CATH 3.4.0 - JenaLib Tree Browser

Architecture: 4-Layer Sandwich (459)

Topology: Glutamine Phosphoribosylpyrophosphate, subunit 1, domain 1 (128)

Homologous Superfamily: Glutamine Phosphoribosylpyrophosphate, subunit 1, domain 1 (124)

130 (Pseudomonas sp) (1)

1GHD

B:1-75,B:142-267,B:451-508

CRYSTAL STRUCTURE OF THE GLUTARYL-7-AMINOCEPHALOSPORANIC ACID ACYLASE BY MAD PHASING

Alcaligenes faecalis. Organism_taxid: 511. (1)

3K3W

B:1-72,B:146-288,B:448-528

THERMOSTABLE PENICILLIN G ACYLASE FROM ALCALIGENES FAECALIS IN ORTHORHOMBIC FORM

Archaeoglobus fulgidus. Organism_taxid: 2234. (2)

1J2P	A:4-233M; B:4-233M; C:4-233M; D:4-233M; E:4-233M; F:4-233M; G:4-233M	ALPHA-RING FROM THE PROTEASOME FROM ARCHAEOGLOBUS FULGIDUS
1J2Q	A:10-233M; D:10-233M; E:10-233M; F:10-233M; G:10-233M; H:1-198; I:1-198; J:1-198; K:1-198; L:1-198; M:1-198; N:1-198; B:10-233M; C:10-233M	20S PROTEASOME IN COMPLEX WITH CALPAIN-INHIBITOR I FROM ARCHAEOGLOBUS FULGIDUS

Azospirillum brasilense. Organism_taxid: 192. (1)

1EA0

A:1-422; B:1-422

ALPHA SUBUNIT OF A. BRASILENSE GLUTAMATE SYNTHASE

Bacillus subtilis. Organism_taxid: 1423 (1)

1GPH

1:1-259,1:380-390,1:425-460; 2:1-259,2:380-390,2:425-460; 3:1-259,3:380-390,3:425-460; 4:1-259,4:380-390,4:425-460

STRUCTURE OF THE ALLOSTERIC REGULATORY ENZYME OF PURINE BIOSYNTHESIS

Bacillus subtilis. Organism_taxid: 1423. (2)

1AO0	A:1-259,A:380-390,A:425-458; B:1-259,B:380-390,B:425-458; C:1-259,C:380-390,C:425-458; D:1-259,D:380-390,D:425-458	GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE FROM B. SUBTILIS COMPLEXED WITH ADP AND GMP
2Z3B	A:1-180; B:1-180; K:1-180; L:1-180; C:1-180; D:1-180; E:1-180; F:1-180; G:1-180; H:1-180; I:1-180; J:1-180	CRYSTAL STRUCTURE OF BACILLUS SUBTILIS CODW, A NON-CANONICAL HSLV-LIKE PEPTIDASE WITH AN IMPAIRED CATALYTIC APPARATUS

Bacillus subtilis. Organism_taxid: 1423. (1)

2Z3A

A:1-180; B:1-180; K:1-180; L:1-180; C:1-180; D:1-180; E:1-180; F:1-180; G:1-180; H:1-180; I:1-180; J:1-180

CRYSTAL STRUCTURE OF BACILLUS SUBTILIS CODW, A NON-CANONICAL HSLV-LIKE PEPTIDASE WITH AN IMPAIRED CATALYTIC APPARATUS

Baker's yeast (Saccharomyces cerevisiae) (14)

1FNT	M:-9-213; F:2-234; T:2-234; L:1-212; Z:1-212; D:5-243; R:5-243; A:15-252; O:15-252; C:5-245; Q:5-245; a:-9-213; G:8-247; U:8-247; H:1-196; V:1-196; J:-8-196; X:-8-196; B:4-250; P:4-250; K:-1-197; Y:-1-197; I:1-222; W:1-222; E:7-250; S:7-250; N:-8-225; b:-8-225	CRYSTAL STRUCTURE OF THE 20S PROTEASOME FROM YEAST IN COMPLEX WITH THE PROTEASOME ACTIVATOR PA26 FROM TRYPANOSOME BRUCEI AT 3.2 ANGSTROMS RESOLUTION
1G0U	L:-9-194; E:7-233; S:7-233; K:1-211; Y:1-211; C:10-243; Q:10-243; G:9-240; U:9-240; B:13-239; P:13-239; F:7-241; T:7-241; 2:1-187J; N:1-187J; I:-8-194; W:-8-194; H:1-223; V:1-223; A:8-236; O:8-236; J:-1-193; X:-1-193; Z:-9-194; D:12-244; R:12-244; 1:-8-211; M:-8-211	A GATED CHANNEL INTO THE PROTEASOME CORE PARTICLE
1G65	L:-9-194; E:4-233; S:4-233; K:2-211; Y:2-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-187J; N:1-187J; Z:-9-194; H:1-223; I:-8-194; W:-8-194; V:1-223; A:4-236; O:4-236; J:-1-193; X:-1-193; D:9-244; R:9-244; 1:-8-211; M:-8-211	CRYSTAL STRUCTURE OF EPOXOMICIN:20S PROTEASOME REVEALS A MOLECULAR BASIS FOR SELECTIVITY OF ALPHA,BETA-EPOXYKETONE PROTEASOME INHIBITORS
1JD2	L:-9-194; E:4-233; Z:4-233; K:1-211; R:1-211; C:7-243; X:7-243; 2:6-240; G:6-240; S:-9-194; B:4-239; W:4-239; 1:5-241; F:5-241; N:1-187J; U:1-187J; I:-8-194; P:-8-194; A:4-236; V:4-236; J:-1-193; Q:-1-193; H:1-223; O:1-223; D:9-244; Y:9-244; M:-8-211; T:-8-211	CRYSTAL STRUCTURE OF THE YEAST 20S PROTEASOME:TMC-95A COMPLEX: A NON-COVALENT PROTEASOME INHIBITOR
1RYP	1:-9-213; M:-9-213; F:2-234; T:2-234; L:1-212; Z:1-212; D:3-243; R:3-243; A:10-252; O:10-252; C:2-245; Q:2-245; G:4-247; U:4-247; H:-9-196; V:-9-196; I:1-222; W:1-222; J:-8-196; X:-8-196; B:1-250; P:1-250; K:-1-197; Y:-1-197; E:9-250; S:9-250; 2:-8-225; N:-8-225	CRYSTAL STRUCTURE OF THE 20S PROTEASOME FROM YEAST AT 2.4 ANGSTROMS RESOLUTION
1Z7Q	M:1-222; N:1-233; b:1-233; F:1-234; T:1-234; L:1-212; Z:1-212; D:3-243; R:3-243; A:10-252; O:10-252; C:3-245; Q:3-245; G:5-247; U:5-247; a:1-222; H:1-196; V:1-196; J:1-204; X:1-204; B:2-250; P:2-250; K:1-198; Y:1-198; I:1-222; W:1-222; E:6-250; S:6-250	CRYSTAL STRUCTURE OF THE 20S PROTEASOME FROM YEAST IN COMPLEX WITH THE PROTEASOME ACTIVATOR PA26 FROM TRYPANOSOME BRUCEI AT 3.2 ANGSTROMS RESOLUTION
2F16	L:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; H:1-223; J:-1-193; X:-1-193; V:1-223; D:9-244; R:9-244; 1:-8-211; M:-8-211; Z:-9-194	CRYSTAL STRUCTURE OF THE YEAST 20S PROTEASOME IN COMPLEX WITH BORTEZOMIB
2FAK	L:-9-194; Z:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; D:9-244; R:9-244; 1:-8-211; M:-8-211	CRYSTAL STRUCTURE OF SALINOSPORAMIDE A IN COMPLEX WITH THE YEAST 20S PROTEASOME
2GPL	L:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; Z:-9-194; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; D:9-244; R:9-244; 1:-8-211; M:-8-211	TMC-95 BASED BIPHENYL-ETHER MACROCYCLES: SPECIFIC PROTEASOME INHIBITORS
2ZCY	L:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; Z:-9-194; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 1:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; _:-8-211; M:-8-211	YEAST 20S PROTEASOME:SYRINGOLIN A-COMPLEX
3BDM	L:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 1:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; H:1-223; V:1-223; J:-1-193; X:-1-193; Z:-9-194; _:-8-211; M:-8-211	YEAST 20S PROTEASOME:GLIDOBACTIN A-COMPLEX
3DY3	L:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; Z:-9-194; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; 1:-8-211; M:-8-211	CRYSTAL STRUCTURE OF YEAST 20S PROTEASOME IN COMPLEX WITH THE EPIMER FORM OF SPIROLACTACYSTIN
3DY4	L:-9-194; E:4-233; S:4-233; Z:-9-194; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; 1:-8-211; M:-8-211	CRYSTAL STRUCTURE OF YEAST 20S PROTEASOME IN COMPLEX WITH SPIROLACTACYSTIN
3E47	L:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; Z:-9-194; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; 1:-8-211; M:-8-211	CRYSTAL STRUCTURE OF THE YEAST 20S PROTEASOME IN COMPLEX WITH HOMOBELACTOSIN C

Brevundimonas diminuta. Organism_taxid: 293. (4)

1FM2	B:170-244,B:311-436,B:620-680	THE 2 ANGSTROM CRYSTAL STRUCTURE OF CEPHALOSPORIN ACYLASE
1JVZ	B:170-244,B:311-436,B:620-677	STRUCTURE OF CEPHALOSPORIN ACYLASE IN COMPLEX WITH GLUTARYL-7-AMINOCEPHALOSPORANIC ACID
1JW0	B:170-244,B:311-436,B:620-677	STRUCTURE OF CEPHALOSPORIN ACYLASE IN COMPLEX WITH GLUTARATE
1KEH	A:7-51,A:171-241,A:311-468,A:620-680	PRECURSOR STRUCTURE OF CEPHALOSPORIN ACYLASE

Cattle (Bos taurus) (1)

1IRU

1:1-213; M:1-213; L:1-201; Z:1-201; D:2-244; R:2-244; A:2-245; O:2-245; C:2-251; Q:2-251; G:1-245; U:1-245; I:1-220; H:1-202; V:1-202; J:2-205; X:2-205; B:1-233; P:1-233; K:1-199; Y:1-199; W:1-220; E:8-241; S:8-241; 2:1-217; N:1-217; F:4-241; T:4-241

CRYSTAL STRUCTURE OF THE MAMMALIAN 20S PROTEASOME AT 2.75 A RESOLUTION

Escherichia coli bl21(de3). Organism_taxid: 469008. Strain: bl21(de3). (3)

1HQY	A:1-174; B:1-174; C:1-174; D:1-174	NUCLEOTIDE-DEPENDENT CONFORMATIONAL CHANGES IN A PROTEASE-ASSOCIATED ATPASE HSLU
1HT1	A:1-174; Y:1-174; Z:1-174; B:1-174; C:1-174; D:1-174; V:1-174; X:1-174	NUCLEOTIDE-DEPENDENT CONFORMATIONAL CHANGES IN A PROTEASE-ASSOCIATED ATPASE HSLU
1HT2	A:1-174; B:1-174; C:1-174; D:1-174; I:1-174; J:1-174; K:1-174; L:1-174	NUCLEOTIDE-DEPENDENT CONFORMATIONAL CHANGES IN A PROTEASE-ASSOCIATED ATPASE HSLU

Escherichia coli. Organism_taxid: 469008. Strain: bl21(de3). (1)

1E94

A:1-174; B:1-174; C:1-174; D:1-174

HSLV-HSLU FROM E.COLI

Escherichia coli. Organism_taxid: 562. (21)

1AI4	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE COMPLEXED WITH 3,4-DIHYDROXYPHENYLACETIC ACID
1AI5	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE COMPLEXED WITH M-NITROPHENYLACETIC ACID
1AI6	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE WITH P-HYDROXYPHENYLACETIC ACID
1AI7	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE COMPLEXED WITH PHENOL
1AJN	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE COMPLEXED WITH P-NITROPHENYLACETIC ACID
1AJP	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE COMPLEXED WITH 2,5-DIHYDROXYPHENYLACETIC ACID
1AJQ	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE COMPLEXED WITH THIOPHENEACETIC ACID
1ECB	B:1-275,B:401-411,B:446-477; A:1-275,A:401-411,A:446-480; D:1-275,D:401-411,D:446-480; C:1-275,C:401-411,C:446-482	ESCHERICHIA COLI GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE COMPLEXED WITH 2 GMP, 1 MG PER SUBUNIT
1ECC	A:1-275,A:401-411,A:446-492; B:1-275,B:401-411,B:446-492	ESCHERICHIA COLI GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE COMPLEXED WITH MN-CPRPP AND 5-OXO-NORLEUCINE
1ECJ	A:1-275,A:401-411,A:446-490; B:1-275,B:401-411,B:446-490; C:1-275,C:401-411,C:446-490; D:1-275,D:401-411,D:446-490	ESCHERICHIA COLI GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE COMPLEXED WITH 2 AMP PER TETRAMER
1GK9	B:1-72,B:146-290,B:452-536	CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM
1GKF	B:1-72,B:146-290,B:452-536	CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM
1GM7	B:1-72,B:146-290,B:452-536	CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM
1GM8	B:1-72,B:146-290,B:452-536	CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM
1GM9	B:1-72,B:146-290,B:452-536	CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM
1H2G	B:1-72,B:146-290,B:452-536	ALTERED SUBSTRATE SPECIFICITY MUTANT OF PENICILLIN ACYLASE
1JX9	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE, MUTANT
1K5Q	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE, MUTANT COMPLEXED WITH PAA
1K5S	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE, MUTANT COMPLEXED WITH PPA
1K7D	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE WITH PHENYL PROPRIONIC ACID
1KEC	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE MUTANT WITH PHENYL PROPRIONIC ACID

Escherichia coli. Organism_taxid: 562. (7)

1CT9	A:1-192; B:1-192; C:1-192; D:1-192	CRYSTAL STRUCTURE OF ASPARAGINE SYNTHETASE B FROM ESCHERICHIA COLI
1FXH	B:1-72,B:146-290,B:452-536	MUTANT OF PENICILLIN ACYLASE IMPAIRED IN CATALYSIS WITH PHENYLACETIC ACID IN THE ACTIVE SITE
1FXV	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE MUTANT IMPAIRED IN CATALYSIS WITH PENICILLIN G IN THE ACTIVE SITE
1G4A	A:1-173; B:1-173; C:1-173; D:1-173	CRYSTAL STRUCTURES OF THE HSLVU PEPTIDASE-ATPASE COMPLEX REVEAL AN ATP-DEPENDENT PROTEOLYSIS MECHANISM
1JXA	A:1-240; B:1-240; C:1-240	GLUCOSAMINE 6-PHOSPHATE SYNTHASE WITH GLUCOSE 6-PHOSPHATE
2BPL		[entry was replaced by entry 4AMV without any CATH domain information]
2J6H	A:1-241; B:1-241	E. COLI GLUCOSAMINE-6-P SYNTHASE IN COMPLEX WITH GLUCOSE-6P AND 5-OXO-L-NORLEUCINE

Escherichia coli. Organism_taxid: 562. Cell_line: bl21. (2)

1ECF	A:1-275,A:401-411,A:446-480; B:1-275,B:401-411,B:446-480	ESCHERICHIA COLI GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE
1ECG	A:1-275,A:401-411,A:446-480; B:1-275,B:401-411,B:446-480	DON INACTIVATED ESCHERICHIA COLI GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE

Escherichia coli. Organism_taxid: 562. Strain: 3000hfr. (2)

1XFF	A:1-238; B:1-239	GLUTAMINASE DOMAIN OF GLUCOSAMINE 6-PHOSPHATE SYNTHASE COMPLEXED WITH GLUTAMATE
1XFG	A:1-238; B:1-239	GLUTAMINASE DOMAIN OF GLUCOSAMINE 6-PHOSPHATE SYNTHASE COMPLEXED WITH L-GLU HYDROXAMATE

Escherichia coli. Organism_taxid: 562. Strain: atcc 11105. (3)

1PNK	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE HAS A SINGLE-AMINO-ACID CATALYTIC CENTRE
1PNL	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE HAS A SINGLE-AMINO-ACID CATALYTIC CENTRE
1PNM	B:1-72,B:146-290,B:452-536	PENICILLIN ACYLASE HAS A SINGLE-AMINO-ACID CATALYTIC CENTRE

Escherichia coli. Organism_taxid: 562. Strain: hb101. (1)

1E3A

B:264-335,B:409-553,B:715-799

A SLOW PROCESSING PRECURSOR PENICILLIN ACYLASE FROM ESCHERICHIA COLI

Escherichia coli. Organism_taxid: 562. Strain: xl-1 blue. (1)

1NED

B:1-188; C:1-188; A:1-187

CRYSTAL STRUCTURE OF HSLV (CLPQ) AT 3.8 ANGSTROMS RESOLUTION

Gk16 (Pseudomonas sp) (3)

2AE3	B:1-75,B:142-267,B:451-508	GLUTARYL 7-AMINOCEPHALOSPORANIC ACID ACYLASE: MUTATIONAL STUDY OF ACTIVATION MECHANISM
2AE4	B:1-75,B:142-267,B:451-508	GLUTARYL 7-AMINOCEPHALOSPORANIC ACID ACYLASE: MUTATIONAL STUDY OF ACTIVATION MECHANISM
2AE5	B:1-75,B:142-267,B:451-508	GLUTARYL 7-AMINOCEPHALOSPORANIC ACID ACYLASE: MUTATIONAL STUDY OF ACTIVATION MECHANISM

Haemophilus influenzae rd kw20. Organism_taxid: 71421. Strain: rd kw20. (1)

1KYI

G:1-173; H:1-173; Q:1-173; R:1-173; I:1-173; J:1-173; K:1-173; L:1-173; M:1-173; N:1-173; O:1-173; P:1-173

HSLUV (H. INFLUENZAE)-NLVS VINYL SULFONE INHIBITOR COMPLEX

Haemophilus influenzae. Organism_taxid: 71421. Strain: rd. (2)

1OFH	G:1-174; H:1-174; I:1-174; L:1-174; M:1-174; N:1-174	ASYMMETRIC COMPLEX BETWEEN HSLV AND I-DOMAIN DELETED HSLU (H. INFLUENZAE)
1OFI	G:1-174; M:1-174; N:1-174; H:1-174; I:1-174; L:1-174	ASYMMETRIC COMPLEX BETWEEN HSLV AND I-DOMAIN DELETED HSLU (H. INFLUENZAE)

Haemophilus influenzae. Organism_taxid: 727. (1)

1JJW

A:1-173; B:1-173; C:1-173

STRUCTURE OF HAEMOPHILUS INFLUENZAE HSLV PROTEIN AT 1.9 A RESOLUTION

Haemophilus influenzae. Organism_taxid: 727. (2)

1G3I	G:1-173; N:1-173; O:1-173; P:1-173; Q:1-173; R:1-173; H:1-173; I:1-173; J:1-173; K:1-173; L:1-173; M:1-173	CRYSTAL STRUCTURE OF THE HSLUV PROTEASE-CHAPERONE COMPLEX
1G3K	A:1-173; B:1-173; C:1-173	CRYSTAL STRUCTURE OF THE H. INFLUENZAE PROTEASE HSLV AT 1.9 A RESOLUTION

Mycobacterium tuberculosis. Organism_taxid: 1773. (6)

2FHG	1:8-237; A:8-237; B:8-237; D:8-237; F:8-237; I:8-237; K:8-237; M:8-237; O:8-237; Q:8-237; S:8-237; U:8-237; W:8-237; Y:8-237; 2:301-522; C:301-522; E:301-522; G:301-522; H:301-522; J:301-522; L:301-522; N:301-522; P:301-522; R:301-522; T:301-522; V:301-522; X:301-522; Z:301-522	CRYSTAL STRUCTURE OF MYCOBACTERIAL TUBERCULOSIS PROTEASOME
2FHH	1:8-237; A:8-237; B:8-237; D:8-237; F:8-237; I:8-237; K:8-237; M:8-237; O:8-237; Q:8-237; S:8-237; U:8-237; W:8-237; Y:8-237; 2:301-522; C:301-522; E:301-522; G:301-522; H:301-522; J:301-522; L:301-522; N:301-522; P:301-522; R:301-522; T:301-522; V:301-522; X:301-522; Z:301-522	CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS PROTEASOME IN COMPLEX WITH A PEPTIDYL BORONATE INHIBITOR MLN-273
3H6F	Q:7-234; W:7-234; F:8-234; 1:9-234; A:9-234; K:9-234; M:7-234; O:8-234; S:8-234; B:8-234; D:9-234; I:9-234; U:8-234; Y:9-234	CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS PROTEASOME MODIFIED BY INHIBITOR HT1171
3H6I	Q:7-234; F:8-234; U:8-234; B:8-234; D:9-234; Y:9-234; K:7-234; W:7-234; A:8-234; M:7-234; 1:9-234; I:9-234; O:8-234; S:8-234	CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS PROTEASOME MODIFIED BY INHIBITOR GL1
3HF9	1:10-234; 3:310-533	CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS PROTEASOME OPEN-GATE MUTANT MODIFIED BY INHIBITOR GL1
3HFA	1:9-234; F:9-234; I:9-234; M:9-234; O:9-234; Q:9-234; U:9-234; Y:9-234	CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS PROTEASOME OPEN-GATE MUTANT

Pcc 6803 (Synechocystis sp) (3)

1LLW	A:1-421,A:525-533	STRUCTURAL STUDIES ON THE SYNCHRONIZATION OF CATALYTIC CENTERS IN GLUTAMATE SYNTHASE: COMPLEX WITH 2-OXOGLUTARATE
1LLZ	A:1-421,A:525-533	STRUCTURAL STUDIES ON THE SYNCHRONIZATION OF CATALYTIC CENTERS IN GLUTAMATE SYNTHASE: REDUCED ENZYME
1LM1	A:1-421,A:525-533	STRUCTURAL STUDIES ON THE SYNCHRONIZATION OF CATALYTIC CENTERS IN GLUTAMATE SYNTHASE: NATIVE ENZYME

Pectobacterium carotovorum. Organism_taxid: 554. (2)

1Q15	A:2-206; B:2-206; C:2-206; D:2-206	CARBAPENAM SYNTHETASE
1Q19	A:2-206; B:2-206; C:2-206; D:2-206	CARBAPENAM SYNTHETASE

Providencia rettgeri. Organism_taxid: 587. Strain: bro1. Variant: 31052. (1)

1CP9

B:1-72,B:146-290,B:452-532

CRYSTAL STRUCTURE OF PENICILLIN G ACYLASE FROM THE BRO1 MUTANT STRAIN OF PROVIDENCIA RETTGERI

Pseudomonas aeruginosa pao1. Organism_taxid: 208964. Strain: pao1. (1)

1TE5

A:3-255; B:3-255

THE 2.0 ANGSTROM CRYSTAL STRUCTURE OF PREDICTED GLUTAMINE AMIDOTRANSFERASE FROM PSEUDOMONAS AERUGINOSA PA01

Pseudomonas sp.. Organism_taxid: 306. (2)

1GK0	B:1-75,B:142-267,B:451-508; D:1-75,D:142-267,D:451-508	STRUCTURE-BASED PREDICTION OF MODIFICATIONS IN GLUTARYLAMIDASE TO ALLOW SINGLE-STEP ENZYMATIC PRODUCTION OF 7-AMINOCEPHALOSPORANIC ACID FROM CEPHALOSPORIN C
1GK1	B:1-75,B:142-267,B:451-508; D:1-75,D:142-267,D:451-508	STRUCTURE-BASED PREDICTION OF MODIFICATIONS IN GLUTARYLAMIDASE TO ALLOW SINGLE-STEP ENZYMATIC PRODUCTION OF 7-AMINOCEPHALOSPORANIC ACID FROM CEPHALOSPORIN C

Rhodococcus erythropolis. Organism_taxid: 1833. (1)

2H6J

A:9-235; B:9-235; K:-44-219; L:-44-219; M:-44-219; N:-44-219; C:9-235; D:9-235; E:9-235; F:9-235; G:9-235; H:-44-219; I:-44-219; J:-44-219

CRYSTAL STRUCTURE OF THE BETA F145A RHODOCOCCUS PROTEASOME (CASP TARGET)

Rhodococcus erythropolis. Organism_taxid: 1833. Strain: bl21. (2)

1Q5Q	A:9-235; B:9-235; H:1-224; I:1-224; J:1-224; K:1-224; L:1-224; M:1-224; C:9-235; N:1-224; D:9-235; E:9-235; F:9-235; G:9-235	THE RHODOCOCCUS 20S PROTEASOME
1Q5R	A:9-235; D:9-235; E:9-235; F:9-235; G:9-235; H:-49-219; I:-49-219; J:-49-219; K:-49-219; L:-49-219; M:-49-219; N:-49-219; B:9-235; C:9-235	THE RHODOCOCCUS 20S PROTEASOME WITH UNPROCESSED PRO-PEPTIDES

Silicibacter pomeroyi. Organism_taxid: 89184. (1)

2IMH

A:0-216; B:0-216

CRYSTAL STRUCTURE OF PROTEIN SPO2555 FROM SILICIBACTER POMEROYI, PFAM DUF1028

Streptomyces clavuligerus. Organism_taxid: 1901. (5)

1JGT	B:4-210; A:4-210	CRYSTAL STRUCTURE OF BETA-LACTAM SYNTHETASE
1M1Z	B:4-210; A:4-210	BETA-LACTAM SYNTHETASE APO ENZYME
1MB9	B:4-210; A:4-210	BETA-LACTAM SYNTHETASE COMPLEXED WITH ATP
1MBZ	B:4-210; A:4-210	BETA-LACTAM SYNTHETASE WITH TRAPPED INTERMEDIATE
1MC1	B:4-210; A:5-210	BETA-LACTAM SYNTHETASE WITH PRODUCT (DGPC), AMP AND PPI

Sy-77-1 (Pseudomonas sp) (2)

1OQZ		[entry was replaced by entry 3S8R without any CATH domain information]
1OR0	B:1-75,B:142-267,B:451-508; D:1-75,D:142-267,D:451-508	CRYSTAL STRUCTURES OF GLUTARYL 7-AMINOCEPHALOSPORANIC ACID ACYLASE: INSIGHT INTO AUTOPROTEOLYTIC ACTIVATION

Synechocystis sp.. Organism_taxid: 1148. Strain: pcc6803. (2)

1OFD	A:1-421,A:525-533; B:1-421,B:525-533	GLUTAMATE SYNTHASE FROM SYNECHOCYSTIS SP IN COMPLEX WITH 2-OXOGLUTARATE AT 2.0 ANGSTROM RESOLUTION
1OFE	A:1-421,A:525-533; B:1-422	GLUTAMATE SYNTHASE FROM SYNECHOCYSTIS SP IN COMPLEX WITH 2-OXOGLUTARATE AND L-DON AT 2.45 ANGSTROM RESOLUTION

Thermoplasma acidophilum. Organism_taxid: 2303. (6)

1YA7	A:7-233; D:7-233; E:7-233; F:7-233; G:7-233; H:1-203; I:1-203; J:1-203; K:1-203; L:1-203; M:1-203; N:1-203; B:7-233; C:7-233	IMPLICATIONS FOR INTERACTIONS OF PROTEASOME WITH PAN AND PA700 FROM THE 1.9 A STRUCTURE OF A PROTEASOME-11S ACTIVATOR COMPLEX
1YAR	A:13-233; B:13-233; C:13-233; D:13-233; H:1-203; I:1-203; J:1-203; K:1-203; E:13-233; L:1-203; M:1-203; N:1-203; F:13-233; G:13-233	STRUCTURE OF ARCHEABACTERIAL 20S PROTEASOME MUTANT D9S- PA26 COMPLEX
2KU2	A:-3-233	DYNAMIC REGULATION OF ARCHAEAL PROTEASOME GATE OPENING AS STUDIED BY TROSY-NMR
3IPM	A:7-233; B:7-233; C:7-233; D:7-233; E:7-233; F:7-233; G:7-233; H:1-203; I:1-203; J:1-203; K:1-203; L:1-203; M:1-203; N:1-203	CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH THE C-TERMINUS OF PAN
3JRM	A:7-233; B:7-233; C:7-233; D:7-233; E:7-233; F:7-233; G:7-233; H:1-203; I:1-203; J:1-203; K:1-203; L:1-203; M:1-203; N:1-203	CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH MUTATED P26 ACTIVATOR
3JTL	A:7-233; B:7-233; C:7-233; D:7-233; E:7-233; F:7-233; G:7-233; H:1-203; I:1-203; J:1-203; K:1-203; L:1-203; M:1-203; N:1-203	CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH MUTATED P26 ACTIVATOR

Thermoplasma acidophilum. Organism_taxid: 2303. (3)

1PMA	A:13-233; E:13-233; F:13-233; G:13-233; H:13-233; I:13-233; J:13-233; K:13-233; L:13-233; M:13-233; N:13-233; O:13-233; 1:1-203; 2:1-203; B:1-203; P:1-203; Q:1-203; R:1-203; S:1-203; T:1-203; U:1-203; V:1-203; W:1-203; X:1-203; Y:1-203; Z:1-203; C:13-233; D:13-233	PROTEASOME FROM THERMOPLASMA ACIDOPHILUM
1YAU	A:12-233; B:12-233; C:12-233; D:12-233; E:12-233; F:12-233; G:12-233; H:1-203; I:1-203; J:1-203; K:1-203; L:1-203; M:1-203; N:1-203	STRUCTURE OF ARCHEABACTERIAL 20S PROTEASOME- PA26 COMPLEX
3JSE	A:7-233; B:7-233; C:7-233; D:7-233; H:1-203; I:1-203; J:1-203; K:1-203; L:1-203; E:7-233; M:1-203; N:1-203; F:7-233; G:7-233	CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH MUTATED P26 ACTIVATOR

Thermotoga maritima. Organism_taxid: 2336. (1)

1M4Y

A:1-171; B:1-171; C:1-171

CRYSTAL STRUCTURE OF HSLV FROM THERMOTOGA MARITIMA

Yeast (Saccharomyces cerevisiae) (5)

3D29	L:-9-194; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; 1:-8-211; M:-8-211; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; Z:-9-194; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J	PROTEASOME INHIBITION BY FELLUTAMIDE B
3GPJ	L:-9-194; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; 1:-8-211; M:-8-211; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; Z:-9-194; 2:1-18J; N:1-18J	CRYSTAL STRUCTURE OF THE YEAST 20S PROTEASOME IN COMPLEX WITH SYRINGOLIN B
3GPT	L:-9-194; Z:-9-194; H:1-223; I:-8-194; W:-8-194; V:1-223; A:4-236; O:4-236; J:-1-193; X:-1-193; 1:-8-211; M:-8-211; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J	CRYSTAL STRUCTURE OF THE YEAST 20S PROTEASOME IN COMPLEX WITH SALINOSPORAMIDE DERIVATIVES: SLOW SUBSTRATE LIGAND
3GPW	L:-9-194; I:-8-194; W:-8-194; A:4-236; O:4-236; H:1-223; J:-1-193; X:-1-193; V:1-223; 1:-8-211; M:-8-211; Z:-9-194; E:4-233; S:4-233; K:1-211; Y:1-211; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J	CRYSTAL STRUCTURE OF THE YEAST 20S PROTEASOME IN COMPLEX WITH SALINOSPORAMIDE DERIVATIVES: IRREVERSIBLE INHIBITOR LIGAND
3HYE	L:-9-194; I:-8-194; W:-8-194; A:4-236; O:4-236; J:-1-193; X:-1-193; H:1-223; V:1-223; 1:-8-211; M:-8-211; E:4-233; S:4-233; K:1-211; Y:1-211; Z:-9-194; C:7-243; Q:7-243; G:6-240; U:6-240; B:4-239; P:4-239; F:5-241; T:5-241; 2:1-18J; N:1-18J	CRYSTAL STRUCTURE OF 20S PROTEASOME IN COMPLEX WITH HYDROXYLATED SALINOSPORAMIDE