Category: MicroRNA Analysis

145. Du, W.W.; Yang, W.; Xuan, J.; Krylov, S.N.; Ma, X.; Yang, Q.; Khorshidi, A.; Yang, B.B. Reciprocal regulation of miRNAs and piRNAs in embryonic development. Cell Death and Differentiation 2016, 23, 1458-1470. (PDF file)

144. Du, W.W.; Yang, W.; Xuan, J.; Krylov, S.N.; Ma, X.; Yang, Q.; Khorshidi, A.; Yang, B.B. Reciprocal regulation of miRNAs and piRNAs in embryonic development. Nucleic Acids Research. Submitted.

140. Huang, X.; Taeb, S.; Jahangiri, S.; Korpela, E.; Cadonic, I.; Yu, N.; Fokas, E.; Krylov, S.N.; Boutros, P.; Liu, S.K. miR-620 promotes tumor radioresistance by targeting 15-hydroxyprostaglandin dehydrogenase (HPGD). Oncotarget. Advanced Publication .(On-line) (PDF file)

139. Du, W.W.; Liu, F.; Shan, S.W.; Ma, X.C., Gupta, S.; Jin, T.; Snaper, D.; Krylov, S.N.; Zhang, Y.; Ling, W.; Yang, B.B. Inhibition of dexamethasone-induced fatty liver development by reducing miR-17-5p levels. Molecular Therapy 2015, 23, 1222-33. (PDF file)

139. Du, W.; Liu, F.; Shan, S.W.; Ma, X.C., Gupta, S.; Jin, T.; Snaper, D.; Krylov, S.N.; Zhang, Y.; Ling, W.; Yang, B.B. Inhibition of dexamethasone-induced fatty liver development by reducing miR-17-5p levels. Molecular Therapy. Accepted.

135. Khella, H.W.Z.; Scorilas, A.; Mozes, R.; Mirham, L.; Lianidou, E.; Krylov, S.N.; Lee, J.Y.; Ordon, M.; Stewart, R.; Jewett, M.; Yousef, G.M. Low expression of miR-126 is a prognostic marker for metastatic clear cell renal cell carcinoma. American Journal of Pathology 2015, 185, 693-703. (PDF file)

131. Wegman, D.W.; Ghasemi, F.; Khorshidi, A.; Yang, B.B.; Liu, S.K.; Yousef, G.M.; Krylov, S.N. Highly-sensitive amplification-free analysis of multiple miRNAs by combining capillary isotachophoresis and electrophoresis. Analytical Chemistry 2015, 87, 1404-1410. (PDF file)

129. Samaan, S.; Khella, H.W.Z.; Girgis, A.; Scorilas, A.; Lianidou, E.; Gabril, M.; Krylov, S.N. Jewett, M.; Bjarnason, G.A.; El-said, H.; Yousef, G.M. miR-210 is a prognostic marker in clear cell renal cell carcinoma. Journal of Molecular Diagnostics 2015, 17, 136-144. (PDF file)

122. Ghasemi, F.; Wegman, D.W.; Kanoatov, M.; Yang, B.B.; Liu, S.K.; Yousef, G.M.; Krylov, S.N. Improvements to direct quantitative analysis of multiple microRNAs facilitating faster analysis. Analytical Chemistry 2013, 85, 10062-10066. (PDF file)

120. Wegman, D.W.; Cherney, L.T; Yousef, G.; Krylov, S.N. Universal drag tag for direct quantitative analysis of multiple microRNAs. Analytical Chemistry 2013, 85, 6518-6523. (PDF file)

115. Wegman, D.W.; Krylov, S.N. Direct miRNA-hybridization assays and their potential in diagnostics. Trends in Analytical Chemistry 2013, 44, 121-130. (PDF file)

114. Cherney, L.T.; Krylov, S.N. Theoretical estimation of drag tag lengths for direct quantitative analysis of multiple miRNAs (DQAMmiR). Analyst 2013, 138, 553-558. (PDF file)

109. Dodgson, B.J.; Mazouchi, A.; Wegman, D.W.; Gradinaru, C.C.; Krylov, S.N. Detection of a thousand copies of miRNA without enrichment or modification. Analytical Chemistry 2012, 84, 5470-5474. (PDF file)

95. Wegman, D.W.; Krylov, S.N. Direct quantitative analysis of multiple miRNAs (DQAMmiR). Angewandte Chemie International Edition 2011, 50, 10335-10339. (DOI)