LassoProt: A server and database of proteins with lassos

Found 982 molecules (1201 chains) in database. Displaying 1 - 50

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;
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	8ur5A	Antigen spacing on protein nanoparticles influences antibody responses to vaccination.
L1	8ur7A	Antigen spacing on protein nanoparticles influences antibody responses to vaccination.
L1	8woxB	Structural basis of increased binding affinities of spikes from SARS-CoV-2 Omicron variants to rabbit-hare ACE2s reveals the expanding host tendency
L1	8woyB	Structural basis of increased binding affinities of spikes from SARS-CoV-2 Omicron variants to rabbit-hare ACE2s reveals the expanding host tendency
L1	8uflA	Crystal Structure of SARS-Unique Domain (SUD) of Nsp3 from SARS coronavirus
L1	8uelA	Characterization and Structural Analyses of Enolase from Shrimp ( Litopenaeus vannamei ).
L1	8qkbA	Crystal structure of human cathepsin L in complex with the vinyl sulfone inhibitor K777
2L1	8tysA	Collagen IV of basement membranes: IV. Adaptive mechanism of collagen IV scaffold assembly in Drosophila.
2L1	8tysC	Collagen IV of basement membranes: IV. Adaptive mechanism of collagen IV scaffold assembly in Drosophila.
2L1	8tysE	Collagen IV of basement membranes: IV. Adaptive mechanism of collagen IV scaffold assembly in Drosophila.
L1	8q93A	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q93C	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q93B	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q94C	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q7sA	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q7sC	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q7sB	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q7sE	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q7sD	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q7sF	Nanobodies to multiple spike variants and inhalation of nanobody-containing aerosols neutralize SARS-CoV-2 in cell culture and hamsters.
L1	8q6mA	Protein crosslinking as a therapeutic strategy for SOD1-related ALS
L1	8pq2C	Broadly potent anti-SARS-CoV-2 antibody shares 93% of epitope with ACE2 and provides full protection in monkeys.
L1	8p7wC	Structural basis of the allosteric inhibition of human ABCG2 by nanobodies.
L1	8ozaA	Human cathepsin L in complex with covalently bound CA-074 methyl ester
L1	8sphE	Structural evolution of SARS-CoV-2 omicron in human receptor recognition
L1	8sphF	Structural evolution of SARS-CoV-2 omicron in human receptor recognition
L1	8spiE	Structural evolution of SARS-CoV-2 omicron in human receptor recognition
L1	8j8tA	Crystal structure of Calcium-saturated SRCR domain 11 of SALSA
L1	8j8dA	Crystal structure of SRCR domain 11 of DMBT1
L1	8smtC	Crystal structure of antibody WRAIR-2134 in complex with SARS-CoV-2 receptor binding domain
L1	8smtE	Crystal structure of antibody WRAIR-2134 in complex with SARS-CoV-2 receptor binding domain
L1	8smtG	Crystal structure of antibody WRAIR-2134 in complex with SARS-CoV-2 receptor binding domain
L1	8smiA	Crystal structure of antibody WRAIR-2123 in complex with SARS-CoV-2 receptor binding domain
L1	8oswA	Rhizobium etli has two L-asparaginases with low sequence identity but similar structure and catalytic center.
L2	8skkB	Crystal Structure of the Tick Evasin EVA-AAM1001(L39P) Complexed to Human Chemokine CCL7
L1	8sk7A	Broadly applicable protein design with RoseTTAFold Diffusion
L1	8sk5A	Discovery and multimerization of cross-reactive single-domain antibodies against SARS-like viruses to enhance potency and address emerging SARS-CoV-2 variants
L1	8j3qA	Structural, Functional, and Mutational Studies of a Potent Subtilisin Inhibitor from Budgett's Frog, Lepidobatrachus laevis.
L1	8j26C	Structure-Guided Development of Bivalent Aptamers Blocking SARS-CoV-2 Infection
L1	8j1qC	Structure-Guided Development of Bivalent Aptamers Blocking SARS-CoV-2 Infection
L1	8ix3G	Structural basis for broad neutralization of human antibody against Omicron sublineages and evasion by XBB variant.
L1	8okhA	title to be confirmed
L1	8okhB	title to be confirmed
L1	8ok7A	A structural classification of the variant surface glycoproteins of the African trypanosomey.
L1	8iv4G	Two antibodies show broad, synergistic neutralization against SARS-CoV-2 variants by inducing conformational change within the RBD.
L1	8iv5G	Two antibodies show broad, synergistic neutralization against SARS-CoV-2 variants by inducing conformational change within the RBD.
L1	8ivaG	Two antibodies show broad, synergistic neutralization against SARS-CoV-2 variants by inducing conformational change within the RBD.
L1	8oh9E	Molecular architecture and electron transfer pathway of the Stn family transhydrogenase
L1	8gk6A	Structural study of the extracellular domain of CNNM4 protein
L1	8gk6C	Structural study of the extracellular domain of CNNM4 protein
L1	8gk6B	Structural study of the extracellular domain of CNNM4 protein
L1	8gk6D	Structural study of the extracellular domain of CNNM4 protein
L1	8gjnC	Distinct In Vitro and In Vivo Neutralization Profiles of Monoclonal Antibodies Elicited by the Receptor Binding Domain of the Ancestral SARS-CoV-2.
L1	8ofnA	Structure of the yellow fever virus (Asibi strain) dimeric envelope protein
L1	8iq0A	Hydrogen sulfide functions as a micro-modulator bound at the copper active site of Cu/Zn-SOD to regulate the catalytic activity of the enzyme.
L1	8iq1A	Hydrogen sulfide functions as a micro-modulator bound at the copper active site of Cu/Zn-SOD to regulate the catalytic activity of the enzyme.
L1	8iq0K	Hydrogen sulfide functions as a micro-modulator bound at the copper active site of Cu/Zn-SOD to regulate the catalytic activity of the enzyme.
L1	8iq0J	Hydrogen sulfide functions as a micro-modulator bound at the copper active site of Cu/Zn-SOD to regulate the catalytic activity of the enzyme.
L1	8ofaA	Crystal structure of human cathepsin L interacting with tosyl phenylalanyl chloromethyl ketone (TPCK)
L1	8iovB	Virological characteristics of the SARS-CoV-2 XBB variant derived from recombination of two Omicron subvariants
L1	8ghpA	Molecular insights into recognition of GUCY2C by T-cell engaging bispecific antibody anti-GUCY2CxCD3.
L1	8gf2A	Broadening a SARS-CoV-1-neutralizing antibody for potent SARS-CoV-2 neutralization through directed evolution.
L1	8gf2B	Broadening a SARS-CoV-1-neutralizing antibody for potent SARS-CoV-2 neutralization through directed evolution.
2L1	8ilqB	Structure of SFTSV Gn-Gc heterodimer
L1	8gb5A	Broadly neutralizing antibodies against sarbecoviruses generated by immunization of macaques with an AS03-adjuvanted COVID-19 vaccine.
L1	8gb6A	Broadly neutralizing antibodies against sarbecoviruses generated by immunization of macaques with an AS03-adjuvanted COVID-19 vaccine.
L1	8gb7A	Broadly neutralizing antibodies against sarbecoviruses generated by immunization of macaques with an AS03-adjuvanted COVID-19 vaccine.
L1	8gb8E	Broadly neutralizing antibodies against sarbecoviruses generated by immunization of macaques with an AS03-adjuvanted COVID-19 vaccine.