Found 278 chains in Knotted chains table. Displaying 151 - 278. Applied filters: Probabilistic

Search results query: transferase

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#pdbid|chain|deposition date|is S/K-not|(slip)knot types;
      
  8axz|A|2022-10-17|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;
  7mys|A|2021-06-21|K|+3.1;
  7myq|A|2021-06-21|K|+3.1;
  6jki|A|2021-06-08|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;
  6qrf|A|2019-10-16|K|+3.1;
  6qrd|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;
  6afk|A|2019-09-06|K|+3.1;
  6mlk|A|2018-10-21|S|+3.1;
  5ehv|A|2018-10-19|S|+3.1;
  5t71|A|2018-10-18|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;
  5vm8|A|2018-09-13|K|+3.1;
  5ugh|A|2018-09-13|K|+3.1 +3.1;
  5a19|A|2018-09-12|K|+3.1;
  5c5k|A|2018-09-12|K|4.1 4.1;
  5mg0|A|2018-09-12|K|4.1 4.1;
  5a1g|A|2018-09-12|K|+3.1;
  1j85|A|2018-08-14|K|+3.1;
  5zjv|A|2018-04-26|S|+3.1;
  5nfx|A|2018-04-18|K|4.1 4.1;
  5nm3|A|2018-04-18|K|4.1;
  5nwn|A|2018-04-18|K|4.1 4.1;
  5wyr|A|2017-12-20|K|+3.1;
  5wyq|A|2017-12-20|K|+3.1;
  5o95|A|2017-11-08|K|+3.1;
  5ylf|A|2017-11-08|S|+3.1;
  5o96|A|2017-11-08|K|+3.1;
  5yle|A|2017-11-08|S|+3.1;
  5ylc|A|2017-11-08|S|+3.1;
  5mx9|A|2017-08-29|S|+3.1;
  5l0z|A|2017-08-28|K|+3.1;
  5gra|A|2017-06-21|K|+3.1;
  5twj|A|2017-05-06|K|+3.1;
  5h9u|A|2017-01-24|K|+3.1 +3.1;
  5h5f|A|2017-01-23|K|+3.1;
  5h5e|A|2017-01-23|K|+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;
  5lbr|A|2016-11-13|K|4.1 4.1;
  5l8m|A|2016-11-08|K|4.1 4.1;
  5k5b|A|2016-11-06|K|4.1 4.1;
  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;
  5k4p|A|2016-09-02|S|+3.1;
  5co4|A|2016-07-20|K|+3.1;
  5apg|A|2016-04-27|K|+3.1;
  5ap8|A|2016-04-27|K|+3.1;
  5a1i|A|2016-03-10|K|+3.1;
  4z1w|A|2016-01-22|K|4.1 4.1;
  4zrr|A|2016-01-22|K|4.1 4.1;
  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;
  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;
  4y5f|A|2015-05-21|K|4.1;
  4y3i|A|2015-05-21|K|4.1;
  4ws9|A|2015-02-10|K|+3.1;
  4rg1|A|2015-02-07|K|+3.1;
  4tn0|A|2014-10-14|S|+3.1;
  4q0j|A|2014-10-07|K|4.1 4.1;
  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;
  4uop|A|2014-09-25|S|+3.1;
  4j3c|A|2014-09-11|K|+3.1;
  4uor|A|2014-09-03|S|+3.1;
  4uoo|A|2014-09-03|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;
  4jal|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;
  4hpv|A|2014-08-19|K|+3.1;
  4h3y|A|2014-08-19|K|+3.1;
  3kzm|A|2014-08-19|K|+3.1;
  4kay|A|2014-08-19|S|+3.1;
  4jwg|A|2014-08-19|K|+3.1;
  3rdp|A|2014-08-18|S|+3.1;
  3so4|A|2014-08-18|K|+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;
  3zq5|A|2014-08-13|K|4.1 4.1;
  4l4q|A|2014-08-13|K|+3.1;
  4q0i|A|2014-08-13|K|4.1 4.1;
  4q0h|A|2014-08-13|K|4.1 4.1;
  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;
  4o01|D|2014-08-13|K|4.1 4.1;
  4o01|A|2014-08-13|K|4.1 4.1;
  4o0p|B|2014-08-13|K|4.1 4.1;
  4o0p|A|2014-08-13|K|4.1 4.1;
  4o01|B|2014-08-13|K|4.1 4.1;
  4o01|C|2014-08-13|K|4.1 4.1;
  1uak|A|2014-07-31|K|+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;
  1e2m|A|2014-07-31|S|+3.1;
  1e2n|A|2014-07-31|S|+3.1;
  1e2p|A|2014-07-31|S|+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;
  1kim|A|2014-07-31|S|+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;
  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;
  1of1|A|2014-07-31|S|+3.1;
  1osn|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;
  1p7l|A|2014-07-31|K|+3.1;
  1p9p|A|2014-07-31|K|+3.1;
  1qhi|A|2014-07-31|S|+3.1;
  1qm4|A|2014-07-31|K|+3.1;
  1rg9|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;
  1vtk|A|2014-07-31|S|+3.1;
  1x7o|A|2014-07-31|K|+3.1;
  1x7p|A|2014-07-31|K|+3.1;
  1xjd|A|2014-07-31|S|-3.1;
  1xrb|A|2014-07-31|K|+3.1;
  1zjr|A|2014-07-31|K|+3.1;
  1ztu|A|2014-07-31|K|4.1 4.1;
  2cfa|B|2014-07-31|S|-3.1;
  2cx8|A|2014-07-31|K|+3.1;
  2fg6|C|2014-07-31|K|+3.1;
  2g7m|C|2014-07-31|K|+3.1;
  2i6d|A|2014-07-31|K|+3.1;
  2ki5|A|2014-07-31|S|+3.1;
  2o9b|A|2014-07-31|K|4.1 4.1;
  2o9c|A|2014-07-31|K|4.1 4.1;
  2obv|A|2014-07-31|K|+3.1;
  2p02|A|2014-07-31|K|+3.1;
  2vea|A|2014-07-31|K|4.1 4.1;
  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;
  2w8d|A|2014-07-31|S|+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;
  3ai9|X|2014-07-31|K|+3.1;
  3aia|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;
  3ed4|A|2014-07-31|S|+3.1;
  3ed7|A|2014-07-31|K|+3.1;
  3f0t|A|2014-07-31|S|+3.1;
  3gyq|A|2014-07-31|K|+3.1;
  3ibr|A|2014-07-31|K|4.1 4.1;
  3iml|A|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;
  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;
  3tde|A|2014-07-31|K|+3.1;
  3vtk|A|2014-07-31|S|+3.1;
  4e8b|A|2014-07-31|K|+3.1;
  4fmw|A|2014-07-31|K|+3.1;
  4h3z|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;
  4kav|A|2014-07-31|S|+3.1;
  4kdz|A|2014-07-31|K|+3.1;
  4kgn|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;
  4odj|A|2014-07-31|K|+3.1;
Knot types Knot loop types pdb Title
K +31 4kttB Structural insights of mat enzymes: mata2b complexed with sam
K +31
1
4kttA Structural insights of mat enzymes: mata2b complexed with sam
K 41 41
1
4o01D Crystal structure of d. radiodurans bacteriophytochrome photosensory core module in its illuminated form
K 41 41
1
4o01A Crystal structure of d. radiodurans bacteriophytochrome photosensory core module in its illuminated form
K 41 41
1
4o0pB Crystal structure of d. radiodurans bacteriophytochrome photosensory core module in its dark form
K 41 41
1
4o0pA Crystal structure of d. radiodurans bacteriophytochrome photosensory core module in its dark form
K 41 41
1
4o01B Crystal structure of d. radiodurans bacteriophytochrome photosensory core module in its illuminated form
K 41 41
1
4o01C Crystal structure of d. radiodurans bacteriophytochrome photosensory core module in its illuminated form
K +31 1uakA Crystal structure of trna(m1g37)methyltransferase: insight into trna recognition
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
1e2mA Hpt + hmtt
S +31
1
1e2nA Hpt + hmtt
S +31
1
1e2pA Thymidine kinase, dhbt
K +31 1fugA S-adenosylmethionine synthetase
K +31 1gz0A 23s ribosomal rna g2251 2'o-methyltransferase rlmb
K +31 1js1X Crystal structure of a new transcarbamylase from the anaerobic bacterium bacteroides fragilis at 2.0 a resolution
S +31
1
1kimA Crystal structure of thymidine kinase from herpes simplex virus type i complexed with deoxythymidine
K +31
1
1mxaA S-adenosylmethionine synthetase with ppi
K +31
1
1mxbA S-adenosylmethionine synthetase with adp
K +31
1
1mxcA S-adenosylmethionine synthetase with 8-br-adp
K +31 1mxiA Structure of yibk from haemophilus influenzae (hi0766): a methyltransferase with a cofactor bound at a site formed by a knot
K +31
1
1o90A Methionine adenosyltransferase complexed with a l-methionine analogous
K +31
1
1o92A Methionine adenosyltransferase complexed with adp and a l-methionine analogous
K +31
1
1o93A Methionine adenosyltransferase complexed with atp and a l-methionine analogous
K +31
1
1o9tA Methionine adenosyltransferase complexed with both substrates atp and methionine
S +31
1
1of1A Kinetics and crystal structure of the herpes simplex virus type 1 thymidine kinase interacting with (south)-methanocarba-thymidine
S +31 1osnA Crystal structure of varicella zoster virus thymidine kinase in complex with bvdu-mp and adp
S +31 1p6xA Crystal structure of ehv4-tk complexed with thy and so4
S +31
1
1p72A Crystal structure of ehv4-tk complexed with thy and adp
S +31
1
1p73A Crystal structure of ehv4-tk complexed with tp4a
S +31 1p75A Crystal structure of ehv4-tk complexed with tp5a
S +31
1
1p7cA Crystal structure of hsv1-tk complexed with tp5a
K +31 1p7lA S-adenosylmethionine synthetase complexed with amppnp and met.
K +31 1p9pA The crystal structure of a m1g37 trna methyltransferase, trmd
S +31
1
1qhiA Herpes simplex virus type-i thymidine kinase complexed with a novel non-substrate inhibitor, 9-(4-hydroxybutyl)-n2-phenylguanine
K +31
1
1qm4A Methionine adenosyltransferase complexed with a l-methionine analogous
K +31 1rg9A S-adenosylmethionine synthetase complexed with sam and ppnp
K +31 1uajA Crystal structure of trna(m1g37)methyltransferase: insight into trna recognition
K +31 1ualA Crystal structure of trna(m1g37)methyltransferase: insight into trna recognition
K +31 1uamA Crystal structure of trna(m1g37)methyltransferase: insight into trna recognition
K +31 1v2xA Trmh
K +31 1v6zA Crystal structure of tt1573 from thermus thermophilus
S +31
1
1vtkA Thymidine kinase from herpes simplex virus type 1 in complex with adp and deoxythymidine-monophosphate
K +31 1x7oA Crystal structure of the spou methyltransferase avirb from streptomyces viridochromogenes
K +31 1x7pA Crystal structure of the spou methyltransferase avirb from streptomyces viridochromogenes in complex with the cofactor adomet
S -31
1
1xjdA Crystal structure of pkc-theta complexed with staurosporine at 2a resolution
K +31
1
1xrbA S-adenosylmethionine synthetase (mat, atp: l-methionine s-adenosyltransferase, e.c.2.5.1.6) in which met residues are replaced with selenomethionine residues (mse)
K +31 1zjrA Crystal structure of a. aeolicus trmh/spou trna modifying enzyme
K 41 41
1
1ztuA Structure of the chromophore binding domain of bacterial phytochrome
S -31
1
2cfaB Structure of viral flavin-dependant thymidylate synthase thyx
K +31 2cx8A Crystal structure of methyltransferase with ligand(sah)
K +31 2fg6C N-succinyl-l-ornithine transcarbamylase from b. fragilis complexed with sulfate and n-succinyl-l-norvaline
K +31 2g7mC Crystal structure of b. fragilis n-succinylornithine transcarbamylase p90e mutant complexed with carbamoyl phosphate and n-acetylnorvaline
K +31 2i6dA The structure of a putative rna methyltransferase of the trmh family from porphyromonas gingivalis.
S +31
1
2ki5A Herpes simplex type-1 thymidine kinase in complex with the drug aciclovir at 1.9a resolution
K 41 41
1
2o9bA Crystal structure of bacteriophytochrome chromophore binding domain
K 41 41 2o9cA Crystal structure of bacteriophytochrome chromophore binding domain at 1.45 angstrom resolution
K +31 2obvA Crystal structure of the human s-adenosylmethionine synthetase 1 in complex with the product
K +31 2p02A Crystal structure of the alpha subunit of human s-adenosylmethionine synthetase 2
K 41 41
1
2veaA The complete sensory module of the cyanobacterial phytochrome cph1 in the pr-state.
S +31
1
2vtkA Thymidine kinase from herpes simplex virus type 1 in complex with adp and deoxythymidine
S +31 2w5qA Structure-based mechanism of lipoteichoic acid synthesis by staphylococcus aureus ltas.
S +31 2w5rA Structure-based mechanism of lipoteichoic acid synthesis by staphylococcus aureus ltas.
S +31 2w5sA Structure-based mechanism of lipoteichoic acid synthesis by staphylococcus aureus ltas.
S +31 2w5tA Structure-based mechanism of lipoteichoic acid synthesis by staphylococcus aureus ltas.
S +31 2w8dA Distinct and essential morphogenic functions for wall- and lipo-teichoic acids in bacillus subtilis
K +31 2yfkA Crystal structure of a putative transcarbamoylase from enterococcus faecalis
K +31 2yy8A Crystal structure of archaeal trna-methylase for position 56 (atrm56) from pyrococcus horikoshii, complexed with s-adenosyl-l-methionine
K +31 2z0yA Crystal structure of ttha0657-sam complex
K +31 3ai9X Crystal structure of duf358 protein reveals a putative spout-class rrna methyltransferase
K +31 3aiaA Crystal structure of duf358 reveals a putative spout-class methltransferase
K +31 3bbdA M. jannaschii nep1 complexed with s-adenosyl-homocysteine
K +31 3bbeA M. jannaschii nep1
K +31 3bbhA M. jannaschii nep1 complexed with sinefungin
K +31 3dcmX Crystal structure of the thermotoga maritima spout family rna-methyltransferase protein tm1570 in complex with s-adenosyl-l-methionine
K +31 3e5yA Crystal structure of trmh family rna methyltransferase from burkholderia pseudomallei
S +31 3ed4A Crystal structure of putative arylsulfatase from escherichia coli
K +31
1
3ed7A Replacement of val3 in human thymidylate synthase affects its kinetic properties and intracellular stability
S +31
1
3f0tA Crystal structure of thymidine kinase from herpes simplex virus type 1 in complex with n-methyl-dhbt
K +31 3gyqA Structure of the thiostrepton-resistance methyltransferase s-adenosyl-l-methionine complex
K 41 41 3ibrA Crystal structure of p. aeruginosa bacteriophytochrome photosensory core module mutant q188l in the mixed pr/pfr state
K +31
1
3imlA Crystal structure of s-adenosylmethionine synthetase from burkholderia pseudomallei
K +31 3knuA Crystal structure of trna (guanine-n1)-methyltransferase from anaplasma phagocytophilum
K +31
1
3ktyA Crystal structure of probable methyltransferase from bordetella pertussis tohama i
K +31
1
3kw2A Crystal structure of probable rrna-methyltransferase from porphyromonas gingivalis
K +31 3ky7A 2.35 angstrom resolution crystal structure of a putative trna (guanine-7-)-methyltransferase (trmd) from staphylococcus aureus subsp. aureus mrsa252
K +31 3kzcA Crystal structure of n-acetyl-l-ornithine transcarbamylase
K +31 3kzkA Crystal structure of acetylornithine transcarbamylase complexed with acetylcitrulline
K +31 3kznA Crystal structure of n-acetyl-l-ornithine transcarbamylase complexed with n-acetyl-l-ornirthine
K +31 3kzoA Crystal structure of n-acetyl-l-ornithine transcarbamylase complexed with carbamyl phosphate and n-acetyl-l-norvaline
K +31 3l02A Crystal structure of n-acetyl-l-ornithine transcarbamylase e92a mutant complexed with carbamyl phosphate and n-succinyl-l-norvaline
K +31 3l04A Crystal structure of n-acetyl-l-ornithine transcarbamylase e92p mutant complexed with carbamyl phosphate and n-succinyl-l-norvaline
K +31 3l05A Crystal structure of n-acetyl-l-ornithine transcarbamylase e92s mutant complexed with carbamyl phosphate and n-succinyl-l-norvaline
K +31 3l06A Crystal structure of n-acetyl-l-ornithine transcarbamylase e92v mutant complexed with carbamyl phosphate and n-succinyl-l-norvaline
K +31 3l8uA Crystal structure of smu.1707c, a putative rrna methyltransferase from streptococcus mutans ua159
K +31 3m4jA Crystal structure of n-acetyl-l-ornithine transcarbamylase complexed with palao
K +31 3m4nA Crystal structure of n-acetyl-l-ornithine transcarbamylase k302a mutant complexed with palao
K +31 3m5cA Crystal structure of n-acetyl-l-ornithine transcarbamylase k302e mutant complexed with palao
K +31 3m5dA Crystal structure of n-acetyl-l-ornithine transcarbamylase k302r mutant complexed with palao
K +31 3n4jA Putative rna methyltransferase from yersinia pestis
K +31 3n4kA Putative rna methyltransferase from yersinia pestis in complex with s-adenosyl-l-homocysteine.
K +31 3nk6A Structure of the nosiheptide-resistance methyltransferase
K +31 3nk7A Structure of the nosiheptide-resistance methyltransferase s-adenosyl-l-methionine complex
K +31 3o7bA Crystal structure of archaeoglobus fulgidus nep1 bound to s-adenosylhomocysteine
K +31 3onpA Crystal structure of trna/rrna methyltransferase spou from rhodobacter sphaeroides
K +31 3q98A Structure of ygew encoded protein from e. coli
K +31 3quvA Crystal structure of a trna-guanine-n1-methyltransferase from mycobacterium abscessus
K +31
1
3rv2A Crystal structure of s-adenosylmethionine synthetase from mycobacterium marinum
K +31
1
3s82A Structure of a s-adenosylmethionine synthetase from mycobacterium avium
K +31
1
3tdeA Crystal structure of s-adenosylmethionine synthetase rv1392 from mycobacterium tuberculosis
S +31
1
3vtkA Thymidine kinase from herpes simplex virus type 1 in complex with adp and 5-iodo-deoxyuridine-monophosphate
K +31 4e8bA Crystal structure of 16s rrna methyltransferase rsme from e.coli
K +31 4fmwA Crystal structure of methyltransferase domain of human rna (guanine-9-) methyltransferase domain containing protein 2
K +31 4h3zA Crystal structure of a symmetric dimer of a trna (guanine-(n(1)-)-methyltransferase from burkholderia phymatum bound to s-adenosyl homocystein in both half-sites
K +31 4jakA Crystal structure of trna (um34/cm34) methyltransferase trml from escherichia coli
K +31 4jwfA Crystal structure of sptrm10(74)-sah complex
K +31 4jwhA Crystal structure of sptrm10(full length)-sah complex
K +31 4jwjA Crystal structure of sctrm10(84)-sah complex
S +31 4kavA Crystal structure of the soluble domain of lipooligosaccharide phosphoethanolamine transferase a from neisseria meningitidis
K +31 4kdzA Crystal structure of trna/rrna methyltransferase yibk from escherichia coli (target nysgrc-012599)
K +31 4kgnA Crystal structure of a trna (cytidine(34)-2'-o)-methyltransferase bound to s-adenosyl homocysteine
K +31 4l69A Rv2372c of mycobacterium tuberculosis is rsme like methyltransferse
K +31 4l7iA Crystal structure of s-adenosylmethionine synthase from sulfolobus solfataricus complexed with sam and ppi
K +31
1
4le5A Structure of an unusual s-adenosylmethionine synthetase from campylobacter jejuni
K +31 4odjA Crystal structure of a putative s-adenosylmethionine synthetase from cryptosporidium hominis in complex with s-adenosyl-methionine
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KnotProt | Interdisciplinary Laboratory of Biological Systems Modelling