Found 197 chains in Knotted chains table. Displaying 1 - 150. Applied filters: Probabilistic

Search results query: hydrolase

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#pdbid|chain|deposition date|is S/K-not|(slip)knot types;
      
  7ock|B|2021-07-28|K|+3.1;
  6nff|A|2019-10-17|S|+3.1 +3.1;
  6pso|A|2019-10-16|S|+3.1;
  6prm|A|2019-10-16|S|+3.1;
  6ac6|A|2019-09-16|K|+3.1;
  6hd2|A|2019-09-11|S|+3.1;
  6hhm|A|2019-07-18|S|+3.1;
  6j66|A|2019-07-13|S|+3.1;
  6qeb|A|2019-03-08|S|+3.1;
  6h6s|A|2019-01-16|S|+3.1;
  5bu6|A|2018-10-20|S|+3.1;
  3wbh|A|2018-10-20|S|+3.1;
  5bu6|B|2018-10-20|S|+3.1;
  4qrv|A|2018-10-19|K|-3.1 -3.1 -3.1;
  1am6|A|2018-10-19|S|+3.1;
  3e2d|A|2018-10-19|S|+3.1;
  3q3q|A|2018-10-19|S|+3.1;
  1cvc|A|2018-10-18|S|+3.1;
  5xwk|A|2018-09-26|S|+3.1;
  5gsl|A|2018-09-16|S|+3.1;
  3tb3|A|2018-09-14|S|-3.1 -3.1;
  3bjx|A|2018-09-13|K|+3.1 4.1 +6.1;
  5tj3|A|2018-09-13|S|+3.1;
  5g2v|A|2018-09-12|S|+3.1;
  5g2t|A|2018-09-12|S|+3.1;
  6b1v|A|2018-03-15|S|+3.1;
  6fny|A|2018-03-02|S|+3.1;
  5olb|A|2018-01-03|S|+3.1;
  5ohi|A|2018-01-03|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;
  5m0s|A|2017-08-29|S|+3.1;
  5g2u|A|2017-05-24|S|+3.1;
  5udy|A|2017-03-27|S|+3.1;
  5tcd|A|2017-03-26|S|+3.1;
  5fql|A|2017-01-19|S|+3.1;
  5ew5|A|2016-07-20|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;
  5dlw|A|2016-04-15|S|+3.1;
  5dlv|A|2016-04-15|S|+3.1;
  5aj9|A|2016-03-20|S|+3.1;
  5egh|A|2016-03-12|S|+3.1;
  5ege|A|2016-03-12|S|+3.1;
  4cxs|A|2015-05-13|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;
  4uf6|A|2015-03-04|K|-5.2 -3.1 -3.1;
  4uf5|A|2015-03-04|K|-5.2 -3.1 -3.1;
  4uem|A|2015-03-04|K|-5.2 -3.1 -3.1;
  4uel|A|2015-03-04|K|-5.2 -3.1 -3.1;
  1wog|A|2015-02-05|S|+3.1;
  3bdg|B|2014-10-08|S|+3.1;
  3pzl|A|2014-10-08|S|+3.1 +3.1 +3.1;
  3niq|A|2014-10-08|S|+3.1 +3.1 +3.1;
  3nip|A|2014-10-08|S|+3.1 +3.1 +3.1;
  1woi|A|2014-10-08|S|+3.1 +3.1 +3.1;
  1gq6|A|2014-10-08|S|+3.1 +3.1 +3.1;
  1gq7|A|2014-10-08|S|+3.1 +3.1 +3.1;
  1woh|A|2014-10-08|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;
  3nkr|A|2014-10-06|S|+3.1;
  3nkn|A|2014-09-18|S|+3.1;
  3ihr|A|2014-08-20|K|-5.2 -3.1 -3.1;
  2ga3|A|2014-08-19|S|+3.1;
  2len|A|2014-08-19|K|-5.2 -3.1 -3.1;
  4kjg|A|2014-08-19|S|+3.1;
  4lqy|A|2014-08-19|S|+3.1;
  4fdj|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;
  3szz|A|2014-08-18|S|+3.1;
  3t00|A|2014-08-18|S|+3.1;
  4n2x|A|2014-08-13|K|+6.1 +6.1 4.1 +3.1;
  3wj8|A|2014-08-13|K|+6.1 +6.1 4.1 +3.1;
  4jkj|A|2014-08-13|K|-5.2 -3.1 -3.1;
  4jkj|B|2014-08-13|K|-5.2 -3.1 -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;
  1auk|A|2014-07-31|S|+3.1;
  1cmx|A|2014-07-31|K|-3.1;
  1e1z|P|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;
  1elx|A|2014-07-31|S|+3.1;
  1ely|A|2014-07-31|S|+3.1;
  1elz|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;
  1f48|A|2014-07-31|K|+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;
  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;
  1lm4|A|2014-07-31|S|-3.1;
  1lns|A|2014-07-31|S|+3.1 +3.1 +3.1;
  1n2k|A|2014-07-31|S|+3.1;
  1n2l|A|2014-07-31|S|+3.1;
  1p49|A|2014-07-31|S|+3.1;
  1shn|A|2014-07-31|S|+3.1;
  1shq|A|2014-07-31|S|+3.1;
  1vpb|A|2014-07-31|S|+3.1;
  1xd3|A|2014-07-31|K|-5.2 -3.1 -3.1;
  1y6v|A|2014-07-31|S|+3.1;
  1y7a|A|2014-07-31|S|+3.1;
  1yh1|A|2014-07-31|K|+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;
  2axc|A|2014-07-31|S|+3.1 +3.1 +3.1 +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;
  2iuc|A|2014-07-31|S|+3.1;
  2iuc|B|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;
  2w5v|A|2014-07-31|S|+3.1;
  2w5w|A|2014-07-31|S|+3.1;
  2w5x|A|2014-07-31|S|+3.1;
  2w8s|A|2014-07-31|S|+3.1;
  2we6|A|2014-07-31|K|-5.2 -3.1 -3.1;
  2x98|A|2014-07-31|S|+3.1;
  2xr9|A|2014-07-31|S|+3.1;
  3a52|A|2014-07-31|S|+3.1;
  3a7s|A|2014-07-31|K|-5.2 -3.1 -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;
  3en9|A|2014-07-31|S|+3.1;
  3fsg|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;
  3nkq|A|2014-07-31|S|+3.1;
  3rii|A|2014-07-31|K|-5.2 -3.1 -3.1;
  3ris|A|2014-07-31|K|-5.2 -3.1 -3.1;
  3sig|A|2014-07-31|K|+3.1;
  3sij|A|2014-07-31|K|+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;
  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;
  4h6v|A|2014-07-31|K|+3.1;
  4kjd|A|2014-07-31|S|+3.1;
  4km4|A|2014-07-31|S|+3.1;
  4lr2|A|2014-07-31|S|+3.1;
Knot types Knot loop types pdb Title
K +31 7ockB Mat in complex with samh
S +31 +31 6nffA Structure of x-prolyl dipeptidyl aminopeptidase from lactobacillus helveticus
S +31 6psoA Crystal structure of pss1_19b c77s in complex with iota-neocarratetraose
S +31 6prmA Crystal structure of apo pss1_19b
K +31
1
6ac6A Ab initio crystal structure of selenomethionine labelled mycobacterium smegmatis mfd
S +31 S 3x +31 6hd2A Active-site conformational dynamics of carbonic anhydrase ii under native conditions: an nmr perspective
S +31 6hhmA Crystal structure of the family s1_7 ulvan-specific sulfatase fa22070 from formosa agariphila
S +31
1
6j66A Chondroitin sulfate/dermatan sulfate endolytic 4-o-sulfatase
S +31 S 3x +31 6qebA Assessment of a large enzyme-drug complex by proton-detected solid-state nmr without deuteration
S +31 S 3x +31 6h6sA Sad phasing on nickel-substituted human carbonic anhydrase ii
S +31 S 3x +31 5bu6A Structure of bpsb deaceylase domain from bordetella bronchiseptica
S +31 S 12x -31 3wbhA Structural characteristics of alkaline phosphatase from a moderately halophilic bacteria halomonas sp.593
S +31 S 3x +31 5bu6B Structure of bpsb deaceylase domain from bordetella bronchiseptica
K -31 -31 -31 K 6x -31 -31 1x -31 -31 -31 -31 -31
8
4qrvA Crystal structure of i86f mutant of papain
S +31 S 15x +31 1am6A Carbonic anhydrase ii inhibitor: acetohydroxamate
S +31 S 4x -31 3e2dA The 1.4 a crystal structure of the large and cold-active vibrio sp. alkaline phosphatase
S +31 S 64x -31 3q3qA Crystal structure of spap: an novel alkaline phosphatase from bacterium sphingomonas sp. strain bsar-1
S +31 S 3x +31 1cvcA Redesigning the zinc binding site of human carbonic anhydrase ii: structure of a his2asp-zn2+ metal coordination polyhedron
S +31 S 64x -31 2x +31 5xwkA Crystal structure of spap, an alkaline phosphatase from sphingomonas in complex with inorganic phosphate
S +31 5gslA Glycoside hydrolase a
S -31 -31
1
3tb3A Crystal structure of the uch domain of uch-l5 with 6 residues deleted
K +31 41 +61 3bjxA Structure of a group i haloacid dehalogenase from pseudomonas putida strain pp3
S +31
1
5tj3A Crystal structure of wild type alkaline phosphatase pafa to 1.7a resolution
S +31 5g2vA Structure of bt4656 in complex with its substrate d-glucosamine-2-n, 6-o-disulfate.
S +31 5g2tA Bt1596 in complex with its substrate 4,5 unsaturated uronic acid alpha 1,4 d-glucosamine-2-n, 6-o-disulfate
S +31 6b1vA Crystal structure of ps i-cgsb c78s in complex with i-neocarratetraose
S +31 6fnyA Crystal structure of a choline sulfatase from sinorhizobium melliloti
S +31 5olbA Crystal structure of autotaxin in complex with pf-8380
S +31 5ohiA Crystal structure of autotaxin in complex with bi-2545
S +31 5tooA Crystal structure of alkaline phosphatase pafa t79s, n100a, k162a, r164a mutant
S +31 5tpqA E. coli alkaline phosphatase d101a, d153a, r166s, e322a, k328a mutant
S +31 5njbB E. coli microcin-processing metalloprotease tldd/e with actinonin bound
S +31 5njaB E. coli microcin-processing metalloprotease tldd/e with angiotensin analogue bound
S +31 5nj9A E. coli microcin-processing metalloprotease tldd/e with drvy angiotensin fragment bound
S +31 5njaA E. coli microcin-processing metalloprotease tldd/e with angiotensin analogue bound
S +31 5nj5A E. coli microcin-processing metalloprotease tldd/e with phosphate bound
S +31 5njbA E. coli microcin-processing metalloprotease tldd/e with actinonin bound
S +31 5nj5B E. coli microcin-processing metalloprotease tldd/e with phosphate bound
S +31 5nj9B E. coli microcin-processing metalloprotease tldd/e with drvy angiotensin fragment bound
S +31 5veoA Murine ectonucleotide pyrophosphatase / phosphodiesterase 5 (enpp5, npp5), inactive (t72a), in complex with amp
S +31 5m0sA Structure-based evolution of a hybrid steroid series of autotaxin inhibitors
S +31
1
5g2uA Structure of bt1596,a 2-o gag sulfatase
S +31 5udyA Human alkaline sphingomyelinase (alk-smase, enpp7, npp7)
S +31 5tcdA Human alkaline sphingomyelinase (enpp7) in complex with phosphocholine
S +31
1
5fqlA Insights into hunter syndrome from the structure of iduronate-2- sulfatase
S +31 5ew5A Crystal structure of colicin e9 in complex with its immunity protein im9
S +31 5ijqA Crystal structure of autotaxin (enpp2) re-refined
S +31
1
5ijsA Crystal structure of autotaxin with orthovanadate bound as a trigonal bipyramidal intermediate analog
S +31 5c66A E. coli alkaline phosphatase in complex with tungstate
S +31 5dlwA Crystal structure of autotaxin (enpp2) with tauroursodeoxycholic acid (tudca) and lysophosphatidic acid (lpa)
S +31 5dlvA Crystal structure of autotaxin (enpp2) with tauroursodeoxycholic acid (tudca)
S +31
1
5aj9A G7 mutant of pas, arylsulfatase from pseudomonas aeruginosa
S +31 5eghA Structure of enpp6, a choline-specific glycerophosphodiester-phosphodiesterase in complex with phosphocholine
S +31 5egeA Structure of enpp6, a choline-specific glycerophosphodiester-phosphodiesterase
S +31
1
4cxsA G4 mutant of pas, arylsulfatase from pseudomonas aeruginosa, in complex with phenylphosphonic acid
S +31 4yr1A Crystal structure of e. coli alkaline phosphatase d101a/d153a in complex with inorganic phosphate
S +31
1
4cysA G6 mutant of pas, arylsulfatase from pseudomonas aeruginosa, in complex with phenylphosphonic acid
S +31
1
4cyrA G4 mutant of pas, arylsulfatase from pseudomonas aeruginosa
S +31
1
4cxkA G9 mutant of pas, arylsulfatase from pseudomonas aeruginosa
S +31
1
4cxuA G4 mutant of pas, arylsulfatase from pseudomonas aeruginosa, in complex with 3-br-phenolphenylphosphonate
K -52 -31 -31
2
4uf6A Uch-l5 in complex with ubiquitin-propargyl bound to an activating fragment of ino80g
K -52 -31 -31
2
4uf5A Crystal structure of uch-l5 in complex with inhibitory fragment of ino80g
K -52 -31 -31
2
4uemA Uch-l5 in complex with the rpn13 deubad domain
K -52 -31 -31
2
4uelA Uch-l5 in complex with ubiquitin-propargyl bound to the rpn13 deubad domain
S +31 1wogA Crystal structure of agmatinase reveals structural conservation and inhibition mechanism of the ureohydrolase superfamily
S +31
1
3bdgB Crystal structure of wild-type/t155v mixed dimer of e. coli alkaline phosphatase
S +31 +31 +31 3pzlA The crystal structure of agmatine ureohydrolase of thermoplasma volcanium
S +31 +31 +31 3niqA Crystal structure of pseudomonas aeruginosa guanidinopropionase
S +31 +31 +31 3nipA Crystal structure of pseudomonas aeruginosa guanidinopropionase complexed with 1,6-diaminohexane
S +31 +31 +31 1woiA Crystal structure of agmatinase reveals structural conservation and inhibition mechanism of the ureohydrolase superfamily
S +31 +31 +31 1gq6A Proclavaminate amidino hydrolase from streptomyces clavuligerus
S +31 +31 +31 1gq7A Proclavaminate amidino hydrolase from streptomyces clavuligerus
S +31 1wohA Crystal structure of agmatinase reveals structural conservation and inhibition mechanism of the ureohydrolase superfamily
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 3nkrA Crystal structure of mouse autotaxin in complex with 22:6-lpa
S +31 3nknA Crystal structure of mouse autotaxin in complex with 14:0-lpa
K -52 -31 -31
2
3ihrA Crystal structure of uch37
S +31 2ga3A Structure of s102t e. coli alkaline phosphatase-phosphate intermediate at 2.20a resolution
K -52 -31 -31 2lenA Solution structure of uchl1 s18y variant
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 4fdjA The molecular basis of mucopolysaccharidosis iv a, complex with galnac
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 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
K +61 +61 41 +31 4n2xA Crystal structure of dl-2-haloacid dehalogenase
K +61 +61 41 +31 3wj8A Crystal structure of dl-2-haloacid dehalogenase mutant with 2-bromo-2-methylpropionate
K -52 -31 -31 4jkjA Crystal structure of the s18y variant of ubiquitin carboxy-terminal hydrolase l1
K -52 -31 -31 4jkjB Crystal structure of the s18y variant of ubiquitin carboxy-terminal hydrolase l1
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 1aukA Human arylsulfatase a
K -31
1
1cmxA Structural basis for the specificity of ubiquitin c-terminal hydrolases
S +31 1e1zP Crystal structure of an arylsulfatase a mutant c69s
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 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 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
K +31
1
1f48A Crystal structure of the escherichia coli arsenite-translocating atpase
S +31
1
1fsuA 4-sulfatase (human)
S +31 1hdhA Arylsulfatase from pseudomonas aeruginosa
S +31 1hjkA Alkaline phosphatase mutant h331q
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
1lm4A Structure of peptide deformylase from staphylococcus aureus at 1.45 a
S +31 +31 +31 1lnsA Crystal structure analysis of the x-prolyl dipeptidyl aminopeptidase from lactococcus lactis
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
1
1p49A Structure of human placental estrone/dhea sulfatase
S +31 1shnA Crystal structure of shrimp alkaline phosphatase with phosphate bound
S +31 1shqA Crystal structure of shrimp alkaline phosphatase with magnesium in m3
S +31 1vpbA Crystal structure of a putative modulator of dna gyrase (bt3649) from bacteroides thetaiotaomicron vpi-5482 at 1.75 a resolution
K -52 -31 -31 1xd3A Crystal structure of uchl3-ubvme complex
S +31 1y6vA Structure of e. coli alkaline phosphatase in presence of cobalt at 1.60 a resolution
S +31 1y7aA Structure of d153h/k328w e. coli alkaline phosphatase in presence of cobalt at 1.77 a resolution
K +31 1yh1A Crystal structure of acetylornithine transcarbamylase
S +31 1zebA X-ray structure of alkaline phosphatase from human placenta in complex with 5'-amp
S +31 1zedA Alkaline phosphatase from human placenta in complex with p-nitrophenyl-phosphonate
S +31 1zefA Structure of alkaline phosphatase from human placenta in complex with its uncompetitive inhibitor l-phe
S +31 +31 +31 +31 2axcA Crystal structure of cole7 translocation domain
S +31 2d1gA Structure of francisella tularensis acid phosphatase a (acpa) bound to orthovanadate
S +31 2g9yA Structure of s102t e. coli alkaline phosphatase in presence of phosphate at 2.00 a resolution
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KnotProt | Interdisciplinary Laboratory of Biological Systems Modelling