-539. [33] Arthur JC, Perez-Chanona E, Muhlbauer M, et a1. Intestinal inflammation targets cancer-inducing activity ofthe microbiota[J]. Science, 2012, 338(6103):120-123. |
| [1] | JIAO Qingzhen, WU Guihua, TANG Wen, FAN Fan, FENG Kai, YANG Chunxiang, QIAO Jian, DENG Sufang. Dynamic Monitoring and Analysis of Ammonia Concentration in Laboratory Animal Facilities Under Suspension of Heating Ventilation and Air Conditioning System [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 490-495. |
| [2] | LIU Wentao, LUO Yanhong, LONG Yongxia, LUO Qihui, CHEN Zhengli, LIU Lida. Common Environmental Problems and Testing Experiences in Laboratory Animal Facilities in Sichuan Province [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 483-489. |
| [3] | ZHAO Xin, WANG Chenxi, SHI Wenqing, LOU Yuefen. Advances in the Application of Zebrafish in the Research of Inflammatory Bowel Disease Mechanisms and Drug Development [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 422-431. |
| [4] | GONG Leilei, WANG Xiaoxia, FENG Xuewei, LI Xinlei, ZHAO Han, ZHANG Xueyan, FENG Xin. A Mouse Model and Mechanism Study of Premature Ovarian Insufficiency Induced by Different Concentrations of Cyclophosphamide [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 403-410. |
| [5] | LIN Zhenhua, CHU Xiangyu, WEI Zhenxi, DONG Chuanjun, ZHAO Zenglin, SUN Xiaoxia, LI Qingyu, ZHANG Qi. Evaluation of the Safety and Efficacy of Bone Cement in Experimental Pigs Using Vertebroplasty [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 466-472. |
| [6] | JIANG Juan, SONG Ning, LIAN Wenbo, SHAO Congcong, GU Wenwen, SHI Yan. Comparison of Histopathological and Molecular Pathological Phenotypes in Mouse Models of Intrauterine Adhesions Induced by Two Concentrations of Ethanol Perfusion [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 393-402. |
| [7] | LIU Yueqin, XUE Weiguo, WANG Shuyou, SHEN Yaohua, JIA Shuyong, WANG Guangjun, SONG Xiaojing. Observation of Digestive Tract Tissue Morphology in Mice Using Probe-Based Confocal Laser Endomicroscopy [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 457-465. |
| [8] | ZHENG Qingyong, YANG Donghua, MA Zhichao, ZHOU Ziyu, LU Yang, WANG Jingyu, XING Lina, KANG Yingying, DU Li, ZHAO Chunxiang, DI Baoshan, TIAN Jinhui. Recommendations for Standardized Reporting of Systematic Reviews and Meta-Analysis of Animal Experiments [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 496-507. |
| [9] | WANG Tingjun, LUO Hao, CHEN Qi. Discussion on AI-Based Digital Upgrade and Application Practice of Laboratory Animal Centers [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 473-482. |
| [10] | WANG Jiaoxiang, ZHANG Lu, CHEN Shuhan, JIAO Deling, ZHAO Heng, WEI Taiyun, GUO Jianxiong, XU Kaixiang, WEI Hongjiang. Construction and Functional Validation of GTKO/hCD55 Gene-Edited Xenotransplant Donor Pigs [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 379-392. |
| [11] | QIN Chao, LI Shuangxing, ZHAO Tingting, JIANG Chenchen, ZHAO Jing, YANG Yanwei, LIN Zhi, WANG Sanlong, WEN Hairuo. Study on the 90-day Feeding Experimental Background Data of SD Rats for Drug Safety Evaluation [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 439-448. |
| [12] | LIU Kun, LAN Qing, YI Bing, XIE Xiaojie. Key Challenges and Mitigation Strategies for Animal Pregnancy in Non-clinical Reproductive Toxicity Testing of Drugs [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 449-456. |
| [13] | . [J]. Laboratory Animal and Comparative Medicine, 2025, 45(4): 508-514. |
| [14] | CHEN Ziyi, SUN Hongyan, KANG Pinfang, WU Wenjuan. Research Advances in Animal Experimental Models of Pulmonary Hypertension [J]. Laboratory Animal and Comparative Medicine, 2025, (): 1-12. |
| [15] | XU Yingtao, WANG Mengmeng, LIN Ping, CHI Haitao, WANG Yi, BAI Ying. Exosomes Improve Ischemic Stroke by Regulation of Ferroptosis Through the NRF2/SLC7A11/GPX4 Pathway in Mice [J]. Laboratory Animal and Comparative Medicine, 2025, (): 1-11. |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
