[1] LU D,TIEZZI F,SCHILLEBEECKX C,et al.Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth[J].Microbiome,2018,6(1):4. [2] XIAO L,ESTELLE J,KIILERICH P,et al.A reference gene catalogue of the pig gut microbiome[J].Nature Microbiology,2016,1(12):16161. [3] RAMAYO C Y,MACH N,LEPAGE P,et al.Phylogenetic network analysis applied to pig gut microbiota identifies an ecosystem structure linked with growth traits[J].International Society for Microbial Ecology,2016,10(12):2973-2977. [4] KATOULI M,FOO E,KVHN I,et al.Evaluation of the Phene Plate generalized microplate for metabolic fingerprinting and for measuring fermentative capacity of mixed bacterial populations[J].Journal of Applied Microbiology,1997,82(4):511-518. [5] KONSTANTINOV S R,AWATI A A,WILLIAMS B A,et al.Post-natal development of the porcine microbiota composition and activities[J].Environmental Microbio-logy,2006,8(7):1191-1199. [6] MANN E,SCHMITZ-ESSER S,ZEBELI Q,et al.Mucosa-associated bacterial microbiome of the gastrointestinal tract of weaned pigs and dynamics linked to dietary calcium-phosphorus[J].PLoS One,2014,9(1):e86950. [7] SPREEUWENBERG M A,VERDONK J M,GASKINS H R,et al.Small intestine epithelial barrier function is compromised in pigs with low feed intake at weaning[J].Journal of Nutrition,2001,131(5):1520-1527. [8] THOMPSON C L,WANG B,HOLMES A J.The immediate environment during postnatal development has long-term impact on gut community structure in pigs[J].International Society for Microbial Ecology,2008,2(7):739-748. [9] MACH N,BERRI M,ESTELL J,et al.Early-life establishment of the swine gut microbiome and impact on host phenotypes[J].Environmental Microbiology Reports,2015,7(3):554-569. [10] DOU S,GADONNA W P,ROME V,et al.Characterisation of early-life fecal microbiota in susceptible and healthy pigs to post-weaning diarrhoea[J].PLoS One,2017,12(1):e0169851. [11] METZLER-ZEBELI B U,SCHMITZ-ESSER S,MANN E,et al.Adaptation of the cecal bacterial microbiome of growing pigs in response to resistant starch type 4[J].Applied and Environmental Microbiology,2015,81(24):8489-8499. [12] PAJARILLO E A,CHAE J P,BALOLONG M P,et al.Characterization of the fecal microbial communities of Duroc pigs using 16S rRNA gene pyrosequencing[J].Asian-Australasian Journal of Animal Sciences,2015,28(4):584-591. [13] YANG L,BIAN G,SU Y,et al.Comparison of faecal microbial community of Lantang,Bama,Erhualian,Meishan,Xiaomeishan,Duroc,Landrace,and Yorkshire sows[J].Asian-Australasian Journal of Animal Sciences,2014,27(6):898-906. [14] HAN G G,LEE J Y,JIN G D,et al.Evaluating the association between body weight and the intestinal micro-biota of weaned piglets via 16S rRNA sequencing[J].Applied Microbiology and Biotechnology,2017,101(14):5903-5911. [15] DING X,LAN W,LIU G,et al.Exploring possible associations of the intestine bacterial microbiome with the pre-weaned weight gaining performance of piglets in intensive pig production[J].Scientific Reports,2019,9(1):15534. [16] CAPORASO J G,KUCZYNSKI J,STOMBAUGH J,et al.QIIME allows analysis of high-throughput community sequencing data[J].Nature Methods,2010,7(5):335-336. [17] STANISLAWSKI M A,DABELEA D,WAGNER B D,et al.Pre-pregnancy weight,gestational weight gain,and the gut microbiota of mothers and their infants[J].Microbiome,2017,5(1):113. [18] TURNBAUGH P J,BÄCKHED F,FULTON L,et al.Diet-induced obesity is linked to marked but reversible alterations in the mouse distal gut microbiome[J].Cell Host & Microbe,2008,3(4):213-223. [19] TURNBAUGH P J,HAMADY M,YATSUNENKO T,et al.A core gut microbiome in obese and lean twins[J].Nature,2009,457(7228):480-484. [20] WANG X,TSAI T,DENG F,et al.Longitudinal investigation of the swine gut microbiome from birth to market reveals stage and growth performance associated bacteria[J].Microbiome,2019,7(1):109. [21] BERNARD K.The genus corynebacterium and other medically relevant coryneform-like bacteria[J].Journal of Clinical Microbiology,2012,50(10):3152-3158. [22] RAHMANI N,KASHIWAGI N,LEE J,et al.Mannan endo-1,4-β-mannosidase from Kitasatospora sp.isolated in Indonesia and its potential for production of mannooligosaccharides from mannan polymers[J].Applied Microbiology and Biotechno-logy Express,2017,7(1):100. [23] VAN IMMERSEEL F,BOYEN F,GANTOIS I,et al.Supplementation of coated butyric acid in the feed reduces colonization and shedding of Salmonella in poultry[J].Poultry Science,2005,84(12):1851-1856. [24] OIKONOMOU G,TEIXEIRA A G,FODITSCH C,et al.Fecal microbial diversity in pre-weaned dairy calves as described by pyrosequencing of metagenomic 16S rDNA.Associations of Faecalibacterium species with health and growth[J].PLoS One,2013,8(4):e63157. [25] MYER P R,WELLS J E,SMITH T P,et al.Microbial community profiles of the colon from steers differing in feed efficiency[J].Springer Plus,2015,4(1):454. [26] OH J K,CHAE J P.Association between the body weight of growing pigs and the functional capacity of their gut microbiota[J].Journal of Animal Science,2020,91(1):e13418. [27] ANDOH A,NISHIDA A,TAKAHASHI K,et al.Comparison of the gut microbial community between obese and lean peoples using 16S gene sequencing in a Japanese population[J].Journal of Clinical Biochemistry and Nutrition,2016,59(1):65-70. [28] HAKKAK R,KOROURIAN S,FOLEY S L,et al.Assessment of gut microbiota populations in lean and obese Zucker rats[J].PLoS One,2017,12(7):e0181451. [29] KAAKOUSH N O.Insights into the role of Erysipelotrichaceae in the human host[J].Frontiers in Cellular and Infection Microbiology,2015,5:84. [30] BASKIN D G,FIGLEWICZ LATTEMANN D,SEELEY R J,et al.Insulin and leptin:Dual adiposity signals to the brain for the regulation of food intake and body weight[J].Brain Research,1999,848(1-2):114-123. [31] HE M,FANG S,HUANG X,et al.Evaluating the contribution of gut microbiota to the variation of porcine fatness with the cecum and fecal samples[J].Front Microbiology,2016,7:2108. [32] LAYDEN B T,ANGUEIRA A R,BRODSKY M,et al.Short chain fatty acids and their receptors:New metabolic targets[J].Translational Research:The Journal of Laboratory and Clinical Medicine,2013,161(3):131-140. [33] CHADWICK M,TREWIN H,GAWTHROP F,et al.Sesquiterpenoids lactones:Benefits to plants and people[J].International Journal of Molecular Sciences,2013,14(6):12780-12805. [34] GREEN E R,MECSAS J.Bacterial secretion systems:An overview[J].Microbiology Spectrum,2016,4(1):215-239. [35] LEWIS JR C M,OBREGÓN-TITO A,TITO R Y,et al.The human microbiome project:Lessons from human genomics[J].Trends in Microbiology,2012,20(1):1-4. [36] TAUCH A,BURKOVSKI A.Molecular armory or niche factors:Virulence determinants of Corynebacterium species[J].FEMS Microbiology Letters,2015,362(23):fnv185. |