Structural studies of CNG repeatsThe crystal structure of the monomeric human SOD mutant F50E/G51E/E133Q at atomic resolution. The enzyme mechanism revisitedA new proposal for urease mechanism based on the crystal structures of the native and inhibited enzyme from Bacillus pasteurii: why urea hydrolysis costs two nickelsThe complex of Bacillus pasteurii urease with acetohydroxamate anion from X-ray data at 1.55 A resolutionCrystal structure of oxidized Bacillus pasteurii cytochrome c553 at 0.97-A resolutionFusarium oxysporum trypsin at atomic resolution at 100 and 283 K: a study of ligand bindingThe 1.19 A X-ray structure of 2'-O-Me(CGCGCG)(2) duplex shows dehydrated RNA with 2-methyl-2,4-pentanediol in the minor grooveStructure-based rationalization of urease inhibition by phosphate: novel insights into the enzyme mechanismCrystallisation under microgravity of mistletoe lectin I from Viscum album with adenine monophosphate and the crystal structure at 1.9 A resolutionThe structure of a functional unit from the wall of a gastropod hemocyanin offers a possible mechanism for cooperativityTrypsin revisited: crystallography AT (SUB) atomic resolution and quantum chemistry revealing details of catalysisFirst look at RNA in L-configurationThe crystal and solution studies of glucosamine-6-phosphate synthase from Candida albicansThe mistletoe lectin I--phloretamide structure reveals a new function of plant lectinsHigh resolution crystal structure of Rubrivivax gelatinosus cytochrome c'Noncanonical G(syn)-G(anti) base pairs stabilized by sulphate anions in two X-ray structures of the (GUGGUCUGAUGAGGCC) RNA duplexStructure of mistletoe lectin I from Viscum album in complex with the phytohormone zeatinCrystallization and structure determination to 2.5-A resolution of the oxidized [2Fe-2S] ferredoxin isolated from Anabaena 7120Structural insights into CUG repeats containing the 'stretched U-U wobble': implications for myotonic dystrophyAtomic resolution structure of CAG RNA repeats: structural insights and implications for the trinucleotide repeat expansion diseasesCrystallographic analysis of a thermoactive nitrilaseThe crystal structures of eukaryotic phosphofructokinases from baker's yeast and rabbit skeletal muscleCrystal structures of CGG RNA repeats with implications for fragile X-associated tremor ataxia syndromeCrystallographic and X-ray absorption spectroscopic characterization of Helicobacter pylori UreE bound to Ni 2+ and Zn 2+ reveals a role for the disordered C-terminal arm in metal traffickingBinding of the plant hormone kinetin in the active site of Mistletoe Lectin I from Viscum albumCrystallographic characterization of CCG repeatsStructure of a complete four-domain chitinase from Moritella marina, a marine psychrophilic bacteriumCrystal Structure of Mouse Thymidylate Synthase in Tertiary Complex with dUMP and Raltitrexed Reveals N-Terminus Architecture and Two Different Active Site ConformationsSelectivity of Ni(II) and Zn(II) binding to Sporosarcina pasteurii UreE, a metallochaperone in the urease assembly: a calorimetric and crystallographic studyCrystal structure of phosphoramide-phosphorylated thymidylate synthase reveals pSer127, reflecting probably pHis to pSer phosphotransferCrystal structures of substrate-bound chitinase from the psychrophilic bacterium Moritella marina and its structure in solutionCrystal structure of unliganded phosphofructokinase from Escherichia coliThe molecular structure of insecticyanin from the tobacco hornworm Manduca sexta L. at 2.6 A resolutionCrystal structure of reduced bovine erythrocyte superoxide dismutase at 1.9 A resolutionThree-dimensional structure of myosin subfragment-1: a molecular motorStructural consequences of reductive methylation of lysine residues in hen egg white lysozyme: an X-ray analysis at 1.8-A resolutionCrystal structure of 2'-O-Me(CGCGCG)2, an RNA duplex at 1.30 A resolution. Hydration pattern of 2'-O-methylated RNAHigh-resolution native and complex structures of thermostable beta-mannanase from Thermomonospora fusca - substrate specificity in glycosyl hydrolase family 5Asp49 phospholipase A(2)-elaidoylamide complex: a new mode of inhibitionThe 10.8-A structure of Saccharomyces cerevisiae phosphofructokinase determined by cryoelectron microscopy: localization of the putative fructose 6-phosphate binding sites.
P50
Q26851232-3DDE5CCA-B9EE-4EED-BC27-4B8E4FA3982CQ27618186-F1D84F77-4162-4FC4-B9F7-54BE9441E5C7Q27618645-857D3F3C-6DAA-4A67-A816-30C2F2BE799AQ27622227-4C36DA52-9C70-4CBD-B0A8-EE8339975AA2Q27627690-615FB42A-6A5F-4B6E-A7F7-5623F9494833Q27629070-202204BC-A51A-4703-913D-ED3B8342F613Q27635370-6F2430C6-58BD-4472-8AEB-87E2E3D224E3Q27636261-6CDB337B-1F23-48FE-B082-22FF7F42B381Q27639710-217FB9C2-A85E-4F76-8896-732AC3E8EB59Q27641318-5E68A221-7D4B-4B0C-B528-4F60BBD14905Q27641895-CF32E82F-C308-461F-A95F-AC698D06168CQ27642807-FC20AD0F-47FF-433F-A53A-F73B6F4D8D84Q27646993-34C554D5-FA8C-4E1C-9C68-BDC78443BDA3Q27648791-9DE85CD5-1899-4EE2-9E91-58EC2B7F4E04Q27649925-6594BD38-BDCA-409F-ACC8-5B24AA9FCBBFQ27651359-9D5F97F9-4262-4983-A109-F3DEFE776B6EQ27651738-ED78BA19-9B1D-4C89-ADE3-F98A5A0BD0B5Q27652971-A8BC5A33-AA4D-40AB-BD4A-ADBB3B2E529FQ27655444-D0C04A1E-DC20-4E5F-9F49-8E3083549336Q27664034-72D1F8AD-8A4B-46E6-B2FE-EDBBB663DB9BQ27666018-73E7E293-D895-41B8-9457-0700B0855C3DQ27666527-D2C27138-F46E-4C45-B50A-E67489721B5EQ27667903-3ED32665-6859-4C5E-B5ED-EBAD7A82000FQ27675121-69A38753-CE4B-4533-88AC-8C844F36DA44Q27675437-F62D744C-E9D8-4C34-9308-58BC9A95D7B6Q27681279-4D539130-5595-4C2C-9116-B95DD3E617A4Q27684527-50CFB220-5280-41B2-A6EE-9C9497C65FCBQ27684553-B7977A3B-8ACF-45FB-9316-E7308425BB9CQ27687173-E867E155-9B2B-43D9-B4FA-7326D31A65B4Q27687910-742CBA33-F0E6-40A0-B92F-D7CAFFBB9698Q27689438-3A67F9A5-6511-46F9-AF19-D3B0DA23614DQ27695674-9A0A11B0-3ED3-4327-9AD4-CC9B61377BF5Q27728621-E68FCE79-BD27-431D-9CA1-B1DF51A28A9BQ27729825-C1DF3A6C-E232-4165-B5F3-04F847321254Q27731679-860AE343-8F56-4520-9272-3FDFC3A8B76BQ27732007-3374A7F6-1F0A-499D-B376-C30111E6AD00Q27746957-B3507EAC-5A73-4443-8D34-5D021208DF9AQ27766033-AB1D4482-23A9-417B-AC4F-146B020FFC90Q28266791-A5CD3A9A-867D-49AE-A011-0AA3370DD27AQ30981681-DC360267-082B-4CD2-8895-2CD79388A720
P50
description
Polish chemist and biochemist
@en
Pools scheikundige
@nl
chimiste polonais
@fr
polnischer Chemiker
@de
polski biochemik i biofizyk
@pl
name
Wojciech Rypniewski
@ast
Wojciech Rypniewski
@ca
Wojciech Rypniewski
@cs
Wojciech Rypniewski
@de
Wojciech Rypniewski
@en
Wojciech Rypniewski
@es
Wojciech Rypniewski
@fr
Wojciech Rypniewski
@ga
Wojciech Rypniewski
@it
Wojciech Rypniewski
@nl
type
label
Wojciech Rypniewski
@ast
Wojciech Rypniewski
@ca
Wojciech Rypniewski
@cs
Wojciech Rypniewski
@de
Wojciech Rypniewski
@en
Wojciech Rypniewski
@es
Wojciech Rypniewski
@fr
Wojciech Rypniewski
@ga
Wojciech Rypniewski
@it
Wojciech Rypniewski
@nl
altLabel
Wojciech Robert Rypniewski
@en
Wojciech Robert Rypniewski
@pl
Wojciech Rypniewski
@de
prefLabel
Wojciech Rypniewski
@ast
Wojciech Rypniewski
@ca
Wojciech Rypniewski
@cs
Wojciech Rypniewski
@de
Wojciech Rypniewski
@en
Wojciech Rypniewski
@es
Wojciech Rypniewski
@fr
Wojciech Rypniewski
@ga
Wojciech Rypniewski
@it
Wojciech Rypniewski
@nl
P101
P1053
W-5330-2018
P1153
7004264437
P1412
P1559
Wojciech Rypniewski
@pl
P21
P214
577144782725386079667
P27
P31
P3124
P496
0000-0002-6097-5518
P569
1958-01-01T00:00:00Z
P7859
viaf-577144782725386079667