| 1CE0 | A:; B:; C: | TRIMERIZATION SPECIFICITY IN HIV-1 GP41: ANALYSIS WITH A GCN4 LEUCINE ZIPPER MODEL |
| 1CE9 | A:; B:; C:; D: | HELIX CAPPING IN THE GCN4 LEUCINE ZIPPER |
| 1DGC | A: | THE X-RAY STRUCTURE OF THE GCN4-BZIP BOUND TO ATF/CREB SITE DNA SHOWS THE COMPLEX DEPENDS ON DNA FLEXIBILITY |
| 1GCL | A:; B:; C:; D: | GCN4 LEUCINE ZIPPER CORE MUTANT P-LI |
| 1GCM | A:; B:; C: | GCN4 LEUCINE ZIPPER CORE MUTANT P-LI |
| 1IJ0 | A:; B:; C: | COILED COIL TRIMER GCN4-PVLS SER AT BURIED D POSITION |
| 1IJ1 | A:; B:; C: | GCN4-PVLT COILED-COIL TRIMER WITH THREONINE AT THE D(12) POSITION |
| 1IJ2 | A:; B:; C: | GCN4-PVTL COILED-COIL TRIMER WITH THREONINE AT THE A(16) POSITION |
| 1IJ3 | A:; B:; C: | GCN4-PVSL COILED-COIL TRIMER WITH SERINE AT THE A(16) POSITION |
| 1KD8 | A:; B:; C:; D:; E:; F: | X-RAY STRUCTURE OF THE COILED COIL GCN4 ACID BASE HETERODIMER ACID-D12IA16V BASE-D12LA16L |
| 1KD9 | A:; B:; C:; D:; E:; F: | X-RAY STRUCTURE OF THE COILED COIL GCN4 ACID BASE HETERODIMER ACID-D12LA16L BASE-D12LA16L |
| 1KDD | A:; B:; C:; D:; E:; F: | X-RAY STRUCTURE OF THE COILED COIL GCN4 ACID BASE HETERODIMER ACID-D12LA16I BASE-D12LA16L |
| 1PIQ | A: | CRYSTAL STRUCTURE OF GCN4-PIQ, A TRIMERIC COILED COIL WITH BURIED POLAR RESIDUES |
| 1RB4 | A:; B:; C: | ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL AUTOMATIC SOLUTION |
| 1RB5 | A:; B:; C: | ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL FORM |
| 1RB6 | A:; B:; C: | ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL FORM |
| 1SWI | A:; B:; C: | GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A COMPLEXED WITH BENZENE |
| 1U9F | A:; B:; C:; D: | HETEROCYCLIC PEPTIDE BACKBONE MODIFICATION IN GCN4-PLI BASED COILED COILS: REPLACEMENT OF K(15)L(16) |
| 1U9G | A:; B: | HETEROCYCLIC PEPTIDE BACKBONE MODIFICATION IN GCN4-PLI BASED COILED COILS: REPLACEMENT OF K(8)L(9) |
| 1U9H | A:; B: | HETEROCYCLIC PEPTIDE BACKBONE MODIFICATION IN GCN4-PLI BASED COILED COILS: REPLACEMENT OF E(22)L(23) |
| 1UNT | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UNU | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UNV | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UNW | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UNX | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UNY | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UNZ | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UO0 | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UO1 | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UO2 | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UO3 | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UO4 | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1UO5 | A:; B: | STRUCTURE BASED ENGINEERING OF INTERNAL MOLECULAR SURFACES OF FOUR HELIX BUNDLES |
| 1W5G | A:; B: | AN ANTI-PARALLEL FOUR HELIX BUNDLE (ACETIMIDE MODIFICATION). |
| 1W5H | A:; B: | AN ANTI-PARALLEL FOUR HELIX BUNDLE. |
| 1W5I | A:; B: | ABA DOES NOT AFFECT TOPOLOGY OF PLI. |
| 1W5J | A:; B:; C:; D: | AN ANTI-PARALLEL FOUR HELIX BUNDLE |
| 1W5K | A:; B:; C:; D: | AN ANTI-PARALLEL FOUR HELIX BUNDLE |
| 1W5L | A:; B: | AN ANTI-PARALLEL TO PARALLEL SWITCH. |
| 1YSA | C:; D: | THE GCN4 BASIC REGION LEUCINE ZIPPER BINDS DNA AS A DIMER OF UNINTERRUPTED ALPHA HELICES: CRYSTAL STRUCTURE OF THE PROTEIN-DNA COMPLEX |
| 1ZII | A:; B: | GCN4-LEUCINE ZIPPER CORE MUTANT ASN16ABA IN THE DIMERIC STATE |
| 1ZIJ | A:; B:; C: | GCN4-LEUCINE ZIPPER CORE MUTANT ASN16ABA IN THE TRIMERIC STATE |
| 1ZIK | A:; B: | GCN4-LEUCINE ZIPPER CORE MUTANT ASN16LYS IN THE DIMERIC STATE |
| 1ZIL | A:; B: | GCN4-LEUCINE ZIPPER CORE MUTANT ASN16GLN IN THE DIMERIC STATE |
| 1ZIM | A:; B:; C: | GCN4-LEUCINE ZIPPER CORE MUTANT ASN16GLN IN THE TRIMERIC STATE |
| 1ZTA | A: | THE SOLUTION STRUCTURE OF A LEUCINE-ZIPPER MOTIF PEPTIDE |
| 2AHP | A:1-33; B:1-32 | GCN4 LEUCINE ZIPPER, MUTATION OF LYS15 TO EPSILON-AZIDO-LYS |
| 2B1F | A:1-31; B:; C:; D: | ANTIPARALLEL FOUR-STRANDED COILED COIL SPECIFIED BY A 3-3-1 HYDROPHOBIC HEPTAD REPEAT |
| 2B22 | A:2-30 | ANTIPARALLEL FOUR-STRANDED COILED COIL SPECIFIED BY A 3-3-1 HYDROPHOBIC HEPTAD REPEAT |
| 2BNI | A:1-30; B:1-30; C:1-30; D:1-30 | PLI MUTANT E20C L16G Y17H, ANTIPARALLEL |
| 2CCE | A:2-32; B: | PARALLEL CONFIGURATION OF PLI E20S |
| 2CCF | A:; B: | ANTIPARALLEL CONFIGURATION OF PLI E20S |
| 2CCN | A:1-33; B: | PLI E20C IS ANTIPARALLEL |
| 2DGC | A: | GCN4 BASIC DOMAIN, LEUCINE ZIPPER COMPLEXED WITH ATF/CREB SITE DNA |
| 2G9J | A:1-32; B:1-32 | COMPLEX OF TM1A(1-14)ZIP WITH TM9A(251-284): A MODEL FOR THE POLYMERIZATION DOMAIN ("OVERLAP REGION") OF TROPOMYOSIN, NORTHEAST STRUCTURAL GENOMICS TARGET OR9 |
| 2HY6 | A:3-33; B:; C:; D:; E:; F:; G: | A SEVEN-HELIX COILED COIL |
| 2NRN | A:; B:; C:; D: | SELF-ASSEMBLY OF COILED-COIL TETRAMERS IN THE 1.40 A STRUCTURE OF A LEUCINE-ZIPPER MUTANT |
| 2O7H | A: | CRYSTAL STRUCTURE OF TRIMERIC COILED COIL GCN4 LEUCINE ZIPPER |
| 2R2V | A:; B:; C:; D:; E:; F:; G:; H: | SEQUENCE DETERMINANTS OF THE TOPOLOGY OF THE LAC REPRESSOR TETRAMERIC COILED COIL |
| 2ZTA | A:; B: | X-RAY STRUCTURE OF THE GCN4 LEUCINE ZIPPER, A TWO-STRANDED, PARALLEL COILED COIL |
| 3CK4 | B:; C:; F:; G:; J:; K: | A HETEROSPECIFIC LEUCINE ZIPPER TETRAMER |
| 3CRP | A:; B:; C:; D:; E: | A HETEROSPECIFIC LEUCINE ZIPPER TETRAMER |
| 3K7Z | A:; B:; C: | GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL AUTOMATIC SOLUTION |
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