Found 189 chains in Knotted chains table. Displaying 1 - 150. Applied filters: Probabilistic

List of protein chains where "artifacts" knots or slipknots are identified.

Hide raw data panel
#pdbid|chain|deposition date|is S/K-not|(slip)knot types;
      
  6kw3|I|2019-11-20|S|+3.1;
  6kw4|I|2019-11-20|S|+3.1;
  6k15|I|2019-11-20|S|+3.1 +3.1;
  6sgb|DH|2019-10-16|K|-3.1;
  6sgb|UY|2019-10-16|K|-3.1 4.1 4.1 4.1;
  6sgb|F5|2019-10-16|S|+3.1;
  6s4q|A|2019-10-16|K|-3.1;
  6sga|UY|2019-10-16|K|-3.1 4.1 4.1 4.1;
  6sg9|DH|2019-10-16|K|-3.1;
  6i2x|B|2019-09-21|S|+3.1;
  6nbq|F|2019-09-02|K|+3.1;
  6rao|I|2019-08-30|K|-3.1;
  6a9s|A|2019-06-20|S|+3.1;
  5mqn|A|2018-10-21|K|-3.1;
  6g7e|B|2018-10-21|S|-3.1;
  6fwu|A|2018-10-13|S|-3.1;
  6f38|M|2018-10-04|S|-3.1 -5.2 -3.1 7.3 7.2;
  5afu|M|2018-10-03|S|-3.1 -5.1;
  6f1t|N|2018-10-01|S|-5.2 -3.1 -3.1 -3.1;
  6f1y|f|2018-10-01|K|4.1;
  5zep|0|2018-09-28|K|8.2 +3.1 +3.1;
  4v4p|AM|2018-09-28|K|+3.1;
  5gxj|A|2018-09-22|S|4.1;
  5h7i|C|2018-09-16|S|-3.1;
  5if3|A|2018-09-16|K|+3.1;
  5aft|M|2018-09-15|S|-5.1 -3.1;
  6f1t|M|2018-09-15|S|-5.1 -3.1;
  5adx|M|2018-09-14|S|-3.1+5.1;
  5nw4|a|2018-09-14|S|-5.1 -3.1;
  6f3a|N|2018-09-14|S|-5.2 -3.1 -3.1;
  5adx|N|2018-09-14|S|-8.2 -5.2 -3.1 -3.1 -3.1;
  6f3a|M|2018-09-14|S|-5.1 -3.1 -3.1;
  5afu|N|2018-09-14|S|-8.2 -5.2 -3.1 -3.1 -3.1;
  1gjj|A|2018-09-14|S|7.4 5.1 +3.1;
  5nw4|b|2018-09-14|S|-8.2 -5.2 -3.1 -3.1 -3.1;
  6f38|N|2018-09-14|S|-8.20 -5.1 -3.1 -3.1 -3.1;
  5xq0|A|2018-09-13|S|-3.1;
  6ee5|A|2018-09-13|K|+3.1;
  5xq1|A|2018-09-13|S|4.1 4.1;
  5wwn|A|2018-09-13|K|-3.1 -3.1 -3.1 -3.1 -3.1 -3.1 -3.1 -3.1 -3.1 -3.1 -3.1;
  5uno|A|2018-09-13|S|+3.1;
  5x2p|A|2018-09-13|S|+3.1 +3.1;
  5z79|A|2018-09-13|K|-6.1 -3.1 -3.1 -3.1;
  5x2p|B|2018-09-13|S|-3.1 +3.1 -3.1 +3.1;
  5x2n|B|2018-09-13|S|+3.1 +3.1;
  5ugq|A|2018-09-13|S|+3.1;
  5uxz|A|2018-09-13|S|+3.1;
  4bpq|A|2018-09-13|S|-3.1 -5.2 -7.5 -5.1;
  3cmi|A|2018-09-12|K|+3.1;
  2bm0|A|2018-09-12|K|4.1;
  5l25|A|2018-09-12|K|0.1;
  5iw7|A|2018-09-12|S|4.1;
  5ayl|A|2018-09-12|S|+3.1 +3.1 +3.1;
  3qfh|D|2018-09-12|K|+3.1;
  4p0o|A|2018-09-12|S|4.1 -3.1 -3.1 -3.1 -3.1;
  2fy5|A|2018-09-12|K|-3.1 -3.1 -3.1;
  4ye9|A|2018-09-12|K|-3.1;
  3zxx|A|2018-09-12|K|+3.1;
  2cau|A|2018-09-12|K|-5.2;
  1gku|B|2018-09-12|K|+3.1;
  5ei0|A|2018-09-12|S|-3.1 -3.1 -3.1 -3.1;
  3psp|A|2018-09-12|K|+3.1;
  4fvm|A|2018-09-12|S|4.1;
  4o6c|A|2018-09-12|S|+3.1 +3.1;
  2cav|A|2018-09-12|K|-5.2 3.1;
  2r6e|A|2018-09-12|K|+3.1;
  3gh2|X|2018-09-12|K|+3.1;
  2vdx|A|2018-09-12|S|4.1 -3.1 -3.1 -3.1 -3.1;
  3vvj|A|2018-09-12|S|4.1 -3.1 -3.1 4.1 -3.1 -3.1;
  5gu7|C|2018-09-12|S|+3.1 +3.1;
  5gu6|A|2018-09-12|S|+3.1 +3.1;
  4xe2|A|2018-09-12|S|+3.1;
  5y3m|A|2018-04-18|K|+3.1;
  6crz|A|2018-04-12|S|+3.1 +3.1 +3.1 +3.1;
  5u8r|A|2018-03-03|S|-3.1 -3.1 -3.1 -3.1 -3.1;
  5u8r|A|2018-03-03|S|-3.1 -3.1 -3.1 -3.1 -3.1;
  5u8r|A|2018-02-28|S|-3.1;
  5u8r|A|2018-02-28|S|-3.1;
  5vi9|A|2018-01-31|K|4.1;
  6c3p|E|2018-01-25|K|-3.1;
  6f3a|Y|2018-01-22|S|-3.1;
  6f3a|Y|2018-01-22|S|-3.1;
  6f3a|Y|2018-01-19|S|-3.1;
  6f3a|Y|2018-01-19|S|-3.1;
  6f38|Y|2018-01-18|K|-3.1;
  6f1y|0|2018-01-18|K|4.1;
  5vhi|E|2017-08-27|K|+3.1;
  5vhs|E|2017-08-27|K|3.1;
  5tj6|A|2017-01-10|K|-3.1;
  5bt1|A|2016-10-26|S|-3.1;
  5gm6|Q|2016-10-05|K|-3.1;
  5l9u|A|2016-09-19|K|+3.1;
  5gmk|Q|2016-08-19|K|-3.1;
  5jpq|R|2016-07-30|S|4.1;
  5l3p|z|2016-07-21|K|-3.1;
  5ezt|X|2016-07-20|K|+3.1;
  5ikj|A|2016-04-23|K|4.1;
  5gao|E|2016-02-02|K|+3.1;
  5adx|Y|2015-12-31|K|3.1 8.2;
  5aor|A|2015-11-19|K|-3.1;
  4wzs|C|2015-08-26|K|+3.1;
  4yk8|B|2015-06-03|S|+3.1;
  3wpc|A|2015-02-11|K|+3.1;
  3wpg|A|2015-02-11|K|+3.1;
  3wph|A|2015-02-11|K|+3.1;
  3wpi|A|2015-02-11|K|+3.1;
  1s1h|I|2014-10-08|K|+3.1;
  2ybb|n|2014-10-08|K|+3.1;
  4ce4|z|2014-10-08|K|4.1 +6.2 +3.1 4.1;
  1ml5|m|2014-10-08|K|+3.1;
  1u8c|A|2014-10-07|S|+3.1;
  1vw1|A|2014-10-07|K|+3.1;
  1jv2|A|2014-10-06|S|+3.1;
  1l5g|A|2014-10-06|S|+3.1;
  4ux8|C|2014-10-04|K|+3.1;
  3fcs|A|2014-10-01|S|+3.1;
  4nm3|A|2014-09-30|K|+3.1;
  3oc3|A|2014-09-29|K|+3.1;
  3prx|A|2014-09-27|S|+3.1;
  1fe1|G|2014-09-25|S|+3.1;
  1ta2|A|2014-09-23|S|+3.1;
  4mmz|A|2014-09-23|K|+3.1;
  3m9s|M|2014-09-23|K|+3.1;
  3m9c|M|2014-09-23|K|+3.1;
  3c1k|A|2014-09-23|S|+3.1;
  2w4v|C|2014-09-23|S|+3.1 4.1;
  2rdo|7|2014-09-23|K|4.1;
  2odr|D|2014-09-23|S|+3.1 +3.1;
  2nmv|A|2014-09-23|K|4.1;
  2bdy|A|2014-09-23|S|+3.1;
  1zrb|A|2014-09-23|S|+3.1;
  1zgv|A|2014-09-23|S|+3.1;
  1zgi|A|2014-09-23|S|+3.1;
  1z71|A|2014-09-23|S|+3.1;
  1xm1|A|2014-09-23|S|+3.1;
  1w5c|X|2014-09-23|K|+3.1;
  1ta6|A|2014-09-23|S|+3.1;
  1t0j|B|2014-09-23|K|+3.1;
  1sl3|A|2014-09-23|S|+3.1;
  1nt1|A|2014-09-23|S|+3.1;
  1nm6|A|2014-09-23|S|+3.1;
  1ilx|G|2014-09-23|S|+3.1;
  1g37|A|2014-09-23|S|+3.1;
  1fka|C|2014-09-23|S|4.1;
  1eol|A|2014-09-23|S|+3.1;
  1eoj|A|2014-09-23|S|+3.1;
  1d9i|A|2014-09-23|S|+3.1;
  1d6w|A|2014-09-23|S|+3.1;
  2w4w|C|2014-09-23|K|+3.1;
  4mmy|A|2014-09-18|K|+3.1;
  3pvm|B|2014-09-03|K|+3.1;
  4jhw|F|2014-08-31|S|+3.1;
  4g1e|A|2014-08-23|K|+3.1 +3.1 4.1 +3.1 +3.1;
  3ije|A|2014-08-22|K|+3.1;
  4mmx|A|2014-08-22|S|+3.1;
  2pps|F|2014-08-20|K|+3.1;
  2w6e|G|2014-08-19|K|+3.1;
  2w6f|G|2014-08-19|K|+3.1;
  1w0k|G|2014-08-19|K|+3.1;
  1qo1|G|2014-08-19|K|+3.1;
  1nbm|G|2014-08-19|K|+3.1;
  1efr|G|2014-08-19|K|+3.1;
  1e1r|G|2014-08-19|K|+3.1;
  1cow|G|2014-08-19|K|+3.1;
  1bmf|G|2014-08-19|K|+3.1;
  1yl3|M|2014-08-19|K|+3.1;
  1giy|M|2014-08-19|K|+3.1;
  3e8d|A|2014-08-19|K|4.1 4.1;
  2xh5|A|2014-08-19|K|4.1 4.1;
  2x39|A|2014-08-19|K|4.1 4.1;
  2uw9|A|2014-08-19|K|4.1 4.1;
  2jdr|A|2014-08-19|K|4.1 4.1;
  1acb|E|2014-08-18|S|+3.1;
  4p26|D|2014-08-13|S|+3.1;
  4cru|A|2014-08-13|K|+3.1;
  4m1c|B|2014-08-10|S|+3.1 +3.1;
  4av2|A|2014-08-01|S|+3.1;
  1he8|A|2014-07-31|K|+3.1;
  1m1x|A|2014-07-31|K|+3.1;
  1mqs|A|2014-07-31|S|+3.1;
  1o6l|A|2014-07-31|K|4.1;
  1t0h|B|2014-07-31|K|+3.1;
  1yc0|A|2014-07-31|K|-5.2 -3.1;
  2d7d|A|2014-07-31|K|4.1;
  3e0j|A|2014-07-31|K|+3.1;
  3gbn|L|2014-07-31|K|+3.1;
  3iyk|A|2014-07-31|K|+3.1;
  4g1m|A|2014-07-31|K|4.1 +3.1;
  1eku|A|2014-07-31|K|+3.1;

      
Knot types Knot loop types pdb Title
S +31
1
6kw3I The classa rsc-nucleosome complex
S +31
1
6kw4I The classb rsc-nucleosome complex
S +31 +31
1
6k15I Rsc substrate-recruitment module
K -31
1
6sgbDH Mt-ssu assemblosome of trypanosoma brucei
K -31 41 41 41 6sgbUY Mt-ssu assemblosome of trypanosoma brucei
S +31
1
6sgbF5 Mt-ssu assemblosome of trypanosoma brucei
K -31
1
6s4qA Scdsav(sask) - engineering single-chain dimeric streptavidin as host for artificial metalloenzymes
K -31 41 41 41 6sgaUY Body domain of the mt-ssu assemblosome from trypanosoma brucei
K -31
1
6sg9DH Head domain of the mt-ssu assemblosome from trypanosoma brucei
S +31
1
6i2xB Structure of complement c5 in complex with small molecule inhibitor and cvf
K +31
1
6nbqF T.elongatus ndh (data-set 1)
K -31
1
6raoI Cryo-em structure of the anti-feeding prophage (afp) baseplate, 6-fold symmetrised
S +31
1
6a9sA The crystal structure of vaccinia virus a26 (residues 1-397)
K -31 K 1x -31
1
5mqnA Glycoside hydrolase bt_0986
S -31
1
6g7eB Crystal structure of chaetomium thermophilum mot1 (e1434q, 1837-1886 deletion mutant)
S -31
1
6fwuA Crystal structure of human wild type beta-1,4-galactosyltransferase-1 (b4galt1) in apo-closed dimeric form
S -31 -52 -31 7.3 72 6f38M Cryo-em structure of two dynein tail domains bound to dynactin and hook3
S -31 -51 5afuM Cryo-em structure of dynein tail-dynactin-bicd2n complex
S -52 -31 -31 -31 6f1tN Cryo-em structure of two dynein tail domains bound to dynactin and bicdr1
K 41
1
6f1yf Dynein light intermediate chain region of the dynein tail/dynactin/bicdr1 complex
K 82 +31 +31
1
5zep0 M. smegmatis hibernating state 70s ribosome structure
K +31
1
4v4pAM Crystal structure of 70s ribosome with thrs operator and trnas.
S 41 5gxjA Zika virus ns2b-ns3 protease
S -31
1
5h7iC Cryo-em structure of the cdt1-mcm2-7 complex in amppnp state
K +31
1
5if3A Crystal structure of a short-chain dehydrogenase/reductase sdr from burkholderia vietnamiensis
S -51 -31 5aftM Cryoem structure of dynactin complex at 4.0 angstrom resolution
S -51 -31 6f1tM Cryo-em structure of two dynein tail domains bound to dynactin and bicdr1
S -31+51 5adxM Cryoem structure of dynactin complex at 4.0 angstrom resolution
S -51 -31 5nw4a Human cytoplasmic dynein-1 bound to dynactin and an n-terminal construct of bicd2
S -52 -31 -31 6f3aN Cryo-em structure of a single dynein tail domain bound to dynactin and bicd2n
S -82 -52 -31 -31 -31 5adxN Cryoem structure of dynactin complex at 4.0 angstrom resolution
S -51 -31 -31 6f3aM Cryo-em structure of a single dynein tail domain bound to dynactin and bicd2n
S -82 -52 -31 -31 -31 5afuN Cryo-em structure of dynein tail-dynactin-bicd2n complex
S 7.4 51 +31
3
1gjjA N-terminal constant region of the nuclear envelope protein lap2
S -82 -52 -31 -31 -31 5nw4b Human cytoplasmic dynein-1 bound to dynactin and an n-terminal construct of bicd2
S -820 -51 -31 -31 -31 6f38N Cryo-em structure of two dynein tail domains bound to dynactin and hook3
S -31
1
5xq0A Structural basis of kindlin-mediated integrin recognition and activation
K +31
1
6ee5A Reactive centre loop dynamics and serpin specificity
S 41 41
1
5xq1A Structural basis of kindlin-mediated integrin recognition and activation
K -31 -31 -31 -31 -31 -31 -31 -31 -31 -31 -31
1
5wwnA Crystal structure of tsr1
S +31 5unoA Crystal structure of hip1 (rv2224c)
S +31 +31
1
5x2pA Crystal structure of the medaka fish taste receptor t1r2a-t1r3 ligand binding domains in complex with l-glutamate
K -61 -31 -31 -31
2
5z79A Crystal structure analysis of the hppk-dhps in complex with substrates
S -31 +31 -31 +31
1
5x2pB Crystal structure of the medaka fish taste receptor t1r2a-t1r3 ligand binding domains in complex with l-glutamate
S +31 +31
1
5x2nB Crystal structure of the medaka fish taste receptor t1r2a-t1r3 ligand binding domains in complex with l-alanine
S +31 5ugqA Crystal structure of hip1 (rv2224c)
S +31 5uxzA X-ray crystal structure of halotag bound to the p9 benzothiadiazole fluorogenic ligand
S -31 -52 -75 -51 4bpqA Structure and substrate induced conformational changes of the secondary citrate-sodium symporter cits revealed by electron crystallography
K +31
1
3cmiA Crystal structure of glutathione-dependent phospholipid peroxidase hyr1 from the yeast saccharomyces cerevisiae
K 41
1
2bm0A Ribosomal elongation factor g (ef-g) fusidic acid resistant mutant t84a
K 01
2
5l25A Crystal structure of arabidopsis thaliana bor1
S 41
1
5iw7A Crystal structure of yeast tsr1, a pre-40s ribosome synthesis factor
S +31 +31 +31 5aylA Crystal structure of erdj5 form ii
K +31 3qfhD 2.05 angstrom resolution crystal structure of epidermin leader peptide processing serine protease (epip) from staphylococcus aureus.
S 41 -31 -31 -31 -31
2
4p0oA Cleaved serpin 42da
K -31 -31 -31
1
2fy5A Structures of ligand bound human choline acetyltransferase provide insight into regulation of acetylcholine synthesis
K -31
1
4ye9A The crystal structure of the g45v mutant of human glnrs
K +31 K 4x +31
5
3zxxA Structure of self-cleaved protease domain of pata
K -52
2
2cauA Canavalin from jack bean
K +31 K 3x +31 1gkuB Reverse gyrase from archaeoglobus fulgidus
S -31 -31 -31 -31
2
5ei0A Structure of rcl-cleaved vaspin (serpina12)
K +31
1
3pspA Crystal structure of pul and pfu domain
S 41
1
4fvmA Crystal structure of yeast dna polymerase alpha
S +31 +31
1
4o6cA West nile virus non-structural protein 1 (ns1) form 2 crystal
K -52 31
2
2cavA Canavalin from jack bean
K +31
1
2r6eA Crystal form b2
K +31
1
3gh2X Replacement of val3 in human thymidylate synthase affects its kinetic properties and intracellular stability
S 41 -31 -31 -31 -31
2
2vdxA Crystal structure of the reactive loop cleaved corticosteroid binding globulin
S 41 -31 -31 41 -31 -31
2
3vvjA Structure of ovalbumin from emu (dromaius novaehollandiae)
S +31 +31 5gu7C Crystal structure of human erp44 form ii
S +31 +31 5gu6A Crystal structure of human erp44 form i
S +31
1
4xe2A N-terminal domain of hsp90 from dictyostelium discoideum in complex with peptide
K +31
1
5y3mA Crystal structure of bovine tlr9 in complex with two dnas (cpg dna and tcgttt dna)
S +31 +31 +31 +31
1
6crzA Sars spike glycoprotein, trypsin-cleaved, stabilized variant, c3 symmetry
S -31
2
5u8rA Structure of the ectodomain of the human type 1 insulin-like growth factor receptor
S -31
2
5u8rA Structure of the ectodomain of the human type 1 insulin-like growth factor receptor
K 41
1
5vi9A Crystal structure of protein kinase a in complex with the pki peptide and aminobenzothiazole based inhibitors
K -31
1
6c3pE Cryo-em structure of human katp bound to atp and adp in propeller form
S -31 6f3aY Cryo-em structure of a single dynein tail domain bound to dynactin and bicd2n
S -31 6f3aY Cryo-em structure of a single dynein tail domain bound to dynactin and bicd2n
K -31 6f38Y Cryo-em structure of two dynein tail domains bound to dynactin and hook3
K 41
1
6f1y0 Dynein light intermediate chain region of the dynein tail/dynactin/bicdr1 complex
K +31
1
5vhiE Conformational landscape of the p28-bound human proteasome regulatory particle
K 31
2
5vhsE Conformational landscape of the p28-bound human proteasome regulatory particle
K -31
1
5tj6A Ca2+ bound aplysia slo1
S -31
1
5bt1A Histone chaperone hif1 playing with histone h2a-h2b dimer
K -31
1
5gm6Q Cryo-em structure of the activated spliceosome (bact complex) at 3.5 angstrom resolution
K +31
1
5l9uA Model of human anaphase-promoting complex/cyclosome (apc/c-cdh1) with a cross linked ubiquitin variant-substrate-ube2c (ubch10) complex representing key features of multiubiquitination
K -31
1
5gmkQ Cryo-em structure of the catalytic step i spliceosome (c complex) at 3.4 angstrom resolution
S 41 5jpqR Cryo-em structure of the 90s pre-ribosome
K -31 5l3pz Cryo-em structure of stringent response factor rela bound to ermcl-stalled ribosome complex
K +31
1
5eztX Peracetylated bovine carbonic anhydrase ii
K 41
1
5ikjA Structure of clr2 bound to the clr1 c-terminus
K +31 5gaoE Head region of the yeast spliceosomal u4/u6.u5 tri-snrnp
K 31 82 5adxY Cryoem structure of dynactin complex at 4.0 angstrom resolution
K -31
1
5aorA Structure of mle rna adp alf4 complex
K +31
1
4wzsC Crystal structure of the mot1 n-terminal domain in complex with tbp and nc2 bound to a promoter dna fragment
S +31
1
4yk8B Crystal structure of the atg101-atg13 complex from fission yeast
K +31
1
3wpcA Crystal structure of horse tlr9 in complex with agonistic dna1668_12mer
K +31
1
3wpgA Crystal structure of mouse tlr9 in complex with inhibitory dna4084 (form 1)
K +31
1
3wphA Crystal structure of mouse tlr9 in complex with inhibitory dna4084 (form 2)
K +31
1
3wpiA Crystal structure of mouse tlr9 in complex with inhibitory dna_super
K +31 1s1hI Structure of the ribosomal 80s-eef2-sordarin complex from yeast obtained by docking atomic models for rna and protein components into a 11.7 a cryo-em map. this file, 1s1h, contains 40s subunit. the 60s ribosomal subunit is in file 1s1i.
K +31 2ybbn Fitted model for bovine mitochondrial supercomplex i1iii2iv1 by single particle cryo-em (emd-1876)
K 41 +62 +31 41 4ce4z 39s large subunit of the porcine mitochondrial ribosome
K +31
1
1ml5m Structure of the e. coli ribosomal termination complex with release factor 2
S +31
1
1u8cA A novel adaptation of the integrin psi domain revealed from its crystal structure
K +31
1
1vw1A Crystal structure of tcda1
S +31
1
1jv2A Crystal structure of the extracellular segment of integrin alphavbeta3
S +31
1
1l5gA Crystal structure of the extracellular segment of integrin avb3 in complex with an arg-gly-asp ligand
K +31
1
4ux8C Ret recognition of gdnf-gfralpha1 ligand by a composite binding site promotes membrane-proximal self-association
S +31
1
3fcsA Structure of complete ectodomain of integrin aiibb3
K +31
1
4nm3A Crystal structure of gsk-3/axin complex bound to phosphorylated n-terminal auto-inhibitory ps9 peptide
K +31
1
3oc3A Crystal structure of the mot1 n-terminal domain in complex with tbp
S +31
1
3prxA Structure of complement c5 in complex with cvf and ssl7
S +31 1fe1G Crystal structure photosystem ii
S +31
1
1ta2A Crystal structure of thrombin in complex with compound 1
K +31
1
4mmzA Integrin alphavbeta3 ectodomain bound to an antagonistic tenth domain of fibronectin
K +31 3m9sM Crystal structure of respiratory complex i from thermus thermophilus
K +31 3m9cM Crystal structure of the membrane domain of respiratory complex i from escherichia coli
S +31
1
3c1kA Crystal structure of thrombin in complex with inhibitor 15
S +31 41
2
2w4vC Isometrically contracting insect asynchronous flight muscle quick frozen after a quick release step
K 41
1
2rdo7 50s subunit with ef-g(gdpnp) and rrf bound
S +31 +31
1
2odrD Methanococcus maripaludis phosphoseryl-trna synthetase
K 41
1
2nmvA Damage detection by the uvrabc pathway: crystal structure of uvrb bound to fluorescein-adducted dna
S +31
1
2bdyA Thrombin in complex with inhibitor
S +31
1
1zrbA Thrombin in complex with an azafluorenyl inhibitor 23b
S +31
1
1zgvA Thrombin in complex with an oxazolopyridine inhibitor 2
S +31
1
1zgiA Thrombin in complex with an oxazolopyridine inhibitor 21
S +31
1
1z71A Thrombin and p2 pyridine n-oxide inhibitor complex structure
S +31
1
1xm1A Nonbasic thrombin inhibitor complex
K +31 1w5cX Photosystem ii from thermosynechococcus elongatus
S +31
1
1ta6A Crystal structure of thrombin in complex with compound 14b
K +31
1
1t0jB Crystal structure of a complex between voltage-gated calcium channel beta2a subunit and a peptide of the alpha1c subunit
S +31
1
1sl3A Crystal structue of thrombin in complex with a potent p1 heterocycle-aryl based inhibitor
S +31
1
1nt1A Thrombin in complex with selective macrocyclic inhibitor
S +31
1
1nm6A Thrombin in complex with selective macrocyclic inhibitor at 1.8a
S +31 1ilxG Excited state dynamics in photosystem ii revised. new insights from the x-ray structure.
S +31
1
1g37A Crystal structure of human alpha-thrombin complexed with bch-10556 and exosite-directed peptide
S 41 1fkaC Structure of functionally activated small ribosomal subunit at 3.3 a resolution
S +31
1
1eolA Design of p1' and p3' residues of trivalent thrombin inhibitors and their crystal structures
S +31
1
1eojA Design of p1' and p3' residues of trivalent thrombin inhibitors and their crystal structures
S +31
1
1d9iA Structure of thrombin complexed with selective non-electophilic inhibitors having cyclohexyl moieties at p1
S +31
1
1d6wA Structure of thrombin complexed with selective non-electrophilic inhibitors having cyclohexyl moieties at p1
K +31
1
2w4wC Isometrically contracting insect asynchronous flight muscle quick frozen after a quick stretch step
K +31
1
4mmyA Integrin alphavbeta3 ectodomain bound to the tenth domain of fibronectin with the iakgdwnd motif
K +31
1
3pvmB Structure of complement c5 in complex with cvf
S +31
1
4jhwF Crystal structure of respiratory syncytial virus fusion glycoprotein stabilized in the prefusion conformation by human antibody d25
K +31 +31 41 +31 +31
2
4g1eA Crystal structure of integrin alpha v beta 3 with coil-coiled tag.
K +31
1
3ijeA Crystal structure of the complete integrin alhavbeta3 ectodomain plus an alpha/beta transmembrane fragment

KnotProt | Interdisciplinary Laboratory of Biological Systems Modelling