[1] GOMAA E Z.Human gut microbiota/microbiome in health and diseases:A review[J].Antonie Van Leeuwenhoek,2020,113(12):2019-2040. [2] HILLMAN E T,LU H,YAO T,et al.Microbial ecology along the gastrointestinal tract[J].Microbes and Environments,2017,32(4):300-313. [3] WANG J W,KUO C H,KUO F C,et al.Fecal microbiota transplantation:Review and update[J].Journal of the Formosan Medical Association,2019,118(Suppl 1):S23-S31. [4] CHENG J,WANG W,ZHANG D,et al.Distribution and difference of gastrointestinal flora in sheep with different body mass index[J].Animals (Basel),2022,12(7):880. [5] ZHANG W,ZOU G,LI B,et al.Fecal microbiota transplantation (FMT) alleviates experimental colitis in mice by gut microbiota regulation[J].Journal of Microbiology Biotechnology,2020,30(8):1132-1141. [6] MULLEN K R,YASUDA K,DIVERS T J.et al.Equine faecal microbiota transplant:Current knowledge,proposed guidelines and future directions[J].Equine Veterinary Education, 2018,30(3):151-160. [7] BOKOLIYA S C,DORSETT Y,PANIER H,et al.Procedures for fecal microbiota transplantation in murine microbiome studies[J].Frontiers in Cellular and Infection Microbiology,2021,11:711055. [8] CHU H,TAO X,SUN Z,et al.Galactooligosaccharides protects against DSS-induced murine colitis through regulating intestinal flora and inhibiting NF-κB pathway[J]. Life Sciences,2020,242:117220. [9] LIU T,GUO Y,LU C,et al.Effect of different pig fecal microbiota transplantation on mice intestinal function and microbiota changes during cold exposure[J].Frontiers in Veterinary Science,2022,9:805815. [10] El-SALHY M,KRISTOFFERSEN A B,VALEUR J,et al.Long-term effects of fecal microbiota transplantation (FMT) in patients with irritable bowel syndrome[J].Neurogastroenterology and Motility,2022,34(1):e14200. [11] MITCHELL R E,HASSAN M,BURTON B R,et al.IL-4 enhances IL-10 production in Th1 cells:Implications for Th1 and Th2 regulation[J]. Scientific Reports,2017,7(1):11315. [12] SCHREIBER S,HANNERS C M,KAASCH A J,et al.Metabolic interdependency of Th2 cell-mediated type 2 immunity and the tumor microenvironment[J].Frontiers in Immunology,2021,12:632581. [13] ZHANG P,LIU J,XIONG B,et al.Microbiota from alginate oligosaccharide-dosed mice successfully mitigated small intestinal mucositis[J].Microbiome,2020,8(1):112. [14] NYSTROM E E L,MARTINEZ-ABAD B,ARIKE L,et al.An intercrypt subpopulation of goblet cells is essential for colonic mucus barrier function[J].Science,2021,372:6539. [15] TANG J,XU L,ZENG Y,et al.Effect of gut microbiota on LPS-induced acute lung injury by regulating the TLR4/NF-κB signaling pathway[J].International Immunopharmacology,2021,91:107272. [16] HE Z,MA Y,CHEN X,et al.Protective effects of intestinal gallic acid in neonatal dairy calves against extended-spectrum β-lactamase producing enteroaggregative Escherichia coli infection:Modulating intestinal homeostasis and colitis[J]. Frontiers in Nutrition,2022,9:864080. [17] VENEGAS D P,DE LA FUENTE M K.Corrigendum:Short chain fatty acids (SCFAs)-mediated gut epithelial and immune regulation and its relevance for inflammatory bowel diseases[J].Frontiers in Immunology,2019,10:277. [18] GUO R,CHEN L H,XING C,et al.Pain regulation by gut microbiota:Molecular mechanisms and therapeutic potential[J].British Journal of Anaesthesia,2019,123(5):637-654. [19] VENDRIK K E W,OOIJEVAAR R E,DE JONG P R C,et al.Fecal microbiota transplantation in neurological disorders[J].Frontiers in Cellular and Infection Microbiology,2020,10:98. [20] LAVELLE A,SOKOL H.Gut microbiota-derived metabolites as key actors in inflammatory bowel disease[J]. Nature Reviews.Gastroenterology&Hepatology,2020,17(4):223-237. [21] O'CONNOR K,MORRISSETTE M,STRANNDWITZ P,et al.Cranberry extracts promote growth of bacteroidaceae and decrease abundance of Enterobacteriaceae in a human gut simulator model[J]. Public Library of Science One,2019,14(11):e0224836. [22] XIAO L,YAN J,YANG T,et al.Fecal microbiome transplantation from children with autism spectrum disorder modulates tryptophan and serotonergic synapse metabolism and induces altered behaviors in germ-free mice[J].mSystems,2021,6(2):e01343-20. [23] LI N,WANG Q,WANG Y,et al.Fecal microbiota transplantation from chronic unpredictable mild stress mice donors affects anxiety-like and depression-like behavior in recipient mice via the gut microbiota-inflammation-brain axis[J].Stress,2019,22(5):592-602. [24] CANIBE N,O'DEA M,ABRAHAM S,et al.Potential relevance of pig gut content transplantation for production and research[J].Journal of Animal Science and Biotechnology,2019,10:55. [25] HU L,GENG S,LI Y,et al.Exogenous fecal microbiota transplantation from local adult pigs to crossbred newborn piglets[J].Frontier in Microbiology,2018,8:2663. [26] HU J,MA L,NIE Y,et al.A microbiota-derived bacteriocin targets the host to confer diarrhea resistance in early-weaned piglets[J].Cell Host Microbe,2018,24(6):817-832.e8. [27] XIAO Y,YAN H,DIAO H,et al.Early gut microbiota intervention suppresses DSS-induced inflammatory responses by deactivating TLR/NLR signalling in pigs[J].Scientific Reports,2017,7(1):3224. [28] ZHAO X,JIANG L,FANG X,et al.Host-microbiota interaction-mediated resistance to inflammatory bowel disease in pigs[J]. Microbiome,2022,10(1):115. [29] CHENG S,MA X,GENG S,et al.Fecal microbiota transplantation beneficially regulates intestinal mucosal autophagy and alleviates gut barrier injury[J].mSystems,2018,3(5):e00137-18. [30] GENG S,CHENG S,LI Y,et al.Faecal microbiota transplantation reduces susceptibility to epithelial injury and modulates tryptophan metabolism of the microbial community in a piglet model[J].Journal of Crohn's&Colitis,2018,12(11):1359-1374. [31] PARKER A,ROMANO S,ANSORGE R,et al.Fecal microbiota transfer between young and aged mice reverses hallmarks of the aging gut,eye,and brain[J].Microbiome,2022,10(1):68. [32] DEPOMMIER C,VAN HUL M,EVERARD A,et al.Pasteurized Akkermansia muciniphila increases whole-body energy expenditure and fecal energy excretion in diet-induced obese mice[J].Gut Microbes,2020,11(5):1231-1245. [33] XIANG Q,WU X,PAN Y,et al.Early-life intervention using fecal microbiota combined with probiotics promotes gut microbiota maturation,regulates immune system development,and alleviates weaning stress in piglets[J]. International Journal of Molecular Sciences,2020,21(2):503. [34] KIM H S,WHON T W,SUANG H,et al.Longitudinal evaluation of fecal microbiota transplantation for ameliorating calf diarrhea and improving growth performance[J].Nature Communications,2021,12(1):161. [35] CANI P D,VAN HUL M,LEFORT C,et al.Microbial regulation of organismal energy homeostasis[J].Nature Metabolism,2019,1(1):34-46. [36] ISLAM J,TANIMIZU M,SHIMIZU Y,et al.Development of a rational framework for the therapeutic efficacy of fecal microbiota transplantation for calf diarrhea treatment[J].Microbiome,2022,10(1):31. [37] HUANG M Z,CUI D A,WU X H,et al.Serum metabolomics revealed the differential metabolic pathway in calves with severe clinical diarrhea symptoms[J].Animals (Basel),2020,10(5):769. [38] SLANZON G S,RIDENHOUR B J,PARRISH L M,et al.Effects of a farm-specific fecal microbial transplant (FMT) product on clinical outcomes and fecal microbiome composition in preweaned dairy calves[J].The Public Library of Science One,2022,17(10):e0276638. [39] CHENG J,ZHANG X,ZHANG D,et al.Sheep fecal transplantation affects growth performance in mouse models by altering gut microbiota[J].Journal of Animal Science,2022,100(11):skac303. [40] DONG L,JIN Y,CUI H,et al.Effects of diet supplementation with rumen-protected betaine on carcass characteristics and fat deposition in growing lambs[J].Meat Science,2020,166:108154. [41] YANG G,ZHANG S,LI Z,et al.Comparison between the gut microbiota in different gastrointestinal segments of Large-tailed Han and Small-tailed Han sheep breeds with high-throughput sequencing[J].Indian Journal of Microbiology,2020,60(4):436-450. [42] XIE F,JIN W,SI H,et al.An integrated gene catalog and over 10,000 metagenome-assembled genomes from the gastrointestinal microbiome of ruminants[J].Microbiome,2021,9(1):137. [43] TIAN J,DU J,LU Z,et al.Distribution of microbiota across different intestinal tract segments of a stranded dwarf minke whale,balaenoptera acutorostrata[J].Microbiology Open,2020,9(10):e1108. [44] LIU X,SHA Y,DINGKAO R,et al.Interactions between rumen microbes,VFAs,and host genes regulate nutrient absorption and epithelial barrier function during cold season nutritional stress in Tibetan sheep[J].Frontiers in Microbiology,2020,11:593062. [45] ASCHENBACH J R,ZEBELI Q,PATRA A K,et al.Symposium review:The importance of the ruminal epithelial barrier for a healthy and productive cow[J].Journal of Dairy Science,2019,102(2):1866-1882. [46] BRUNSE A,MARTIN L,RASMUSSEN T S,et al.Effect of fecal microbiota transplantation route of administration on gut colonization and host response in preterm pigs[J].The International Society for Microbial Ecology Journal,2019,13(3):720-733. [47] LAMARCHE D,JOHNSTONE J,ZYTARUK N,et al.Microbial dysbiosis and mortality during mechanical ventilation:A prospective observational study[J].Respiratory Research,2018,19(1):245. [48] WEN L,DUFFY A.Factors influencing the gut microbiota,inflammation,and type 2 diabetes[J].The Journal of Nutrition,2017,147(7):1468S-1475S. [49] FISCHER M,SIPE B,CHENG Y W,et al.Fecal microbiota transplant in severe and severe-complicated Clostridium difficile:A promising treatment approach[J]. Gut Microbes,2017,8(3):289-302. [50] WRZOSEK L,CIOCAN D,BORENTAIN P,et al.Transplantation of human microbiota into conventional mice durably reshapes the gut microbiota[J].Scientific Reports,2018,8(1):6854. [51] TSENG C H,WU C Y.The gut microbiome in obesity[J].Journal of the Formosan Medical Association,2019,118(Suppl 1):S3-S9. [52] XIAO W,SU J,GAO X,et al.The microbiota-gut-brain axis participates in chronic cerebral hypoperfusion by disrupting the metabolism of short-chain fatty acids[J].Microbiome,2022,10(1):62. |