Search Query :
7CUW
Ubiquinol binding site of cytochrome bo3 from escherichia coli Deposition Author(s): Gennis, R.B. , Han, L. , Li, J. , Zhang, K. , Zhu, J.P.
Date: 2020-08-25 Method: ELECTRON MICROSCOPY Resolution: 2.63 Å Organism(s): Escherichia Coli Sequences Data: 7CUW_A , 7CUW_B , 7CUW_C , 7CUW_D
7E6T
Structural insights into the activation of human calcium-sensing receptor Deposition Author(s): Chen, X.C. , Cui, Q.Q. , Dai, M. , Ding, Z.Y. , Geng, Y. , Han, L. , Jia, X.M. , Kou, Y.J. , Li, X.Y. , Li, Y.Y. , Shi, Z.Z. , Wang, H.N. , Wang, L. , Zhang, W.Q.
Date: 2021-02-24 Method: ELECTRON MICROSCOPY Resolution: 3.0 Å Organism(s): Homo Sapiens Sequences Data: 7E6T_B , 7E6T_A
7E6U
The complex of inactive casr and nb2d11 Deposition Author(s): Chen, X.C. , Cui, Q.Q. , Dai, M. , Ding, Z.Y. , Geng, Y. , Han, L. , Jia, X.M. , Kou, Y.J. , Li, X.Y. , Li, Y.Y. , Shi, Z.Z. , Wang, H.N. , Wang, L. , Zhang, W.Q.
Date: 2021-02-24 Method: ELECTRON MICROSCOPY Resolution: 6.0 Å Organism(s): Escherichia Phage Ecszw-2 , Homo Sapiens Sequences Data: 7E6U_A , 7E6U_C , 7E6U_D , 7E6U_B
7N61
Structure of c2 projections and mips Deposition Author(s): Han, L. , Zhang, K.
Date: 2021-06-07 Method: ELECTRON MICROSCOPY Resolution: 3.5 Å Organism(s): Chlamydomonas Reinhardtii Sequences Data: 7N61_0A , 7N61_0B , 7N61_0C , 7N61_0D , 7N61_0V , 7N61_0W , 7N61_0X , 7N61_0Y , 7N61_0Z , 7N61_1A , 7N61_1B , 7N61_1C , 7N61_1D , 7N61_1E , 7N61_1F , 7N61_1G , 7N61_1H , 7N61_1M , 7N61_1L , 7N61_2A , 7N61_2C , 7N61_2E , 7N61_2G , 7N61_3A , 7N61_3C , 7N61_3E , 7N61_3G , 7N61_4A , 7N61_4C , 7N61_4E , 7N61_4G , 7N61_5A , 7N61_5C , 7N61_5E , 7N61_5G , 7N61_6A , 7N61_6C , 7N61_6E , 7N61_6G , 7N61_7A , 7N61_7C , 7N61_7E , 7N61_7G , 7N61_8A , 7N61_8C , 7N61_8E , 7N61_8G , 7N61_9A , 7N61_9C , 7N61_9E , 7N61_9G , 7N61_AA , 7N61_AC , 7N61_AE , 7N61_AG , 7N61_BA , 7N61_BC , 7N61_BE , 7N61_BG , 7N61_CA , 7N61_CC , 7N61_CE , 7N61_CG , 7N61_DA , 7N61_DC , 7N61_DE , 7N61_DG , 7N61_2B , 7N61_2D , 7N61_2F , 7N61_2H , 7N61_3B , 7N61_3D , 7N61_3F , 7N61_3H , 7N61_4B , 7N61_4D , 7N61_4F , 7N61_4H , 7N61_5B , 7N61_5D , 7N61_5F , 7N61_5H , 7N61_6B , 7N61_6D , 7N61_6F , 7N61_6H , 7N61_7B , 7N61_7D , 7N61_7F , 7N61_7H , 7N61_8B , 7N61_8D , 7N61_8F , 7N61_8H , 7N61_9B , 7N61_9D , 7N61_9F , 7N61_9H , 7N61_AB , 7N61_AD , 7N61_AF , 7N61_AH , 7N61_BB , 7N61_BD , 7N61_BF , 7N61_BH , 7N61_CB , 7N61_CD , 7N61_CF , 7N61_CH , 7N61_DB , 7N61_DD , 7N61_DF , 7N61_DH , 7N61_0E , 7N61_0F , 7N61_0G , 7N61_0H , 7N61_0I , 7N61_0J , 7N61_0K , 7N61_0L , 7N61_0M , 7N61_0N , 7N61_0O , 7N61_0P , 7N61_0Q , 7N61_0S , 7N61_0T , 7N61_0U
7N6G
C1 of central pair Deposition Author(s): Han, L. , Zhang, K.
Date: 2021-06-08 Method: ELECTRON MICROSCOPY Resolution: 3.6 Å Organism(s): Chlamydomonas Reinhardtii Sequences Data: 7N6G_0A , 7N6G_0B , 7N6G_0C , 7N6G_0D , 7N6G_0E , 7N6G_0F , 7N6G_0G , 7N6G_0L , 7N6G_0M , 7N6G_0N , 7N6G_0O , 7N6G_0P , 7N6G_0Q , 7N6G_0R , 7N6G_0S , 7N6G_0T , 7N6G_0U , 7N6G_0V , 7N6G_0X , 7N6G_0Y , 7N6G_0Z , 7N6G_1A , 7N6G_1B , 7N6G_1C , 7N6G_0H , 7N6G_0J , 7N6G_0W , 7N6G_0I , 7N6G_0K , 7N6G_1R , 7N6G_1S , 7N6G_1T , 7N6G_1E , 7N6G_1G , 7N6G_2A , 7N6G_2C , 7N6G_2E , 7N6G_2G , 7N6G_3A , 7N6G_3C , 7N6G_3E , 7N6G_3G , 7N6G_4A , 7N6G_4C , 7N6G_4E , 7N6G_4G , 7N6G_5A , 7N6G_5C , 7N6G_5E , 7N6G_5G , 7N6G_6A , 7N6G_6C , 7N6G_6E , 7N6G_6G , 7N6G_7A , 7N6G_7C , 7N6G_7E , 7N6G_7G , 7N6G_8A , 7N6G_8C , 7N6G_8E , 7N6G_8G , 7N6G_9A , 7N6G_9C , 7N6G_9E , 7N6G_9G , 7N6G_AA , 7N6G_AC , 7N6G_AE , 7N6G_AG , 7N6G_BA , 7N6G_BC , 7N6G_BE , 7N6G_BG , 7N6G_CA , 7N6G_CC , 7N6G_CE , 7N6G_CG , 7N6G_DA , 7N6G_DC , 7N6G_DE , 7N6G_DG , 7N6G_1D , 7N6G_1F , 7N6G_1H , 7N6G_2B , 7N6G_2D , 7N6G_2F , 7N6G_2H , 7N6G_3B , 7N6G_3D , 7N6G_3F , 7N6G_3H , 7N6G_4B , 7N6G_4D , 7N6G_4F , 7N6G_4H , 7N6G_5B , 7N6G_5D , 7N6G_5F , 7N6G_5H , 7N6G_6B , 7N6G_6D , 7N6G_6F , 7N6G_6H , 7N6G_7B , 7N6G_7D , 7N6G_7F , 7N6G_7H , 7N6G_8B , 7N6G_8D , 7N6G_8F , 7N6G_8H , 7N6G_9B , 7N6G_9D , 7N6G_9F , 7N6G_9H , 7N6G_AB , 7N6G_AD , 7N6G_AF , 7N6G_AH , 7N6G_BB , 7N6G_BD , 7N6G_BF , 7N6G_BH , 7N6G_CB , 7N6G_CD , 7N6G_CF , 7N6G_CH , 7N6G_DB , 7N6G_DD , 7N6G_DF , 7N6G_DH , 7N6G_2I , 7N6G_2J , 7N6G_2K , 7N6G_2L , 7N6G_2M , 7N6G_2N , 7N6G_2O , 7N6G_2P , 7N6G_2Q , 7N6G_2R , 7N6G_2S , 7N6G_2T , 7N6G_2U , 7N6G_2V , 7N6G_2W , 7N6G_2X , 7N6G_2Y , 7N6G_2Z , 7N6G_1I , 7N6G_3I , 7N6G_3J , 7N6G_3K , 7N6G_3L , 7N6G_3M , 7N6G_3N , 7N6G_3O , 7N6G_3P , 7N6G_3Q , 7N6G_3R , 7N6G_3S , 7N6G_3T , 7N6G_3U , 7N6G_3V , 7N6G_3W , 7N6G_3X , 7N6G_3Y , 7N6G_3Z , 7N6G_4I , 7N6G_4J , 7N6G_4K , 7N6G_4L , 7N6G_4M , 7N6G_4N , 7N6G_4O , 7N6G_4P , 7N6G_4Q , 7N6G_4R , 7N6G_4S , 7N6G_1J , 7N6G_1K , 7N6G_4T , 7N6G_4U , 7N6G_4V , 7N6G_4W , 7N6G_4X , 7N6G_4Y , 7N6G_4Z , 7N6G_5I , 7N6G_5J , 7N6G_5K , 7N6G_5L , 7N6G_5M , 7N6G_5N , 7N6G_5O , 7N6G_5Q , 7N6G_5R , 7N6G_5S , 7N6G_5T , 7N6G_5U , 7N6G_5V , 7N6G_5P , 7N6G_5W , 7N6G_5X , 7N6G_5Y , 7N6G_5Z , 7N6G_6I , 7N6G_6J , 7N6G_1L , 7N6G_1M , 7N6G_6K , 7N6G_6L , 7N6G_6M , 7N6G_6N , 7N6G_6O , 7N6G_6P , 7N6G_6Q , 7N6G_1N , 7N6G_1O , 7N6G_1P , 7N6G_1Q
7N7V
Crystal structure of ttnm, a fe(ii)-alpha-ketoglutarate-dependent hydroxylase from the tautomycetin biosynthesis pathway in streptomyces griseochromogenes at 2 a. Deposition Author(s): Enzyme Discovery For Natural Product Biosynthesis (Natpro) , Han, L. , Ma, M. , Miller, M.D. , Phillips Jr., G.N. , Shen, B. , Xu, W.
Date: 2021-06-11 Method: X-RAY DIFFRACTION Resolution: 1.99 Å Organism(s): Streptomyces Griseochromogenes Sequences Data: 7N7V_A , 7N7V_B
7SL8
Cryoem structure of sglt1 at 3.4 a resolution Deposition Author(s): Feng, L. , Han, L. , Panova, O. , Qu, Q. , Skiniotis, G.
Date: 2021-10-23 Method: ELECTRON MICROSCOPY Resolution: 3.4 Å Organism(s): Homo Sapiens , Synthetic Construct Sequences Data: 7SL8_A , 7SL8_B
7SL9
Cryoem structure of smct1 Deposition Author(s): Feng, L. , Han, L. , Panova, O. , Qu, Q. , Skiniotis, G.
Date: 2021-10-23 Method: ELECTRON MICROSCOPY Resolution: 3.5 Å Organism(s): Homo Sapiens , Synthetic Construct Sequences Data: 7SL9_A , 7SL9_B
7SLA
Cryoem structure of sglt1 at 3.15 angstrom resolution Deposition Author(s): Feng, L. , Han, L. , Panova, O. , Qu, Q. , Skiniotis, G.
Date: 2021-10-23 Method: ELECTRON MICROSCOPY Resolution: 3.15 Å Organism(s): Homo Sapiens , Synthetic Construct Sequences Data: 7SLA_A , 7SLA_B
7YSE
Crystal structure of e. coli heterotetrameric glyrs in complex with trna Deposition Author(s): Han, L. , Ju, Y. , Zhou, H.
Date: 2022-08-12 Method: X-RAY DIFFRACTION Resolution: 2.907 Å Organism(s): Escherichia Coli , Escherichia Coli K-12 Sequences Data: 7YSE_A , 7YSE_B , 7YSE_C , 7YSE_D , 7YSE_E , 7YSE_F