Publications

Found 2717 results
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Su, M., Li, Y., Wyborny, S., Neau, D., Chakravarthy, S., Levine, B., Colbert, C. L., and Sinha, S. C. (2017) BECN2 interacts with ATG14 through a metastable coiled-coil to mediate autophagy. Protein Sci. 26, 972-984
Su, C. - C., Klenotic, P. A., Bolla, J. Reddy, Purdy, G. E., Robinson, C. V., and Yu, E. W. (2019) MmpL3 is a lipid transporter that binds trehalose monomycolate and phosphatidylethanolamine. Proc Natl Acad Sci U S A. 10.1073/pnas.1901346116
Su, C. - C., Long, F., and Yu, E. W. (2011) The Cus efflux system removes toxic ions via a methionine shuttle. Protein Sci. 20, 6-18
Su, C. - C., Yin, L., Kumar, N., Dai, L., Radhakrishnan, A., Bolla, J. Reddy, Lei, H. - T., Chou, T. - H., Delmar, J. A., Rajashankar, K. R., Zhang, Q., Shin, Y. - K., and Yu, E. W. (2017) Structures and transport dynamics of a Campylobacter jejuni multidrug efflux pump. Nat Commun. 8, 171
Su, C. - C., Bolla, J. Reddy, Kumar, N., Radhakrishnan, A., Long, F., Delmar, J. A., Chou, T. - H., Rajashankar, K. R., Shafer, W. M., and Yu, E. W. (2015) Structure and function of Neisseria gonorrhoeae MtrF illuminates a class of antimetabolite efflux pumps. Cell Rep. 11, 61-70
Su, C. - C., Long, F., Zimmermann, M. T., Rajashankar, K. R., Jernigan, R. L., and Yu, E. W. (2011) Crystal structure of the CusBA heavy-metal efflux complex of Escherichia coli. Nature. 470, 558-62
Su, C. - C., Long, F., Lei, H. - T., Bolla, J. Reddy, Do, S. V., Rajashankar, K. R., and Yu, E. W. (2012) Charged amino acids (R83, E567, D617, E625, R669, and K678) of CusA are required for metal ion transport in the Cus efflux system. J Mol Biol. 422, 429-41
Su, M., Gao, F., Yuan, Q., Mao, Y., Li, D. - L., Guo, Y., Yang, C., Wang, X. - H., Bruni, R., Kloss, B., Zhao, H., Zeng, Y., Ben Zhang, F. -, Marks, A. R., Hendrickson, W. A., and Chen, Y. - H. (2017) Structural basis for conductance through TRIC cation channels. Nat Commun. 8, 15103
Su, C. - C., Radhakrishnan, A., Kumar, N., Long, F., Bolla, J. Reddy, Lei, H. - T., Delmar, J. A., Do, S. V., Chou, T. - H., Rajashankar, K. R., Zhang, Q., and Yu, E. W. (2014) Crystal structure of the Campylobacter jejuni CmeC outer membrane channel. Protein Sci. 23, 954-61
Su, C. - C., Klenotic, P. A., Cui, M., Lyu, M., Morgan, C. E., and Yu, E. W. (2021) Structures of the mycobacterial membrane protein MmpL3 reveal its mechanism of lipid transport. PLoS Biol. 19, e3001370
Su, C. - C., Yang, F., Long, F., Reyon, D., Routh, M. D., Kuo, D. W., Mokhtari, A. K., Van Ornam, J. D., Rabe, K. L., Hoy, J. A., Lee, Y. Jin, Rajashankar, K. R., and Yu, E. W. (2009) Crystal structure of the membrane fusion protein CusB from Escherichia coli. J Mol Biol. 393, 342-55
Subramanian, R., Wilson-Kubalek, E. M., Arthur, C. P., Bick, M. J., Campbell, E. A., Darst, S. A., Milligan, R. A., and Kapoor, T. M. (2010) Insights into antiparallel microtubule crosslinking by PRC1, a conserved nonmotor microtubule binding protein. Cell. 142, 433-43
Subramanian, R., Ti, S. - C., Tan, L., Darst, S. A., and Kapoor, T. M. (2013) Marking and measuring single microtubules by PRC1 and kinesin-4. Cell. 154, 377-90
Suddala, K. C., Price, I. R., Dandpat, S. S., Janeček, M., Kührová, P., Šponer, J., Banáš, P., Ke, A., and Walter, N. G. (2019) Local-to-global signal transduction at the core of a Mn sensing riboswitch. Nat Commun. 10, 4304
Sudhamsu, J., Lee, G. In, Klessig, D. F., and Crane, B. R. (2008) The structure of YqeH. An AtNOS1/AtNOA1 ortholog that couples GTP hydrolysis to molecular recognition. J Biol Chem. 283, 32968-76
Sue, A. C. - H., Mannige, R. V., Deng, H., Cao, D., Wang, C., Gándara, F., J Stoddart, F., Whitelam, S., and Yaghi, O. M. (2015) Heterogeneity of functional groups in a metal-organic framework displays magic number ratios. Proc Natl Acad Sci U S A. 112, 5591-6
Sui, X., Farquhar, E. R., Hill, H. E., von Lintig, J., Shi, W., and Kiser, P. D. (2018) Preparation and characterization of metal-substituted carotenoid cleavage oxygenases. J Biol Inorg Chem. 23, 887-901
Sui, X., Zhang, J., Golczak, M., Palczewski, K., and Kiser, P. D. (2016) Key Residues for Catalytic Function and Metal Coordination in a Carotenoid Cleavage Dioxygenase. J Biol Chem. 291, 19401-12
Sui, X., Kiser, P. D., Che, T., Carey, P. R., Golczak, M., Shi, W., von Lintig, J., and Palczewski, K. (2014) Analysis of carotenoid isomerase activity in a prototypical carotenoid cleavage enzyme, apocarotenoid oxygenase (ACO). J Biol Chem. 289, 12286-99
Sui, X., Weitz, A. C., Farquhar, E. R., Badiee, M., Banerjee, S., von Lintig, J., Tochtrop, G. P., Palczewski, K., Hendrich, M. P., and Kiser, P. D. (2017) Structure and Spectroscopy of Alkene-Cleaving Dioxygenases Containing an Atypically Coordinated Non-Heme Iron Center. Biochemistry. 56, 2836-2852
Sui, X., Golczak, M., Zhang, J., Kleinberg, K. A., von Lintig, J., Palczewski, K., and Kiser, P. D. (2015) Utilization of Dioxygen by Carotenoid Cleavage Oxygenases. J Biol Chem. 290, 30212-23
Sukumar, N., Choi, M., and Davidson, V. L. (2011) Replacement of the axial copper ligand methionine with lysine in amicyanin converts it to a zinc-binding protein that no longer binds copper. J Inorg Biochem. 105, 1638-44
Sukumar, N. (2013) Crystallographic studies on B12 binding proteins in eukaryotes and prokaryotes. Biochimie. 95, 976-88
Sukumar, N., Langan, P., Mathews, F. S., Jones, L. H., Thiyagarajan, P., Schoenborn, B. P., and Davidson, V. L. (2005) A preliminary time-of-flight neutron diffraction study on amicyanin from Paracoccus denitrificans. Acta Crystallogr D Biol Crystallogr. 61, 640-2
Sukumar, N., Kurinov, I., Capel, M., Withrow, J., Sukumar, S., and Davidson, V. L. (2021) Ultra-high resolution and charge-density studies on type-I copper protein, amicyanin, from Paracoccus denitrificans. Biophysical Society Annual Meeting, February 22-26, 2021

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