Publications

Found 2668 results
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2012
Sosa, B. A., Rothballer, A., Kutay, U., and Schwartz, T. U. (2012) LINC complexes form by binding of three KASH peptides to domain interfaces of trimeric SUN proteins. Cell. 149, 1035-47
Huang, W. Mun, DaGloria, J., Fox, H., Ruan, Q., Tillou, J., Shi, K., Aihara, H., Aron, J., and Casjens, S. (2012) Linear chromosome-generating system of Agrobacterium tumefaciens C58: protelomerase generates and protects hairpin ends. J Biol Chem. 287, 25551-63
Coskun, A., Hmadeh, M., Barin, G., Gándara, F., Li, Q., Choi, E., Strutt, N. L., Cordes, D. B., Slawin, A. M. Z., J Stoddart, F., Sauvage, J. - P., and Yaghi, O. M. (2012) Metal-organic frameworks incorporating copper-complexed rotaxanes. Angew Chem Int Ed Engl. 51, 2160-3
Coskun, A., Hmadeh, M., Barin, G., Gándara, F., Li, Q., Choi, E., Strutt, N. L., Cordes, D. B., Slawin, A. M. Z., J Stoddart, F., Sauvage, J. - P., and Yaghi, O. M. (2012) Metal-organic frameworks incorporating copper-complexed rotaxanes. Angew Chem Int Ed Engl. 51, 2160-3
Coskun, A., Hmadeh, M., Barin, G., Gándara, F., Li, Q., Choi, E., Strutt, N. L., Cordes, D. B., Slawin, A. M. Z., J Stoddart, F., Sauvage, J. - P., and Yaghi, O. M. (2012) Metal-organic frameworks incorporating copper-complexed rotaxanes. Angew Chem Int Ed Engl. 51, 2160-3
Coskun, A., Hmadeh, M., Barin, G., Gándara, F., Li, Q., Choi, E., Strutt, N. L., Cordes, D. B., Slawin, A. M. Z., J Stoddart, F., Sauvage, J. - P., and Yaghi, O. M. (2012) Metal-organic frameworks incorporating copper-complexed rotaxanes. Angew Chem Int Ed Engl. 51, 2160-3
Bilokapic, S., and Schwartz, T. U. (2012) Molecular basis for Nup37 and ELY5/ELYS recruitment to the nuclear pore complex. Proc Natl Acad Sci U S A. 109, 15241-6
Chen, C. K., Sawaya, M. R., Phillips, M. L., Reisler, E., and Quinlan, M. E. (2012) Multiple forms of Spire-actin complexes and their functional consequences. J Biol Chem. 287, 10684-10692
Harrison, O. J., Vendome, J., Brasch, J., Jin, X., Hong, S., Katsamba, P. S., Ahlsen, G., Troyanovsky, R. B., Troyanovsky, S. M., Honig, B., and Shapiro, L. (2012) Nectin ectodomain structures reveal a canonical adhesive interface. Nat Struct Mol Biol. 19, 906-15
Kaiser, S. E., Mao, K., Taherbhoy, A. M., Yu, S., Olszewski, J. L., Duda, D. M., Kurinov, I., Deng, A., Fenn, T. D., Klionsky, D. J., and Schulman, B. A. (2012) Noncanonical E2 recruitment by the autophagy E1 revealed by Atg7-Atg3 and Atg7-Atg10 structures. Nat Struct Mol Biol. 19, 1242-9
Li, J., Malakhova, M., Mottamal, M., Reddy, K., Kurinov, I., Carper, A., Langfald, A., Oi, N., Kim, M. Ok, Zhu, F., Sosa, C. P., Zhou, K., Bode, A. M., and Dong, Z. (2012) Norathyriol suppresses skin cancers induced by solar ultraviolet radiation by targeting ERK kinases. Cancer Res. 72, 260-70
Juang, Y. - C., Landry, M. - C., Sanches, M., Vittal, V., C Y Leung, C., Ceccarelli, D. F., Mateo, A. - R. F., Pruneda, J. N., Mao, D. Y. L., Szilard, R. K., Orlicky, S., Munro, M., Brzovic, P. S., Klevit, R. E., Sicheri, F., and Durocher, D. (2012) OTUB1 co-opts Lys48-linked ubiquitin recognition to suppress E2 enzyme function. Mol Cell. 45, 384-97
Juang, Y. - C., Landry, M. - C., Sanches, M., Vittal, V., C Y Leung, C., Ceccarelli, D. F., Mateo, A. - R. F., Pruneda, J. N., Mao, D. Y. L., Szilard, R. K., Orlicky, S., Munro, M., Brzovic, P. S., Klevit, R. E., Sicheri, F., and Durocher, D. (2012) OTUB1 co-opts Lys48-linked ubiquitin recognition to suppress E2 enzyme function. Mol Cell. 45, 384-97
Juang, Y. - C., Landry, M. - C., Sanches, M., Vittal, V., C Y Leung, C., Ceccarelli, D. F., Mateo, A. - R. F., Pruneda, J. N., Mao, D. Y. L., Szilard, R. K., Orlicky, S., Munro, M., Brzovic, P. S., Klevit, R. E., Sicheri, F., and Durocher, D. (2012) OTUB1 co-opts Lys48-linked ubiquitin recognition to suppress E2 enzyme function. Mol Cell. 45, 384-97
Liu, C., Zhao, M., Jiang, L., Cheng, P. - N., Park, J., Sawaya, M. R., Pensalfini, A., Gou, D., Berk, A. J., Glabe, C. G., Nowick, J., and Eisenberg, D. (2012) Out-of-register β-sheets suggest a pathway to toxic amyloid aggregates.. Proc Natl Acad Sci U S A. 109, 20913-8
Hitosugi, T., Zhou, L., Elf, S., Fan, J., Kang, H. - B., Seo, J. Ho, Shan, C., Dai, Q., Zhang, L., Xie, J., Gu, T. - L., Jin, P., Alečković, M., LeRoy, G., Kang, Y., Sudderth, J. A., DeBerardinis, R. J., Luan, C. - H., Chen, G. Z., Muller, S., Shin, D. M., Owonikoko, T. K., Lonial, S., Arellano, M. L., Khoury, H. J., Khuri, F. R., Lee, B. H., Ye, K., Boggon, T. J., Kang, S., He, C., and Chen, J. (2012) Phosphoglycerate mutase 1 coordinates glycolysis and biosynthesis to promote tumor growth. Cancer Cell. 22, 585-600
Hitosugi, T., Zhou, L., Elf, S., Fan, J., Kang, H. - B., Seo, J. Ho, Shan, C., Dai, Q., Zhang, L., Xie, J., Gu, T. - L., Jin, P., Alečković, M., LeRoy, G., Kang, Y., Sudderth, J. A., DeBerardinis, R. J., Luan, C. - H., Chen, G. Z., Muller, S., Shin, D. M., Owonikoko, T. K., Lonial, S., Arellano, M. L., Khoury, H. J., Khuri, F. R., Lee, B. H., Ye, K., Boggon, T. J., Kang, S., He, C., and Chen, J. (2012) Phosphoglycerate mutase 1 coordinates glycolysis and biosynthesis to promote tumor growth. Cancer Cell. 22, 585-600
Hitosugi, T., Zhou, L., Elf, S., Fan, J., Kang, H. - B., Seo, J. Ho, Shan, C., Dai, Q., Zhang, L., Xie, J., Gu, T. - L., Jin, P., Alečković, M., LeRoy, G., Kang, Y., Sudderth, J. A., DeBerardinis, R. J., Luan, C. - H., Chen, G. Z., Muller, S., Shin, D. M., Owonikoko, T. K., Lonial, S., Arellano, M. L., Khoury, H. J., Khuri, F. R., Lee, B. H., Ye, K., Boggon, T. J., Kang, S., He, C., and Chen, J. (2012) Phosphoglycerate mutase 1 coordinates glycolysis and biosynthesis to promote tumor growth. Cancer Cell. 22, 585-600
Hitosugi, T., Zhou, L., Elf, S., Fan, J., Kang, H. - B., Seo, J. Ho, Shan, C., Dai, Q., Zhang, L., Xie, J., Gu, T. - L., Jin, P., Alečković, M., LeRoy, G., Kang, Y., Sudderth, J. A., DeBerardinis, R. J., Luan, C. - H., Chen, G. Z., Muller, S., Shin, D. M., Owonikoko, T. K., Lonial, S., Arellano, M. L., Khoury, H. J., Khuri, F. R., Lee, B. H., Ye, K., Boggon, T. J., Kang, S., He, C., and Chen, J. (2012) Phosphoglycerate mutase 1 coordinates glycolysis and biosynthesis to promote tumor growth. Cancer Cell. 22, 585-600
Pemberton, T. A., Still, B. R., Christensen, E. M., Singh, H., Srivastava, D., and Tanner, J. J. (2012) Proline: Mother Nature's cryoprotectant applied to protein crystallography. Acta Crystallogr D Biol Crystallogr. 68, 1010-8
Pemberton, T. A., Still, B. R., Christensen, E. M., Singh, H., Srivastava, D., and Tanner, J. J. (2012) Proline: Mother Nature's cryoprotectant applied to protein crystallography. Acta Crystallogr D Biol Crystallogr. 68, 1010-8
Pemberton, T. A., Still, B. R., Christensen, E. M., Singh, H., Srivastava, D., and Tanner, J. J. (2012) Proline: Mother Nature's cryoprotectant applied to protein crystallography. Acta Crystallogr D Biol Crystallogr. 68, 1010-8
Schürpf, T., Chen, Q., Liu, J. -huan, Wang, R., Springer, T. A., and Wang, J. -huai (2012) The RGD finger of Del-1 is a unique structural feature critical for integrin binding. FASEB J. 26, 3412-20
Schürpf, T., Chen, Q., Liu, J. -huan, Wang, R., Springer, T. A., and Wang, J. -huai (2012) The RGD finger of Del-1 is a unique structural feature critical for integrin binding. FASEB J. 26, 3412-20
Teng, P. K., Anderson, N. J., Goldschmidt, L., Sawaya, M. R., Sambashivan, S., and Eisenberg, D. (2012) Ribonuclease A suggests how proteins self-chaperone against amyloid fiber formation. Protein Sci. 21, 26-37

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