| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Daniel Dimaio | |
| Lisa L Freeman-Cook | |||
| P2860 | cites work | Small-molecule control of insulin and PDGF receptor signaling and the role of membrane attachment | Q28258881 |
| E5 open reading frame of bovine papillomavirus type 1 encodes a transforming gene | Q28286988 | ||
| Genetic selection for and molecular dynamic modeling of a protein transmembrane domain multimerization motif from a random Escherichia coli genomic library. | Q30328726 | ||
| Selection and characterization of small random transmembrane proteins that bind and activate the platelet-derived growth factor beta receptor. | Q30341383 | ||
| Motifs of serine and threonine can drive association of transmembrane helices | Q30819513 | ||
| The GxxxG motif: a framework for transmembrane helix-helix association | Q30839523 | ||
| Specific locations of hydrophilic amino acids in constructed transmembrane ligands of the platelet-derived growth factor beta receptor | Q31135195 | ||
| TOXCAT: a measure of transmembrane helix association in a biological membrane | Q31917651 | ||
| The platelet-derived growth factor beta receptor as a target of the bovine papillomavirus E5 protein | Q33180948 | ||
| Design and discovery of protein dimerizers | Q33533844 | ||
| Bovine papillomavirus E5 protein induces oligomerization and trans-phosphorylation of the platelet-derived growth factor beta receptor | Q33575831 | ||
| The bovine papillomavirus E5 protein requires a juxtamembrane negative charge for activation of the platelet-derived growth factor beta receptor and transformation of C127 cells | Q33644980 | ||
| Activation of the erythropoietin receptor by the gp55-P viral envelope protein is determined by a single amino acid in its transmembrane domain | Q33891072 | ||
| The Calpha ---H...O hydrogen bond: a determinant of stability and specificity in transmembrane helix interactions | Q33929647 | ||
| Influenza a virus M2 ion channel activity is essential for efficient replication in tissue culture | Q34107639 | ||
| The organizing principle in the formation of the T cell receptor-CD3 complex. | Q34167740 | ||
| Modulation of Na,K-ATPase by the gamma subunit: studies with transfected cells and transmembrane mimetic peptides | Q34220858 | ||
| Sequence specificity in the dimerization of transmembrane alpha-helices | Q34279030 | ||
| Polar side chains drive the association of model transmembrane peptides | Q34630825 | ||
| Multiple transmembrane amino acid requirements suggest a highly specific interaction between the bovine papillomavirus E5 oncoprotein and the platelet-derived growth factor beta receptor | Q35000599 | ||
| How do helix-helix interactions help determine the folds of membrane proteins? Perspectives from the study of homo-oligomeric helical bundles | Q35089609 | ||
| Cellular transformation by a transmembrane peptide: structural requirements for the bovine papillomavirus E5 oncoprotein | Q35256418 | ||
| ??? | Q57000426 | ||
| Translation of open reading frame E5 of bovine papillomavirus is required for its transforming activity | Q35595257 | ||
| Internal packing of helical membrane proteins | Q35749292 | ||
| Identification of amino acids in the transmembrane and juxtamembrane domains of the platelet-derived growth factor receptor required for productive interaction with the bovine papillomavirus E5 protein | Q35895171 | ||
| Transmembrane peptides as inhibitors of ErbB receptor signaling | Q35919443 | ||
| Ligand-independent activation of the platelet-derived growth factor beta receptor: requirements for bovine papillomavirus E5-induced mitogenic signaling | Q36550896 | ||
| Transmembrane helix predictions revisited | Q36639665 | ||
| Transformation-specific interaction of the bovine papillomavirus E5 oncoprotein with the platelet-derived growth factor receptor transmembrane domain and the epidermal growth factor receptor cytoplasmic domain | Q36651868 | ||
| The central hydrophobic domain of the bovine papillomavirus E5 transforming protein can be functionally replaced by many hydrophobic amino acid sequences containing a glutamine | Q36656359 | ||
| Platelet-derived growth factor receptor can mediate tumorigenic transformation by the bovine papillomavirus E5 protein | Q36690316 | ||
| The erythropoietin receptor transmembrane region is necessary for activation by the Friend spleen focus-forming virus gp55 glycoprotein | Q36818583 | ||
| 44-amino-acid E5 transforming protein of bovine papillomavirus requires a hydrophobic core and specific carboxyl-terminal amino acids | Q36846314 | ||
| Stable association between the bovine papillomavirus E5 transforming protein and activated platelet-derived growth factor receptor in transformed mouse cells | Q37119249 | ||
| The dimerization motif of the glycophorin A transmembrane segment in membranes: importance of glycine residues | Q38338136 | ||
| Productive interaction between transmembrane mutants of the bovine papillomavirus E5 protein and the platelet-derived growth factor beta receptor. | Q40471258 | ||
| Identification of amino acid residues crucial for chemokine receptor dimerization. | Q40600436 | ||
| Transmembrane T-cell receptor peptides inhibit B- and natural killer-cell function | Q40660132 | ||
| Molecular examination of the transmembrane requirements of the platelet-derived growth factor beta receptor for a productive interaction with the bovine papillomavirus E5 oncoprotein | Q40701066 | ||
| Identification of the transmembrane dimer interface of the bovine papillomavirus E5 protein | Q40794484 | ||
| Bovine papillomavirus E5 protein induces the formation of signal transduction complexes containing dimeric activated platelet-derived growth factor beta receptor and associated signaling proteins | Q40891304 | ||
| A peptide derived from a beta2-adrenergic receptor transmembrane domain inhibits both receptor dimerization and activation. | Q41186190 | ||
| Transmembrane helical interactions and the assembly of the T cell receptor complex | Q41727804 | ||
| A transmembrane domain-derived peptide inhibits D1 dopamine receptor function without affecting receptor oligomerization | Q42059792 | ||
| The E5 oncoprotein of bovine papillomavirus is oriented asymmetrically in Golgi and plasma membranes | Q42798650 | ||
| Helix-helix packing and interfacial pairwise interactions of residues in membrane proteins | Q43716829 | ||
| A transmembrane segment mimic derived from Escherichia coli diacylglycerol kinase inhibits protein activity | Q44397869 | ||
| Blockade of G protein-coupled receptors and the dopamine transporter by a transmembrane domain peptide: novel strategy for functional inhibition of membrane proteins in vivo | Q44582594 | ||
| Specific recognition nucleotides and their DNA context determine the affinity of E2 protein for 17 binding sites in the BPV-1 genome | Q46082446 | ||
| Switching signals on or off by receptor dimerization | Q46100759 | ||
| Dimerization as a regulatory mechanism in signal transduction | Q46409691 | ||
| Structural models of the bovine papillomavirus E5 protein. | Q52229470 | ||
| Interaction of transmembrane helices by a knobs-into-holes packing characteristic of soluble coiled coils. | Q52243202 | ||
| Inhibition of G-protein-coupled receptor function by disruption of transmembrane domain interactions. | Q52537132 | ||
| The E5 transforming gene of bovine papillomavirus encodes a small, hydrophobic polypeptide. | Q54144933 | ||
| A dimerization motif for transmembrane α–helices | Q54246480 | ||
| The effect of point mutations on the free energy of transmembrane alpha-helix dimerization. | Q54558747 | ||
| Strong hydrogen bonding interactions involving a buried glutamic acid in the transmembrane sequence of the neu/erbB-2 receptor | Q57103722 | ||
| Membrane protein association by potential intrarnembrane charge pairs | Q59054338 | ||
| T-cell antigen receptor transmembrane peptides modulate T-cell function and T cell-mediated disease | Q61863690 | ||
| The Erythropoietin Receptor Transmembrane Domain Mediates Complex Formation with Viral Anemic and Polycythemic gp55 Proteins | Q64008500 | ||
| Membrane protein folding and oligomerization: the two-stage model | Q67662788 | ||
| Asparagine-mediated self-association of a model transmembrane helix | Q73402361 | ||
| Helix packing in membrane proteins | Q73878142 | ||
| Interhelical hydrogen bonds in the CFTR membrane domain | Q74102837 | ||
| A heptad motif of leucine residues found in membrane proteins can drive self-assembly of artificial transmembrane segments | Q74638043 | ||
| Polar residues in membrane domains of proteins: molecular basis for helix-helix association in a mutant CFTR transmembrane segment | Q77752561 | ||
| Hetero-assembly between all-L- and all-D-amino acid transmembrane domains: forces involved and implication for inactivation of membrane proteins | Q80979259 | ||
| P433 | issue | 52 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | transmembrane protein | Q424204 |
| P304 | page(s) | 7756-7762 | |
| P577 | publication date | 2005-11-01 | |
| P1433 | published in | Oncogene | Q1568657 |
| P1476 | title | Modulation of cell function by small transmembrane proteins modeled on the bovine papillomavirus E5 protein | |
| P478 | volume | 24 |
| Q33482628 | Artificial transmembrane oncoproteins smaller than the bovine papillomavirus E5 protein redefine sequence requirements for activation of the platelet-derived growth factor beta receptor |
| Q35742172 | Biologically active LIL proteins built with minimal chemical diversity |
| Q42610663 | Complete genomes and phylogenetic positions of bovine papillomavirus type 8 and a variant type from a European bison |
| Q33530296 | Construction and genetic selection of small transmembrane proteins that activate the human erythropoietin receptor. |
| Q33768327 | Construction and maintenance of randomized retroviral expression libraries for transmembrane protein engineering |
| Q92265666 | Membrane receptor activation mechanisms and transmembrane peptide tools to elucidate them |
| Q33289844 | Packing contacts can mediate highly specific interactions between artificial transmembrane proteins and the PDGFbeta receptor |
| Q41136759 | Single methyl groups can act as toggle switches to specify transmembrane Protein-protein interactions. |
| Q37319770 | The bovine papillomavirus E5 protein and the PDGF beta receptor: it takes two to tango |
| Q91677733 | Transmembrane Protein Aptamer Induces Cooperative Signaling by the EPO Receptor and the Cytokine Receptor β-Common Subunit |
| Q34343448 | Transmembrane protein aptamers that inhibit CCR5 expression and HIV coreceptor function |
| Q36318145 | Viruses - seeking and destroying the tumor program |
| Q46051734 | Viruses: tools for tumor target discovery, and agents for oncolytic therapies - an introduction |
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