LassoProt: A server and database of proteins with lassos

Found 993 molecules (1214 chains) in database. Displaying 851 - 900

Browse database results sorted by LassoProt deposition date

#pdbid;chain;deposition date;symbol;

8UR5;A;2023-12-13;L-1C;
8UR7;A;2023-12-13;L-1C;
8WOX;B;2023-12-13;L-1C;
8WOY;B;2023-12-13;L-1C;
8UFL;A;2023-10-11;L+1C;
8UEL;A;2023-12-13;L+1N;
8QKB;A;2023-09-20;L-1N;
8TYS;A;2023-10-11;L-1N L-1N;
8TYS;C;2023-10-11;L-1N L-1N;
8TYS;E;2023-10-11;L-1N L-1N;
8Q93;A;2023-12-13;L-1C;
8Q93;C;2023-12-13;L-1N;
8Q93;B;2023-12-13;L-1N;
8Q94;C;2023-12-13;L-1N;
8Q7S;A;2023-12-13;L-1C;
8Q7S;C;2023-12-13;L-1N;
8Q7S;B;2023-12-13;L-1N;
8Q7S;E;2023-12-13;L-1N;
8Q7S;D;2023-12-13;L-1C;
8Q7S;F;2023-12-13;L-1N;
8Q6M;A;2023-12-13;L-1N;
8PQ2;C;2023-10-11;L-1C;
8P7W;C;2023-08-02;L-1N;
8OZA;A;2023-07-05;L-1N;
8SPH;E;2023-08-02;L-1C;
8SPH;F;2023-08-02;L-1C;
8SPI;E;2023-08-02;L-1C;
8J8T;A;2023-12-13;L-1C;
8J8D;A;2023-12-13;L-1C;
8SMT;C;2023-06-28;L-1C;
8SMT;E;2023-06-28;L-1C;
8SMT;G;2023-06-28;L-1C;
8SMI;A;2023-12-13;L-1C;
8OSW;A;2023-08-02;L-1C;
8SKK;B;2023-05-03;L-2C;
8SK7;A;2023-06-14;L-1C;
8SK5;A;2023-08-02;L-1C;
8J3Q;A;2023-10-11;L-1N;
8J26;C;2023-06-21;L-1C;
8J1Q;C;2023-06-21;L-1C;
8IX3;G;2023-10-11;L-1C;
8OKH;A;2023-10-11;L-1N;
8OKH;B;2023-10-11;L-1N;
8OK7;A;2023-08-02;L+1N;
8IV4;G;2023-08-02;L-1C;
8IV5;G;2023-08-02;L-1C;
8IVA;G;2023-08-02;L-1C;
8OH9;E;2023-08-02;L+1N;
8GK6;A;2023-12-13;L-1N;
8GK6;C;2023-12-13;L-1N;
8GK6;B;2023-12-13;L-1N;
8GK6;D;2023-12-13;L-1N;
8GJN;C;2023-04-05;L-1C;
8OFN;A;2023-08-02;L-1C;
8IQ0;A;2023-08-02;L-1N;
8IQ1;A;2023-08-02;L-1N;
8IQ0;K;2023-08-02;L-1N;
8IQ0;J;2023-08-02;L-1N;
8OFA;A;2023-10-11;L-1N;
8IOV;B;2023-05-24;L-1C;
8GHP;A;2023-08-02;L+1N;
8GF2;A;2023-08-02;L-1C;
8GF2;B;2023-08-02;L-1C;
8ILQ;B;2023-08-02;L-1N L-1C;
8GB5;A;2023-05-24;L-1C;
8GB6;A;2023-05-24;L-1C;
8GB7;A;2023-05-24;L-1C;
8GB8;E;2023-05-24;L-1C;
8IFZ;B;2023-08-02;L-1C;
8IF2;B;2023-05-17;L-1C;
8IDN;A;2023-06-21;L-1C;
8IC0;F;2023-07-19;L-2C;
8CCX;A;2023-12-13;L-1N;
8I5H;A;2023-04-19;L-1C;
8I5I;R;2023-04-19;L-1C;
8FWQ;A;2023-04-19;L-1N;
8FWS;A;2023-04-19;L-1N;
8FWU;A;2023-04-19;L-1N;
8FWW;A;2023-04-19;L-1N;
8C8P;A;2023-02-22;L-1C;
8I4G;A;2023-12-13;L-1C;
8C89;C;2023-12-13;L-1C;
8I3S;A;2023-09-20;L-1C;
8C77;A;2023-01-25;L-1N;
8HWS;A;2023-10-11;L-1C;
8C3V;R;2023-03-22;L-1C;
8FJD;A;2023-02-08;L+1N;
8FJD;B;2023-02-08;L+1N;
8BZQ;A;2023-10-11;L+1C L+1N;
8HRD;A;2023-12-13;L-1C;
8HRK;E;2023-12-13;L-1C;
8HRL;E;2023-12-13;L-1C;
8HR2;A;2023-08-02;L-1C;
8HQQ;A;2023-12-13;L-1N;
8HPU;A;2023-12-13;L-1C;
8HQ7;A;2023-12-13;L-1C;
8HPF;A;2023-12-13;L-1C;
8HN6;E;2023-05-17;L-1C;
8HN7;E;2023-05-17;L-1C;
8BSU;A;2023-12-13;L-1N;
8BSU;D;2023-12-13;L-1N;
8FAH;A;2023-12-13;L-1C;
8BSE;A;2023-05-17;L-1C;
8HGM;B;2023-10-11;L-1C;
8BO0;A;2023-09-20;L-1N;
8HGJ;B;2023-10-11;L-1N;
8HFY;B;2023-08-02;L-1C;
8HG0;B;2023-08-02;L-1C;
8HFV;A;2023-12-13;L-1N;
8HFV;C;2023-12-13;L-1N;
8HF9;A;2023-05-31;L+1N;
8HED;B;2023-04-26;L-1C;
8HES;C;2023-10-11;L-1C;
8F2J;C;2023-12-13;L-1C;
8F2J;E;2023-12-13;L-1C;
8F2J;G;2023-12-13;L-1C;
8F2J;K;2023-12-13;L-1C;
8HEI;A;2023-12-13;L-1N;
8HEN;A;2023-12-13;L-1N;
8HET;A;2023-12-13;L-1N;
8HE4;A;2023-05-31;L+1N;
8HE9;A;2023-12-13;L-1N;
8F0I;A;2023-08-02;L-1C;
8HD8;B;2023-12-13;L-1C;
8BIC;A;2023-03-08;L-1C;
8BIC;B;2023-03-08;L-1C;
8F0H;C;2023-05-03;L-1C;
8HC6;C;2023-01-25;L-1C;
8HC7;A;2023-01-25;L-1C;
8HC8;C;2023-01-25;L-1C;
8BHH;A;2023-07-05;L+1C;
8BGK;B;2022-12-07;L-1C;
8BGG;C;2023-03-08;L-1C;
8BG2;B;2023-10-11;L-1C;
8BG3;B;2023-10-11;L-1C;
8BG3;D;2023-10-11;L-1C;
8BG1;L;2023-10-11;L-1C;
8BG4;B;2023-10-11;L-1C;
8BG4;D;2023-10-11;L-1C;
8BG5;B;2023-10-11;L-1C;
8BG8;A;2023-10-11;L-1C;
8BF4;B;2023-05-03;L-1N;
8BF4;E;2023-05-03;L-1N;
8BF4;D;2023-05-03;L-1N;
8H91;A;2023-10-11;L-1C;
8EWF;A;2023-10-11;L-1C L-1C;
8BEX;A;2023-10-11;LL-1,-1;
8BEY;A;2023-10-11;LL-1,-1;
8EW6;V;2022-11-23;L-1N;
8BEQ;A;2022-12-28;LS4-+--C;
8BEQ;B;2022-12-28;LS4-+--C;
8BEV;A;2023-03-08;L-1C;
8H7Z;A;2023-08-02;L-1C;
8BEC;B;2023-10-11;L-1C;
8BCZ;R;2023-03-22;L-1C;
8BBN;R;2023-03-22;L-1C;
8H5U;A;2023-10-11;L-1C;
8H5U;C;2023-10-11;L-1C;
8H5T;B;2023-10-11;L-1N;
8ERQ;A;2022-10-26;L-1C;
8BB7;C;2023-05-03;L-1N;
8BB7;D;2023-05-03;L-1N;
8H5C;B;2023-07-19;L-1C;
8H55;B;2023-10-11;L+1C;
8EQF;A;2023-10-11;L-1C;
8EOO;C;2023-06-14;L-1C;
8B7Q;B;2023-04-05;L-1N;
8ENB;A;2023-01-11;L-1C;
8END;A;2023-01-11;L-1C;
8ENB;B;2023-01-11;L-1C;
8ENF;A;2023-01-11;L-1C;
8ENF;B;2023-01-11;L-1C;
8H06;B;2023-07-19;L-1C;
8GZZ;A;2023-04-12;L-1C;
8ELO;A;2023-07-05;L-1C;
8ELP;A;2023-07-05;L-1C;
8ELQ;A;2023-07-05;L-1C;
8GZ5;A;2022-12-07;L-1C;
8EL2;A;2023-07-19;L-1C;
8B5F;A;2023-09-20;L-1N;
8B4T;A;2023-09-20;L-1N;
8B4F;A;2023-09-20;L-1N;
8GX9;A;2022-10-12;L-1C;
8GX9;E;2022-10-12;L-1C;
8GX2;A;2023-09-20;L-1N;
8B2M;A;2022-12-21;L-2C;
8B2N;B;2022-12-21;L-2C;
8B2N;D;2022-12-21;L-2C;
8B2Q;I;2022-12-21;L-2C;
8GV5;A;2022-12-21;L-1C;
8GV6;A;2022-12-21;L-1C;
8EEU;A;2023-07-19;L-1C L-1C;
8EEV;A;2023-07-19;L-1C L-1C;
8EEU;E;2023-07-19;L-1C L-1C;
8EED;B;2023-08-02;L-1C;
8GT7;A;2023-08-02;L-1N;
8GSQ;A;2023-06-14;L-1N;
8GSQ;C;2023-06-14;L-1N;
8GSQ;E;2023-06-14;L-1N;
8GSQ;H;2023-06-14;L-1N;
8EE5;Z;2023-08-02;L-1C;
8EE8;B;2023-08-02;L-1C;
8EE8;E;2023-08-02;L-1C;
8GSP;H;2023-10-11;L-1N;
8EDF;A;2023-09-20;L-1C;
8GRY;B;2023-07-19;L-1C;
8EBP;A;2023-08-02;L+1N;
8GPY;A;2023-06-28;L-1C;
8AV2;C;2023-04-05;L-1N;
8AVB;B;2023-04-05;L-1N;
8AV2;D;2023-04-05;L-1N;
8AVC;B;2023-04-05;L-1N;
8AVD;B;2023-04-05;L-1N;
8AVE;A;2023-04-05;L+1N;
8AVE;B;2023-04-05;L-1N;
8AVO;A;2023-04-05;L+1N;
8AVF;A;2023-04-05;L+1N;
8AVO;B;2023-04-05;L-1N;
8AVF;B;2023-04-05;L-1N;
8GP6;A;2023-05-17;L-1C;
8GNN;C;2023-03-08;L+2N;
8ASY;B;2023-01-11;L-1C;
7YW7;A;2022-11-09;L-1C;
7YW8;A;2022-11-09;L-1C;
7YVF;B;2023-06-28;L-1C;
7YVH;B;2023-06-28;L-1C;
7YVJ;B;2023-06-28;L-1C;
7YVL;B;2023-06-28;L-1C;
7YVM;B;2023-06-28;L-1C;
7YVU;B;2023-07-19;L-1C;
7YV8;B;2023-07-19;L-1C;
8AQS;A;2023-03-01;L-1C;
8AQW;B;2023-03-15;L-1C;
8E1G;B;2023-06-28;L-1C;
7YR4;D;2023-09-20;L-1C;
7YPP;A;2023-07-26;L-1N;
7YPP;C;2023-07-26;L-1N;
7YPP;B;2023-07-26;L-1N;
7YPP;E;2023-07-26;L-1N;
7YPP;F;2023-07-26;L-1N;
7YPR;B;2023-10-11;L-1N;
8DXT;R;2023-01-18;L-1C;
8DXU;R;2023-01-18;L-1C;
8AMC;A;2023-08-02;L-3N;
8AMC;C;2023-08-02;L-3N;
7YOW;C;2023-04-19;L-1C;
7YOW;R;2023-04-19;L-1C;
8DWW;A;2023-05-31;L-1C L-1C;
8DWX;A;2023-05-31;L-1C L-1C;
8DWY;A;2023-05-31;L-1C L-1C;
7YOA;A;2022-11-30;L-1C;
8DW2;B;2022-12-07;L-1C;
8DW3;B;2022-12-07;L-1C;
8DV1;A;2022-08-31;L-1C;
7OCK;A;2021-07-21;LL-1,-1;
7OCK;L;2021-07-21;LL-1,-1;
7ENU;A;2021-05-19;L-1N LS2--N;
7DYQ;A;2022-01-26;LS2--N LS2--N;
7DYG;A;2022-01-26;LS2--N;
7BEH;E;2021-03-15;L-1C;
7BEI;E;2021-03-15;L-1C;
7BEJ;E;2021-03-15;L-1C;
7BC6;A;2021-05-12;LL+1,+1;
7AVM;A;2020-11-25;L-1N;
7JS6;A;2021-03-16;L-1C;
7JN6;A;2020-09-14;L-1C;
6XPH;A;2020-09-19;L-1C;
6Z30;A;2020-09-14;L+1C L+1C;
6Z31;A;2020-09-14;L+1C;
6YPE;A;2020-09-19;L-1N;
6W8U;A;2020-09-19;L+2N;
6VXW;A;2020-09-19;L-1N;
6VW1;E;2020-03-06;L-1C;
6VW1;F;2020-03-06;L-1C;
6XYZ;A;2020-09-14;L+1N;
6LU2;A;2020-09-18;LL-2,+1;
6VHH;B;2020-09-19;L-1C;
6VGO;A;2020-09-19;L+1N;
6VGJ;A;2020-10-07;L-2C;
6VGJ;C;2020-10-07;L-2C;
6VGJ;B;2020-10-07;L-2C;
6VGJ;E;2020-10-07;L-2C;
6VGJ;G;2020-10-07;L-2C;
6VE8;A;2020-09-23;L-1N;
6VEA;A;2020-09-23;L-1N;
6TLB;A;2020-09-18;L-1N;
6TLB;B;2020-09-18;L-1N;
6LEO;A;2020-09-14;L+1C;
6TI2;A;2020-09-18;L+1C L+1C;
6V1D;A;2019-12-13;L-1C;
6V1D;C;2019-12-13;L-1C;
6LAQ;A;2019-12-27;L-3C;
6T1W;C;2020-09-18;L-1C;
6T1D;A;2020-02-21;L-1C LL-1,-1;
6T0Q;A;2020-02-21;L-1C LL-1,-1;
6UC6;C;2020-03-06;L-1N;
6UC6;D;2020-03-06;L-1N;
6KV2;B;2020-02-21;L-1N;
6SOY;A;2019-11-08;L-2N;
6SOZ;A;2019-11-08;L-2N;
6SOZ;B;2019-11-08;L-2N;
6U6U;R;2020-09-18;L-2C;
6U11;A;2020-02-21;L-1C;
6SGY;A;2019-10-11;L-1C;
6Q10;A;2019-08-16;L+1N;
6KLG;A;2020-01-24;L-1N;
6PYA;A;2019-12-27;L-1N;
6KKR;A;2019-10-25;L+1N;
6KKT;A;2019-10-25;L+1N;
6SA4;A;2020-03-19;L-1C;
6SA5;A;2020-03-19;L-1C;
6KD5;A;2020-09-17;L-1C;
6S24;A;2019-12-27;L+3N;
6S08;B;2019-09-06;L-1N;
6S0B;B;2019-09-06;L-1N;
6K8N;A;2020-09-17;L-2C;
6K8N;C;2020-09-17;L-2C;
6K8N;B;2020-09-17;L-2C;
6K8N;D;2020-09-17;L-2C;
6RV6;A;2019-08-23;L-1N;
6RUS;A;2019-08-23;L-1N;
6RUR;U;2019-08-23;L-1N;
6RUV;U;2019-08-23;L-1N;
6RUV;X;2019-08-23;L-1N;
6P0F;A;2019-12-20;L-1C;
6P0G;A;2019-12-20;L-1C;
6OU1;A;2019-07-05;L-1C;
6OU1;B;2019-07-05;L-1C;
6JYZ;A;2019-10-04;L+1N;
6ON9;A;2019-05-17;L+1C;
6R88;A;2020-01-24;L-1N;
6R88;B;2020-01-24;L-1N;
6R88;D;2020-01-24;L-1N;
6R85;A;2020-01-24;L-1N;
6R85;B;2020-01-24;L-1N;
6ODM;5;2019-06-21;L+1N;
6ODM;D;2019-06-21;L+1N;
6R5J;A;2020-09-18;L-1N;
6R5J;C;2020-09-18;L-1N;
6JO8;B;2019-05-17;L-1C L-1C;
6QZT;A;2019-10-04;L+1N;
6O1F;I;2019-10-18;L-1N;
6QQM;A;2019-11-08;LS2++C;
6QMU;A;2019-08-30;L-3N;
6NTT;B;2019-03-22;L-1N;
6QES;A;2019-12-20;L-1C;
6QET;A;2019-12-20;L-1C L-1C;
6QEU;A;2019-12-20;L-1C L-1C;
6QBK;A;2019-12-13;L-1C;
6QBL;A;2019-12-13;L-1C;
6J02;A;2019-11-15;L-1C;
6IWR;A;2019-02-08;L+2N;
6IWQ;B;2019-02-08;L+2N;
6IWR;B;2019-02-08;L+3N;
6NAN;A;2019-06-14;L-1N L-1N;
6I9G;A;2019-12-06;L+1C;
6N5B;B;2019-06-07;L-1C;
6N2U;A;2019-11-22;L-2C;
6N29;A;2019-01-25;L-1N;
6N29;B;2019-01-25;L-1N;
6IMU;A;2019-04-12;L+1N;
6IMV;A;2019-04-12;L+1N;
6IMW;A;2019-04-12;L+1N;
6IMU;B;2019-04-12;L+1N;
6MJV;A;2019-08-30;L-1C;
6MEI;C;2018-11-23;L-2C L-2C;
6HFY;A;2020-09-17;L-1C;
6HCG;P;2019-11-29;L+1N;
6H8M;A;2019-02-22;L-1C;
6H7D;A;2019-02-08;L+1N;
6E8N;A;2019-01-25;L-1N L-1N;
6E4Q;A;2020-09-17;L+2N;
6E4Q;B;2020-09-17;L+2N;
6H2T;A;2018-07-27;L+3C;
6GRF;B;2018-12-21;L-1C;
6GRE;A;2018-12-28;L-1C L-1C;
6GRE;B;2018-12-28;L-1C L-1C;
6GIT;A;2019-11-29;L+1N;
5ZNS;A;2019-02-22;L+1N;
6CZK;A;2020-09-17;L-1N;
6CWS;A;2018-07-06;L-2C;
6G5J;A;2020-09-17;L-1N;
6G5J;B;2020-09-17;L-1N;
6FWN;A;2018-10-26;L-1C;
5ZE3;A;2018-04-13;L-1C L-3C;
5ZE3;B;2018-04-13;L-1C L-3C;
5ZCN;A;2018-10-19;L-1C;
6FPG;E;2019-01-18;L+1C L+1C;
6FON;A;2019-02-01;L-1N;
6CCI;A;2019-02-22;L-1C;
5Z34;A;2019-02-22;L+1N;
6F99;A;2019-02-01;L+1C;
6F9A;A;2019-02-01;L+1C;
6F74;A;2018-01-12;L-1C;
6F74;C;2018-01-12;L-1C;
6BSU;A;2018-05-25;L+1N;
6BSV;A;2018-05-25;L+1N;
6BSW;A;2018-05-25;L+1N;
5YSC;A;2018-10-16;L+1N;
6BDJ;A;2018-11-16;L-6C;
6BDJ;U;2018-11-16;L-6C;
6EPK;B;2018-11-02;L-1C;
6B7N;A;2017-10-27;L-1C;
6B5W;A;2017-10-20;L-1C;
6EIB;A;2018-10-16;L-1C;
6EIB;C;2018-10-16;L-1C;
6EIB;B;2018-10-16;L-1C;
6EIB;D;2018-10-16;L-1C;
6EI6;B;2018-10-16;L+1C;
6EHZ;A;2018-10-16;L-2C;
6EGT;A;2017-11-03;L-3N L-1C;
6EGT;C;2017-11-03;L-3N L-1C;
6EGT;B;2017-11-03;L-1N L-1C;
6ATK;E;2017-12-08;L-1C;
6ANY;A;2018-03-30;L-1C;
5OP0;A;2017-11-17;L-1N;
5OP0;B;2017-11-17;L-1N;
5WM0;A;2018-07-20;L-1C;
5Y32;B;2017-08-28;L+1C L-2C;
5Y10;C;2017-09-15;L-1C;
5Y0W;A;2017-09-15;L-1C;
5WEE;A;2018-03-30;L-1C;
5WEE;B;2018-03-30;L-1C;
5XWQ;A;2018-07-06;LL+1,-1;
5WA2;A;2018-06-29;L-1N;
5O6A;A;2018-02-09;L-1C;
5XOZ;A;2018-06-22;L-1N;
5XOZ;B;2018-06-22;L-1N;
5VU2;M;2017-12-08;L-1C L-1C;
5XMG;A;2018-05-18;L-1C;
5XM4;A;2018-03-23;L-1C;
5NX3;D;2018-06-01;L-1N;
5NX1;D;2018-06-01;L-1N;
5VOB;C;2017-07-07;L-2C;
5VOC;C;2017-07-07;L-2C;
5VOB;D;2017-07-07;L-2C;
5VOC;D;2017-07-07;L-2C;
5VOD;D;2017-07-07;L-2C;
5NTB;A;2018-03-09;L+1C;
5VKJ;A;2017-10-06;L+1N;
5VG2;A;2018-04-13;L-6C;
5VG2;U;2018-04-13;L-6C;
5XBU;A;2018-03-30;L+1C L+1N L+1N;
5V50;A;2017-09-01;L-1C;
5V51;A;2017-09-01;L-1C;
5V50;C;2017-09-01;L-1C;
5V51;C;2017-09-01;L-1C;
5V50;B;2017-09-01;L-1C;
5V51;D;2017-09-01;L-1C;
5V50;G;2017-09-01;L-1C;
5V50;F;2017-09-01;L-1C;
5V51;F;2017-09-01;L-1C;
5X62;B;2020-09-17;L-1C;
5X4R;A;2017-05-02;LS2--C;
5X4S;A;2017-05-02;L-1C;
5UIW;B;2017-06-30;L-2C;
5MS9;A;2017-08-28;L-1N;
5MRV;A;2018-01-19;L+1C;
5UBL;A;2017-03-03;L-1C;
5UBJ;A;2017-09-29;L+2C;
5U81;A;2018-03-30;L-3C;
5WRR;A;2017-05-02;L-1C L-1C;
5WRS;A;2017-05-02;L-1C L-1C;
5WRR;B;2017-05-02;L-1C L-1C;
5WRS;B;2017-05-02;L-1C L-1C;
5MFA;A;2017-04-07;L-3C;
5H4U;A;2017-03-23;L+1C L+1N L+1N;
5H4S;A;2017-05-19;L-1C L-1C L-1C L-1C;
5M0W;A;2017-04-07;L-1N;
5TJ1;A;2020-09-17;L-1C;
5GZA;A;2016-12-09;L-1C;
5GYY;A;2017-09-29;LS3+--C;
5GYY;B;2017-09-29;LS3+--C;
5GYQ;A;2016-10-24;L-1C;
5LXF;A;2020-09-16;L-1N L-2N;
5LXF;B;2020-09-16;L-1N L-2N;
5LTL;A;2018-05-11;L-2C;
5LTL;B;2018-05-11;L-2C;
5GVO;A;2017-04-07;L-1C;
5GNB;A;2017-06-09;L-1C L-1N L+1N;
5LFR;A;2016-12-16;L+1N;
5LFR;B;2016-12-16;L+1N;
5LCS;A;2016-10-07;L-1C;
5KI9;A;2017-06-30;L-1C;
5LAH;A;2017-05-11;L-1C;
5KEM;A;2016-10-07;L+1N;
5L7R;A;2017-03-23;LSL2--,+2;
5K9H;A;2016-10-07;L-1C;
5K1E;A;2016-06-20;L-3C;
5B5S;A;2016-11-18;L-1C;
5JYS;A;2016-10-07;L-1C;
5JQF;A;2016-10-07;L-1C;
5JPL;A;2017-03-03;L-1C;
5G38;A;2016-10-07;L-1C;
5JBT;Y;2016-11-11;L-1N;
3JD6;O;2016-06-16;L-1C;
5J81;A;2016-10-07;L-1C L-1N L-1N L-1N;
5J83;A;2017-06-23;L+1N;
5J1T;B;2016-10-07;L+1N;
3JCU;O;2016-10-07;L-1C;
5IAZ;A;2016-10-07;L-1C;
5I4H;B;2016-06-20;L-1N;
5FV5;A;2017-02-24;L+1C;
5FV6;A;2017-02-24;L+1C;
5FV6;B;2017-02-24;L+1C;
5HQN;A;2016-10-07;L-1N;
5HJ3;C;2016-06-20;L+1N;
5HJ3;G;2016-06-20;L+1N;
5HJ3;K;2016-06-20;L+1N;
5H9K;A;2016-06-20;L-1N;
5H9L;A;2016-06-20;L-1N;
5FI9;A;2016-10-07;L-1N;
5FIB;A;2016-10-07;L-1N;
5FI9;B;2016-10-07;L-1N;
5FFG;B;2017-01-27;L+1C;
5F1B;A;2016-06-20;L+1N;
5FOY;B;2016-10-07;LL-1,-1;
5FOZ;B;2016-10-07;LL-1,-1;
5EX1;A;2016-06-23;L-2N;
5EX2;A;2016-06-23;L-2N;
5EX1;C;2016-06-23;L-2N;
5EX2;B;2016-06-23;L-2N;
5EX1;E;2016-06-23;L-2N;
5EKI;A;2016-10-07;L-2C;
5EKI;C;2016-10-07;L-2C;
5EKI;B;2016-10-07;L-2C;
5EKI;E;2016-10-07;L-2C;
5EJB;B;2016-06-20;L+1N;
5EJB;D;2016-06-20;L+1N;
5DSS;B;2016-06-20;L-1N;
5AEJ;A;2016-06-20;L-1C;
5AEJ;C;2016-06-20;L-1C;
5D9E;A;2016-06-20;L-1C;
5D71;A;2016-06-20;L-2N;
5D72;A;2016-06-20;L-2N;
5D72;B;2016-06-20;L-2N;
5CYL;D;2016-10-07;L-1N;
5CYL;G;2016-10-07;L-1N;
5CYL;H;2016-10-07;L-1N;
2N5C;A;2016-06-13;L-1C;
5C9I;A;2016-10-07;L-1C;
5C9I;B;2016-10-07;L-1C;
5C67;C;2016-06-20;L-1N;
5C67;E;2016-06-20;L-1N;
5A3L;A;2016-10-07;LS2--C LS2--N;
5A3L;C;2016-10-07;LS2--C;
5A3M;A;2016-10-07;LS2--C LS2--N;
5A3M;C;2016-10-07;LS2--C;
5A3L;D;2016-10-07;LS2--C;
5A3M;D;2016-10-07;LS2--C;
5BPU;A;2016-06-20;L-1C;
5BPU;C;2016-06-20;L-1C;
5BPU;B;2016-06-20;L-1C;
5BPU;E;2016-06-20;L-1C;
5BPU;D;2016-06-20;L-1C;
5BO6;A;2016-06-20;L+1N;
5BO9;A;2016-06-20;L+1N;
4ZAI;A;2016-06-20;L-2C;
4Z80;A;2016-06-20;L-1C L+1N L-1N;
4Z11;A;2016-06-20;L-2C L+2C;
4YKK;B;2016-06-20;L-1N;
4YKI;B;2016-06-20;L-1N;
4YKJ;B;2016-06-20;L-1N;
4YGF;A;2016-06-20;LS2++C;
4YGF;C;2016-06-20;LS2++C;
4YGF;B;2016-06-20;LS2++C;
4YGF;D;2016-06-20;LS2++C;
4YGF;G;2016-06-20;LS2++C;
4YGF;F;2016-06-20;LS2++C;
4YFA;A;2016-06-20;L-1C;
4YF9;A;2016-06-20;L-1C;
4YFB;A;2016-06-20;L-1C;
4YFC;B;2016-06-20;L+1C L-2C;
4YFA;D;2016-06-20;L-1C;
4YF9;D;2016-06-20;L-1C;
4YFB;G;2016-06-20;L-1C;
4YFB;J;2016-06-20;L-1C;
4YEB;A;2016-06-20;L-1C;
4XVH;A;2016-06-20;L-1C;
4XUU;A;2016-06-20;L+1C;
4XUU;C;2016-06-20;L+1C;
4XT3;B;2016-06-20;L-2C;
4XT1;B;2016-06-20;L-2C;
2MXQ;A;2016-06-13;L-1C;
4XIX;A;2016-06-20;LS2++C;
4XIX;C;2016-06-20;LS2++C;
4XIX;B;2016-06-20;LS2++C;
4XIW;A;2016-06-20;LS2++C;
4XIW;C;2016-06-20;LS2++C;
4XIW;E;2016-06-20;LS2++C;
4XHJ;B;2016-06-20;L-2C;
4XHJ;F;2016-06-20;L-2C;
3X2G;A;2016-06-18;L+1C L+1N;
3X2H;A;2016-06-18;L+1C L+1N;
3X2J;A;2016-06-18;L+1C L+1N;
3X2I;A;2016-06-18;L+1C L+1N;
4RWS;C;2016-06-21;L-2C;
4RUN;A;2016-06-21;L-3N;
4RUN;B;2016-06-21;L-3N;
4X0N;B;2016-06-22;L-1C;
4D6W;B;2016-06-19;L+1C L-1N;
2MW3;A;2016-06-13;L-1C;
4WRN;A;2016-06-22;L-1N;
4RL4;B;2016-06-21;L+1N;
3X0H;A;2016-06-18;L-1C;
4UYS;A;2016-06-22;L+1C;
4R72;A;2016-06-19;L-1N;
4R73;A;2016-06-19;L-1N;
4R74;A;2016-06-19;L-1N;
4R75;A;2016-06-19;L-1N;
4R73;B;2016-06-19;L-1N;
4R74;C;2016-06-19;L-1N;
4R74;B;2016-06-19;L-1N;
4R2B;A;2016-06-13;L-1N;
2MSX;A;2016-06-13;LS3+--C;
4TWL;A;2016-06-21;LS2++C;
4TWL;B;2016-06-21;LS2++C;
4TPV;A;2016-06-21;L-1C;
4TPV;B;2016-06-21;L-1C;
4TLP;A;2016-06-13;L-1N;
4QI7;A;2016-06-19;L+6N;
4PMK;B;2016-06-13;L+1C L+1C;
4PLM;A;2016-06-13;L-1C;
2MP1;A;2016-06-13;L-2C;
4D0T;A;2016-06-19;L+3N;
4D0T;C;2016-06-19;L+2N;
4D0T;B;2016-06-19;L+3N;
4D0T;F;2016-06-19;L+2N;
4CVW;C;2016-06-19;L+1N;
4CVW;D;2016-06-19;L+1N;
2MN3;A;2016-06-13;L-1C;
4PSC;A;2016-06-13;L-2C;
2MM2;A;2016-06-13;L-1N;
4P27;A;2016-06-13;L-1C;
4ORR;A;2016-06-19;L-3N;
4ORS;A;2016-06-19;L-3N;
4ORU;A;2016-06-19;L-3N;
4ORW;A;2016-06-19;L-3N;
4ORS;B;2016-06-19;L-3N;
4CPN;A;2016-06-19;L-1C;
4CPO;A;2016-06-19;L-1C;
4CPM;A;2016-06-19;L-1C;
4CPL;A;2016-06-19;L-1C;
4OPB;A;2016-06-19;L-1C;
4OMB;A;2016-06-19;L+1N;
4OIE;A;2016-06-13;L-1C L-1C;
4CMR;A;2016-06-13;L+1N;
4CMR;B;2016-06-13;L+1N;
2MJK;A;2016-06-13;L-1C;
4ODD;A;2016-06-13;L-3N;
4ODD;B;2016-06-13;L-3N;
4O8N;A;2016-06-19;L+2C;
4O8P;A;2016-06-19;L+2C;
4O8O;A;2016-06-19;L+2C;
4CK4;A;2016-06-13;L-3N;
4CK4;B;2016-06-13;L-3N;
4NT5;A;2016-06-13;L-1C;
3WMZ;A;2016-06-18;L+2C;
3WMY;A;2016-06-18;L+2C;
3WMT;A;2016-06-13;L+1C;
2MGS;A;2016-06-13;L-2C;
4NDS;A;2016-06-19;L-1C;
4NDT;A;2016-06-19;L-1C;
2MFV;A;2016-06-13;L-1C;
4NAG;A;2016-06-19;L-1C;
4N7C;A;2016-06-13;L-1N;
4N3T;A;2016-06-13;L-1N;
4N1I;A;2016-06-13;L+2C;
4N03;A;2016-06-13;L+1N;
4MMU;B;2016-06-19;L-1C;
4MMT;B;2016-06-19;L-1C;
4MMV;B;2016-06-19;L-1C;
4MHE;A;2016-06-19;L-2C;
4MHE;C;2016-06-19;L-2C;
4MHE;D;2016-06-19;L-2C;
2MCF;A;2016-06-13;L-1N;
4LQ6;A;2016-06-13;L+1N;
4LB1;A;2016-06-13;L-1C;
4LB7;A;2016-06-13;L-1C;
4LBF;A;2016-06-13;L-1C;
4L3N;A;2016-06-13;L-1C;
4L3N;B;2016-06-13;L-1C;
4L05;A;2016-06-13;L-1N;
4BQD;A;2016-06-13;L-1N;
4BQD;B;2016-06-13;L-1N;
4KYP;A;2016-06-13;L-1N;
4KYP;C;2016-06-13;L-1N;
4BOE;A;2016-06-13;L-1N;
2M8F;A;2016-06-13;L-1C;
4KP1;A;2016-06-13;L+1C;
4KNC;B;2016-06-13;L-1C;
4KK7;A;2016-06-13;L-1C;
4KG7;A;2016-06-13;LS3++-C;
3WA1;A;2016-06-13;LL-1,-1;
4K6L;G;2016-06-19;L-1N;
4K0U;A;2016-06-19;L+1N;
4JWO;A;2016-06-13;L-1N;
4JP6;A;2016-06-13;L+1C L+1N;
4JPH;A;2016-06-13;L-1C;
4JPH;C;2016-06-13;L-1C;
4JPH;B;2016-06-13;L-1C;
4JJO;A;2016-06-13;L+1C;
4BED;B;2016-06-19;L-1N;
4JHS;A;2016-06-19;L-1N;
3ZPX;A;2016-06-13;L+1N;
4JGL;A;2016-06-13;LL-1,-2;
4JD0;A;2016-06-13;L+1N;
3ZK4;A;2016-06-13;L+2N;
3ZK4;C;2016-06-13;L+2N;
3ZK4;B;2016-06-13;L+2N;
2M37;A;2016-06-13;L-1C;
4IJD;A;2016-06-19;L+1N;
4IJD;B;2016-06-19;L+1N;
4IHZ;A;2016-06-13;L-1N;
3ZC9;A;2016-06-13;L-1N;
4I05;A;2016-06-19;L-1N;
4HYQ;A;2016-06-13;L+1N;
4HWM;A;2016-06-13;L-2N;
4HT2;A;2016-06-13;LS2++C;
4HS9;A;2016-06-13;L+1C;
2M05;A;2016-06-13;L-1C;
4HKJ;D;2016-06-19;L-1N;
4HJ1;A;2016-06-13;L-1N L-1C;
4HJ1;C;2016-06-13;L-1N L-1C;
4HJ1;B;2016-06-13;L-1N L-1C;
4BD9;B;2016-06-19;L-1N L-1N L-1N;
4HCS;A;2016-06-13;L-2C;
4H14;A;2016-06-13;L-1C L-3N;
4H0W;A;2016-06-19;LS3--+N L+1N L-1N LS2--N;
3VX0;A;2016-06-13;L-1N;
4GWN;A;2016-06-13;L+1N;
4GV5;A;2016-06-13;L-1C;
4GQZ;C;2016-06-13;L-1N;
4GQR;A;2016-06-13;L+1N;
4B7Q;A;2016-06-13;L-1C;
2LX6;A;2016-06-13;L-1C;
4GE1;D;2016-06-13;L-1N;
4GE1;A;2016-06-13;L-1N;
4GE1;C;2016-06-13;L-1N;
4GE1;B;2016-06-13;L-1N;
4G7A;A;2016-06-13;LS2++C;
4G7A;B;2016-06-13;LS2++C;
2LVX;A;2016-06-13;L+1C;
3VUP;A;2016-06-13;L+1N;
4FXG;C;2016-06-19;L-2C;
4FXK;C;2016-06-19;L-2C;
4FNK;A;2016-06-13;L-1C;
4FNK;C;2016-06-13;L-1C;
4FDI;A;2016-06-13;L-1N;
4FDI;B;2016-06-13;L-1N;
2LTI;A;2016-06-13;L-1C;
2LT5;A;2016-06-13;L+2C;
4F5C;E;2016-06-19;L-1C;
4F2M;E;2016-06-19;L-1C;
4F23;A;2016-06-13;L-1C;
4ASL;A;2016-06-13;LS2--C LL-1,+1 LS2--N;
4ES7;A;2016-06-19;L-3N;
2LS1;A;2016-06-13;L-1C;
3V83;F;2016-06-13;LS2--N L+1N L-1N LS2--N;
3V83;A;2016-06-13;LS2--N L+1N L-1N LS2--N;
3V83;B;2016-06-13;LS2--N L+1N L-1N LS2--N;
3V83;D;2016-06-13;LS2--N L+1N L-1N LS2--N;
3UYX;A;2016-06-13;L-1C;
3UTK;A;2016-06-13;L+1N;
4A7U;A;2016-06-13;L-1N;
4A56;A;2016-06-13;L+1N;
3U4Y;A;2016-06-13;L-1N;
3U4Y;B;2016-06-13;L-1N;
4A3X;A;2016-06-13;LS2--C LL-1,+1 LS2--N;
2LJM;A;2016-06-13;L-1N;
3TNX;A;2016-06-18;L-1N;
3TN2;A;2016-06-13;L-2C;
3TC2;A;2016-06-13;L-1N;
3TC2;C;2016-06-13;L-1N;
3T94;A;2016-06-13;L+1N;
2LG6;A;2016-06-13;L-1C;
2LG5;A;2016-06-13;L-1C;
3ZUI;A;2016-06-13;L-1N;
3SUK;A;2016-06-13;L+1C L+1N;
3SUM;A;2016-06-13;L+1C L+1N;
3SUM;C;2016-06-13;L+1C L+1N;
3SUM;D;2016-06-13;L+1C L+1N;
3SH4;A;2016-06-13;L-1N;
3SAO;B;2016-06-13;L-3N;
3S8K;A;2016-06-13;L-1N;
3S8K;B;2016-06-13;L-1N;
2YK0;A;2016-06-13;L-1N;
3S4O;A;2016-06-18;L+1N;
3RT4;A;2016-06-13;L-2C;
2YHG;A;2016-06-13;LL+1,-1;
2YG2;B;2016-06-13;L-3N;
3QW9;A;2016-06-13;L-1N;
3QVP;A;2016-06-13;L+1N;
2YAU;A;2016-06-13;L+2N;
3QTE;A;2016-06-13;L-1C;
3QSD;A;2016-06-13;L-1N;
3QL6;A;2016-06-13;L-3C;
3QKG;A;2016-06-18;L-3N;
3Q31;A;2016-06-13;L+1C;
3Q2U;A;2016-06-13;L-1C;
3ASI;A;2016-06-13;L-1N;
3PXL;A;2016-06-13;L-2N;
2Y1B;A;2016-06-13;L-1C;
2XXL;A;2016-06-13;L-1C;
3PIV;A;2016-06-13;L+1C;
3PIW;A;2016-06-13;L+1C;
3PIV;B;2016-06-13;L+1C;
3PHF;2;2016-06-18;L-2C;
2L5P;A;2016-06-13;L-3N;
2XU3;A;2016-06-13;L-1N;
2L4N;A;2016-06-13;L-2C;
3P06;A;2016-06-18;L-2N;
3OZP;A;2016-06-13;L-1N;
2L3O;A;2016-06-13;L+1C;
3OP8;A;2016-06-13;L-1N;
3ON9;A;2016-06-13;L-1N;
3OA8;B;2016-06-18;L+1C;
3O4O;B;2016-06-18;L-2C;
3O22;A;2016-06-13;L-3N;
2XJP;A;2016-06-13;LS2--C LS2--N;
3NSW;C;2016-06-13;L-2C;
3NSW;G;2016-06-13;L-2C;
3NSW;F;2016-06-13;L-2C;
3NT8;A;2016-06-18;L-1C L-1C;
3NT8;B;2016-06-18;L-1C L-1C;
3NSJ;A;2016-06-13;L-3N;
3NJW;A;2016-06-18;L-1C;
3NGW;A;2016-06-13;L+1N;
3NGG;A;2016-06-13;L-1C;
3NGG;B;2016-06-13;L-1C;
2XFD;A;2016-06-13;L-1N;
2KXI;A;2016-06-13;L-1N;
3MTW;A;2016-06-13;L+1N;
3MN8;C;2016-06-18;L+1N;
3AGN;A;2016-06-13;L-3C;
2X97;A;2016-06-13;L-2N;
3LY9;A;2016-06-18;L+1N;
3LY8;A;2016-06-18;L+1N;
3LYA;A;2016-06-18;L+1N;
3LY7;A;2016-06-18;L+1N;
3LQB;A;2016-06-13;L+1N;
3LPA;A;2016-06-18;L+1N;
3LPC;A;2016-06-18;L+1N;
2X46;A;2016-06-13;L-1N;
3L91;A;2016-06-13;L-1C;
3L4R;A;2016-06-13;L-3N;
3L49;A;2016-06-13;L+1N;
3KTM;A;2016-06-18;L-1C;
3KTM;C;2016-06-18;L-1C;
3KTM;B;2016-06-18;L-1C;
3KTM;E;2016-06-18;L-1C;
3KTM;D;2016-06-18;L-1C;
3KTM;G;2016-06-18;L-1C;
3KTM;H;2016-06-18;L-1C;
3KQ0;A;2016-06-13;L-3N;
2WY3;B;2016-06-13;L+1C;
2WY3;D;2016-06-13;L+1C;
3KLJ;A;2016-06-18;L+1N;
2KQA;A;2016-06-13;L+1C L+1N;
3KFF;A;2016-06-13;L-3N;
3JXG;C;2016-06-13;L+1C;
2WTA;A;2016-06-13;L+1N;
3A56;A;2016-06-13;L-1N L-1N;
3A56;B;2016-06-13;L-1N L-1N;
3A54;A;2016-06-13;L-1N L-1N;
3A54;B;2016-06-13;L-1N L-1N;
3I5W;A;2016-06-13;L-1C;
3I26;A;2016-06-13;L-1C;
3I26;B;2016-06-13;L-1C;
3I26;D;2016-06-13;L-1C;
2KKY;A;2016-06-13;L-1N;
3HZB;A;2016-06-13;L-1N;
3HZB;C;2016-06-13;L-1N;
3HZB;B;2016-06-13;L-1N;
3HZB;E;2016-06-13;L-1N;
3HWN;C;2016-06-13;L-1N;
3HHC;B;2016-06-13;L+1C;
3A2E;A;2016-06-13;L-1C;
3HEI;B;2016-06-13;L-1N;
3A23;A;2016-06-13;L+1N;
3A21;A;2016-06-13;L+1N;
3A22;A;2016-06-13;L+1N;
3A21;B;2016-06-13;L+1N;
3A23;B;2016-06-13;L+1N;
3A22;B;2016-06-13;L+1N;
3H5C;B;2016-06-13;L+1C;
3GV3;A;2016-06-13;L-2C;
2WBF;X;2016-06-13;L-1N;
2WB9;A;2016-06-13;L+1N;
3G7N;B;2016-06-13;L+1N;
3G5C;B;2016-06-13;L-1C;
2KER;A;2016-06-13;L-1N;
2W8X;A;2016-06-13;L-1N;
2W8X;B;2016-06-13;L-1N;
2W86;A;2016-06-13;L-1N;
3FP7;J;2016-06-13;L-1N;
2KD3;A;2016-06-13;L-1C;
3FMZ;A;2016-06-13;L-3N;
2ZX2;A;2016-06-13;L-1C L-1C;
3FLP;A;2016-06-13;L-1N;
3FIQ;A;2016-06-13;L-3N;
3FIQ;B;2016-06-13;L-3N;
3FE4;B;2016-06-13;LS2++C;
3F5V;A;2016-06-13;L-1C;
3ES6;B;2016-06-13;L-1N;
3EQN;A;2016-06-13;L+1C;
3EQN;B;2016-06-13;L+3C;
2K8P;A;2016-06-13;L-1C;
2JLP;A;2016-06-13;L-1N;
2JLP;D;2016-06-13;L-1N;
3EDY;A;2016-06-13;L-1C;
3E8L;C;2016-06-13;L-1N;
3DJL;A;2016-06-13;L-1N;
2ZOU;B;2016-06-13;LS3--+C;
2ZOT;C;2016-06-13;LS3--+C;
2ZOT;B;2016-06-13;LS3--+C;
2K35;A;2016-06-13;L-1C;
2K2Z;A;2016-06-13;L-1C;
2K2Y;A;2016-06-13;L-1C;
3CTK;A;2016-06-13;L+1C;
3CL4;A;2016-06-13;L-1C;
3CL5;A;2016-06-13;L-1C;
2ZK9;X;2016-06-13;L-1N L-1N;
3C75;M;2016-06-13;L-2C L-1C;
3C6E;C;2016-06-13;L-1C;
3C5X;C;2016-06-13;L-1C;
2ZG2;A;2016-06-13;L+1N;
2ZG1;A;2016-06-13;L+1N;
2ZG3;A;2016-06-13;L+1N;
3BWK;A;2016-06-13;L-1N;
3BU7;A;2016-06-13;L-1C;
3BU7;B;2016-06-13;L-1C;
2RNG;A;2016-06-13;L-1C;
3BRN;A;2016-06-13;L-1N;
3BQH;A;2016-06-13;L-1N;
2JX9;A;2016-06-13;L-1C;
2VGA;A;2016-06-13;L+2C L-1N L-3C;
3B4V;D;2016-06-13;L-1N;
2VEC;A;2016-06-13;L-1C;
2RFT;A;2016-06-13;L-1C;
2RFU;A;2016-06-13;L-1C;
2RA4;A;2016-06-13;L-2C;
2RA6;A;2016-06-13;L-3N;
2RA6;C;2016-06-13;L-3N;
2RA6;B;2016-06-13;L-3N;
2R3Z;A;2016-06-13;L-2C;
2R3Z;C;2016-06-13;L-2C;
2R3Z;B;2016-06-13;L-2C;
2R3Z;D;2016-06-13;L-2C;
2JTO;A;2016-06-13;L-1C L-1C;
2QRL;A;2016-06-13;L+1N;
2JIG;A;2016-06-13;L-1N;
2JR3;A;2016-06-13;L-1C;
2Z4I;B;2016-06-13;L+1N;
2Q9O;A;2016-06-13;L-2N L+1N;
2Q8R;H;2016-06-13;L-2C;
2Q8T;A;2016-06-13;L-2C;
2Q8R;E;2016-06-13;L-2C;
2Q8T;C;2016-06-13;L-2C;
2Q8T;D;2016-06-13;L-2C;
2PT5;A;2016-06-13;L+1N;
2PT5;B;2016-06-13;L+1N;
2PMV;B;2016-06-13;L+1C;
2PE4;A;2016-06-13;L+1N;
2JOP;A;2016-06-13;L-1C;
2JON;A;2016-06-13;L-1N;
2P3X;A;2016-06-13;L-2C;
2UUX;A;2016-06-13;L-1C L-1N;
2EHG;A;2016-06-13;L+3N;
2OYA;A;2016-06-13;L-1C;
2JH1;A;2016-06-13;LS3+--N LS3+--N;
2OR7;A;2016-06-13;L-1N;
2OR7;B;2016-06-13;L-1N;
2OIZ;H;2016-06-13;L-2C L-1C;
2OIZ;D;2016-06-13;L-2C L-1C;
2JD4;B;2016-09-13;LS2--C L-1N L-1N;
2ODY;E;2016-06-13;L-1N L-1N;
2E1V;A;2016-06-13;L-1N;
2IKD;A;2016-06-13;L-1C;
2IKE;A;2016-06-13;L-1C;
2J6D;A;2016-06-23;L-1N;
2HZQ;A;2016-06-13;L-1N;
2HZR;A;2016-06-13;L-1N;
2DVZ;A;2016-06-13;LL+1,-1;
2HDL;A;2016-06-13;L-2C;
2HCZ;X;2016-06-13;L+1C L+1N;
2DRE;C;2016-06-13;L-1N;
2CMZ;A;2016-06-13;LL-1,+1 L-1N;
2CMZ;C;2016-06-13;LL-1,+1 L-1N;
2CMZ;B;2016-06-13;L+1C L-1N;
2GRK;A;2016-06-13;L+2C LL+4,-3;
2CKS;A;2016-06-13;L+1N;
2CKS;B;2016-06-13;L+1N;
2GHV;C;2016-06-13;L-1C;
2GGO;A;2016-06-13;L+1N;
2GGQ;A;2016-06-13;L+1N;
2G5X;A;2016-06-13;L+1C;
2FO5;A;2016-06-13;L-1N;
2FMA;A;2016-06-13;L-1C;
2FFU;A;2016-06-13;L+2N;
2FAW;A;2016-06-13;L-1N;
2F5X;A;2016-06-13;L+1N;
2F5X;B;2016-06-13;L+1N;
2D7I;A;2016-06-13;L+2N;
2D5W;A;2016-06-13;L+1C;
2ERF;A;2016-06-13;L-1N;
2BB6;A;2016-06-13;L+1C;
2B5B;A;2016-06-13;L-1C L-1C;
2D1G;A;2016-06-13;LL+1,+1;
1ZXT;A;2016-06-13;L-2C;
2CVB;A;2016-06-13;L+1N;
1ZPU;A;2016-06-13;L-2N;
1ZMI;A;2016-06-13;L-1C;
1ZMM;A;2016-06-13;L-1C;
1ZMM;B;2016-06-13;L-1C;
1ZH1;A;2016-06-13;L-1N;
1ZD0;A;2016-06-13;LS2--N;
1Z8Y;A;2016-06-13;L-1C L-1C;
1YS1;X;2016-06-13;L+1C;
1YPY;A;2016-06-13;L+2C;
1YC0;I;2016-06-13;L-1N;
1Y7W;A;2016-06-13;LS2++C;
1WC2;A;2016-06-13;L+1C L+1N L+1N;
1WSC;A;2016-06-13;L-1N;
1WS8;A;2016-06-13;L-1N;
1WS8;C;2016-06-13;L-1N;
1XWE;A;2016-06-13;L-2C;
1XTM;A;2016-06-13;L-1N;
1XTM;B;2016-06-13;L-1N;
1XTA;A;2016-06-13;L-1C;
1XTA;B;2016-06-13;L-1C;
1WQK;A;2016-06-13;L-1C;
1X9R;A;2016-06-13;L-1N;
1X9U;A;2016-06-13;L-1N;
1X9R;B;2016-06-13;L-1N;
1X9U;B;2016-06-13;L-1N;
1X8Q;A;2016-06-13;L-1N;
1U53;A;2016-06-13;L-1C;
1U3D;A;2016-06-13;L+3N;
1TYE;B;2016-06-13;L+1C;
1TV0;A;2016-06-13;L-1C;
1T61;A;2016-06-13;L-1N L-1N;
1T61;C;2016-06-13;L-1N L-1N;
1T61;B;2016-06-13;L-1N L-1N;
1T61;E;2016-06-13;L-1N L-1N;
1VF8;A;2016-06-13;L+1N;
1SZN;A;2016-06-13;L+1N L-1N;
1SGL;A;2016-06-13;L-1C L-1C;
1SFS;A;2016-06-13;L+1N;
1UWC;A;2016-06-13;L+1N;
1S4Q;A;2016-06-13;L+1N;
1RXD;C;2016-06-13;L+1N;
1RXD;B;2016-06-13;L+1N;
1UT3;A;2016-06-13;L-1C;
1RJT;A;2016-06-13;L-2C;
1R8N;A;2016-06-13;L-1N;
1R8O;A;2016-06-13;L-1N;
1O5E;L;2016-06-13;L-1C;
1O5F;L;2016-06-13;L-1C;
1Q77;A;2016-06-13;L+1N;
1Q3X;A;2016-06-13;L-1C;
1Q25;A;2016-06-13;L+1C L+1C;
1OK0;A;2016-06-13;L-1N;
1PZS;A;2016-06-13;L-1N;
1OH1;A;2016-06-13;L+1N;
1UDK;A;2016-06-13;L-1C L-1C;
1OWT;A;2016-06-13;L-1C;
1OT5;A;2016-06-13;LL+1,-1;
1UAP;A;2016-06-13;L-2C L-2C;
1NYO;A;2016-06-13;L-1C;
1NR4;A;2016-06-13;L-2C;
1NR4;C;2016-06-13;L-2C;
1NR4;B;2016-06-13;L-2C;
1NR4;E;2016-06-13;L-2C;
1NR4;D;2016-06-13;L-2C;
1NR4;G;2016-06-13;L-2C;
1NR4;F;2016-06-13;L-2C;
1NR4;H;2016-06-13;L-2C;
1NPE;A;2016-06-13;L-1N;
1NF2;A;2016-06-13;L+1N;
1O7Z;A;2016-06-13;L-2C;
1O7Z;B;2016-06-13;L-2C;
1N2Z;A;2016-06-13;L+1N;
1MJN;A;2016-06-13;L+1N;
1IYB;A;2016-06-13;L-1C;
1M8A;A;2016-06-13;L-2C;
1M4L;A;2016-06-13;L+1C;
1GXY;A;2016-06-13;L+1N;
1LE6;A;2016-06-13;L-1N;
1ITU;A;2016-06-13;L+1N;
1ITQ;A;2016-06-13;L+1N;
1KTH;A;2016-06-13;L-1N;
1KT6;A;2016-06-13;L-3N;
1KSQ;A;2016-06-13;L-1N;
1KKH;A;2016-06-13;L-2N;
1KJ6;A;2016-06-13;L-1C;
1KI0;A;2016-06-13;L-1C;
1GP0;A;2016-06-13;L+1C;
1K3B;A;2016-06-13;L-1N;
1JY5;A;2016-06-13;L-1C L-1C;
1GKA;B;2016-06-13;L-1N;
1JFU;B;2016-06-13;L-1C;
1IKO;P;2016-06-13;L-1N;
1IJV;A;2016-06-13;L-1C;
1IHN;A;2016-06-13;L+1C;
1I4U;A;2016-06-13;L-1N;
1I4U;B;2016-06-13;L-1N;
1I1J;A;2016-06-13;L-1N;
1I1J;B;2016-06-13;L-1N;
1HX2;A;2016-06-13;L-1N;
1HI7;A;2016-06-13;L-1C;
1GAK;A;2016-06-13;L-1N;
1G6X;A;2016-06-13;L-1N;
1G66;A;2016-06-13;L+1N;
1E9T;A;2016-06-13;L-1C;
1G0Y;R;2016-06-13;L-2C;
1FOB;A;2016-06-13;L+1N;
1FL7;B;2016-06-13;L-1C L-1N;
1FL7;D;2016-06-13;L-1C L-1N;
1FJR;A;2016-06-13;L-1C;
1FD3;A;2016-06-13;L-1C;
1FD3;C;2016-06-13;L-1C;
1F9P;A;2016-06-13;L-2C;
1E4M;M;2016-06-13;L+1C L+1C;
1F8R;A;2016-06-13;L+2C;
1F8S;C;2016-06-13;L+2C;
1F56;A;2016-06-13;L-1N;
1F2L;A;2016-06-13;L-2C;
1F2L;D;2016-06-13;L-2C;
1EXZ;C;2016-06-13;L-1N;
1EXZ;B;2016-06-13;L-1N;
1EWS;A;2016-06-13;L-1C;
1ETE;A;2016-06-13;L-1N L-2N;
1ETE;C;2016-06-13;L-1N L-2N;
1ETE;D;2016-06-13;L-1N L-2N;
1EL0;A;2016-06-13;L-2C;
1DZK;A;2016-06-13;L-3N;
1EIG;A;2016-06-13;L-2C;
1EIH;A;2016-06-13;L-2C;
1DYS;B;2016-06-13;L+1N;
1DTV;A;2016-06-13;L-1N L-1N L-1N;
1DP4;A;2016-06-13;L+1N;
1D6B;A;2016-06-13;L-1C;
1D2B;A;2016-06-13;L-2C;
1C1Z;A;2016-06-13;L-1N;
1C01;A;2016-06-13;L-1N L-1C;
1QU0;C;2016-06-13;L-1N;
1CM9;A;2016-06-13;L-2C;
1CM9;B;2016-06-13;L-2C;
1QCX;A;2016-06-13;L-1N;
1QFT;A;2016-06-13;L-1N;
1QFT;B;2016-06-13;L-1N;
1EAI;C;2016-06-13;L-1N;
1CCV;A;2016-06-13;L-1N;
1FLC;A;2016-06-13;L-1C L-1C;
1B8W;A;2016-06-13;L-1C;
1B7G;Q;2016-06-13;L+1N;
1FZG;E;2016-06-13;L+1C;
1FZF;E;2016-06-13;L+1C;
1BY8;A;2016-06-13;L-1N;
1BR9;A;2016-06-13;L-2C;
1MHD;A;2016-06-13;L-1C;
2HCC;A;2016-06-13;L-2C;
1BJ7;A;2016-06-13;L-3N;
1BF0;A;2016-06-13;L-1N;
1BEA;A;2016-06-13;L+1N;
2VIR;C;2016-06-13;L-1C;
2VIS;C;2016-06-13;L-1C;
2VIT;C;2016-06-13;L-1C;
1BIK;A;2016-06-13;L-1N L-1N;
1AX8;A;2016-06-13;L+1N;
1AVG;I;2016-06-13;L-1N;
1AVA;C;2016-06-13;L-1N;
1FZA;B;2016-06-13;L+1C;
1FZB;E;2016-06-13;L+1C;
1AK0;A;2016-06-13;L+1C;
1AHO;A;2016-06-13;L-1N;
1ADZ;A;2016-06-13;L-1N;
1AC5;A;2016-06-13;L+1N;
1AOC;A;2016-06-13;L+2C L-1C;
1CFE;A;2016-06-13;L-1C;
1TVX;A;2016-06-13;L-2C;
1TVX;B;2016-06-13;L-2C;
1PNB;B;2016-06-13;L-1C;
1JER;A;2016-06-13;L-1N;
1WKT;A;2016-06-13;L-1N L-1C;
1MEG;A;2016-06-13;L-1N;
2GMF;A;2016-06-13;L-2N;
2GMF;B;2016-06-13;L-2N;
2CBP;A;2016-06-13;L-1N;
2PSP;A;2016-06-13;L-1C L-1C;
1JLI;A;2016-06-13;L+1C;
1SVB;A;2016-06-13;L-1C;
2ENG;A;2016-06-13;L+1C L+1N L+1N;
1CPY;A;2016-06-13;L+1N;
1LKI;A;2016-06-13;L+1C L+1C;
1CSB;B;2016-06-13;L-1N;
1SHI;A;2016-06-13;L-1C;
1AHL;A;2016-06-13;L-1C;
1ESC;A;2016-06-13;L+1N;
1TAP;A;2016-06-13;L-1N;
1HCN;B;2016-06-13;L-1C L-1N;
1ATA;A;2016-06-13;L-1N;
153L;A;2016-06-13;L+1C;
154L;A;2016-06-13;L+1C;
1RPB;A;2016-06-13;L-1C;
1EPA;A;2016-06-13;L-3N;
1EPA;B;2016-06-13;L-3N;
1NSC;A;2016-06-13;L-1C;
1LYA;A;2016-06-13;L-1N;
1LYB;A;2016-06-13;L-1N;
1AST;A;2016-06-13;L+1N;
1AOZ;A;2016-06-13;L-1N;
1BDS;A;2016-06-13;L-1C;

Lasso types	pdb	Title
L1	1uwcA	Structure of a Feruloyl Esterase from Aspergillus Niger
L1	1s4qA	Crystal Structure of Guanylate Kinase from Mycobacterium tuberculosis
L1	1rxdC	Structural genomics of protein phosphatases.
L1	1rxdB	Structural genomics of protein phosphatases.
L1	1ut3A	Solution Structure of Spheniscin, a {Beta}-Defensin from the Penguin Stomach
L2	1rjtA	NMR structure of CXCR3 binding chemokine CXCL11 (ITAC).
L1	1r8nA	Crystal structure of the Kunitz (STI)-type inhibitor from Delonix regia seeds.
L1	1r8oA	Three-dimensional structure of an unusual Kunitz (STI) type trypsin inhibitor from Copaifera langsdorffii.
L1	1o5eL	Dissecting and designing inhibitor selectivity determinants at the S1 site using an artificial Ala190 protease (Ala190 uPA).
L1	1o5fL	Dissecting and designing inhibitor selectivity determinants at the S1 site using an artificial Ala190 protease (Ala190 uPA).
L1	1q77A	Structural homolog of Universal Stress Protein from Aquifex aeolicus
L1	1q3xA	The structure of MBL-associated serine protease-2 reveals that identical substrate specificities of C1s and MASP-2 are realized through different sets of enzyme-substrate interactions
2L1	1q25A	Structure of uPAR, plasminogen, and sugar-binding sites of the 300 kDa mannose 6-phosphate receptor
L1	1ok0A	Crystal Structure of the Alpha-Amylase Inhibitor Tendamistat at 0.93 A
L1	1pzsA	Unique Features of the sodC-encoded Superoxide Dismutase from Mycobacterium tuberculosis, a Fully Functional Copper-containing Enzyme Lacking Zinc in the Active Site.
L1	1oh1A	A Novel Class of Cysteine Protease Inhibitors: Solution Structure of Staphostatin a from Staphylococcus Aureus
2L1	1udkA	Identification of a Novel Family of Proteins in Snake Venoms: Purification and Structural Characterization of Nawaprin from Naja nigricollis Snake Venom
L1	1owtA	Structure of the Alzheimer's Disease Amyloid Precursor Protein Copper Binding Domain. A REGULATOR OF NEURONAL COPPER HOMEOSTASIS.
LL1,1	1ot5A	2.4 A Resolution Crystal Structure of the Prototypical Hormone-Processing Protease Kex2 in Complex with an Ala-Lys-Arg Boronic Acid Inhibitor
2L2	1uapA	NMR Structure of the Netrin-like Domain (NTR) of Human Type I Procollagen C-Proteinase Enhancer Defines Structural Consensus of NTR Domains and Assesses Potential Proteinase Inhibitory Activity and Ligand Binding.
L1	1nyoA	Solution structure of the Mycobacterium tuberculosis complex protein MPB70: from tuberculosis pathogenesis to inherited human corneal desease
L2	1nr4A	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4C	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4B	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4E	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4D	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4G	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4F	Structures of thymus and activation-regulated chemokine (TARC).
L2	1nr4H	Structures of thymus and activation-regulated chemokine (TARC).
L1	1npeA	Complex between nidogen and laminin fragments reveals a paradigmatic beta-propeller interface
L1	1nf2A	Crystal structure of a phosphatase with a unique substrate binding domain from Thermotoga maritima
L2	1o7zA	Crystal Structures of Oligomeric Forms of the Ip-10/Cxcl10 Chemokine
L2	1o7zB	Crystal Structures of Oligomeric Forms of the Ip-10/Cxcl10 Chemokine
L1	1n2zA	The structure of Escherichia coli BtuF and binding to its cognate ATP binding cassette transporter
L1	1mjnA	Structures of the alphaL I Domain and its Complex with ICAM-1 reveal a Shape-shifting Pathway for Integrin Regulation
L1	1iybA	Guanine binding site of the Nicotiana glutinosa ribonuclease NW revealed by X-ray crystallography
L2	1m8aA	The structure of human macrophage inflammatory protein-3alpha /CCL20. Linking antimicrobial and CC chemokine receptor-6-binding activities with human beta-defensins
L1	1m4lA	Refined structure of bovine carboxypeptidase A at 1.25 A resolution.
L1	1gxyA	Structure of the Ecto-Adp-Ribosyl Transferase Art2.2 From Rat
L1	1le6A	Crystal structure of human group X secreted phospholipase A2. Electrostatically neutral interfacial surface targets zwitterionic membranes.
L1	1ituA	Crystal Structure of Human Renal Dipeptidase Involved in beta-Lactam Hydrolysis
L1	1itqA	Crystal Structure of Human Renal Dipeptidase Involved in beta-Lactam Hydrolysis
L1	1kthA	Anisotropic behaviour of the C-terminal Kunitz-type domain of the alpha3 chain of human type VI collagen at atomic resolution (0.9 A).
L3	1kt6A	High-resolution Structures of Retinol-binding Protein in Complex with Retinol: pH-induced Protein Structural Changes in the Crystal State
L1	1ksqA	Solution Structure of the Third TB Domain from LTBP1 Provides Insight into Assembly of the Large Latent Complex that Sequesters Latent TGF-beta.
L2	1kkhA	Structure of the Methanococcus jannaschii mevalonate kinase, a member of the GHMP kinase superfamily.
L1	1kj6A	The solution structures of the human beta-defensins lead to a better understanding of the potent bactericidal activity of HBD3 against Staphylococcus aureus.
L1	1ki0A	The X-ray crystallographic structure of the angiogenesis inhibitor angiostatin.
L1	1gp0A	Structure of a Functional Igf2R Fragment Determined from the Anomalous Scattering of Sulfur
L1	1k3bA	Structure of human dipeptidyl peptidase I (cathepsin C): exclusion domain added to an endopeptidase framework creates the machine for activation of granular serine proteases.
2L1	1jy5A	Structure of an RNase-related protein from Calystegia sepium.
L1	1gkaB	The Molecular Basis of the Coloration Mechanism in Lobster Shell: Beta -Crustacyanin at 3.2-A Resolution
L1	1jfuB	Structure of the soluble domain of a membrane-anchored thioredoxin-like protein from Bradyrhizobium japonicum reveals unusual properties.
L1	1ikoP	Crystal structure of an ephrin ectodomain.
L1	1ijvA	The structure of human beta-defensin-1: new insights into structural properties of beta-defensins.
L1	1ihnA	X-ray crystal structure of MTH938 from Methanobacterium thermoautotrophicum at 2.2 A resolution reveals a novel tertiary protein fold.
L1	1i4uA	The C1 subunit of alpha-crustacyanin: the de novo phasing of the crystal structure of a 40 kDa homodimeric protein using the anomalous scattering from S atoms combined with direct methods.
L1	1i4uB	The C1 subunit of alpha-crustacyanin: the de novo phasing of the crystal structure of a 40 kDa homodimeric protein using the anomalous scattering from S atoms combined with direct methods.
L1	1i1jA	Structure of melanoma inhibitory activity protein, a member of a recently identified family of secreted proteins.
L1	1i1jB	Structure of melanoma inhibitory activity protein, a member of a recently identified family of secreted proteins.
L1	1hx2A	Solution structure of BSTI: a new trypsin inhibitor from skin secretions of Bombina bombina.