Found 421 chains in Knotted chains table. Displaying 151 - 300. Applied filters: Probabilistic

Search results query: topological notation: S +31

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#pdbid|chain|deposition date|is S/K-not|(slip)knot types;
      
  6pea|A|2020-03-30|S|+3.1;
  6scf|A|2019-11-06|S|+3.1;
  6tys|A|2019-10-17|S|+3.1;
  6qd7|A|2019-10-17|S|+3.1;
  6qd8|A|2019-10-17|S|+3.1;
  6pso|A|2019-10-16|S|+3.1;
  6prm|A|2019-10-16|S|+3.1;
  6dc5|A|2019-09-16|S|+3.1;
  6eaj|F|2019-09-06|S|+3.1;
  6eam|F|2019-09-06|S|+3.1;
  6eak|F|2019-09-06|S|+3.1;
  6eai|A|2019-09-06|S|+3.1;
  6eah|A|2019-09-06|S|+3.1;
  6eag|F|2019-09-06|S|+3.1;
  6eaf|A|2019-09-06|S|+3.1;
  6ead|F|2019-09-06|S|+3.1;
  6ean|F|2019-09-06|S|+3.1;
  6eal|F|2019-09-06|S|+3.1;
  6eae|F|2019-09-06|S|+3.1;
  6dc3|F|2019-09-05|S|+3.1;
  6hhm|A|2019-07-18|S|+3.1;
  6j66|A|2019-07-13|S|+3.1;
  6o0h|A|2019-04-25|S|+3.1;
  6mlk|A|2018-10-21|S|+3.1;
  6ctf|A|2018-10-12|S|+3.1;
  6g9b|A|2018-09-30|S|+3.1;
  6hix|BG|2018-09-28|S|+3.1;
  6ea7|A|2018-09-25|S|+3.1;
  6ea5|A|2018-09-25|S|+3.1;
  5gsl|A|2018-09-16|S|+3.1;
  5k6g|F|2018-09-16|S|+3.1;
  6dzl|A|2018-09-15|S|+3.1;
  6dzm|A|2018-09-15|S|+3.1;
  5xnu|A|2018-09-14|S|+3.1;
  5tdl|A|2018-09-14|S|+3.1;
  5tj3|A|2018-09-13|S|+3.1;
  5ude|F|2018-09-13|S|+3.1;
  5udc|A|2018-09-13|S|+3.1;
  5tok|A|2018-09-13|S|+3.1;
  5tdg|A|2018-09-13|S|+3.1;
  3mho|A|2018-09-12|S|+3.1;
  3mhi|A|2018-09-12|S|+3.1;
  3c7p|A|2018-09-12|S|+3.1;
  3d93|A|2018-09-12|S|+3.1;
  3ibi|A|2018-09-12|S|+3.1;
  3iai|A|2018-09-12|S|+3.1;
  4bf6|A|2018-09-12|S|+3.1;
  1fqn|A|2018-09-12|S|+3.1;
  3rz8|A|2018-09-12|S|+3.1;
  3ryz|A|2018-09-12|S|+3.1;
  3ryy|A|2018-09-12|S|+3.1;
  1cvf|A|2018-09-12|S|+3.1;
  5g2v|A|2018-09-12|S|+3.1;
  5g2t|A|2018-09-12|S|+3.1;
  5ea8|F|2018-09-12|S|+3.1;
  5ea4|F|2018-09-12|S|+3.1;
  5ea6|F|2018-09-12|S|+3.1;
  5ea3|F|2018-09-12|S|+3.1;
  5c6b|F|2018-09-12|S|+3.1;
  5c69|A|2018-09-12|S|+3.1;
  5ea5|F|2018-09-12|S|+3.1;
  5ejb|A|2018-09-12|S|+3.1;
  5evm|A|2018-09-06|S|+3.1;
  5dsp|A|2018-09-06|S|+3.1;
  5zjv|A|2018-04-26|S|+3.1;
  6b1v|A|2018-03-15|S|+3.1;
  6fny|A|2018-03-02|S|+3.1;
  6bat|A|2018-01-17|S|+3.1;
  6bau|A|2018-01-17|S|+3.1;
  6bav|A|2018-01-17|S|+3.1;
  6bmi|A|2018-01-17|S|+3.1;
  5olb|A|2018-01-03|S|+3.1;
  5ohi|A|2018-01-03|S|+3.1;
  6f5u|A|2018-01-03|S|+3.1;
  6f6n|A|2018-01-03|S|+3.1;
  6f6s|A|2018-01-03|S|+3.1;
  5w23|A|2017-12-06|S|+3.1;
  5ylf|A|2017-11-08|S|+3.1;
  5yle|A|2017-11-08|S|+3.1;
  5ylc|A|2017-11-08|S|+3.1;
  5too|A|2017-11-01|S|+3.1;
  5tpq|A|2017-11-01|S|+3.1;
  5njb|B|2017-10-04|S|+3.1;
  5nja|B|2017-10-04|S|+3.1;
  5nj9|A|2017-10-04|S|+3.1;
  5nja|A|2017-10-04|S|+3.1;
  5nj5|A|2017-10-04|S|+3.1;
  5njb|A|2017-10-04|S|+3.1;
  5nj5|B|2017-10-04|S|+3.1;
  5nj9|B|2017-10-04|S|+3.1;
  5veo|A|2017-09-20|S|+3.1;
  5mx9|A|2017-08-29|S|+3.1;
  5m0s|A|2017-08-29|S|+3.1;
  5kww|F|2017-08-28|S|+3.1;
  5xas|A|2017-06-23|S|+3.1;
  5x9r|A|2017-06-23|S|+3.1;
  5g2u|A|2017-05-24|S|+3.1;
  5udd|A|2017-05-22|S|+3.1;
  5udy|A|2017-03-27|S|+3.1;
  5tcd|A|2017-03-26|S|+3.1;
  5fgn|A|2017-02-15|S|+3.1;
  5fql|A|2017-01-19|S|+3.1;
  5gov|A|2017-01-05|S|+3.1;
  5grr|A|2017-01-04|S|+3.1;
  5lrm|A|2016-12-15|S|+3.1;
  5k6c|F|2016-10-15|S|+3.1;
  5khu|T|2016-09-09|S|+3.1;
  5kel|A|2016-09-07|S|+3.1;
  5kem|A|2016-09-07|S|+3.1;
  5ken|A|2016-09-07|S|+3.1;
  5k4p|A|2016-09-02|S|+3.1;
  5k6b|F|2016-09-02|S|+3.1;
  5e5u|A|2016-08-31|S|+3.1;
  5ew5|A|2016-07-20|S|+3.1;
  5jnx|C|2016-06-17|S|+3.1;
  5ijq|A|2016-06-16|S|+3.1;
  5ijs|A|2016-06-16|S|+3.1;
  5c66|A|2016-06-02|S|+3.1;
  5cfy|A|2016-04-20|S|+3.1;
  5dlw|A|2016-04-15|S|+3.1;
  5dlv|A|2016-04-15|S|+3.1;
  5aj9|A|2016-03-20|S|+3.1;
  5hj3|C|2016-03-15|S|+3.1;
  5egh|A|2016-03-12|S|+3.1;
  5ege|A|2016-03-12|S|+3.1;
  5f1b|A|2016-01-21|S|+3.1;
  5c50|B|2015-10-15|S|+3.1;
  4zg7|A|2015-10-14|S|+3.1;
  4zyp|A|2015-07-29|S|+3.1;
  4cxs|A|2015-05-13|S|+3.1;
  4qax|A|2015-05-06|S|+3.1;
  4yr1|A|2015-04-29|S|+3.1;
  4cys|A|2015-04-29|S|+3.1;
  4cyr|A|2015-04-29|S|+3.1;
  4cxk|A|2015-04-22|S|+3.1;
  4cxu|A|2015-04-22|S|+3.1;
  3x2d|A|2015-02-25|S|+3.1;
  4wsg|A|2015-02-12|S|+3.1;
  4nwx|A|2015-02-11|S|+3.1;
  4nwj|A|2015-02-11|S|+3.1;
  4tzo|A|2015-02-10|S|+3.1;
  1wog|A|2015-02-05|S|+3.1;
  4x2s|A|2015-02-05|S|+3.1;
  4tn0|A|2014-10-14|S|+3.1;
  1n2m|A|2014-10-11|S|+3.1;
  2qqd|C|2014-10-11|S|+3.1;
  2v64|A|2014-10-08|S|+3.1;
  3bdg|B|2014-10-08|S|+3.1;
  1ki6|B|2014-10-08|S|+3.1;
  4aez|B|2014-10-08|S|+3.1;
  1woh|A|2014-10-08|S|+3.1;
  3wav|A|2014-10-07|S|+3.1;
  3waw|A|2014-10-07|S|+3.1;
  3wax|A|2014-10-07|S|+3.1;
  3way|A|2014-10-07|S|+3.1;
  2xrg|A|2014-10-07|S|+3.1;
  3nkm|A|2014-10-07|S|+3.1;
  3nko|A|2014-10-07|S|+3.1;
  3nkp|A|2014-10-07|S|+3.1;
  1vlf|M|2014-10-07|S|+3.1;
  1vle|M|2014-10-07|S|+3.1;
  1ti2|A|2014-10-07|S|+3.1;
  1ti4|A|2014-10-07|S|+3.1;
  3nkr|A|2014-10-06|S|+3.1;
  3csy|I|2014-09-29|S|+3.1;
  4uop|A|2014-09-25|S|+3.1;
  3s88|I|2014-09-23|S|+3.1;
  3ve0|I|2014-09-23|S|+3.1;
  3nkn|A|2014-09-18|S|+3.1;
  1pgi|A|2014-09-11|S|+3.1;
  4uor|A|2014-09-03|S|+3.1;
  4uoo|A|2014-09-03|S|+3.1;
  2b9b|A|2014-08-31|S|+3.1;
  3p12|A|2014-08-20|S|+3.1;
  2ga3|A|2014-08-19|S|+3.1;
  4jby|A|2014-08-19|S|+3.1;
  4jbx|A|2014-08-19|S|+3.1;
  4ivr|A|2014-08-19|S|+3.1;
  4ivq|A|2014-08-19|S|+3.1;
  4ivp|A|2014-08-19|S|+3.1;
  3m8y|A|2014-08-19|S|+3.1;
  3m8w|A|2014-08-19|S|+3.1;
  4lrb|A|2014-08-19|S|+3.1;
  4lr9|A|2014-08-19|S|+3.1;
  4lra|A|2014-08-19|S|+3.1;
  4lr7|A|2014-08-19|S|+3.1;
  3uo0|A|2014-08-19|S|+3.1;
  3uny|A|2014-08-19|S|+3.1;
  3un2|A|2014-08-19|S|+3.1;
  3kbc|A|2014-08-19|S|+3.1;
  4kjg|A|2014-08-19|S|+3.1;
  4lqy|A|2014-08-19|S|+3.1;
  4kay|A|2014-08-19|S|+3.1;
  4gue|A|2014-08-19|S|+3.1;
  4fdj|A|2014-08-19|S|+3.1;
  4el9|A|2014-08-19|S|+3.1;
  3v8f|A|2014-08-19|S|+3.1;
  3v8g|A|2014-08-19|S|+3.1;
  3tv9|A|2014-08-19|S|+3.1;
  4gtx|A|2014-08-19|S|+3.1;
  4gty|A|2014-08-19|S|+3.1;
  4gtz|A|2014-08-19|S|+3.1;
  3rdp|A|2014-08-18|S|+3.1;
  3tx0|A|2014-08-18|S|+3.1;
  3twz|A|2014-08-18|S|+3.1;
  1ogf|A|2014-08-18|S|+3.1;
  1oge|A|2014-08-18|S|+3.1;
  4oyf|A|2014-08-18|S|+3.1;
  3szz|A|2014-08-18|S|+3.1;
  3t00|A|2014-08-18|S|+3.1;
  3t01|A|2014-08-18|S|+3.1;
  4oql|A|2014-08-16|S|+3.1;
  4oqx|A|2014-08-16|S|+3.1;
  4oqn|A|2014-08-16|S|+3.1;
  4oqm|A|2014-08-16|S|+3.1;
  4p6h|C|2014-08-13|S|+3.1;
  4p6h|B|2014-08-13|S|+3.1;
  4p6h|A|2014-08-13|S|+3.1;
  4p3j|C|2014-08-13|S|+3.1;
  4p3j|B|2014-08-13|S|+3.1;
  4p3j|A|2014-08-13|S|+3.1;
  4p1a|C|2014-08-13|S|+3.1;
  4p1a|B|2014-08-13|S|+3.1;
  4p1a|A|2014-08-13|S|+3.1;
  4p19|C|2014-08-13|S|+3.1;
  4p19|B|2014-08-13|S|+3.1;
  4p19|A|2014-08-13|S|+3.1;
  4oyg|F|2014-08-13|S|+3.1;
  4oyg|A|2014-08-13|S|+3.1;
  4oyg|E|2014-08-13|S|+3.1;
  4oyg|D|2014-08-13|S|+3.1;
  4oyg|C|2014-08-13|S|+3.1;
  4oyg|B|2014-08-13|S|+3.1;
  4miv|A|2014-08-13|S|+3.1;
  4miv|B|2014-08-13|S|+3.1;
  4miv|C|2014-08-13|S|+3.1;
  4miv|D|2014-08-13|S|+3.1;
  4miv|E|2014-08-13|S|+3.1;
  4miv|F|2014-08-13|S|+3.1;
  4miv|G|2014-08-13|S|+3.1;
  4miv|H|2014-08-13|S|+3.1;
  4mhx|A|2014-08-13|S|+3.1;
  4mhx|B|2014-08-13|S|+3.1;
  1aja|A|2014-07-31|S|+3.1;
  1ajb|A|2014-07-31|S|+3.1;
  1ajc|A|2014-07-31|S|+3.1;
  1ajd|A|2014-07-31|S|+3.1;
  1ali|A|2014-07-31|S|+3.1;
  1alj|A|2014-07-31|S|+3.1;
  1alk|A|2014-07-31|S|+3.1;
  1ani|A|2014-07-31|S|+3.1;
  1anj|A|2014-07-31|S|+3.1;
  1auk|A|2014-07-31|S|+3.1;
  1b8j|A|2014-07-31|S|+3.1;
  1e1z|P|2014-07-31|S|+3.1;
  1e2h|A|2014-07-31|S|+3.1;
  1e2i|A|2014-07-31|S|+3.1;
  1e2j|A|2014-07-31|S|+3.1;
  1e2k|A|2014-07-31|S|+3.1;
  1e2l|A|2014-07-31|S|+3.1;
  1e2m|A|2014-07-31|S|+3.1;
  1e2n|A|2014-07-31|S|+3.1;
  1e2p|A|2014-07-31|S|+3.1;
  1e2s|P|2014-07-31|S|+3.1;
  1e33|P|2014-07-31|S|+3.1;
  1e3c|P|2014-07-31|S|+3.1;
  1ed8|A|2014-07-31|S|+3.1;
  1ed9|A|2014-07-31|S|+3.1;
  1ei6|A|2014-07-31|S|+3.1;
  1ejj|A|2014-07-31|S|+3.1;
  1elx|A|2014-07-31|S|+3.1;
  1ely|A|2014-07-31|S|+3.1;
  1elz|A|2014-07-31|S|+3.1;
  1eqj|A|2014-07-31|S|+3.1;
  1ew2|A|2014-07-31|S|+3.1;
  1ew8|A|2014-07-31|S|+3.1;
  1ew9|A|2014-07-31|S|+3.1;
  1fsu|A|2014-07-31|S|+3.1;
  1hdh|A|2014-07-31|S|+3.1;
  1hjk|A|2014-07-31|S|+3.1;
  1hqa|A|2014-07-31|S|+3.1;
  1k7h|A|2014-07-31|S|+3.1;
  1kh4|A|2014-07-31|S|+3.1;
  1kh5|A|2014-07-31|S|+3.1;
  1kh7|A|2014-07-31|S|+3.1;
  1kh9|A|2014-07-31|S|+3.1;
  1khj|A|2014-07-31|S|+3.1;
  1khk|A|2014-07-31|S|+3.1;
  1khl|A|2014-07-31|S|+3.1;
  1khn|A|2014-07-31|S|+3.1;
  1ki2|A|2014-07-31|S|+3.1;
  1ki3|A|2014-07-31|S|+3.1;
  1ki4|A|2014-07-31|S|+3.1;
  1ki6|A|2014-07-31|S|+3.1;
  1ki7|A|2014-07-31|S|+3.1;
  1ki8|A|2014-07-31|S|+3.1;
  1kim|A|2014-07-31|S|+3.1;
  1n2k|A|2014-07-31|S|+3.1;
  1n2l|A|2014-07-31|S|+3.1;
  1o98|A|2014-07-31|S|+3.1;
  1o99|A|2014-07-31|S|+3.1;
  1of1|A|2014-07-31|S|+3.1;
  1ogc|A|2014-07-31|S|+3.1;
  1ogd|A|2014-07-31|S|+3.1;
  1osn|A|2014-07-31|S|+3.1;
  1p49|A|2014-07-31|S|+3.1;
  1p6x|A|2014-07-31|S|+3.1;
  1p72|A|2014-07-31|S|+3.1;
  1p73|A|2014-07-31|S|+3.1;
  1p75|A|2014-07-31|S|+3.1;
  1p7c|A|2014-07-31|S|+3.1;
  1qhi|A|2014-07-31|S|+3.1;
  1shn|A|2014-07-31|S|+3.1;
  1shq|A|2014-07-31|S|+3.1;
  1ti6|A|2014-07-31|S|+3.1;
  1ura|A|2014-07-31|S|+3.1;
  1urb|A|2014-07-31|S|+3.1;
  1vl4|A|2014-07-31|S|+3.1;
  1vpb|A|2014-07-31|S|+3.1;
  1vtk|A|2014-07-31|S|+3.1;
  1y6v|A|2014-07-31|S|+3.1;
  1y7a|A|2014-07-31|S|+3.1;
  1zeb|A|2014-07-31|S|+3.1;
  1zed|A|2014-07-31|S|+3.1;
  1zef|A|2014-07-31|S|+3.1;
  2anh|A|2014-07-31|S|+3.1;
  2d1g|A|2014-07-31|S|+3.1;
  2g9y|A|2014-07-31|S|+3.1;
  2glq|A|2014-07-31|S|+3.1;
  2gsn|A|2014-07-31|S|+3.1;
  2gso|A|2014-07-31|S|+3.1;
  2gsu|A|2014-07-31|S|+3.1;
  2hjn|A|2014-07-31|S|+3.1;
  2ify|A|2014-07-31|S|+3.1;
  2iuc|A|2014-07-31|S|+3.1;
  2iuc|B|2014-07-31|S|+3.1;
  2j6b|A|2014-07-31|S|+3.1;
  2j6c|A|2014-07-31|S|+3.1;
  2j85|A|2014-07-31|S|+3.1;
  2ki5|A|2014-07-31|S|+3.1;
  2ob5|A|2014-07-31|S|+3.1;
  2qzu|A|2014-07-31|S|+3.1;
  2rh6|A|2014-07-31|S|+3.1;
  2vqr|A|2014-07-31|S|+3.1;
  2vtk|A|2014-07-31|S|+3.1;
  2w5q|A|2014-07-31|S|+3.1;
  2w5r|A|2014-07-31|S|+3.1;
  2w5s|A|2014-07-31|S|+3.1;
  2w5t|A|2014-07-31|S|+3.1;
  2w5v|A|2014-07-31|S|+3.1;
  2w5w|A|2014-07-31|S|+3.1;
  2w5x|A|2014-07-31|S|+3.1;
  2w8d|A|2014-07-31|S|+3.1;
  2w8s|A|2014-07-31|S|+3.1;
  2wcu|A|2014-07-31|S|+3.1;
  2wcv|A|2014-07-31|S|+3.1;
  2wxz|C|2014-07-31|S|+3.1;
  2x4i|A|2014-07-31|S|+3.1;
  2x98|A|2014-07-31|S|+3.1;
  2xr9|A|2014-07-31|S|+3.1;
  2xtj|A|2014-07-31|S|+3.1;
  2zkt|A|2014-07-31|S|+3.1;
  3a52|A|2014-07-31|S|+3.1;
  3b5q|A|2014-07-31|S|+3.1;
  3bdf|A|2014-07-31|S|+3.1;
  3bdg|A|2014-07-31|S|+3.1;
  3bdh|A|2014-07-31|S|+3.1;
  3cmr|A|2014-07-31|S|+3.1;
  3dpc|A|2014-07-31|S|+3.1;
  3dyc|A|2014-07-31|S|+3.1;
  3e7n|A|2014-07-31|S|+3.1;
  3ed4|A|2014-07-31|S|+3.1;
  3en9|A|2014-07-31|S|+3.1;
  3f0t|A|2014-07-31|S|+3.1;
  3f7u|A|2014-07-31|S|+3.1;
  3fsg|A|2014-07-31|S|+3.1;
  3idd|A|2014-07-31|S|+3.1;
  3igy|B|2014-07-31|S|+3.1;
  3igz|B|2014-07-31|S|+3.1;
  3kd8|A|2014-07-31|S|+3.1;
  3lxq|A|2014-07-31|S|+3.1;
  3m7v|A|2014-07-31|S|+3.1;
  3m8z|A|2014-07-31|S|+3.1;
  3mfb|A|2014-07-31|S|+3.1;
  3mk0|A|2014-07-31|S|+3.1;
  3mk1|A|2014-07-31|S|+3.1;
  3mk2|A|2014-07-31|S|+3.1;
  3mvk|A|2014-07-31|S|+3.1;
  3nkq|A|2014-07-31|S|+3.1;
  3nvl|A|2014-07-31|S|+3.1;
  3ot9|A|2014-07-31|S|+3.1;
  3p13|A|2014-07-31|S|+3.1;
  3qtd|A|2014-07-31|S|+3.1;
  3rfy|A|2014-07-31|S|+3.1;
  3szy|A|2014-07-31|S|+3.1;
  3t02|A|2014-07-31|S|+3.1;
  3tg0|A|2014-07-31|S|+3.1;
  3ubd|A|2014-07-31|S|+3.1;
  3un3|A|2014-07-31|S|+3.1;
  3un5|A|2014-07-31|S|+3.1;
  3vtk|A|2014-07-31|S|+3.1;
  4a34|A|2014-07-31|S|+3.1;
  4b56|A|2014-07-31|S|+3.1;
  4bin|A|2014-07-31|S|+3.1;
  4dz4|A|2014-07-31|S|+3.1;
  4fdi|A|2014-07-31|S|+3.1;
  4gtw|A|2014-07-31|S|+3.1;
  4j7h|A|2014-07-31|S|+3.1;
  4kav|A|2014-07-31|S|+3.1;
  4kjd|A|2014-07-31|S|+3.1;
  4km4|A|2014-07-31|S|+3.1;
  4ky0|A|2014-07-31|S|+3.1;
  4lr2|A|2014-07-31|S|+3.1;
  4lr8|A|2014-07-31|S|+3.1;
  4lrc|A|2014-07-31|S|+3.1;
  4lrd|A|2014-07-31|S|+3.1;
  4lre|A|2014-07-31|S|+3.1;
  4lrf|A|2014-07-31|S|+3.1;
  4my4|A|2014-07-31|S|+3.1;
  4n7t|A|2014-07-31|S|+3.1;
  4o6b|A|2014-07-31|S|+3.1;

      
Knot types Knot loop types pdb Title
S +31 1wohA Crystal structure of agmatinase reveals structural conservation and inhibition mechanism of the ureohydrolase superfamily
S +31 3wavA Crystal structure of autotaxin in complex with compound 10
S +31 3wawA Crystal structure of autotaxin in complex with 2boa
S +31 3waxA Crystal structure of autotaxin in complex with 3boa
S +31 3wayA Crystal structure of autotaxin in complex with 4boa
S +31 2xrgA Crystal structure of autotaxin (enpp2) in complex with the ha155 boronic acid inhibitor
S +31 3nkmA Crystal structure of mouse autotaxin
S +31 3nkoA Crystal structure of mouse autotaxin in complex with 16:0-lpa
S +31 3nkpA Crystal structure of mouse autotaxin in complex with 18:1-lpa
S +31 1vlfM Crystal structure of pyrogallol-phloroglucinol transhydroxylase from pelobacter acidigallici complexed with inhibitor 1,2,4,5-tetrahydroxy-benzene
S +31 1vleM Crystal structure of pyrogallol-phloroglucinol transhydroxylase from pelobacter acidigallici complexed with pyrogallol
S +31 1ti2A Crystal structure of pyrogallol-phloroglucinol transhydroxylase from pelobacter acidigallici
S +31 1ti4A Crystal structure of pyrogallol-phloroglucinol transhydroxylase from pelobacter acidigallici complexed with pyrogallol
S +31 3nkrA Crystal structure of mouse autotaxin in complex with 22:6-lpa
S +31 3csyI Crystal structure of the trimeric prefusion ebola virus glycoprotein in complex with a neutralizing antibody from a human survivor
S +31 4uopA Crystal structure of the lipoteichoic acid synthase ltap from listeria monocytogenes
S +31 3s88I Crystal structure of sudan ebolavirus glycoprotein (strain gulu) bound to 16f6
S +31 3ve0I Crystal structure of sudan ebolavirus glycoprotein (strain boniface) bound to 16f6
S +31 3nknA Crystal structure of mouse autotaxin in complex with 14:0-lpa
S +31 1pgiA Crystallographic structure analysis of glucose 6-phosphate isomerase at 3.5 angstroms resolution
S +31 4uorA Structure of lipoteichoic acid synthase ltas from listeria monocytogenes in complex with glycerol phosphate
S +31 4uooA Structure of lipoteichoic acid synthase ltas from listeria monocytogenes
S +31 2b9bA Structure of the parainfluenza virus 5 f protein in its metastable, pre-fusion conformation
S +31 3p12A Crystal structure of d-ribose pyranase sa240
S +31 2ga3A Structure of s102t e. coli alkaline phosphatase-phosphate intermediate at 2.20a resolution
S +31
1
4jbyA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with f-sk78
S +31
1
4jbxA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with sk-78
S +31
1
4ivrA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with in52/10
S +31
1
4ivqA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with in43/5
S +31
1
4ivpA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with in51/20
S +31 3m8yA Phosphopentomutase from bacillus cereus after glucose-1,6-bisphosphate activation
S +31 3m8wA Phosphopentomutase from bacillus cereus
S +31 4lrbA Phosphopentomutase s154g variant soaked with 2,3-dideoxyribose 5-phosphate
S +31 4lr9A Phosphopentomutase s154a variant soaked with 2,3-dideoxyribose 5-phosphate
S +31 4lraA Phosphopentomutase s154g variant
S +31 4lr7A Phosphopentomutase s154a variant
S +31 3uo0A Phosphorylated bacillus cereus phosphopentomutase soaked with glucose 1,6-bisphosphate
S +31 3unyA Bacillus cereus phosphopentomutase t85e variant soaked with glucose 1,6-bisphosphate
S +31 3un2A Phosphopentomutase t85q variant enzyme
S +31 3kbcA Crystal structure of gltph k55c-a364c mutant crosslinked with divalent mercury
S +31 4kjgA Structure of rat intestinal alkaline phosphatase expressed in insect cell
S +31 4lqyA Crystal structure of human enpp4 with amp
S +31
1
4kayA Structure of the soluble domain of lipooligosaccharide phosphoethanolamine transferase a from neisseria meningitidis - complex with zn
S +31
1
4gueA Structure of n-terminal kinase domain of rsk2 with flavonoid glycoside quercitrin
S +31 4fdjA The molecular basis of mucopolysaccharidosis iv a, complex with galnac
S +31
1
4el9A Structure of n-terminal kinase domain of rsk2 with afzelin
S +31 3v8fA Crystal structure of crosslinked gltph v216c-m385c mutant
S +31 3v8gA Crystal structure of an asymmetric trimer of a glutamate transporter homologue (gltph)
S +31 3tv9A Crystal structure of putative peptide maturation protein from shigella flexneri
S +31 4gtxA Crystal structure of mouse enpp1 in complex with tmp
S +31 4gtyA Crystal structure of mouse enpp1 in complex with gmp
S +31 4gtzA Crystal structure of mouse enpp1 in complex with cmp
S +31 3rdpA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with n-methyl-fhbt
S +31 3tx0A Unphosphorylated bacillus cereus phosphopentomutase in a p212121 crystal form
S +31 3twzA Phosphorylated bacillus cereus phosphopentomutase in space group p212121
S +31 1ogfA The structure of bacillus subtilis rbsd complexed with glycerol
S +31 1ogeA The structure of bacillus subtilis rbsd complexed with ribose 5-phosphate
S +31
1
4oyfA Crystal structure of gltph r397a in sodium-bound state
S +31 3szzA Crystal structure of phosphonoacetate hydrolase from sinorhizobium meliloti 1021 in complex with acetate
S +31 3t00A Crystal structure of phosphonoacetate hydrolase from sinorhizobium meliloti 1021 in complex with vanadate
S +31 3t01A Crystal structure of phosphonoacetate hydrolase from sinorhizobium meliloti 1021 in complex with phosphonoformate
S +31
1
4oqlA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with df-edu
S +31
1
4oqxA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with me-ara-edu
S +31
1
4oqnA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with edu
S +31
1
4oqmA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with f-ara-edu
S +31 4p6hC Tl+-bound inward-facing state (bound conformation) of the glutamate transporter homologue gltph
S +31 4p6hB Tl+-bound inward-facing state (bound conformation) of the glutamate transporter homologue gltph
S +31 4p6hA Tl+-bound inward-facing state (bound conformation) of the glutamate transporter homologue gltph
S +31 4p3jC Apo inward-facing state of the glutamate transporter homologue gltph in alkali-free conditions
S +31 4p3jB Apo inward-facing state of the glutamate transporter homologue gltph in alkali-free conditions
S +31 4p3jA Apo inward-facing state of the glutamate transporter homologue gltph in alkali-free conditions
S +31 4p1aC Thallium-bound inward-facing state of the glutamate transporter homologue gltph
S +31 4p1aB Thallium-bound inward-facing state of the glutamate transporter homologue gltph
S +31 4p1aA Thallium-bound inward-facing state of the glutamate transporter homologue gltph
S +31 4p19C Closed, apo inward-facing state of the glutamate transporter homologue gltph
S +31 4p19B Closed, apo inward-facing state of the glutamate transporter homologue gltph
S +31 4p19A Closed, apo inward-facing state of the glutamate transporter homologue gltph
S +31 4oygF Crystal structure of gltph r397a in complex with na+ and l-asp
S +31 4oygA Crystal structure of gltph r397a in complex with na+ and l-asp
S +31 4oygE Crystal structure of gltph r397a in complex with na+ and l-asp
S +31 4oygD Crystal structure of gltph r397a in complex with na+ and l-asp
S +31 4oygC Crystal structure of gltph r397a in complex with na+ and l-asp
S +31 4oygB Crystal structure of gltph r397a in complex with na+ and l-asp
S +31 4mivA Crystal structure of sulfamidase, crystal form l
S +31 4mivB Crystal structure of sulfamidase, crystal form l
S +31 4mivC Crystal structure of sulfamidase, crystal form l
S +31 4mivD Crystal structure of sulfamidase, crystal form l
S +31 4mivE Crystal structure of sulfamidase, crystal form l
S +31
1
4mivF Crystal structure of sulfamidase, crystal form l
S +31
1
4mivG Crystal structure of sulfamidase, crystal form l
S +31 4mivH Crystal structure of sulfamidase, crystal form l
S +31 4mhxA Crystal structure of sulfamidase
S +31 4mhxB Crystal structure of sulfamidase
S +31
1
1ajaA Three-dimensional structure of the d153g mutant of e. coli alkaline phosphatase: a mutant with weaker magnesium binding and increased catalytic activity
S +31 1ajbA Three-dimensional structure of the d153g mutant of e. coli alkaline phosphatase: a mutant with weaker magnesium binding and increased catalytic activity
S +31 1ajcA Three-dimensional structure of the d153g mutant of e. coli alkaline phosphatase: a mutant with weaker magnesium binding and increased catalytic activity
S +31 1ajdA Three-dimensional structure of the d153g mutant of e. coli alkaline phosphatase: a mutant with weaker magnesium binding and increased catalytic activity
S +31 1aliA Alkaline phosphatase mutant (h412n)
S +31 1aljA Alkaline phosphatase mutant (h412n)
S +31 1alkA Reaction mechanism of alkaline phosphatase based on crystal structures. two metal ion catalysis
S +31 1aniA Alkaline phosphatase (d153h, k328h)
S +31 1anjA Alkaline phosphatase (k328h)
S +31 1aukA Human arylsulfatase a
S +31 1b8jA Alkaline phosphatase complexed with vanadate
S +31 1e1zP Crystal structure of an arylsulfatase a mutant c69s
S +31
1
1e2hA The nucleoside binding site of herpes simplex type 1 thymidine kinase analyzed by x-ray crystallography
S +31
1
1e2iA The nucleoside binding site of herpes simplex type 1 thymidine kinase analyzed by x-ray crystallography
S +31
1
1e2jA The nucleoside binding site of herpes simplex type 1 thymidine kinase analyzed by x-ray crystallography
S +31
1
1e2kA Kinetics and crystal structure of the wild-type and the engineered y101f mutant of herpes simplex virus type 1 thymidine kinase interacting with (north)-methanocarba-thymidine
S +31
1
1e2lA Kinetics and crystal structure of the wild-type and the engineered y101f mutant of herpes simplex virus type 1 thymidine kinase interacting with (north)-methanocarba-thymidine
S +31
1
1e2mA Hpt + hmtt
S +31
1
1e2nA Hpt + hmtt
S +31
1
1e2pA Thymidine kinase, dhbt
S +31 1e2sP Crystal structure of an arylsulfatase a mutant c69a
S +31 1e33P Crystal structure of an arylsulfatase a mutant p426l
S +31 1e3cP Crystal structure of an arylsulfatase a mutant c69s soaked in synthetic substrate
S +31 1ed8A Structure of e. coli alkaline phosphatase inhibited by the inorganic phosphate at 1.75a resolution
S +31 1ed9A Structure of e. coli alkaline phosphatase without the inorganic phosphate at 1.75a resolution
S +31 1ei6A Crystal structure of phosphonoacetate hydrolase complexed with phosphonoformate
S +31 1ejjA Crystal structural analysis of phosphoglycerate mutase cocrystallized with 3-phosphoglycerate
S +31 1elxA E. coli alkaline phosphatase mutant (s102a)
S +31 1elyA E. coli alkaline phosphatase mutant (s102c)
S +31 1elzA E. coli alkaline phosphatase mutant (s102g)
S +31 1eqjA Crystal structure of phosphoglycerate mutase from bacillus stearothermophilus complexed with 2-phosphoglycerate
S +31 1ew2A Crystal structure of a human phosphatase
S +31 1ew8A Alkaline phosphatase (e.c. 3.1.3.1) complex with phosphonoacetic acid
S +31 1ew9A Alkaline phosphatase (e.c. 3.1.3.1) complex with mercaptomethyl phosphonate
S +31
1
1fsuA 4-sulfatase (human)
S +31 1hdhA Arylsulfatase from pseudomonas aeruginosa
S +31 1hjkA Alkaline phosphatase mutant h331q
S +31 1hqaA Alkaline phosphatase (h412q)
S +31 1k7hA Crystal structure of shrimp alkaline phosphatase
S +31 1kh4A E. coli alkaline phosphatase mutant (d330n) in complex with phosphate
S +31 1kh5A E. coli alkaline phosphatase mutant (d330n) mimic of the transition states with aluminium fluoride
S +31 1kh7A E. coli alkaline phosphatase mutant (d153gd330n)
S +31 1kh9A E. coli alkaline phosphatase mutant (d153gd330n) complex with phosphate
S +31 1khjA E. coli alkaline phosphatase mutant (d153hd330n) mimic of the transition states with aluminium fluoride
S +31 1khkA E. coli alkaline phosphatase mutant (d153hd330n)
S +31 1khlA E. coli alkaline phosphatase mutant (d153hd330n) complex with phosphate
S +31 1khnA E. coli alkaline phosphatase mutant (d153hd330n) zinc form
S +31
1
1ki2A Crystal structure of thymidine kinase from herpes simplex virus type i complexed with ganciclovir
S +31
1
1ki3A Crystal structure of thymidine kinase from herpes simplex virus type i complexed with penciclovir
S +31
1
1ki4A Crystal structure of thymidine kinase from herpes simplex virus type i complexed with 5-bromothienyldeoxyuridine
S +31
1
1ki6A Crystal structure of thymidine kinase from herpes simplex virus type i complexed with a 5-iodouracil anhydrohexitol nucleoside
S +31
1
1ki7A Crystal structure of thymidine kinase from herpes simplex virus type i complexed with 5-iododeoxyuridine
S +31
1
1ki8A Crystal structure of thymidine kinase from herpes simplex virus type i complexed with 5-bromovinyldeoxyuridine
S +31
1
1kimA Crystal structure of thymidine kinase from herpes simplex virus type i complexed with deoxythymidine
S +31 1n2kA Crystal structure of a covalent intermediate of endogenous human arylsulfatase a
S +31 1n2lA Crystal structure of a covalent intermediate of endogenous human arylsulfatase a
S +31 1o98A 1.4a crystal structure of phosphoglycerate mutase from bacillus stearothermophilus complexed with 2-phosphoglycerate

KnotProt | Interdisciplinary Laboratory of Biological Systems Modelling