P03069 (GCN4_YEAST) Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast)
General control transcription factor GCN4 UniProtKBInterProSTRINGInteractive Modelling
281 aa; Sequence (Fasta) ;
1 identical sequence: Saccharomyces cerevisiae: N1P3V4
It is possible new templates exist for this target since these models were created.
Available Structures
146 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
|---|---|---|---|---|---|---|
| Human dynein light chain (DYNLL2) in complex with an in vitro evolved peptide dimerized by leucine … |
Heteromer Q96FJ2; | 12.5 | ||||
| Structure of the complex of the central activation domain of Gcn4 bound to the mediator co-activato… |
Heteromer P19659; | 100 | ||||
| Crystal structure of the N-terminal region of the scallop myosin rod, monoclinic (P21) form |
Heteromer P24733; | 100 | ||||
| Crystal structure of the N-terminal region of the scallop myosin rod, monoclinic (C2) form |
Heteromer P24733; | 100 | 1×IOD; | |||
| 3D structure of the leiomodin/tropomyosin binding interface |
Heteromer P09493; Q6P5Q4; | 100 | ||||
| Complex of TM1a(1-14)Zip with TM9a(251-284): a model for the polymerization domain ("overlap region… |
Heteromer P04692; | 100 | ||||
| Human vimentin coil 2B fragment linked to GCN4 leucine zipper (Z2B) |
Heteromer P08670; | 100 | ||||
| Crystal structure of the Marburg Virus GP2 ectodomain in its post-fusion conformation |
Heteromer P35254; | 73.33 | 2×GOL; 1×CL; | |||
| GCN4-p1 Peptide Trimer with p-methylphenylalanine residue at position 16 (me-F16) |
Heteromer | 96.67 | 6×NA; 1×MG; | |||
| GCN4-p1 Peptide Trimer with Tetrafluoroiodophenylalanine residue at position 16 (TFI-F16) |
Heteromer | 96.67 | 4×NA; | |||
| GCN4-p1 Peptide Trimer with iodo-phenylalanine residue at position 16 (IPF-F16) |
Heteromer | 96.67 | 2×NA; | |||
| GCN4-p1 Peptide Trimer with tyrosine residue at position 16 |
Heteromer | 96.67 | 7×NA; | |||
| PIE12 D-PEPTIDE AGAINST HIV ENTRY (IN COMPLEX WITH IQN17 Q577R RESISTANCE MUTANT) |
Heteromer P04578; | 65.52 | 6×CL; | |||
| Crystal structure of C14linkmid/IQN17: a cross-linked inhibitor of HIV-1 entry bound to the gp41 hy… |
Heteromer P04578; | 65.52 | 3×CL; 3×N2P; | |||
| Fragment of streptococcal M87 protein fused to GCN4 adaptor in complex with human cathelicidin |
Heteromer P49913; Q6TLP8; | 100 | 3×EDO; | |||
| Fragment of streptococcal M87 protein fused to GCN4 adaptor |
Heteromer Q6TLP8; | 100 | 2×PO4; | |||
| Crystal structure of the GCN coiled-coil in complex with nanobody Nb39 |
Heteromer | 96.15 | 4×SO4; 1×ACE; 1×EDO; | |||
| THE STRUCTURE OF AN HIV-1 SPECIFIC CELL ENTRY INHIBITOR IN COMPLEX WITH THE HIV-1 GP41 TRIMERIC CORE |
Heteromer P03377; P04578; | 71.43 | ||||
| Placement of the Structural Proteins in Sindbis Virus |
Heteromer P03316; | 100 | 32×UNX; | |||
| Crystal structure of the head-to-tail junction of tropomyosin complexed with a fragment of TnT |
Heteromer P12620; P58772; | 100 | ||||
| A seven-helix coiled coil | homo-7-mer | 73.33 | 8×HEZ; | |||
| Proteasome-Activating Nucleotidase (PAN) N-domain (57-134) from Archaeoglobus fulgidus fused to GCN4 | homo-6-mer | 100 | ||||
| Proteasome-Activating Nucleotidase (PAN) N-domain (57-134) from Archaeoglobus fulgidus fused to GCN… | homo-6-mer | 100 | ||||
| Self-assembly of coiled-coil tetramers in the 1.40 A structure of a leucine-zipper mutant | homo-4-mer | 83.33 | 4×PO4; | |||
| pLI mutant E20C L16G Y17H, antiparallel | homo-4-mer | 66.67 | ||||
| pLI E20C is antiparallel | homo-4-mer | 72.73 | ||||
| AN ANTI-PARALLEL FOUR HELIX BUNDLE | homo-4-mer | 57.58 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 75.76 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 75.0 | ||||
| An anti-parallel four helix bundle (acetimide modification). | homo-4-mer | 71.88 | ||||
| An anti-parallel to parallel switch. | homo-4-mer | 71.88 | ||||
| AN ANTI-PARALLEL FOUR HELIX BUNDLE | homo-4-mer | 60.61 | ||||
| ABA does not affect topology of pLI. | homo-4-mer | 75.0 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 75.0 | ||||
| Antiparallel Configuration of pLI E20S | homo-4-mer | 70.97 | ||||
| HELIX CAPPING IN THE GCN4 LEUCINE ZIPPER | homo-4-mer | 93.75 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 75.0 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 75.0 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 74.19 | ||||
| A Parallel Coiled-Coil Tetramer with Offset Helices | homo-4-mer | 90.32 | 1×GOL; 1×IPA; | |||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 74.19 | 2×CL; 2×PIH; | |||
| A heterospecific leucine zipper tetramer | homo-4-mer | 89.66 | 1×NA; | |||
| A heterospecific leucine zipper tetramer | homo-4-mer | 89.29 | 1×MG; | |||
| Parallel Configuration of pLI E20S | homo-4-mer | 70.97 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 74.19 | 2×CL; | |||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 74.19 | 2×CL; 2×PIH; | |||
| GCN4 LEUCINE ZIPPER CORE MUTANT P-LI | homo-4-mer | 74.19 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 74.07 | ||||
| An anti-parallel four helix bundle. | homo-4-mer | 67.74 | ||||
| Antiparallel four-stranded coiled coil specified by a 3-3-1 hydrophobic heptad repeat | homo-4-mer | 89.66 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 73.33 | ||||
| Antiparallel four-stranded coiled coil specified by a 3-3-1 hydrophobic heptad repeat | homo-4-mer | 89.29 | 8×NA; | |||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 71.43 | ||||
| Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles | homo-4-mer | 72.0 | ||||
| Crystal structure of the C-Terminal fragment of rabbit skeletal alpha-tropomyosin | homo-4-mer | 100 | ||||
| Actinobacillus actinomycetemcomitans OMP100 residues 133-198 fused to GCN4 adaptors | homo-3-mer | 71.43 | 5×CL; | |||
| GCN4 leucine zipper mutant with two VxxNxxx motifs coordinating chloride | homo-3-mer | 90.32 | 2×CL; | |||
| GCN4 LEUCINE ZIPPER CORE MUTANT P-LI | homo-3-mer | 74.19 | ||||
| Crystal structure of trimeric coiled coil GCN4 leucine zipper | homo-3-mer | 93.75 | ||||
| ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL FORM | homo-3-mer | 96.97 | ||||
| ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL FORM | homo-3-mer | 96.97 | 8×CL; 2×K; | |||
| Crystal structure of mutant coiled coil GCN4 leucine zipper | homo-3-mer | 93.94 | ||||
| GCN4-LEUCINE ZIPPER CORE MUTANT ASN16ABA IN THE TRIMERIC STATE | homo-3-mer | 96.97 | ||||
| GCN4 leucine zipper mutant with three IxxNTxx motifs coordinating bromide | homo-3-mer | 71.88 | 9×BR; | |||
| GCN4 leucine zipper mutant with three IxxNTxx motifs coordinating chloride and nitrate | homo-3-mer | 71.88 | 6×CL; 3×NO3; | |||
| Sequence IANKEDKAD inserted between GCN4 adaptors - Structure A9b black | homo-3-mer | 96.43 | 1×URE; | |||
| Sequence IENKKAD inserted between GCN4 adaptors - Structure A7 | homo-3-mer | 95.83 | ||||
| GCN4-pVTL Coiled-coil Trimer with Threonine at the a(16) position | homo-3-mer | 96.67 | 3×CD; | |||
| GCN4 leucine zipper mutant with one VxxNxxx motif coordinating chloride | homo-3-mer | 93.75 | 6×CL; | |||
| Sequence IENKADKAD inserted between GCN4 adaptors - Structure A9 | homo-3-mer | 96.43 | ||||
| GCN4-pVSL Coiled-coil trimer with Serine at the a(16) position | homo-3-mer | 96.88 | ||||
| ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL AUTOMATIC SOLUTION | homo-3-mer | 96.67 | ||||
| GCN4-LEUCINE ZIPPER CORE MUTANT ASN16GLN IN THE TRIMERIC STATE | homo-3-mer | 96.88 | ||||
| GCN4 leucine zipper mutant with three IxxNTxx motifs coordinating chloride | homo-3-mer | 70.97 | 9×CL; | |||
| Sequence MATKDD inserted between GCN4 adaptors - Structure T6 | homo-3-mer | 96.43 | 1×URE; 1×CL; 1×CA; | |||
| CRYSTAL STRUCTURE OF GCN4-PIQ, A TRIMERIC COILED COIL WITH BURIED POLAR RESIDUES | homo-3-mer | 74.19 | 3×CL; | |||
| Coiled Coil Trimer GCN4-pVLS Ser at Buried D Position | homo-3-mer | 93.55 | 3×ZN; | |||
| GCN4-pVLT Coiled-coil Trimer with Threonine at the d(12) Position | homo-3-mer | 93.55 | 3×ZN; | |||
| GCN4-Leucine zipper core mutant as N16A trigonal automatic solution | homo-3-mer | 96.77 | ||||
| GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A COMPLEXED WITH BENZENE | homo-3-mer | 96.77 | 1×BNZ; | |||
| GCN4 leucine zipper mutant with three IxxNTxx motifs coordinating iodide | homo-3-mer | 70.0 | 9×IOD; | |||
| Thermosinus carboxydivorans Nor1 Tcar0761 residues 68-101 and 191-211 fused to GCN4 adaptors | homo-3-mer | 92.86 | ||||
| Sequence MATKDDIAN inserted between GCN4 adaptors - Structure T9(6) | homo-3-mer | 95.24 | 1×PO4; | |||
| Sequence IANKEDKAD inserted between GCN4 adaptors - Structure A9b grey | homo-3-mer | 96.43 | ||||
| Sequence MATKDDIAN inserted between GCN4 adaptors - Structure T9(9) | homo-3-mer | 95.65 | ||||
| Salmonella enterica SadA 255-302 fused to GCN4 adaptors (SadAK1) | homo-3-mer | 72.41 | ||||
| Salmonella enterica SadA 303-358 fused to GCN4 adaptors (SadAK2) | homo-3-mer | 72.41 | ||||
| ANDREI-N-LVPAS fused to GCN4 adaptors | homo-3-mer | 68.97 | 1×BR; | |||
| Salmonella enterica SadA 255-358 fused to GCN4 adaptors (SadAK12) | homo-3-mer | 72.41 | ||||
| Headbinding Domain of Phage P22 Tailspike C-Terminally Fused to Isoleucine Zipper pIIGCN4 (Chimera … | homo-3-mer | 72.41 | ||||
| Sequence IENKAD inserted between GCN4 adaptors - Structure A6 | homo-3-mer | 96.15 | ||||
| Coiled-coil domain-containing protein 90B residues 43-125 from Homo sapiens fused to a GCN4 adaptor | homo-3-mer | 93.1 | ||||
| Salmonella enterica SadA 1049-1304 fused to GCN4 adaptors (SadAK9-cfI) | homo-3-mer | 72.41 | 3×CL; | |||
| Salmonella enterica SadA 1049-1304 fused to GCN4 adaptors (SadAK9- cfII) | homo-3-mer | 72.41 | 1×CL; | |||
| conserved hypothetical protein residues 311-335 from Candidatus Magnetomorum sp. HK-1 fused to GCN4… | homo-3-mer | 71.43 | ||||
| conserved hypothetical protein residues 311-335 from Candidatus Magnetomorum sp. HK-1 fused to GCN4… | homo-3-mer | 71.43 | 1×1PE; | |||
| conserved hypothetical protein residues 311-335 from Candidatus Magnetomorum sp. HK-1 fused to GCN4… | homo-3-mer | 71.43 | 1×PG4; | |||
| MUTANT Y108Wdel OF THE HEADBINDING DOMAIN OF PHAGE P22 TAILSPIKE C- TERMINally fused to ISOLEUCINE … | homo-3-mer | 71.43 | 9×GOL; | |||
| hypothetical protein OMM_04225 residues 244-274 from Candidatus Magnetoglobus multicellularis fused… | homo-3-mer | 100 | ||||
| conserved hypothetical protein residues 311-335 from Candidatus Magnetomorum sp. HK-1 fused to GCN4… | homo-3-mer | 71.43 | ||||
| conserved hypothetical protein residues 311-335 from Candidatus Magnetomorum sp. HK-1 fused to GCN4… | homo-3-mer | 71.43 | ||||
| Salmonella enterica SadA 823-947 fused to a GCN4 adaptor (SadAK5) | homo-3-mer | 70.37 | 4×NO3; | |||
| Salmonella enterica SadA 1185-1386 fused to GCN4 adaptors (SadAK14) | homo-3-mer | 73.08 | 1×CL; | |||
| Structure of the HIV-1 gp41 Membrane-Proximal Ectodomain Region in a Putative Prefusion Conformation | homo-3-mer | 57.9 | 4×PO4; 6×MPD; | |||
| THE GCN4 BASIC REGION LEUCINE ZIPPER BINDS DNA AS A DIMER OF UNINTERRUPTED ALPHA HELICES: CRYSTAL S… | homo-2-mer | 98.25 | ||||
| THE X-RAY STRUCTURE OF THE GCN4-BZIP BOUND TO ATF/CREB SITE DNA SHOWS THE COMPLEX DEPENDS ON DNA FL… | homo-2-mer | 100 | ||||
| GCN4 BASIC DOMAIN, LEUCINE ZIPPER COMPLEXED WITH ATF/CREB SITE DNA | homo-2-mer | 100 | ||||
| Crystal Structure of a Zif23-GCN4 Chimera Bound to DNA | homo-2-mer | 50.0 | 4×ZN; | |||
| GCN4-p1 with mutation to 1-Aminocyclohexanecarboxylic acid at residue 10 | homo-2-mer | 96.97 | 1×IPA; | |||
| GCN4-p1 single Val9 to Ile mutant | homo-2-mer | 96.77 | ||||
| GCN4 leucine zipper, mutation of Lys15 to epsilon-azido-Lys | homo-2-mer | 96.97 | ||||
| GCN4 leucine zipper domain in a dimeric oligomerization state | homo-2-mer | 100 | ||||
| GCN4-p1 double Val9, 23 to Ile mutant | homo-2-mer | 93.55 | ||||
| GCN4-p1 triple Val9, 23,30 to Ile mutant | homo-2-mer | 90.91 | 1×GOL; | |||
| Oxime side-chain cross-links in the GCN4-p1 dimeric coiled coil: Linear precursor | homo-2-mer | 90.91 | 1×GOL; 3×ACT; | |||
| GCN4-p1 single Val9 to aminobutyric acid mutant | homo-2-mer | 96.67 | 1×GOL; | |||
| Oxime side-chain cross-links in the GCN4-p1 dimeric coiled coil: Cyclic product | homo-2-mer | 90.62 | 2×ACT; 1×GOL; | |||
| VISUALIZING AN UNSTABLE COILED COIL: THE CRYSTAL STRUCTURE OF AN N-TERMINAL SEGMENT OF THE SCALLOP … | homo-2-mer | 100 | ||||
| GLYTM1BZIP: A CHIMERIC PEPTIDE MODEL OF THE N-TERMINUS OF A RAT SHORT ALPHA TROPOMYOSIN WITH THE N-… | homo-2-mer | 62.5 | ||||
| TMZIP: A CHIMERIC PEPTIDE MODEL OF THE N-TERMINUS OF ALPHA TROPOMYOSIN, NMR, 15 STRUCTURES | homo-2-mer | 65.62 | ||||
| GlyTM1b(1-19)zip: A Chimeric Peptide Model of the N-Terminus of a Rat Short Alpha-Tropomyosin with … | homo-2-mer | 62.5 | ||||
| peptide structure | homo-2-mer | 80.64 | ||||
| Crystal structure of a GCN4 leucine zipper mutant at 1.6 A resolution | homo-2-mer | 87.1 | ||||
| GCN4-LEUCINE ZIPPER CORE MUTANT ASN16ABA IN THE DIMERIC STATE | homo-2-mer | 96.77 | ||||
| GCN4 with NPEG4 at position 18 | homo-2-mer | 96.77 | ||||
| X-RAY STRUCTURE OF THE GCN4 LEUCINE ZIPPER, A TWO-STRANDED, PARALLEL COILED COIL | homo-2-mer | 100 | ||||
| GCN4 with asparagine at position 18 | homo-2-mer | 96.77 | ||||
| NMR SOLUTION STRUCTURE OF A DESIGNED HETERODIMERIC LEUCINE ZIPPER | homo-2-mer | 41.94 | ||||
| GCN4p pH 1.5 | homo-2-mer | 100 | ||||
| NMR Structures Show Unwinding of the GCN4p Coiled Coil Superhelix Accompanying Disruption of Ion Pa… | homo-2-mer | 100 | ||||
| NMR Structures Show Unwinding of the GCN4p Coiled Coil Superhelix Accompanying Disruption of Ion Pa… | homo-2-mer | 100 | ||||
| Crystal structure of tropomyosin N-terminal fragment at 0.98A resolution | homo-2-mer | 60.0 | ||||
| GCN4 Leucine Zipper Peptide Mutant | homo-2-mer | 86.67 | 4×NA; | |||
| GCN4-LEUCINE ZIPPER CORE MUTANT ASN16LYS IN THE DIMERIC STATE | homo-2-mer | 96.67 | ||||
| Crystal structure of a fusion protein containing the leucine zipper of GCN4 and the GGDEF domain of… | homo-2-mer | 100 | 1×MG; 4×C2E; | |||
| GCN4-LEUCINE ZIPPER CORE MUTANT ASN16GLN IN THE DIMERIC STATE | homo-2-mer | 96.67 | ||||
| Crystal structure of the c-terminal tropomyosin fragment with N- and C-terminal extensions of the l… | homo-2-mer | 100 | ||||
| Crystal structure of the C-terminal tropomyosin fragment with N- and C-terminal extensions of the l… | homo-2-mer | 100 | ||||
| Solution NMR Structure of Antiparallel Myosin-10:GCN4 Tandem Coiled-Coil | homo-2-mer | 100 | ||||
| Chimeric structure of Saccharomyces cerevisiae GCN4 leucine zipper fused to Staphylococcus aureus A… | homo-2-mer | 100 | ||||
| Chimeric structure of Saccharomyces cerevisiae GCN4 leucine zipper fused to Staphylococcus aureus A… | homo-2-mer | 100 | ||||
| Crystal structure of the C-terminal region of striated muscle alpha-tropomyosin at 2.7 angstrom res… | homo-2-mer | 100 | ||||
| Crystal structure of the head-to-tail junction of tropomyosin | homo-2-mer | 100 | 1×MG; | |||
| Crystal structure of the N-terminal fragment of tropomyosin isoform Tpm1.1 at 1.5 A resolution | homo-2-mer | 100 | 2×PEG; | |||
| THE SOLUTION STRUCTURE OF A LEUCINE-ZIPPER MOTIF PEPTIDE | monomer | 100 | ||||
| NMR structure of the GCN4 trigger peptide | monomer | 100 | ||||
2 SWISS-MODEL models
| Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 2lpb.1.B | monomer | 0.57 | 100.00 | |||
| 1dgc.1.D | homo-2-mer | 0.56 | 100.00 | |||