發表論文
1. Hao Y, Jiang L, Han D, Si D, Sun Z, Wu Z, Dai Z. Limosilactobacillus mucosae and Lactobacillus amylovorus protect against experimental colitis via upregulation of colonic HTR4 and TGF-beta 2. J Nutr. 2023. doi: 10.1016/j.tjnut.2023.06.031. In Press, Journal Pre-proof.
2. Jiang L, Han D, Hao Y, Song Z, Sun Z, Dai Z. Linking serotonin homeostasis to gut function: Nutrition, gut microbiota and beyond. Crit Rev Food Sci Nutr. 2023 Mar 1:1-20. doi: 10.1080/10408398.2023.2183935. Epub ahead of print.
3. 劉沫言, 郝友玲, 宋慶慶, 陳輝, 孫士強, 李菊, 武振龍, 戴兆來. 仔豬小腸優勢乳酸桿菌斷奶前后全腸道演替及其比較代謝組學研究. 動物營養學報. 2023, 35(3): 1501-1512.
4. Wang B, Cui L, Song Q, Liu M, Kou J, Sun S, Chen H, Shi Y, Wu Z, Dai Z. Excessive dietary L-tryptophan regulated amino acids metabolism and serotonin signaling in the colon of weaning piglets with acetate-induced gut inflammation. Amino Acids. 2023 Mar;55(3):403-412.
5. Tang Q, Tan P, Dai Z, Wang T, Xu S, Ding Y, Jin J, Zhang X, Zhang Y, Zhou C, Yue Z, Fu H, Yan J, Ma X. Hydrophobic modification improves the delivery of cell-penetrating peptides to eliminate intracellular pathogens in animals. Acta Biomater. 2023 Feb;157:210-224.
6. Wang B, Jiang L, Wu Z, Dai Z. L-Tryptophan differentially regulated glucose and amino acid transporters in the small intestine of rat challenged with lipopolysaccharide. Animals (Basel). 2022 Nov 5;12(21):3045.
7. Wu S, Liu M, Chen H, Song Q, Wu Z, Dai Z. Tryptophan regulates bile and nitrogen metabolism in two pig gut lactobacilli species in vitro based on metabolomics study. Amino Acids. 2022 Oct;54(10):1421-1435.
8. Wang B, Sun S, Liu M, Chen H, Liu N, Wu Z, Wu G, Dai Z. Dietary L-tryptophan regulates colonic serotonin homeostasis in mice with dextran sodium sulfate-induced colitis. J Nutr. 2020 Jul 1;150(7):1966-76.
9. Liang H, Dai Z, Liu N, Ji Y, Chen J, Zhang Y, Yang Y, Li J, Wu Z, Wu G. Dietary L-Tryptophan modulates the structural and functional composition of the intestinal microbiome in weaned piglets. Front Microbiol. 2018, 9:1736.
10. Dai Z, Wu Z, Hang S, Zhu W, Wu G. Amino acid metabolism in intestinal bacteria and its potential implications for mammalian reproduction. Mol Hum Reprod. 2015, 21(5):389-409.
11. Dai Z, Wu Z, Jia S, Wu G. Analysis of amino acid composition in proteins of animal tissues and foods as pre-column o-phthaldialdehyde derivatives by HPLC with fluorescence detection. J Chromatogr B Analyt Technol Biomed Life Sci. 2014, 964:116-27.
12. Dai Z, Wu Z, Wang J, Wang X, Jia S, Bazer FW, Wu G. Analysis of polyamines in biological samples by HPLC involving pre-column derivatization with o-phthalaldehyde and N-acetyl-L-cysteine. Amino Acids. 2014, 46(6):1557-64.
13. Dai Z, Wu Z, Yang Y, Wang J, Satterfield MC, Meininger CJ, Bazer FW, Wu G. Nitric oxide and energy metabolism in mammals. Biofactors. 2013, 39(4):383-91.
14. Dai ZL, Li XL, Xi PB, Zhang J, Wu G, Zhu WY. L-Glutamine regulates amino acid utilization by intestinal bacteria. Amino Acids. 2013, 45(3):501-12.
15. Dai ZL, Li XL, Xi PB, Zhang J, Wu G, Zhu WY. Regulatory role for L-arginine in the utilization of amino acids by pig small-intestinal bacteria. Amino Acids. 2012, 43(1):233-44.
16. Dai ZL, Li XL, Xi PB, Zhang J, Wu G, Zhu WY. Metabolism of select amino acids in bacteria from the pig small intestine. Amino Acids. 2012, 42(5):1597-608.
17. Dai ZL, Wu G, Zhu WY. Amino acid metabolism in intestinal bacteria: links between gut ecology and host health. Front Biosci. 2011, 16:1768-86.
18. Dai ZL, Zhang J, Wu G, Zhu WY. Utilization of amino acids by bacteria from the pig small intestine. Amino Acids. 2010, 39:1201–15.
19. Zhang Y, Jia H, Jin Y, Liu N, Chen J, Yang Y, Dai Z, Wang C, Wu G, Wu Z. Glycine attenuates LPS-induced apoptosis and inflammatory cell infiltration in mouse liver. J Nutr. 2020 May 1;150(5):1116-25.
20. He Y, Fan X, Liu N, Song Q, Kou J, Shi Y, Luo X, Dai Z, Yang Y, Wu Z, Wu G. l-Glutamine represses the unfolded protein response in the small intestine of weanling piglets. J Nutr. 2019 Nov 1;149(11):1904-10.
21. Li N, Huang S, Jiang L, Dai Z, Li T, Han D, Wang J. Characterization of the early life microbiota development and predominant Lactobacillus species at distinct gut segments of low- and normal-birth-weight piglets. Front Microbiol. 2019 Apr 16;10:797.
22. Liu N, Dai Z, Zhang Y, Jia H, Chen J, Sun S, Wu G, Wu Z. Maternal L-proline supplementation during gestation alters amino acid and polyamine metabolism in the first generation female offspring of C57BL/6J mice. Amino Acids. 2019 May;51(5):805-11.
23. Fan X, Li S, Wu Z, Dai Z, Li J, Wang X, Wu G. Glycine supplementation to breast-fed piglets attenuates post-weaning jejunal epithelial apoptosis: a functional role of CHOP signaling. Amino Acids. 2019 Mar;51(3):463-73.
24. Ma X, Dai Z, Sun K, Zhang Y, Chen J, Yang Y, Tso P, Wu G, Wu Z. Intestinal epithelial cell endoplasmic reticulum stress and inflammatory bowel disease pathogenesis: An update review. Front Immunol. 2017 Oct 25;8:1271.
25. Wu Z, Hou Y, Dai Z, Hu CA, Wu G. Metabolism, nutrition, and redox signaling of hydroxyproline. Antioxid Redox Signal. 2019 Feb 1;30(4):674-82.
26. Wang H, Zhang C, Wu G, Sun Y, Wang B, He B, Dai Z, Wu Z. Glutamine enhances tight junction protein expression and modulates corticotropin-releasing factor signaling in the jejunum of weanling piglets. J Nutr. 2015, 145(1):25-31.
27. Wang W, Wu Z, Lin G, Hu S, Wang B, Dai Z, Wu G. Glycine stimulates protein synthesis and inhibits oxidative stress in pig small intestinal epithelial cells. J Nutr. 2014, 144(10):1540-8.
28. Yang YX, Dai ZL, Zhu WY. Important impacts of intestinal bacteria on utilization of dietary amino acids in pigs. Amino Acids. 2014, 46(11):2489-501.
29. Wang W, Dai Z, Wu Z, Lin G, Jia S, Hu S, Dahanayaka S, Wu G. Glycine is a nutritionally essential amino acid for maximal growth of milk-fed young pigs. Amino Acids. 2014, 46(8):2037-45.
30. Chen Y, Li D, Dai Z, Piao X, Wu Z, Wang B, Zhu Y, Zeng Z. L-Methionine supplementation maintains the integrity and barrier function of the small-intestinal mucosa in post-weaning piglets. Amino Acids. 2014, 46(4):1131-42.
31. Li X, Bazer FW, Johnson GA, Burghardt RC, Frank JW, Dai Z, Wang J, Wu Z, Shinzato I, Wu G. Dietary supplementation with L-arginine between days 14 and 25 of gestation enhances embryonic development and survival in gilts. Amino Acids. 2014, 46(2):375-84.
32. Wang W, Wu Z, Dai Z, Yang Y, Wang J, Wu G. Glycine metabolism in animals and humans: implications for nutrition and health. Amino Acids. 2013, 45(3):463-77.
33. Lin G, Liu C, Feng C, Fan Z, Dai Z, Lai C, Li Z, Wu G, Wang J. Metabolomic analysis reveals differences in umbilical vein plasma metabolites between normal and growth-restricted fetal pigs during late gestation. J Nutr. 2012, 142(6):990-8.
著 作
1. Dai Z, Wu Z, Zhu W, Wu G. Amino acids in microbial metabolism and function. Adv Exp Med Biol. 2022;1354:127-143.(圖書章節)
2. Dai Z, Cui L, Li J, Wang B, Guo L, Wu Z, Zhu W, Wu G. Chapter 24: Fermentation techniques in feed production. In: Animal Agriculture: Sustainability, Challenges and Innovations. p. 407-429. Academic Press, 2020.(圖書章節)
3. Dai Z, Sun S, Chen H, Liu M, Zhang L, Wu Z, Li J, Wu G. Chapter 11: Analysis of tryptophan and its metabolites by high-performance liquid chromatography. In: Amino Acid Analysis: Methods and Protocols, Methods in Molecular Biology. vol. 2030, p. 131-142. Springer Science+Business Media, LLC, 2019.07.(圖書章節)
4. 《動物營養學原理》,科學出版社,2019.11,主譯:戴兆來,李鵬,朱正鵬,武振龍。