1 Burnett JC,Rossi JJ.RNA-based therapeutics:current progress and future prospects.Chem Biol,2012,19:60-71. 2 Napoli C,Lemieux C,Jorgensen R.Introduction of a chimeric chalcone synthase gene into petunia results in reversible co-suppression of homologous genes in trans.Plant Cell,1990,2:279-289. 3 Fire A,Xu S,Montgomery MK,et al.Potent and specific genetic interference by double-stranded RNA in Caenorhabditis elegans.Nature,1998,391:806-811. 4 Ma C,Liu Y,He L.MicroRNAs - powerful repression comes from small RNAs.Sci China C Life Sci,2009,52:323-330. 5 Nikitenko NA,Prassolov VS.Non-viral delivery and therapeutic application of small interfering RNAs.Acta Naturae,2013,5:35-53. 6 Huang L,Lieberman J.Production of highly potent recombinant siRNAs in Escherichia coli.Nat Protoc,2013,8:2325-2336. 7 Lavergne T,Baraguey C,Dupouy C,et al.Synthesis and preliminary evaluation of pro-RNA 2'-O-masked with biolabile pivaloyloxymethyl groups in an RNA interference assay.J Org Chem,2011,76:5719-5731. 8 M Centlivre NL,YP Liu KJvE,Weijer K.Preclinical test of a lentivirus-mediated RNAi gene therapy against HIV-AIDS in the humanized mouse model.Retrovirology,2011,8:9-10. 9 Sierant M,Kubiak K,Kazmierczak-Baranska J,et al.RNA interference in silencing of genes of Alzheimer's disease in cellular and rat brain models.Nucleic Acids Symp Ser (Oxf),2008:41-42. 10 Zoldan J,Lytton-Jean AK,Karagiannis ED,et al.Directing human embryonic stem cell differentiation by non-viral delivery of siRNA in 3D culture.Biomaterials,2011,32:7793-7800. 11 Gomes-da-Silva LC,Fernandez Y,Abasolo I,et al.Efficient intracellular delivery of siRNA with a safe multitargeted lipid-based nanoplatform.Nanomedicine (Lond),2013,8:1397-1413. 12 Bae J,Mie M,Kobatake E.Development of a specific siRNA delivery system into HeLa cells using an IgG-binding fusion protein.Biotechnol Lett,2013,35:2081-2089. 13 Meneksedag-Erol D,Tang T,Uluda H.Probing the effect of miRNA on siRNA-PEI polyplexes.J Phys Chem B,2015,119:5475-5486. 14 Darvishi MH,Nomani A,Amini M,et al.Novel biotinylated chitosan-graft-polyethyleneimine copolymer as a targeted non-viral vector for anti-EGF receptor siRNA delivery in cancer cells.Int J Pharm,2013,456:408-416. 15 Dadi TD,Li MW,Lloyd KC.Decreased growth factor expression through RNA interference inhibits development of mouse preimplantation embryos.Comp Med,2009,59:331-338. 16 Xie H,Wang H,Tranguch S,et al.Maternal heparin-binding-EGF deficiency limits pregnancy success in mice.Proc Natl Acad Sci U S A,2007,104:18315-18320. 17 Kutsukake M,Tamura K,Yoshie M,et al.Knockdown of IGF-binding protein 7 inhibits transformation of the endometrial gland in an in vitro model.Mol Reprod Dev,2010,77:265-272. 18 Dominguez F,Simon C,Quinonero A,et al.Human endometrial CD98 is essential for blastocyst adhesion.PLoS One,2010,5:e13380. 19 Wei X,Liu S,Wang X,et al.CD82 expression alters with human endometrial cycles and affects the uterine endometrial receptivity in vitro.Exp Biol Med (Maywood),2012,237:254-262. 20 Lu Z,Hardt J,Kim JJ.Global analysis of genes regulated by HOXA10 in decidualization reveals a role in cell proliferation.Mol Hum Reprod,2008,14:357-366. 21 Bagot CN,Troy PJ,Taylor HS.Alteration of maternal Hoxa10 expression by in vivo gene transfection affects implantation.Gene Ther,2000,7:1378-1384. 22 Benson GV,Lim H,Paria BC,et al.Mechanisms of reduced fertility in Hoxa-10 mutant mice:uterine homeosis and loss of maternal Hoxa-10 expression.Development,1996,122:2687-2696. 23 von WM,Wang X,Gabius HJ,et al.Galectin fingerprinting in human endometrium and decidua during the menstrual cycle and in early gestation.Mol Hum Reprod,2005,11:189-194. 24 Yang H,Lei C,Zhang W.Expression of galectin-3 in mouse endometrium and its effect during embryo implantation.Reprod Biomed Online,2012,24:116-122. 25 Lei CX,Zhang W,Zhou JP,et al.Interactions between galectin-3 and integrinbeta3 in regulating endometrial cell proliferation and adhesion.Hum Reprod,2009,24:2879-2889. 26 So KH,Lee CL,Yeung WS,et al.Glycodelin suppresses endometrial cell migration and invasion but stimulates spheroid attachment.Reprod Biomed Online,2012,24:639-645. 27 Shirane A,Wada-Hiraike O,Tanikawa M,et al.Regulation of SIRT1 determines initial step of endometrial receptivity by controlling E-cadherin expression.Biochem Biophys Res Commun,2012,424:604-610. 28 Liu XM,Ding GL,Jiang Y,et al.Down-regulation of S100A11,a calcium-binding protein,in human endometrium may cause reproductive failure.J Clin Endocrinol Metab,2012,97:3672-3683. 29 Kodithuwakku SP,Ng PY,Liu Y,et al.Hormonal regulation of endometrial olfactomedin expression and its suppressive effect on spheroid attachment onto endometrial epithelial cells.Hum Reprod,2011,26:167-175. 30 Kao LC,Tulac S,Lobo S,et al.Global gene profiling in human endometrium during the window of implantation.Endocrinology,2002,143:2119-2138.
