[1] |
CEPICKA I, HAMPL V, KULDA J. Critical taxonomic revision of parabasalids with description of one new genus and three new species[J]. Protist, 2010, 161(3):400-433.
|
[2] |
MEHLHORN H, AL-QURAISHY S, AZIZA A, et al. Fine structure of the bird parasites Trichomonas gallinae and Tetratrichomonas gallinarum from cultures[J]. Parasitol Res, 2009, 105(3):751-756.
|
[3] |
CLARK S, DE-GUSSEM K, BARNES J. Flagellated protozoan infections in turkeys[J]. World Poultry, 2003, 19(4):1-4.
|
[4] |
MVLLER M. The hydrogenosome[J]. J Gener Microbiol, 1993, 139(12):2879-2889.
|
[5] |
MARX M, REINER G, WILLEMS H, et al. High prevalence of Trichomonas gallinae in wild columbids across western and southern Europe[J]. Parasit Vectors, 2017, 10(1):242.
|
[6] |
FRANSSEN F F J, LUMEIJ J T. In vitro nitroimidazole resistance of Trichomonas gallinae and successful therapy with an increased dosage of ronidazole in racing pigeons (Columba livia domestica)[J]. J Vet Pharmacol Ther, 1992, 15(4):409-415.
|
[7] |
JOHNSTONE R M, ADAM M, PAN B T. The fate of the transferrin receptor during maturation of sheep reticulocytes in vitro[J]. Can J Biochem Cell Biol, 1983, 62(11):1246-1254.
|
[8] |
JOHNSTONE R M, MATHEW A, MASON A B, et al. Exosome formation during maturation of mammalian and avian reticulocytes:evidence that exosome release is a major route for externalization of obsolete membrane proteins[J]. J Cell Physiol, 1991, 147(1):27-36.
|
[9] |
SHAO H L, IM H, CASTRO C M, et al. New technologies for analysis of extracellular vesicles[J]. Chem Rev, 2018, 118(4):1917-1950.
|
[10] |
SZEMPRUCH A J, DENNISON L, KIEFT R, et al. Sending a message:extracellular vesicles of pathogenic protozoan parasites[J]. Nat Rev Microbiol, 2016, 14(11):669-675.
|
[11] |
VALADI H, EKSTRÖM K, BOSSIOS A, et al. Exosome-mediated transfer of mRNAs and microRNAs is a novel mechanism of genetic exchange between cells[J]. Nat Cell Biol, 2007, 9(6):654-659.
|
[12] |
KRUGER S, ELMAGEED Z Y A, HAWKE D H, et al. Molecular characterization of exosome-like vesicles from breast cancer cells[J]. BMC Cancer, 2014, 14(1):44.
|
[13] |
WAHLGREN J, STATELLO L, SKOGBERG G, et al. Delivery of small interfering RNAs to cells via exosomes[J]. Methods Mol Biol, 2016, 1364:105-125.
|
[14] |
林德麟, 陈婷, 黎梦, 等. 乳中miRNA的研究进展[J]. 畜牧兽医学报, 2016, 47(9):1739-1748.LIN D L, CHEN T, LI M, et al. Research progress of miRNA in milk[J]. Acta Veterinaria et Zootechnica Sinica, 2016, 47(9):1739-1748. (in Chinese)
|
[15] |
CHEN I H, XUE L, HSU C C, et al. Phosphoproteins in extracellular vesicles as candidate markers for breast cancer[J]. Proc Natl Acad Sci U S A, 2017, 114(12):3175-3180.
|
[16] |
KALRA H, ADDA C G, LIEM M, et al. Comparative proteomics evaluation of plasma exosome isolation techniques and assessment of the stability of exosomes in normal human blood plasma[J]. Proteomics, 2013, 13(22):3354-3364.
|
[17] |
BELL B M, KIRK I D, HILTBRUNNER S, et al. Designer exosomes as next-generation cancer immunotherapy[J]. Nanomed:Nanotechnol Biol Med, 2016, 12(1):163-169.
|
[18] |
KIM M S, HANEY M J, ZHAO Y L, et al. Development of exosome-encapsulated paclitaxel to overcome MDR in cancer cells[J]. Nanomed:Nanotechnol Biol Med, 2016, 12(3):655-664.
|
[19] |
COUPER K N, BARNES T, HAFALLA J C R, et al. Parasite-derived plasma microparticles contribute significantly to malaria infection-induced inflammation through potent macrophage stimulation[J]. PLoS Pathog, 2010, 6(1):e1000744.
|
[20] |
GEIGER A, HIRTZ C, BÉCUE T, et al. Exocytosis and protein secretion in Trypanosoma[J]. BMC Microbiol, 2010, 10:20.
|
[21] |
TWU O, DE MIGUEL N, LUSTIG G, et al. Trichomonas vaginalis exosomes deliver cargo to host cells and mediate host:parasite interactions[J]. PLoS Pathog, 2013, 9(7):e1003482.
|
[22] |
倪爱心, 麻慧, 陈继兰. 寄生虫来源的外泌体研究进展[J]. 畜牧兽医学报, 2019, 50(5):909-917.NI A X, MA H, CHEN J L. Research progress of parasite-derived exosomes[J]. Acta Veterinaria et Zootechnica Sinica, 2019, 50(5):909-917. (in Chinese)
|
[23] |
DIAMOND L S. The establishment of various trichomonads of animals and man in axenic cultures[J]. J Parasitol, 1957, 43(4):488-490.
|
[24] |
孟莹. 犬源毛滴虫的分离鉴定及其生物学特性研究[D]. 长春:吉林大学, 2013:18-19.MENG Y. Identification and biological characteristics of a Trichomonad isolate from dog[D]. Changchun:Jilin University, 2013:18-19. (in Chinese)
|
[25] |
FENG S Y, CHANG H, LI F H, et al. Prevalence and molecular characterization of Trichomonas gallinae from domestic pigeons in Beijing, China[J]. Infect, Genet Evol, 2018, 65:369-372.
|
[26] |
FELLEISEN R S J. Comparative sequence analysis of 5.8S rRNA genes and internal transcribed spacer (ITS) regions of trichomonadid protozoa[J]. Parasitology, 1997, 115(2):111-119.
|
[27] |
TWU O, JOHNSON P J. Parasite extracellular vesicles:mediators of intercellular communication[J]. PLoS Pathog, 2014, 10(8):e1004289.
|
[28] |
王前, 郑磊. 细胞外囊泡-基础研究与临床应用[M]. 北京:科学出版社, 2019:37-66.WANG Q, ZHENG L. Extracellular vesicles-basic research and clinical application[M]. Beijing:Science Press, 2019:37-66. (in Chinese)
|
[29] |
RAPOSO G, STOORVOGEL W. Extracellular vesicles:exosomes, microvesicles, and friends[J]. J Cell Biol, 2013, 200(4):373-383.
|
[30] |
张亮, 王帅帅, 陈忍霞, 等. 猪繁殖与呼吸综合征病毒感染的MARC-145细胞中外泌体的分离与鉴定[J]. 畜牧兽医学报, 2017, 48(7):1300-1305.ZHANG L, WANG S S, CHEN R X, et al. Separation and identification of exosomes from MARC-145 cells infected with porcine reproductive and respiratory syndrome virus[J]. Acta Veterinaria et Zootechnica Sinica, 2017, 48(7):1300-1305. (in Chinese)
|
[31] |
GURUNATHAN S, KANG M H, JEYARAJ M, et al. Review of the isolation, characterization, biological function, and multifarious therapeutic approaches of exosomes[J]. Cells, 2019, 8(4):307.
|
[32] |
李志行. 柔嫩艾美耳球虫外泌体的分离与鉴定及泛素蛋白功能初步研究[D]. 上海:上海师范大学, 2019:27-29.LI Z X. Isolation and Identification of Eimeria tenella exosomes and preliminary study on the function of ubiquitin[D]. Shanghai:Shanghai Normal University, 2019:27-29. (in Chinese)
|
[33] |
PAL BHOWMICK I, KUMAR N, SHARMA S, et al. Plasmodium falciparum enolase:stage-specific expression and sub-cellular localization[J]. Malar J, 2009, 8:179.
|
[34] |
RUAN J P, MOUVEAUX T, LIGHT S H, et al. The structure of bradyzoite-specific enolase from Toxoplasma gondii reveals insights into its dual cytoplasmic and nuclear functions[J]. Acta Crystallogr, 2015, D71:417-426.
|
[35] |
CAYIR E, ERDEMIR A, OZKAN E, et al. Cloning of intron-removed enolase gene and expression, purification, kinetic characterization of the enzyme fromTheileria annulata[J]. Mol Biotechnol, 2014, 56(8):689-696.
|
[36] |
DE A. S. NAVARRO M V, GOMES DIAS S M, MELLO L V, et al. Structural flexibility in Trypanosoma brucei enolase revealed by X-ray crystallography and molecular dynamics[J]. FEBS J, 2007, 274(19):5077-5089.
|
[37] |
JEANCLOS E M, LIN L, TREUIL M W, et al. The chaperone protein 14-3-3η interacts with the nicotinic acetylcholine receptor α4 subunit evidence for a dynamic role in subunit stabilization[J]. J Biol Chem, 2001, 276(30):28281-28290.
|
[38] |
都建, 沈继龙, 汪学龙, 等. 弓形虫信号转导蛋白14-3-3基因的克隆与表达[J]. 中国寄生虫学与寄生虫病杂志, 2003, 21(5):279-281.DU J, SHEN J L, WANG X L, et al. Cloning and expression of the signaling protein 14-3-3 of Toxoplasma gondii[J]. Chinese Journal of Parasitology and Parasitic Diseases, 2003, 21(5):279-281. (in Chinese)
|
[39] |
刘庆中, 沈继龙. 日本血吸虫重组信号蛋白14-3-3疫苗免疫保护性的观察[J]. 中国寄生虫学与寄生虫病杂志, 2003, 21(5):257-260.LIU Q Z, SHEN J L. Protective immunity induced by recombinant signaling protein 14-3-3 vaccine of Schistosoma japonicum[J]. Chinese Journal of Parasitology and Parasitic Diseases, 2003, 21(5):257-260. (in Chinese)
|
[40] |
SILES-LUCAS M. The 14-3-3 protein:a key molecule in parasites as in other organisms[J]. Trends Parasitol, 2003, 19(12):575-581.
|
[41] |
廖兴江, 戴佳琳, 周灵贵, 等. 亚洲牛带绦虫泛素缀合酶基因及其蛋白质结构与功能的生物信息学分析[J]. 中国人兽共患病学报, 2009, 25(3):234-237.LIAO X J, DAI J L, ZHOU L G, et al. Bioinformatics analysis of structure and characteristics of the gene and protein of ubiquitin-conjugated enzyme from Taenia asiatica[J]. Chinese Journal of Zoonoses, 2009, 25(3):234-237. (in Chinese)
|
[42] |
王强, 李勉, 张龙现. 热休克蛋白与寄生虫感染的关系[J]. 中国畜牧兽医, 2009, 36(6):133-136.WANG Q, LI M, ZHANG L X. The relationship between heat shock proteins and parasite infection[J]. China Animal Husbandry & Veterinary Medicine, 2009, 36(6):133-136. (in Chinese)
|
[43] |
PEREZ-CASAL J, POTTER A A. Glyceradehyde-3-phosphate dehydrogenase as a suitable vaccine candidate for protection against bacterial and parasitic diseases[J]. Vaccine, 2016, 34(8):1012-1017.
|
[44] |
李超群, 樊海宁, 张耀刚, 等. 细粒棘球绦虫延伸因子1生物信息学分析[J]. 中国公共卫生, 2017, 33(4):607-610.LI C Q, FAN H N, ZHANG Y G, et al. Property and structure of elongation factor 1 in Echinococcus granulous, a bioinformatics analysis[J]. Chinese Journal of Public Health, 2017, 33(4):607-610. (in Chinese)
|
[45] |
梁盼红. 亚洲带绦虫外泌体的分离鉴定及其对LoVo细胞的影响[D]. 北京:中国农业科学院, 2019:31-32.LIANG P H. Isolation and identification of exosomes from Taenia asiatica and their effects on LoVo cells[D]. Beijing:Chinese Academy of Agricultural Sciences, 2019:31-32. (in Chinese)
|