Guzman MG, Gubler DJ, Izquierdo A, Martinez E, Halstead SB. Dengue an infection. Nat Rev Dis Primers. 2016;2:16055.
Tian YS, Zhou Y, Takagi T, Kameoka M, Kawashita N. Dengue virus and its inhibitors: a short evaluation. Chem Pharm Bull (Tokyo). 2018;66(3):191–206.
Halstead SB. Pathogenesis of dengue: challenges to molecular biology. Science. 1988;239(4839):476–81.
Aguiar M, Stollenwerk N, Halstead SB. The dangers behind Dengvaxia advice. Lancet Infect Dis. 2016;16(8):882–3.
Adepoju P. Shifting on from the failed HIV vaccine medical trial. Lancet HIV. 2020;7(3):e161.
Chen S, Kumar S, Espada CE, Tirumuru N, Cahill MP, Hu L, He C, Wu L. N6-methyladenosine modification of HIV-1 RNA suppresses type-I interferon induction in differentiated monocytic cells and first macrophages. PLoS Pathog. 2021;17(3):e1009421.
Chintala Ok, Mohareer Ok, Banerjee S. Dodging the host interferon-stimulated gene mediated innate immunity by hiv-1: a short replace on intrinsic mechanisms and counter-mechanisms. Entrance Immunol. 2021;29(12): 716927.
Boso G, Kozak CA. Retroviral restriction components and their viral targets: restriction methods and evolutionary variations. Microorganisms. 2020;8(12):1965.
Näslund TI, Paquin-Proulx D, Paredes PT, Vallhov H, Sandberg JK, Gabrielsson S. Exosomes from breast milk inhibit HIV-1 an infection of dendritic cells and subsequent viral switch to CD4+ T cells. AIDS. 2014;28(2):171–80.
Shrivastava S, Ray RM, Holguin L, Echavarria L, Grepo N, Scott TA, Burnett J, Morris KV. Exosome-mediated secure epigenetic repression of HIV-1. Nat Commun. 2021;12(1):5541.
Aziz-Ul-Rahman, Munir M, Shabbir MZ. Comparative evolutionary and phylogenomic evaluation of Avian avulaviruses 1–20. Mol Phylogenet Evol. 2018;127:931–51.
Dey S, Chellappa MM, Gaikwad S, Kataria JM, Vakharia VN. Genotype characterization of generally used Newcastle illness virus vaccine strains of India. PLoS ONE. 2014;9(6): e98869.
Gogoi P, Ganar Ok, Kumar S. Avian paramyxovirus: a short evaluation. Transbound Emerg Dis. 2017;64(1):53–67.
Ganar Ok, Das M, Sinha S, Kumar S. Newcastle illness virus: present standing and our understanding. Virus Res. 2014;2014(184):71–81.
Sato-Kuwabara Y, Melo SA, Soares FA, Calin GA. The fusion of two worlds: non-coding RNAs and extracellular vesicles–diagnostic and therapeutic implications (Assessment). Int J Oncol. 2015;46(1):17–27.
Lv LL, Cao Y, Liu D, Xu M, Liu H, Tang RN, Ma KL, Liu BC. Isolation and quantification of microRNAs from urinary exosomes/microvesicles for biomarker discovery. Int J Biol Sci. 2013;9(10):1021–31.
Nabariya DK, Pallu R, Yenuganti VR. Exosomes: The protagonists within the story of colorectal most cancers? Biochim Biophys Acta Rev Most cancers. 2020;1874(2): 188426.
Fleming A, Sampey G, Chung MC, Bailey C, van Hoek ML, Kashanchi F, Hakami RM. The carrying pigeons of the cell: exosomes and their function in infectious ailments attributable to human pathogens. Pathog Dis. 2014;71(2):109–20.
Greening DW, Gopal SK, Xu R, Simpson RJ, Chen W. Exosomes and their roles in immune regulation and most cancers. Semin Cell Dev Biol. 2015;40:72–81.
Gomzikova MO, James V, Rizvanov AA. Therapeutic utility of mesenchymal stem cells derived extracellular vesicles for immunomodulation. Entrance Immunol. 2019;10:2663.
Martins ST, Alves LR. Extracellular vesicles in viral infections: two sides of the identical coin? Entrance Cell Infect Microbiol. 2020;10: 593170.
Boukouris S, Mathivanan S. Exosomes in bodily fluids are a extremely secure useful resource of illness biomarkers. Proteomics Clin Appl. 2015;9(3–4):358–67.
Ahmed F, Tamma M, Pathigadapa U, Reddanna P, Yenuganti VR. Drug loading and useful efficacy of cow, buffalo, and goat milk-derived exosomes: a comparative research. Mol Pharm. 2022;19(3):763–74.
Rodrigues M, Fan J, Lyon C, Wan M, Hu Y. Position of extracellular vesicles in viral and bacterial infections: pathogenesis, diagnostics, and therapeutics. Theranostics. 2018;8(10):2709–21.
Popowski KD, Dinh PC, George A, Lutz H, Cheng Ok. Exosome therapeutics for COVID-19 and respiratory viruses. View (Beijing). 2021;2:20200186.
Conzelmann C, Groß R, Zou M, Krüger F, Görgens A, Gustafsson MO, El Andaloussi S, Münch J, Müller JA. Salivary extracellular vesicles inhibit Zika virus however not SARS-CoV-2 an infection. J Extracell Vesicles. 2020;9(1):1808281.
Chen X, Gao C, Li H, Huang L, Solar Q, Dong Y, Tian C, Gao S, Dong H, Guan D, Hu X, Zhao S, Li L, Zhu L, Yan Q, Zhang J, Zen Ok, Zhang CY. Identification and characterization of microRNAs in uncooked milk throughout totally different durations of lactation, industrial fluid, and powdered milk merchandise. Cell Res. 2010;20(10):1128–37.
Manca S, Upadhyaya B, Mutai E, Desaulniers AT, Cederberg RA, White BR, Zempleni J. Milk exosomes are bioavailable and distinct microRNA cargos have distinctive tissue distribution patterns. Sci Rep. 2018;8(1):11321.
Santos-Coquillat A, González MI, Clemente-Moragón A, González-Arjona M, Albaladejo-García V, Peinado H, Muñoz J, Ximénez Embún P, Ibañez B, Oliver E, Desco M, Salinas B. Goat milk exosomes as pure nanoparticles for detecting inflammatory processes by optical imaging. Small. 2022;18(6): e2105421.
Izumi H, Kosaka N, Shimizu T, Sekine Ok, Ochiya T, Takase M. Bovine milk accommodates microRNA and messenger RNA which are secure beneath degradative circumstances. J Dairy Sci. 2012;95(9):4831–41.
Rani P, Vashisht M, Golla N, Onteru SK, Singh D. Milk miRNAs encapsulated in exosomes are secure to human digestion and permeable to intestinal barrier in vitro. J Funct Meals. 2017;34:431–9.
Samuel M, Chisanga D, Liem M, Keerthikumar S, Anand S, Ang CS, Adda CG, Versteegen E, Jois M, Mathivanan S. Bovine milk-derived exosomes from colostrum are enriched with proteins implicated in immune response and progress. Sci Rep. 2017;7(1):5933.
Izumi H, Tsuda M, Sato Y, Kosaka N, Ochiya T, Iwamoto H, Namba Ok, Takeda Y. Bovine milk exosomes comprise microRNA and mRNA and are taken up by human macrophages. J Dairy Sci. 2015;98(5):2920–33.
Chaman N, Iqbal MA, Siddiqui FA, Gopinath P, Bamezai RN. ERK2-pyruvate kinase axis permits phorbol 12-myristate 13-acetate-induced megakaryocyte differentiation in K562 cells. J Biol Chem. 2015;290(39):23803–15.
Rani P, Yenuganti VR, Shandilya S, Sk O, Singh D. FmiRNAs: the hidden bioactive part of milk. Traits Meals Sci Technol. 2017;65:94–105.
Galley JD, Besner GE. The therapeutic potential of breast milk-derived extracellular vesicles. Vitamins. 2020;12(3):745.
Adriano B, Cotto NM, Chauhan N, Jaggi M, Chauhan SC, Yallapu MM. Milk exosomes: Nature’s considerable nanoplatform for theranostic functions. Bioact Mater. 2021;6(8):2479–90.
Swarbrick CMD, Basavannacharya C, Chan KWK, Chan SA, Singh D, Wei N, Phoo WW, Luo D, Lescar J, Vasudevan SG. NS3 helicase from dengue virus particularly acknowledges viral RNA sequence to make sure optimum replication. Nucleic Acids Res. 2017;45(22):12904–20.
Geiss BJ, Stahla H, Hannah AM, Gari AM, Keenan SM. Deal with flaviviruses: present and future drug targets. Future Med Chem. 2009;1:327–44.
Kapoor M, Zhang L, Ramachandra M, Kusukawa J, Ebner KE, Padmanabhan R. Affiliation between NS3 and NS5 proteins of dengue virus kind 2 within the putative RNA replicase is linked to differential phosphorylation of NS5. J Biol Chem. 1995;270(32):19100–6.
González MI, Martín-Duque P, Desco M, Salinas B. Radioactive labeling of milk-derived exosomes with 99mTc and in vivo monitoring by SPECT imaging. Nanomaterials (Basel). 2020;10(6):1062.
Escrevente C, Keller S, Altevogt P, Costa J. Interplay and uptake of exosomes by ovarian most cancers cells. BMC Most cancers. 2011;11:108. https://doi.org/10.1186/1471-2407-11-108.
Golan-Gerstl R, Elbaum Shiff Y, Moshayoff V, Schecter D, Leshkowitz D, Reif S. Characterization and organic operate of milk-derived miRNAs. Mol Nutr Meals Res. 2017;61(10):1700009.
Benmoussa A, Provost P. Milk MicroRNAs in Well being and Illness. Compr Rev Meals Sci Meals Saf. 2019;18(3):703–22.
Kondo Y, Kogure T, Ninomiya M, Fukuda R, Monma N, Ikeo Ok, Tanaka Y. The discount of miR146b-5p in monocytes and T cells might contribute to the immunopathogenesis of hepatitis C virus an infection. Sci Rep. 2019;9(1):13393.
Li Q, Lowey B, Sodroski C, Krishnamurthy S, Alao H, Cha H, Chiu S, El-Diwany R, Ghany MG, Liang TJ. Mobile microRNA networks regulate host dependency of hepatitis C virus an infection. Nat Commun. 2017;8(1):1789.
Somiya M, Yoshioka Y, Ochiya T. Biocompatibility of extremely purified bovine milk-derived extracellular vesicles. J Extracell Vesicles. 2018;7(1):1440132.
Lambeth CR, White LJ, Johnston RE, de Silva AM. Movement cytometry-based assay for titrating dengue virus. J Clin Microbiol. 2005;43(7):3267–72.
Afroz S, Battu S, Giddaluru J, Khan N. Dengue virus induced COX-2 signaling is regulated via nutrient sensor GCN2. Entrance Immunol. 2020;11:1831.
Atayde VD, da Silva Lira Filho A, Chaparro V, Zimmermann A, Martel C, Jaramillo M, Olivier M. Exploitation of the Leishmania exosomal pathway by Leishmania RNA virus 1. Nat Microbiol. 2019;4(4):714–23.
