Found 357 chains in Knotted chains table. Displaying 1 - 150. Applied filters: Probabilistic

Search results query: topological notation: K +31

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#pdbid|chain|deposition date|is S/K-not|(slip)knot types;
      
  7pri|AAA|2023-06-28|K|+3.1;
  8axz|A|2022-10-17|K|+3.1;
  7plf|AAA|2022-09-14|K|+3.1;
  7nh8|AAA|2022-07-27|K|+3.1;
  7lnh|A|2022-05-16|K|+3.1;
  7edc|A|2022-05-15|K|+3.1;
  7e3t|A|2022-05-11|K|+3.1;
  7e3s|A|2022-05-11|K|+3.1;
  7e3r|A|2022-05-11|K|+3.1;
  7e3q|A|2022-05-11|K|+3.1;
  5nfj|A|2022-05-07|K|+3.1;
  7loo|A|2021-12-10|K|+3.1;
  7d51|A|2021-11-19|K|+3.1;
  7cww|A|2021-11-18|K|+3.1;
  7onu|F|2021-10-06|K|+3.1;
  7ock|B|2021-07-28|K|+3.1;
  7mys|A|2021-06-21|K|+3.1;
  7myq|A|2021-06-21|K|+3.1;
  6jki|A|2021-06-08|K|+3.1;
  6jof|A|2021-06-07|K|+3.1;
  6joe|A|2021-06-07|K|+3.1;
  6qow|A|2021-05-27|K|+3.1;
  6qrb|A|2021-05-27|K|+3.1;
  6qoe|A|2021-05-27|K|+3.1;
  6qqy|A|2021-05-27|K|+3.1;
  6nw7|A|2021-05-27|K|+3.1;
  2fg7|C|2021-05-10|K|+3.1;
  1ipa|A|2021-04-19|K|+3.1;
  6uev|A|2019-10-17|K|+3.1;
  6qrd|A|2019-10-16|K|+3.1;
  6qrf|A|2019-10-16|K|+3.1;
  6qrc|A|2019-10-16|K|+3.1;
  6qqq|A|2019-10-16|K|+3.1;
  6qra|A|2019-10-16|K|+3.1;
  6qqr|A|2019-10-16|K|+3.1;
  6qre|A|2019-10-16|K|+3.1;
  6qrg|A|2019-10-16|K|+3.1;
  6qr0|A|2019-10-16|K|+3.1;
  6qr1|A|2019-10-16|K|+3.1;
  6qqt|A|2019-10-16|K|+3.1;
  6qr3|A|2019-10-16|K|+3.1;
  6qqv|A|2019-10-16|K|+3.1;
  6qr2|A|2019-10-16|K|+3.1;
  6qqw|A|2019-10-16|K|+3.1;
  6qqz|A|2019-10-16|K|+3.1;
  6ac6|A|2019-09-16|K|+3.1;
  6rxz|CN|2019-09-09|K|+3.1;
  6rxy|CN|2019-09-08|K|+3.1;
  6rxx|CN|2019-09-07|K|+3.1;
  6rxv|CN|2019-09-07|K|+3.1;
  6rxt|CN|2019-09-07|K|+3.1;
  6afk|A|2019-09-06|K|+3.1;
  4v7h|BE|2018-09-28|K|+3.1;
  4cnd|B|2018-09-16|K|+3.1;
  4cne|B|2018-09-16|K|+3.1;
  4cnf|B|2018-09-16|K|+3.1;
  4cng|B|2018-09-16|K|+3.1;
  6ems|A|2018-09-14|K|+3.1;
  5vm8|A|2018-09-13|K|+3.1;
  6emt|A|2018-09-13|K|+3.1;
  6emv|A|2018-09-13|K|+3.1;
  5a19|A|2018-09-12|K|+3.1;
  1cng|A|2018-09-12|K|+3.1;
  3mhl|A|2018-09-12|K|+3.1;
  3m5e|A|2018-09-12|K|+3.1;
  3m40|A|2018-09-12|K|+3.1;
  3m3x|A|2018-09-12|K|+3.1;
  3m67|A|2018-09-12|K|+3.1;
  3m98|A|2018-09-12|K|+3.1;
  3m2n|A|2018-09-12|K|+3.1;
  3mhm|A|2018-09-12|K|+3.1;
  3m96|A|2018-09-12|K|+3.1;
  3po6|A|2018-09-12|K|+3.1;
  1hva|A|2018-09-12|K|+3.1;
  2w2j|A|2018-09-12|K|+3.1;
  3bet|A|2018-09-12|K|+3.1;
  3caj|A|2018-09-12|K|+3.1;
  3ibu|A|2018-09-12|K|+3.1;
  3ibn|A|2018-09-12|K|+3.1;
  3ibl|A|2018-09-12|K|+3.1;
  5dsq|A|2018-09-12|K|+3.1;
  5dso|A|2018-09-12|K|+3.1;
  1fsn|A|2018-09-12|K|+3.1;
  2cbe|A|2018-09-12|K|+3.1;
  3rz5|A|2018-09-12|K|+3.1;
  3rz7|A|2018-09-12|K|+3.1;
  3s76|A|2018-09-12|K|+3.1;
  1zsa|A|2018-09-12|K|+3.1;
  1cnh|A|2018-09-12|K|+3.1;
  4twm|A|2018-09-12|K|+3.1;
  4twl|A|2018-09-12|K|+3.1;
  5a1g|A|2018-09-12|K|+3.1;
  5dsr|A|2018-09-06|K|+3.1;
  1j85|A|2018-08-14|K|+3.1;
  6emu|A|2018-07-22|K|+3.1;
  5y2r|A|2018-02-14|K|+3.1;
  5y2s|A|2018-02-14|K|+3.1;
  5msb|A|2018-01-17|K|+3.1;
  5nxg|A|2018-01-17|K|+3.1;
  5nxi|A|2018-01-17|K|+3.1;
  5nxo|A|2018-01-17|K|+3.1;
  5nxp|A|2018-01-17|K|+3.1;
  5nxv|A|2018-01-17|K|+3.1;
  5nxw|A|2018-01-17|K|+3.1;
  5ny1|A|2018-01-17|K|+3.1;
  5ny3|A|2018-01-17|K|+3.1;
  5ny6|A|2018-01-17|K|+3.1;
  5nya|A|2018-01-17|K|+3.1;
  5yud|A|2018-01-03|K|+3.1;
  5wyr|A|2017-12-20|K|+3.1;
  5wyq|A|2017-12-20|K|+3.1;
  5m78|A|2017-12-20|K|+3.1;
  5o95|A|2017-11-08|K|+3.1;
  5o96|A|2017-11-08|K|+3.1;
  5oql|e|2017-10-11|K|+3.1;
  5tv3|A|2017-09-20|K|+3.1;
  5t75|A|2017-09-14|K|+3.1;
  5tt8|A|2017-09-13|K|+3.1;
  5l0z|A|2017-08-28|K|+3.1;
  5kzk|A|2017-08-28|K|+3.1;
  5ku6|A|2017-08-28|K|+3.1;
  5lle|A|2017-08-28|K|+3.1;
  5llg|A|2017-08-28|K|+3.1;
  5llo|A|2017-08-28|K|+3.1;
  5lln|A|2017-08-28|K|+3.1;
  5llp|A|2017-08-28|K|+3.1;
  5gra|A|2017-06-21|K|+3.1;
  5twj|A|2017-05-06|K|+3.1;
  5jnc|A|2017-05-04|K|+3.1;
  5twk|A|2017-05-03|K|+3.1;
  5thj|A|2017-05-03|K|+3.1;
  5jn8|A|2017-05-03|K|+3.1;
  5jna|A|2017-05-03|K|+3.1;
  5jn3|A|2017-05-03|K|+3.1;
  5wyk|E1|2017-04-07|K|+3.1;
  5ipz|A|2017-03-29|K|+3.1;
  5l6k|A|2017-03-02|K|+3.1;
  5sz7|A|2017-02-06|K|+3.1;
  5sz0|A|2017-02-05|K|+3.1;
  5sz1|A|2017-02-05|K|+3.1;
  5sz2|A|2017-02-05|K|+3.1;
  5sz3|A|2017-02-05|K|+3.1;
  5sz4|A|2017-02-05|K|+3.1;
  5h5f|A|2017-01-23|K|+3.1;
  5h5e|A|2017-01-23|K|+3.1;
  5jir|A|2016-11-27|K|+3.1;
  5gm8|A|2016-10-28|K|+3.1;
  5gmc|A|2016-10-28|K|+3.1;
  5gmb|A|2016-10-28|K|+3.1;
  5t8s|A|2016-10-03|K|+3.1;
  5t8t|A|2016-10-03|K|+3.1;
  5drs|A|2016-09-29|K|+3.1;
  5cjl|A|2016-09-28|K|+3.1;
  5dog|A|2016-09-28|K|+3.1;
  5doh|A|2016-09-28|K|+3.1;
  5e5r|A|2016-08-31|K|+3.1;
  5jpq|e|2016-07-29|K|+3.1;
  5co4|A|2016-07-20|K|+3.1;
  5g03|A|2016-05-26|K|+3.1;
  5hwy|A|2016-05-22|K|+3.1;
  5apg|A|2016-04-27|K|+3.1;
  5ap8|A|2016-04-27|K|+3.1;
  4yqt|A|2016-03-16|K|+3.1;
  4yqs|A|2016-03-16|K|+3.1;
  4yqr|A|2016-03-16|K|+3.1;
  4ypx|A|2016-03-16|K|+3.1;
  5a1i|A|2016-03-10|K|+3.1;
  4x3l|A|2016-01-22|K|+3.1;
  5fai|A|2016-01-21|K|+3.1;
  5c77|A|2016-01-14|K|+3.1;
  5c74|A|2016-01-14|K|+3.1;
  5a7y|A|2016-01-13|K|+3.1;
  5a7z|A|2016-01-13|K|+3.1;
  5a7t|A|2016-01-13|K|+3.1;
  4yvk|A|2015-12-25|K|+3.1;
  4yvj|A|2015-12-25|K|+3.1;
  4yvi|A|2015-12-25|K|+3.1;
  4yvh|A|2015-12-25|K|+3.1;
  4yvg|A|2015-12-25|K|+3.1;
  4xbo|A|2015-12-23|K|+3.1;
  4x3m|A|2015-11-11|K|+3.1;
  4yqd|A|2015-11-11|K|+3.1;
  4ws9|A|2015-02-10|K|+3.1;
  4rg1|A|2015-02-07|K|+3.1;
  3s97|A|2014-10-08|K|+3.1;
  3kld|B|2014-10-08|K|+3.1;
  4etq|C|2014-10-08|K|+3.1;
  3v5s|A|2014-09-25|K|+3.1;
  4cng|A|2014-09-25|K|+3.1;
  4cnf|A|2014-09-25|K|+3.1;
  4cne|A|2014-09-25|K|+3.1;
  4cnd|A|2014-09-25|K|+3.1;
  4j3c|A|2014-09-11|K|+3.1;
  3cwo|X|2014-08-23|K|+3.1;
  4jal|A|2014-08-19|K|+3.1;
  4mcc|A|2014-08-19|K|+3.1;
  4mcb|A|2014-08-19|K|+3.1;
  4l2z|A|2014-08-19|K|+3.1;
  4k0b|A|2014-08-19|K|+3.1;
  3axz|A|2014-08-19|K|+3.1;
  4ig6|A|2014-08-19|K|+3.1;
  4hpv|A|2014-08-19|K|+3.1;
  4h3y|A|2014-08-19|K|+3.1;
  3kzm|A|2014-08-19|K|+3.1;
  4jwg|A|2014-08-19|K|+3.1;
  3so4|A|2014-08-18|K|+3.1;
  4l4q|A|2014-08-13|K|+3.1;
  4pzk|B|2014-08-13|K|+3.1;
  4pzk|A|2014-08-13|K|+3.1;
  4ndn|A|2014-08-13|K|+3.1;
  4ndn|B|2014-08-13|K|+3.1;
  4ndn|C|2014-08-13|K|+3.1;
  4ndn|D|2014-08-13|K|+3.1;
  4ktv|D|2014-08-13|K|+3.1;
  4ktv|C|2014-08-13|K|+3.1;
  4ktv|B|2014-08-13|K|+3.1;
  4ktv|A|2014-08-13|K|+3.1;
  4ktt|D|2014-08-13|K|+3.1;
  4ktt|C|2014-08-13|K|+3.1;
  4ktt|B|2014-08-13|K|+3.1;
  4ktt|A|2014-08-13|K|+3.1;
  1uak|A|2014-07-31|K|+3.1;
  1by7|A|2014-07-31|K|+3.1;
  1f48|A|2014-07-31|K|+3.1;
  1fug|A|2014-07-31|K|+3.1;
  1gz0|A|2014-07-31|K|+3.1;
  1js1|X|2014-07-31|K|+3.1;
  1k3r|A|2014-07-31|K|+3.1;
  1mxa|A|2014-07-31|K|+3.1;
  1mxb|A|2014-07-31|K|+3.1;
  1mxc|A|2014-07-31|K|+3.1;
  1mxi|A|2014-07-31|K|+3.1;
  1ns5|A|2014-07-31|K|+3.1;
  1nxz|A|2014-07-31|K|+3.1;
  1o6d|A|2014-07-31|K|+3.1;
  1o90|A|2014-07-31|K|+3.1;
  1o92|A|2014-07-31|K|+3.1;
  1o93|A|2014-07-31|K|+3.1;
  1o9t|A|2014-07-31|K|+3.1;
  1p7l|A|2014-07-31|K|+3.1;
  1p9p|A|2014-07-31|K|+3.1;
  1qm4|A|2014-07-31|K|+3.1;
  1rg9|A|2014-07-31|K|+3.1;
  1to0|A|2014-07-31|K|+3.1;
  1uaj|A|2014-07-31|K|+3.1;
  1ual|A|2014-07-31|K|+3.1;
  1uam|A|2014-07-31|K|+3.1;
  1v2x|A|2014-07-31|K|+3.1;
  1v6z|A|2014-07-31|K|+3.1;
  1vh0|A|2014-07-31|K|+3.1;
  1vhk|A|2014-07-31|K|+3.1;
  1vhy|A|2014-07-31|K|+3.1;
  1x7o|A|2014-07-31|K|+3.1;
  1x7p|A|2014-07-31|K|+3.1;
  1xra|A|2014-07-31|K|+3.1;
  1xrb|A|2014-07-31|K|+3.1;
  1xrc|A|2014-07-31|K|+3.1;
  1y7w|A|2014-07-31|K|+3.1;
  1yh1|A|2014-07-31|K|+3.1;
  1zjr|A|2014-07-31|K|+3.1;
  1znc|A|2014-07-31|K|+3.1;
  2cx8|A|2014-07-31|K|+3.1;
  2egv|A|2014-07-31|K|+3.1;
  2egw|A|2014-07-31|K|+3.1;
  2fg6|C|2014-07-31|K|+3.1;
  2g7m|C|2014-07-31|K|+3.1;
  2ha8|A|2014-07-31|K|+3.1;
  2hfy|A|2014-07-31|K|+3.1;
  2i6d|A|2014-07-31|K|+3.1;
  2o3a|A|2014-07-31|K|+3.1;
  2obv|A|2014-07-31|K|+3.1;
  2p02|A|2014-07-31|K|+3.1;
  2qmm|A|2014-07-31|K|+3.1;
  2qwv|A|2014-07-31|K|+3.1;
  2v3j|A|2014-07-31|K|+3.1;
  2v3k|A|2014-07-31|K|+3.1;
  2yfk|A|2014-07-31|K|+3.1;
  2yy8|A|2014-07-31|K|+3.1;
  2z0y|A|2014-07-31|K|+3.1;
  2znc|A|2014-07-31|K|+3.1;
  3ai9|X|2014-07-31|K|+3.1;
  3aia|A|2014-07-31|K|+3.1;
  3b1b|A|2014-07-31|K|+3.1;
  3bbd|A|2014-07-31|K|+3.1;
  3bbe|A|2014-07-31|K|+3.1;
  3bbh|A|2014-07-31|K|+3.1;
  3dcm|X|2014-07-31|K|+3.1;
  3e5y|A|2014-07-31|K|+3.1;
  3ed7|A|2014-07-31|K|+3.1;
  3f7b|A|2014-07-31|K|+3.1;
  3fw3|A|2014-07-31|K|+3.1;
  3gyq|A|2014-07-31|K|+3.1;
  3ic6|A|2014-07-31|K|+3.1;
  3ief|A|2014-07-31|K|+3.1;
  3ilk|A|2014-07-31|K|+3.1;
  3iml|A|2014-07-31|K|+3.1;
  3jxf|A|2014-07-31|K|+3.1;
  3jxg|A|2014-07-31|K|+3.1;
  3jxh|C|2014-07-31|K|+3.1;
  3jyw|E|2014-07-31|K|+3.1;
  3knu|A|2014-07-31|K|+3.1;
  3kty|A|2014-07-31|K|+3.1;
  3kw2|A|2014-07-31|K|+3.1;
  3ky7|A|2014-07-31|K|+3.1;
  3kzc|A|2014-07-31|K|+3.1;
  3kzk|A|2014-07-31|K|+3.1;
  3kzn|A|2014-07-31|K|+3.1;
  3kzo|A|2014-07-31|K|+3.1;
  3l02|A|2014-07-31|K|+3.1;
  3l04|A|2014-07-31|K|+3.1;
  3l05|A|2014-07-31|K|+3.1;
  3l06|A|2014-07-31|K|+3.1;
  3l8u|A|2014-07-31|K|+3.1;
  3m4j|A|2014-07-31|K|+3.1;
  3m4n|A|2014-07-31|K|+3.1;
  3m5c|A|2014-07-31|K|+3.1;
  3m5d|A|2014-07-31|K|+3.1;
  3n4j|A|2014-07-31|K|+3.1;
  3n4k|A|2014-07-31|K|+3.1;
  3nk6|A|2014-07-31|K|+3.1;
  3nk7|A|2014-07-31|K|+3.1;
  3o7b|A|2014-07-31|K|+3.1;
  3oii|A|2014-07-31|K|+3.1;
  3oij|A|2014-07-31|K|+3.1;
  3oin|A|2014-07-31|K|+3.1;
  3onp|A|2014-07-31|K|+3.1;
  3q98|A|2014-07-31|K|+3.1;
  3quv|A|2014-07-31|K|+3.1;
  3rv2|A|2014-07-31|K|+3.1;
  3s82|A|2014-07-31|K|+3.1;
  3sig|A|2014-07-31|K|+3.1;
  3sij|A|2014-07-31|K|+3.1;
  3tde|A|2014-07-31|K|+3.1;
  3v5u|A|2014-07-31|K|+3.1;
  3znc|A|2014-07-31|K|+3.1;
  4e8b|A|2014-07-31|K|+3.1;
  4fak|A|2014-07-31|K|+3.1;
  4fmw|A|2014-07-31|K|+3.1;
  4gge|A|2014-07-31|K|+3.1;
  4h3z|A|2014-07-31|K|+3.1;
  4h6v|A|2014-07-31|K|+3.1;
  4jak|A|2014-07-31|K|+3.1;
  4jwf|A|2014-07-31|K|+3.1;
  4jwh|A|2014-07-31|K|+3.1;
  4jwj|A|2014-07-31|K|+3.1;
  4k1c|A|2014-07-31|K|+3.1;
  4kdz|A|2014-07-31|K|+3.1;
  4kgn|A|2014-07-31|K|+3.1;
  4kjr|A|2014-07-31|K|+3.1;
  4kpp|A|2014-07-31|K|+3.1;
  4l69|A|2014-07-31|K|+3.1;
  4l7i|A|2014-07-31|K|+3.1;
  4le5|A|2014-07-31|K|+3.1;
  4mcd|A|2014-07-31|K|+3.1;
  4o6d|A|2014-07-31|K|+3.1;
  4o6d|B|2014-07-31|K|+3.1;
  4odj|A|2014-07-31|K|+3.1;

      
Knot types Knot loop types pdb Title
K +31 7priAAA Carbonic anhydrase from schistosoma mansoni in complex with clorsulon
K +31 8axzA Crystal structure of human methionine adenosyltransferase 2a (mat2a) in complex with s-adenosylmethionine, adenosin and diphosphono-aminophosphonic acid.
K +31 7plfAAA Human carbonic anhydrase i in complex with clorsulon
K +31 7nh8AAA Crystal structure of human carbonic anhydrase ii with n-((1-(6-((3ar,7r,7as)-7-hydroxy-2,2-dimethyltetrahydro-[1,3]dioxolo[4,5-c]pyridin-5(4h)-yl)hexyl)-1h-1,2,3-triazol-4-yl)methyl)-4-sulfamoylbenzamide
K +31 7lnhA S-adenosylmethionine synthetase co-crystallized with uppnhp
K +31 7edcA Crystal structure of mutant trna [gm18] methyltransferase trmh (e107g) in complex with s-adenosyl-l-methionine from escherichia coli
K +31 7e3tA Crystal structure of trml from mycoplasma capricolum
K +31 7e3sA Crystal structure of trml from shewanella oneidensis
K +31 7e3rA Crystal structure of trml from vibrio vulnificus
K +31 7e3qA Crystal structure of sah bound trml from vibrio vulnificus
K +31 5nfjA Crystal structure of the methyltransferase subunit of human mitochondrial ribonuclease p (mrpp1) bound to s-adenosyl-methionine (sam)
K +31 7looA S-adenosyl methionine transferase cocrystallized with atp
K +31 7d51A Crystal structure of a truly knotted protein: cyclized yibk from haemophilus influenzae
K +31
1
7cwwA Crystal structure of tsrl
K +31 7onuF Structure of human mitochondrial rnase p in complex with mitochondrial pre-trna-tyr
K +31 7ockB Mat in complex with samh
K +31 7mysA Crystal structure of a trna (guanine-n1)-methyltransferase from acinetobacter baumannii ab5075-uw bound to s-adenosyl homocysteine
K +31 7myqA Crystal structure of a trna (guanine-n1)-methyltransferase from acinetobacter baumannii
K +31 6jkiA Crystal structure and catalytic mechanism of the essential m1g37 trna methyltransferase trmd from pseudomonas aeruginosa
K +31 6jofA Crystal structure of trmd from mycobacterium tuberculosis in complex with active-site inhibitor
K +31 6joeA Crystal structure of trmd from pseudomonas aeruginosa in complex with active-site inhibitor
K +31 6qowA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with fragment 26 (6-methoxybenzothiazole-2-carboxylic acid)
K +31 6qrbA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qoeA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with fragment 8 (3-[(2-thienylthio)methyl]benzoic acid)
K +31 6qqyA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6nw7A Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with s-adenosyl-l-homocysteine
K +31 2fg7C N-succinyl-l-ornithine transcarbamylase from b. fragilis complexed with carbamoyl phosphate and n-succinyl-l-norvaline
K +31 1ipaA Crystal structure of rna 2'-o ribose methyltransferase
K +31 6uevA Structure of unliganded trna (guanine-n1)-methyltransferase found in anaplasma phagocytophilum
K +31 6qrdA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qrfA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qrcA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qqqA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qraA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qqrA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qreA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qrgA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qr0A Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qr1A Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qqtA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qr3A Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qqvA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qr2A Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qqwA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31 6qqzA Crystal structure of trmd, a trna-(n1g37) methyltransferase, from mycobacterium abscessus in complex with inhibitor
K +31
1
6ac6A Ab initio crystal structure of selenomethionine labelled mycobacterium smegmatis mfd
K +31 6rxzCN Cryo-em structure of the 90s pre-ribosome (kre33-noc4) from chaetomium thermophilum, state b
K +31 6rxyCN Cryo-em structure of the 90s pre-ribosome (kre33-noc4) from chaetomium thermophilum, state a
K +31 6rxxCN Cryo-em structure of the 90s pre-ribosome (kre33-noc4) from chaetomium thermophilum, state c, poly-ala
K +31 6rxvCN Cryo-em structure of the 90s pre-ribosome (kre33-noc4) from chaetomium thermophilum, state b2
K +31 6rxtCN Cryo-em structure of the 90s pre-ribosome (kre33-noc4) from chaetomium thermophilum, state a
K +31 6afkA Crystal structure of trmd from pseudomonas aeruginosa in complex with active-site inhibitor
K +31 4v7hBE Structure of the 80s rrna and proteins and p/e trna for eukaryotic ribosome based on cryo-em map of thermomyces lanuginosus ribosome at 8.9a resolution
K +31 4cndB Crystal structure of e.coli trmj
K +31
1
4cneB Crystal structure of e.coli trmj in complex with s-adenosyl-l- homocysteine
K +31
1
4cnfB Crystal structure of sulfolobus acidocaldarius trmj
K +31
1
4cngB Crystal structure of sulfolobus acidocaldarius trmj in complex with s-adenosyl-l-homocysteine
K +31
1
6emsA Crystal structure of dual specific trm10 construct from thermococcus kodakaraensis.
K +31 5vm8A Crystal structure of a ribosomal rna small subunit methyltransferase e from neisseria gonorrhoeae bound to s-adenosyl methionine
K +31
1
6emtA Crystal structure of dual specific trm10 construct from thermococcus kodakaraensis.
K +31
1
6emvA Crystal structure of dual specific trm10 construct from thermococcus kodakaraensis.
K +31
1
5a19A The structure of mat2a in complex with ppnp.
K +31 1cngA X-ray crystallographic studies of engineered hydrogen bond networks in a protein-zinc binding site
K +31 3mhlA Crystal structure of human carbonic anhydrase isozyme ii with 4-{[n-(6-methoxy-5-nitropyrimidin-4-yl)amino]methyl}benzenesulfonamide
K +31 3m5eA Crystal structure of human carbonic anhydrase isozyme ii with 4-{[n-(6-chloro-5-formyl-2-methylthiopyrimidin-4-yl)amino]methyl}benzenesulfonamide
K +31 3m40A Crystal structure of human carbonic anhydrase isozyme ii with 4-[n-(6-chloro-5-nitropyrimidin-4-yl)amino]benzenesulfonamide
K +31 3m3xA Crystal structure of human carbonic anhydrase isozyme ii with 4-{2-[n-(6-methoxy-5-nitropyrimidin-4-yl)amino]ethyl}benzenesulfonamide
K +31 3m67A Crystal structure of human carbonic anhydrase isozyme ii with 2-chloro-5-[(6,7-dihydro-1h-[1,4]dioxino[2,3-f]benzimidazol-2-ylsulfanyl)acetyl]benzenesulfonamide
K +31 3m98A Crystal structure of human carbonic anhydrase isozyme ii with 5-(1h-benzimidazol-1-ylacetyl)-2-chlorobenzenesulfonamide
K +31 3m2nA Crystal structure of human carbonic anhydrase isozyme ii with 4-{2-[n-(6-chloro-5-nitropyrimidin-4-yl)amino]ethyl}benzenesulfonamide
K +31 3mhmA Crystal structure of human carbonic anhydrase isozyme ii with 4-{[n-(6-benzylamino-5-nitropyrimidin-4-yl)amino]methyl}benzenesulfonamide
K +31 3m96A Crystal structure of human carbonic anhydrase isozyme ii with 5-{[(5-bromo-1h-benzimidazol-2-yl)sulfanyl]acetyl}-2-chlorobenzenesulfonamide
K +31 3po6A Crystal structure of human carbonic anhydrase ii with 6,7-dimethoxy-1-methyl-3,4-dihydroisoquinoline-2(1h)-sulfonamide
K +31 1hvaA Engineering the zinc binding site of human carbonic anhydrase ii: structure of the his-94-> cys apoenzyme in a new crystalline form
K +31 2w2jA Crystal structure of the human carbonic anhydrase related protein viii
K +31 3betA Crystal structure of the human carbonic anhydrase ii in complex with stx 641 at 1.85 angstroms resolution
K +31 3cajA Crystal structure of the human carbonic anhydrase ii in complex with ethoxzolamide
K +31 3ibuA The crystal structure of the human carbonic anhydrase ii in complex with an aliphatic sulfamate inhibitor
K +31 3ibnA The crystal structure of the human carbonic anhydrase ii in complex with an aliphatic bis-sulfamate inhibitor
K +31 3iblA The crystal structure of the human carbonic anhydrase ii in complex with an aliphatic bis-sulfamate inhibitor
K +31 5dsqA Structure of co2 released apo-form of human carbonic anhydrase ii with 3 min warming
K +31 5dsoA Structure of co2 bound apo-form of human carbonic anhydrase ii with 0 sec (no) warming
K +31 1fsnA X-ray crystal structure of metal-free f93s/f95l/w97m carbonic anhydrase (caii) variant
K +31 2cbeA Structure of native and apo carbonic anhydrase ii and some of its anion-ligand complexes
K +31 3rz5A Fluoroalkyl and alkyl chains have similar hydrophobicities in binding to the hydrophobic wall of carbonic anhydrase
K +31 3rz7A Fluoroalkyl and alkyl chains have similar hydrophobicities in binding to the hydrophobic wall of carbonic anhydrase
K +31 3s76A The origin of the hydrophobic effect in the molecular recognition of arylsulfonamides by carbonic anhydrase
K +31 1zsaA Carbonic anhydrase ii mutant e117q, apo form
K +31 1cnhA X-ray crystallographic studies of engineered hydrogen bond networks in a protein-zinc binding site
K +31 4twmA Crystal structure of dioscorin from dioscorea japonica
K +31 4twlA Crystal structure of dioscorin complexed with ascorbate
K +31 5a1gA The structure of human mat2a in complex with s-adenosylethionine and ppnp.
K +31 5dsrA Structure of co2 released apo-form of human carbonic anhydrase ii with 10 min warming
K +31 1j85A Structure of yibk from haemophilus influenzae (hi0766), a truncated sequence homolog of trna (guanosine-2'-o-) methyltransferase (spou)
K +31
1
6emuA Crystal structure of dual specific trm10 construct from thermococcus kodakaraensis.
K +31 5y2rA 2.5 atm co2-pressurized human carbonic anhydrase ii
K +31 5y2sA 7.0 atm co2-pressurized human carbonic anhydrase ii
K +31 5msbA Crystal structure of human carbonic anhydrase isozyme xii with 2,3,5,6-tetrafluoro-4[(2-hydroxyethyl)sulfonyl]benzenesulfonamide
K +31 5nxgA Carbonic anhydrase ii inhibitor ra1
K +31 5nxiA Carbonic anhydrase ii inhibitor ra2
K +31 5nxoA Carbonic anhydrase ii inhibitor ra6
K +31 5nxpA Carbonic anhydrase ii inhibitor ra7
K +31 5nxvA Carbonic anhydrase ii inhibitor ra8
K +31 5nxwA Carbonic anhydrase ii inhibitor ra9
K +31 5ny1A Carbonic anhydrase ii inhibitor ra10
K +31 5ny3A Carbonic anhydrase ii inhibitor ra11
K +31 5ny6A Carbonic anhydrase ii inhibitor ra12
K +31 5nyaA Carbonic anhydrase ii inhibitor ra13
K +31 5yudA Flagellin derivative in complex with the nlr protein naip5
K +31 5wyrA Crystal structure and catalytic mechanism of the essential m1g37 trna methyltransferase trmd from pseudomonas aeruginosa
K +31 5wyqA Crystal structure and catalytic mechanism of the essential m1g37 trna methyltransferase trmd from pseudomonas aeruginosa
K +31 5m78A Human carbonic anhydrase ii in complex with fragment-like inhibitor.
K +31 5o95A Structure of the putative methyltransferase lpg2936 from legionella pneumophila
K +31 5o96A Structure of the putative methyltransferase lpg2936 from legionella pneumophila in complex with the bound cofactor sam
K +31 5oqle Cryo-em structure of the 90s pre-ribosome from chaetomium thermophilum
K +31 5tv3A Crystal structure of the complex of helicobacter pylori alpha-carbonic anhydrase with (e)-5-(((4-(tert-butyl)phenyl)sulfonyl)imino)-4-methyl-4,5-dihydro-1,3,4-thiadiazole-2-sulfonamide
K +31 5t75A Human carbonic anhydrase ii g132c_c206s double mutant in complex with sa-2
K +31
1
5tt8A Crystal structure of the complex of helicobacter pylori alpha-carbonic anhydrase with benzolamide
K +31 5l0zA Crystal structure of adomet bound rrna methyltransferase from sinorhizobium meliloti
K +31 5kzkA Crystal structure of rrna methyltransferase from sinorhizobium meliloti
K +31
1
5ku6A Crystal structure for the complex of human carbonic anhydrase iv and methazolamide
K +31 5lleA Crystal structure of human carbonic anhydrase isozyme ii with 4-(1-adamantylamino)-2,3,5,6-tetrafluorobenzenesulfonamide
K +31 5llgA Crystal structure of human carbonic anhydrase isozyme ii with 4-propylthiobenzenesulfonamide
K +31 5lloA Crystal structure of human carbonic anhydrase isozyme xii with 3-[(1s)-2,3-dihydro-1h-inden-1-ylamino]-2,5,6-trifluoro-4-[(2-hy-droxyethyl)sulfonyl]benzenesulfonamide
K +31 5llnA Crystal structure of human carbonic anhydrase isozyme xiii with 2,3,5,6-tetrafluoro-4-(propylthio)benzenesulfonamide
K +31 5llpA Crystal structure of human carbonic anhydraseisozyme xii with 3-[(1s)-1,2,3,4-tetrahydronapthalen-1-ylamino)-2,5,6-trifluoro-4-[(2-hydroxyethyl)sulfonyl]benzenesulfonamide
K +31 5graA Crystal structure of trmj from z. mobilis zm4
K +31 5twjA Crystal structure of rlmh in complex with s-adenosylmethionine
K +31
1
5jncA Crystal structure for the complex of human carbonic anhydrase iv and 4-aminomethylbenzene sulfonamide
K +31 5twkA Crystal structure of rlmh in complex with sinefungin
K +31 5thjA Crystal structure of 2-hydroxycyclohepta-2,4,6-trien-1-one bound to human carbonic anhydrase 2
K +31
1
5jn8A Crystal structure for the complex of human carbonic anhydrase iv and acetazolamide
K +31
1
5jnaA Crystal structure for the complex of human carbonic anhydrase iv and topiramate
K +31 5jn3A Carbonic anhydrase ix-mimic in complex with u-f
K +31 5wykE1 Cryo-em structure of the 90s small subunit pre-ribosome (mtr4-depleted, enp1-tap)
K +31
1
5ipzA Crystal structure of human carbonic anhydrase isozyme iv with 5-(2-amino-1,3-thiazol-4-yl)-2-chlorobenzenesulfonamide
K +31 5l6kA Crystal structure of human carbonic anhydrase ii in complex with a quinoline oligoamide foldamer
K +31 5sz7A Carbonic anhydrase ix-mimic in complex with 4-(3-quinolinyl)-benzenesulfonamide
K +31 5sz0A Carbonic anhydrase ii in complex with 4-(phenyl)-benzenesulfonamide
K +31 5sz1A Carbonic anhydrase ii in complex with 4-(2-methylphenyl)-benzenesulfonamide
K +31 5sz2A Carbonic anhydrase ii in complex with 4-(3-formylphenyl)-benzenesulfonamide
K +31 5sz3A Carbonic anhydrase ii in complex with 4-(3-quinolinyl)-benzenesulfonamide
K +31 5sz4A Carbonic anhydrase ix-mimic in complex with 4-(phenyl)-benzenesulfonamide
K +31 5h5fA The crystal structure of the yeast arginine methyltransferase sfm1 complexed with sam
K +31 5h5eA The crystal structure of the yeast arginine methyltransferase sfm1 complexed with sah
K +31 5jirA Crystal structure of treponema pallidum protein tp0624
K +31 5gm8A Methylation at position 32 of trna catalyzed by trmj alters oxidative stress response in pseudomonas aeruiginosa
K +31 5gmcA Methylation at position 32 of trna catalyzed by trmj alters oxidative stress response in pseudomonas aeruiginosa
K +31 5gmbA Methylation at position 32 of trna catalyzed by trmj alters oxidative stress response in pseudomonas aeruiginosa
K +31 5t8sA Crystal structure of a s-adenosylmethionine synthase from neisseria gonorrhoeae with bound s-adenosylmethionine, amp, pyrophosphate, phosphate, and magnesium

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