4B2C image
Deposition Date 2012-07-13
Release Date 2012-08-01
Last Version Date 2024-10-23
Entry Detail
PDB ID:
4B2C
Keywords:
HYDROLASE/HYDROLASE INHIBITOR
Title:
Structure of the factor Xa-like trypsin variant triple-Ala (TPA) in complex with eglin C
Biological Source:
Source Organism:
BOS TAURUS (Taxon ID: 9913)
HIRUDO MEDICINALIS (Taxon ID: 6421)
Host Organism:
ESCHERICHIA COLI
Method Details:
Experimental Method:
X-RAY DIFFRACTION
Resolution:
1.43 Å
R-Value Free:
0.18
R-Value Work:
0.15
R-Value Observed:
0.15
Space Group:
P 1 21 1
4B2C validation report
Macromolecular Entities
Structures with similar UniProt ID
Protein Blast
Polymer Type:polypeptide(L)
Molecule:CATIONIC TRYPSIN
Gene (Uniprot):PRSS1
Mutagens:YES
Chain IDs:A, C
Chain Length:223
Number of Molecules:2
Biological Source:BOS TAURUS
UniProt ID:P00760 Pfam ID:PF00089 EC:3.4.21.4
Structures with similar UniProt ID
Protein Blast
Polymer Type:polypeptide(L)
Molecule:EGLIN C
Mutagens:YES
Chain IDs:B, D
Chain Length:71
Number of Molecules:2
Biological Source:HIRUDO MEDICINALIS
UniProt ID:P01051 Pfam ID:PF00280
Ligand Molecules
CA
CL
EDO
GOL
Primary Citation
Thermodynamic signatures in macromolecular interactions involving conformational flexibility.
Biol.Chem. 395 905 911 (2014)
PMID: 25003391 DOI: 10.1515/hsz-2014-0177

Abstact

The energetics of macromolecular interactions are complex, particularly where protein flexibility is involved. Exploiting serendipitous differences in the plasticity of a series of closely related trypsin variants, we analyzed the enthalpic and entropic contributions accompanying interaction with L45K-eglin C. Binding of the four variants show significant differences in released heat, although the affinities vary little, in accordance with the principle of enthalpy-entropy compensation. Binding of the most disordered variant is almost entirely enthalpically driven, with practically no entropy change. As structures of the complexes reveal negligible differences in protein-inhibitor contacts, we conclude that solvent effects contribute significantly to binding affinities.

Legend

Protein

Chemical

Disease

Primary Citation of related structures
1ACB
1AQ7
1AUJ
1AZ8
1BJU
1BJV
1BTP
1BTW
1BTX
1BTY
1BTZ
1C1N
1C1O
1C1P
1C1Q
1C1R
1C1S
1C1T
1C2D
1C2E
1C2F
1C2G
1C2H
1C2I
1C2J
1C2K
1C2L
1C2M
1C5P
1C5Q
1C5R
1C5S
1C5T
1C5U
1C5V
1C9T
1CE5
1CSE
1CU7
1CU8
1CU9
1D6R
1EB2
1EGL
1EGP
1EJM
1EZX
1F0T
1F0U
1F2S
1G36
1G3B
1G3C
1G3D
1G3E
1G9I
1GBT
1GHZ
1GI0
1GI1
1GI2
1GI3
1GI4
1GI5
1GI6
1GJ6
1HJ9
1J8A
1JIR
1JRS
1JRT
1K1I
1K1J
1K1L
1K1M
1K1N
1K1O
1K1P
1LQE
1MAX
1MAY
1MEE
1MTS
1MTU
1MTV
1MTW
1N6X
1N6Y
1NC6
1NTP
1O2H
1O2I
1O2J
1O2K
1O2L
1O2M
1O2N
1O2O
1O2P
1O2Q
1O2R
1O2S
1O2T
1O2U
1O2V
1O2W
1O2X
1O2Y
1O2Z
1O30
1O31
1O32
1O33
1O34
1O35
1O36
1O37
1O38
1O39
1O3A
1O3B
1O3C
1O3D
1O3E
1O3F
1O3G
1O3H
1O3I
1O3J
1O3K
1O3L
1O3M
1O3N
1O3O
1OPH
1OX1
1OYQ
1P2I
1P2J
1P2K
1PPC
1PPE
1PPH
1QA0
1QB1
1QB6
1QB9
1QBN
1QBO
1QCP
1QL7
1QL8
1RXP
1S0Q
1S0R
1SBN
1SBW
1SFI
1SIB
1SMF
1TAB
1TAW
1TEC
1TGB
1TGC
1TGN
1TGS
1TGT
1TIO
1TLD
1TNG
1TNH
1TNI
1TNJ
1TNK
1TNL
1TPA
1TPO
1TPP
1TPS
1TX7
1TX8
1TYN
1UTN
1UTO
1UTP
1UTQ
1V2J
1V2K
1V2L
1V2M
1V2N
1V2O
1V2P
1V2Q
1V2R
1V2S
1V2T
1V2U
1V2V
1V2W
1XUF
1XUG
1XUH
1XUI
1XUJ
1XUK
1Y3U
1Y3V
1Y3W
1Y3X
1Y3Y
1Y59
1Y5A
1Y5B
1Y5U
1YP9
1YYY
1ZR0
1ZZZ
2A7H
2AH4
2AYW
2BLV
2BLW
2BTC
2BY5
2BY6
2BY7
2BY8
2BY9
2BYA
2BZA
2CMY
2FI3
2FI4
2FI5
2FTL
2FTM
2FX4
2FX6
2J9N
2PTC
2PTN
2SEC
2TEC
2TGA
2TGD
2TGP
2TGT
2TIO
2TLD
2TPI
2UUY
2XTT
3BTD
3BTE
3BTF
3BTG
3BTH
3BTK
3BTM
3BTQ
3BTT
3BTW
3PTB
3PTN
3TEC
3TPI
4AB8
4AB9
4ABA
4ABB
4ABD
4ABE
4ABF
4ABG
4ABH
4ABI
4ABJ
4AOQ
4AOR
4B1T
4B2A
4B2B
4TPI
5PTP
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