1.Huang, K., Song, Q., Fang, M., Yao, D., Shen, X., Xu, X., Chen, X., Zhu, L., Yang, Y., & Ren, A. (2024). Structural basis of a small monomeric Clivia fluorogenic RNA with a large Stokes shift. Nature chemical biology文章链接 BioArt推送报道
2. Li, C., Xu, X., Geng, Z., Zheng, L., Song, Q., Shen, X., Wu, J., Zhao, J., Li, H., He, M., Tai, X., Zhang, L., Ma, J., Dong, Y., & Ren, A. (2024). Structure-based characterization and compound identification of the wild-type THF class-II riboswitch. Nucleic acids research.文章链接
3. Jiang, L., Xie, X., Su, N., Zhang, D., Chen, X., Xu, X., Zhang, B., Huang, K., Yu, J., Fang, M., Bao, B., Zuo, F., Yang, L., Zhang, R., Li, H., Huang, X., Chen, Z., Zeng, Q., Liu, R., Lin, Q., Zhao, Y., Ren, A.& Zhu, L.& Yang, Y. (2023) Large Stokes shift fluorescent RNAs for dual-emission fluorescence and bioluminescence imaging in live cells. Nat Methods. 文章链接
4. Xu, X., Egger, M., Li, C., Chen, H., Micura, R., Ren, A. (2023) Structure-based investigations of the NAD+-II riboswitch. Nucleic Acids Res 51(1): 54-67.文章链接
5. Zheng, L., Song, Q., Xu, X., Shen, X., Li, C., Li, H., Chen, H., Ren, A. (2022) Structure-based Insights into Recognition and Regulation of SAM-sensing Riboswitches. SCIENCE CHINA Life Sciences 文章链接
6. Xu, B., Zhu, Y., Cao, C., Chen, H., Jin, Q., Li, G., Ma, J., Yang, S. L., Zhao, J., Zhu, J., Ding, Y., Fang, X., Jin, Y., Kwok, C. K., Ren, A. & Wan, Y. & Wang, Z. & Xue, Y. & Zhang, H.& Zhang, Q. C. and Zhou, Y (2022). Recent advances in RNA structurome. SCIENCE CHINA Life Sciences 65(7): 1285-1324. 文章链接
7. Zheng, L., Liu, J., Niu, L., Kamran, M., Yang, A. W. H., Jolma, A., Dai, Q., Hughes, T. R., Patel, D. J., Zhang, L., Prasanth, S. G., Yu, Y., Ren, A., & Lai, E. C., (2022). Distinct structural bases for sequence-specific DNA binding by mammalian BEN domain proteins. Genes Dev 36(3-4): 225-240. 文章链接
8. Huang, K., Chen, X., Li, C., Song, Q., Li, H., Zhu, L., Yang, Y., & Ren, A. (2021) Structure-based investigation of fluorogenic Pepper aptamer. Nature Chemical Biology 17(12): 1289-1295. 文章链接 BioArt推送报道
9. Xu, X., Egger, M., Chen, H., Bartosik, K., Micura, R., Ren, A. Insights into xanthine riboswitch structure and metal ion-mediated ligand recognition. Nucleic Acids Research 49, 7139-7153.文章链接
10. Chen, H., Egger, M., Xu, X., Flemmich, L., Krasheninina, O., Sun, A., Micura, R., & Ren, A. (2020). Structural distinctions between NAD+ riboswitch domains 1 and 2 determine differential folding and ligand binding. Nucleic Acids Research 48, 12394-12406. 文章链接
11. Sun, A ., Gasser, C., Li, F., Chen, H., Mair, S., Krasheninina, O., Micura, R., & Ren, A. (2019). SAM-VI riboswitch structure and signature for ligand discrimination. Nature Communications 10, 5728. 文章链接
12. Teplova, M., Falschlunger, C., Krasheninina, O., Egger, M., Ren, A., Patel, D.J., and Micura, R. (2019). On crucial roles of two hydrated Mg2+ ions in reaction catalysis of the pistol ribozyme. Angew. Chem. Int. Ed. 文章链接
13. Sun, A ., Huang, K., Zheng, L., and Ren, A. (2019). Chapter Eleven-Strategies for understanding RNA recognition by X-ray and NMR methods. Methods in Enzymology 623, 229-248. 文章链接
14. Zheng, L., Falschlunger, C., Huang, K., Mairhofer, E., Yuan, S., Wang, J., Patel, D.J., Micura,R.,& Ren, A.(2019). Hatchet ribozyme structure and implications for cleavage mechanism. PNAS 116,11783-10791. 文章链接
15. Ren, A., Micura, R., and Patel, D.J. (2017). Structure-based mechanistic insights into catalysis by small self-cleaving ribozymes. Current Opinion in Chemical Biology 41, 71-83. 文章链接
16. Zheng, L., Mairhofer, E., Teplova, M., Zhang, Y., Ma J., Patel, D.J., Micura, R. & Ren, A.(2017). Structure-based Insights into Self-Cleavage by a Four-way Junctional Twister-Sister Ribozyme. Nature Communications 8,1180. 文章链接
17. Ren, A., Vusurovic, N., Gebetsberger, J., Gao, P., Juen, M., Kreutz, C., Micura, R. & Patel, D. J. (2016). Pistol ribozyme adopts a pseudoknot fold facilitating site-specific in-line cleavage. Nat Chem Biol 12,702-708. 文章链接
18 Ren, A., Xue, Y., Peselis, A., Serganov, A., Al-Hashimi, H.M., and Patel, D.J. (2015). Structural and Dynamic Basis for Low-Affinity, High-Selectivity Binding of L-Glutamine by the Glutamine Riboswitch. Cell reports 13,1800-1813. 文章链接
19. Kosutic, M., Neuner, S., Ren, A., Flür,S., Wunderlich, C., Mairhofer, E., Vusurovic, N., Seikowski, J., Breuker, K., Höbartner, C., Patel, D.J., Kreutz, C., Micura, R. (2015). A Mini-Twister Variant and Impact of Residues/Cations on the Phosphodiester Cleavage of this Ribozyme Class. Angew. Chem. Int. Ed. 文章链接
20. Ren, A., Rajashankar, K.R., Patel, D.J. (2015). Global RNA Fold and Molecular Recognition for a pfIRiboswitch Bound to ZMP, a Master Regulator of One Carbon Metabolism.Structure 23,1375-1381. 文章链接
21. Ren, A., Wang, X.C., Kellenberger, C.A., Rajashankar, K.R., Jones, R.A., Hammond, M.C., and Patel, D.J. (2015). Structural Basis for Molecular Discrimination by a 3',3'-cGAMP Sensing Riboswitch. Cell reports 11,1-12. 文章链接
22. Dai, Q., Ren, A., Westholm, J.O., Duan, H., Patel, D.J., and Lai, E.C. (2015). Common and distinct DNA-binding and regulatory activities of the BEN-solo transcription factor family. Genes & development 29,48-62. 文章链接
23. Ren, A., Marija K., Rajashankar, R.R., Frener, M., Santner, T., Westhof, E., Micura, R., Patel, D.J. (2014). In-line alignment and Mg2+ coordination at the cleavage site of the env22 twister ribozyme. Nature Communications 5, 5534. 文章链接
24. Ren, A., Patel, D.J. (2014). c-di-AMP binds the ydaO riboswitch in two pseudo-symmetry-related pockets. Nature Chemical Biology 10, 780-786. 文章链接
25. Dai, Q., Ren, A., Westholm, J.O, Serganov, A, Patel, D.J. & Lai, E.C. (2013). The BEN domain is a novel sequence-specific DNA binding domain conserved in neural transcriptional repressors.Genes & Development 27, 602-614. (Cover story). 文章链接
26. Ren, A., Rajashankar, K.R., Patel, D.J. (2012).Fluoride ion encapsulation by Mg2+ ions and phosphates in a fluoride riboswitch.Nature 486, 85-89. 文章链接
27. Ren, A., Zhou, J.. An additive control β-agarase efficient preparation method Patent number: CN 102399765 A.
28. Ren, A., Xia, Z., Yu, W., & Zhou, J. Expression, crystallization and preliminary x-ray analysis of an anomeric inverting agarase from Pseudoalterromonas sp. CY24. ActaCrystallogr. Sect. F. Structu. Biol. Crystal Commun.,2010, 66(Pt 12):1635-9.