| human | Q5 |
| P973 | described at URL | https://researchers.uq.edu.au/researcher/1593 |
| P6178 | Dimensions author ID | 01161646106.95 |
| P1960 | Google Scholar author ID | AA7mcRsAAAAJ |
| P6634 | LinkedIn personal profile ID | glenn-king-64660aa5 |
| P496 | ORCID iD | 0000-0002-2308-2200 |
| P1053 | ResearcherID | J-5059-2012 |
| P2038 | ResearchGate profile ID | Glenn-King |
| P1153 | Scopus author ID | 7402995101 |
| P166 | award received | Prime Minister's Prize for Innovation | Q57398745 |
| Fellow of the Australian Academy of Science | Q59260322 | ||
| P69 | educated at | University of Sydney | Q487556 |
| P108 | employer | University of Queensland | Q866012 |
| National Health and Medical Research Council | Q6973022 | ||
| P734 | family name | King | Q535214 |
| King | Q535214 | ||
| King | Q535214 | ||
| P735 | given name | Glenn | Q19802199 |
| Glenn | Q19802199 | ||
| P106 | occupation | biochemist | Q2919046 |
| P21 | sex or gender | male | Q6581097 |
| Q91527831 | 1H, 13C and 15N NMR assignments of two plant protease inhibitors (IRD7 and IRD12) from the plant Capsicum annuum |
| Q58284637 | 31. Spider-venom Peptides that Target the Human NaV1.7 channel: Potential Analgesics for the Treatment of Chronic Pain |
| Q59669309 | 32. Development of High Throughput Calcium Channel Assays to Accelerate the Discovery of Novel Toxins Targeting Human Cav2.2 Channels |
| Q92853976 | A Cell-Penetrating Scorpion Toxin Enables Mode-Specific Modulation of TRPA1 and Pain |
| Q50648281 | A Strategy for Production of Correctly Folded Disulfide-Rich Peptides in the Periplasm of E. coli. |
| Q27681733 | A Tarantula-Venom Peptide Antagonizes the TRPA1 Nociceptor Ion Channel by Binding to the S1–S4 Gating Domain |
| Q92012560 | A Versatile and Robust Serine Protease Inhibitor Scaffold from Actinia tenebrosa |
| Q58747700 | A comprehensive portrait of the venom of the giant red bull ant, , reveals a hyperdiverse hymenopteran toxin gene family |
| Q27684660 | A distinct sodium channel voltage-sensor locus determines insect selectivity of the spider toxin Dc1a |
| Q27671613 | A dynamic pharmacophore drives the interaction between Psalmotoxin-1 and the putative drug target acid-sensing ion channel 1a |
| Q52674742 | A model genetic system for testing the in vivo function of peptide toxins. |
| Q33811637 | A non-uniformly sampled 4D HCC(CO)NH-TOCSY experiment processed using maximum entropy for rapid protein sidechain assignment |
| Q112748657 | A pain-causing and paralytic ant venom glycopeptide |
| Q92628541 | A process of convergent amplification and tissue-specific expression dominates the evolution of toxin and toxin-like genes in sea anemones |
| Q28660968 | A proteomics and transcriptomics investigation of the venom from the barychelid spider Trittame loki (brush-foot trapdoor) |
| Q36627039 | A proton n.m.r. study of iminodipeptide transport and hydrolysis in the human erythrocyte. Possible physiological roles for the coupled system |
| Q48681981 | A rational nomenclature for naming peptide toxins from spiders and other venomous animals. |
| Q93228846 | A selective naV1.1 activator with potential for treatment of dravet syndrome epilepsy |
| Q42860282 | A sequence similarity between proteins involved in initiation and termination of bacterial chromosome replication |
| Q98622859 | A spider-venom peptide with multi-target activity on sodium and calcium channels alleviates chronic visceral pain in a model of irritable bowel syndrome |
| Q89860164 | Addition of K22 Converts Spider Venom Peptide Pme2a from an Activator to an Inhibitor of NaV1.7. |
| Q96339110 | Animal toxins - Nature's evolutionary-refined toolkit for basic research and drug discovery |
| Q50480884 | Aphicidal efficacy of scorpion- and spider-derived neurotoxins. |
| Q45762484 | Application of progress curve analysis to in situ enzyme kinetics using 1H NMR spectroscopy |
| Q24615380 | ArachnoServer 2.0, an updated online resource for spider toxin sequences and structures |
| Q47720296 | ArachnoServer 3.0: an online resource for automated discovery, analysis and annotation of spider toxins. |
| Q34010298 | ArachnoServer: a database of protein toxins from spiders |
| Q28488991 | Artificial septal targeting of Bacillus subtilis cell division proteins in Escherichia coli: an interspecies approach to the study of protein-protein interactions in multiprotein complexes |
| Q42040674 | Assimilation of alpha-glutamyl-peptides by human erythrocytes. A possible means of glutamate supply for glutathione synthesis |
| Q99593620 | Australian funnel-web spiders evolved human-lethal δ-hexatoxins for defense against vertebrate predators |
| Q35739176 | Australian funnel-web spiders: master insecticide chemists. |
| Q40946877 | Backbone and side chain NMR assignments of Geobacillus stearothermophilus ZapA allow identification of residues that mediate the interaction of ZapA with FtsZ. |
| Q53651202 | Backbone and side-chain 1H, 15N and 13C assignments for the cis conformer of the beta domain of the bacterial cell division protein DivIB. |
| Q77746309 | Backbone and side-chain 1H, 15N, and 13C assignments for chick cofilin |
| Q46415713 | Backbone and side-chain 1H, 15N, and 13C assignments for the beta domain of the bacterial cell division protein DivIB. |
| Q77826634 | Backbone and side-chain 1H, 15N, and 13C assignments for the topological specificity domain of the MinE cell division protein |
| Q71145574 | Backbone dynamics of the c-Jun leucine zipper: 15N NMR relaxation studies |
| Q104752009 | Bimodal Imaging of Mouse Peripheral Nerves with Chlorin Tracers |
| Q58612514 | Buzz Kill: Function and Proteomic Composition of Venom from the Giant Assassin Fly (Diptera: Asilidae) |
| Q30558624 | Calculation of symmetric multimer structures from NMR data using a priori knowledge of the monomer structure, co-monomer restraints, and interface mapping: The case of leucine zippers. |
| Q96577371 | Can we resolve the taxonomic bias in spider venom research? |
| Q28650921 | Centipede venom: recent discoveries and current state of knowledge |
| Q36128041 | Centipede venoms as a source of drug leads. |
| Q36030423 | Characterization of Three Venom Peptides from the Spitting Spider Scytodes thoracica. |
| Q30583809 | Characterization of peptide fluxes into human erythrocytes. A proton-n.m.r. study |
| Q24606345 | Chemical punch packed in venoms makes centipedes excellent predators |
| Q48723728 | Chemical synthesis and folding of APETx2, a potent and selective inhibitor of acid sensing ion channel 3. |
| Q27663781 | Chemical synthesis and structure of the prokineticin Bv8 |
| Q27687917 | Chemical synthesis, 3D structure, and ASIC binding site of the toxin mambalgin-2 |
| Q28655521 | Clawing through evolution: toxin diversification and convergence in the ancient lineage Chilopoda (centipedes) |
| Q28250533 | Cloning and activity of a novel α-latrotoxin from red-back spider venom |
| Q48085368 | Cloning, expression, and spectroscopic studies of the Jun leucine zipper domain. |
| Q31030631 | Combination of Ambiguous and Unambiguous Data in the Restraint-driven Docking of Flexible Peptides with HADDOCK: The Binding of the Spider Toxin PcTx1 to the Acid Sensing Ion Channel (ASIC) 1a. |
| Q39956006 | Comparison of the peptidome and insecticidal activity of venom from a taxonomically diverse group of theraphosid spiders |
| Q33549891 | Conformation of sarafotoxin-6b in aqueous solution determined by NMR spectroscopy and distance geometry. |
| Q34635308 | Construction of a hypervirulent and specific mycoinsecticide for locust control. |
| Q55353894 | Correction: Molecular Evolution of Vertebrate Neurotrophins: Co-Option of the Highly Conserved Nerve Growth Factor Gene into the Advanced Snake Venom Arsenalf. |
| Q41946615 | Corrigendum: Pharmacological characterisation of the highly NaV1.7 selective spider venom peptide Pn3a. |
| Q104613956 | Crouching Tiger, Hidden Protein: Searching for Insecticidal Toxins in Venom of the Red Tiger Assassin Bug (Havinthus rufovarius) |
| Q36126184 | Cyclisation increases the stability of the sea anemone peptide APETx2 but decreases its activity at acid-sensing ion channel 3 |
| Q54210515 | Cyclization of peptides by using selenolanthionine bridges. |
| Q98612106 | Deadly Proteomes: a Practical Guide to Proteotranscriptomics of Animal Venoms |
| Q31138858 | Determination of ligand binding modes in weak protein-ligand complexes using sparse NMR data |
| Q67588993 | Determination of the solution structure of a platelet-adhesion peptide of von Willebrand factor |
| Q36755099 | Determination of the structure of symmetric coiled-coil proteins from NMR data: application of the leucine zipper proteins Jun and GCN4. |
| Q90158502 | Development of High-Throughput Fluorescent-Based Screens to Accelerate Discovery of P2X Inhibitors from Animal Venoms |
| Q34280208 | Development of a rational nomenclature for naming peptide and protein toxins from sea anemones. |
| Q54585176 | Development of a sensitive peptide-based immunoassay: application to detection of the Jun and Fos oncoproteins. |
| Q46090030 | Differential Evolution and Neofunctionalization of Snake Venom Metalloprotease Domains. |
| Q36666341 | Differential evolution and neofunctionalization of snake venom metalloprotease domains |
| Q44842706 | Differential hydrolysis of erythrocyte and mitochondrial membrane phospholipids by two phospholipase A2 isoenzymes (NK-PLA2-I and NK-PLA2-II) from the venom of the Indian monocled cobra Naja kaouthia |
| Q89151803 | Dipteran toxicity assays for determining the oral insecticidal activity of venoms and toxins |
| Q52645013 | Direct NMR evidence that prolidase is specific for the trans isomer of imidodipeptide substrates. |
| Q43248237 | Direct visualization of disulfide bonds through diselenide proxies using 77Se NMR spectroscopy |
| Q97411539 | Discovery and characterisation of novel peptides from Amazonian stinging ant venoms with antiparasitic activity |
| Q27625209 | Discovery and characterization of a family of insecticidal neurotoxins with a rare vicinal disulfide bridge |
| Q41576564 | Discovery and mode of action of a novel analgesic β-toxin from the African spider Ceratogyrus darlingi |
| Q24605644 | Discovery of a selective NaV1.7 inhibitor from centipede venom with analgesic efficacy exceeding morphine in rodent pain models |
| Q33642446 | Diversification of a single ancestral gene into a successful toxin superfamily in highly venomous Australian funnel-web spiders |
| Q34089423 | Division site placement in E.coli: mutations that prevent formation of the MinE ring lead to loss of the normal midcell arrest of growth of polar MinD membrane domains |
| Q42844088 | Do vicinal disulfide bridges mediate functionally important redox transformations in proteins? |
| Q34597976 | Domain architecture and structure of the bacterial cell division protein DivIB |
| Q45327094 | Dracula's children: molecular evolution of vampire bat venom. |
| Q91156586 | Efficient Enzymatic Ligation of Inhibitor Cystine Knot Spider Venom Peptides: Using Sortase A To Form Double-Knottins That Probe Voltage-Gated Sodium Channel NaV1.7. |
| Q53767152 | Enkephalin degradation by human erythrocytes and hemolysates studied using 1H NMR spectroscopy. |
| Q91867218 | Entomo-venomics: The evolution, biology and biochemistry of insect venoms |
| Q57177359 | Erratum: Corrigendum: Mutations in the voltage-gated potassium channel gene KCNH1 cause Temple-Baraitser syndrome and epilepsy |
| Q58697251 | Evaluation of Chemical Strategies for Improving the Stability and Oral Toxicity of Insecticidal Peptides |
| Q28488952 | Evidence from artificial septal targeting and site-directed mutagenesis that residues in the extracytoplasmic β domain of DivIB mediate its interaction with the divisomal transpeptidase PBP 2B |
| Q102148824 | Fifteen years of NaV 1.7 as an analgesic target: why has excellent in vitropharmacology not translated into in vivo analgesic efficacy? |
| Q90919663 | Fluorescence Imaging of Peripheral Nerves by a Nav1.7-Targeted Inhibitor Cystine Knot Peptide |
| Q94687827 | Fluorescence labeling of a NaV1.7-targeted peptide for near-infrared nerve visualization |
| Q26864410 | From foe to friend: using animal toxins to investigate ion channel function |
| Q44826260 | From kinetics to imaging: an NMR odyssey--a festschrift symposium in honour of Philip William Kuchel |
| Q45333315 | Functional characterization on invertebrate and vertebrate tissues of tachykinin peptides from octopus venoms |
| Q36126209 | Functional expression in Escherichia coli of the disulfide-rich sea anemone peptide APETx2, a potent blocker of acid-sensing ion channel 3. |
| Q45007823 | Functional implications of large backbone amplitude motions of the glycoprotein 130-binding epitope of interleukin-6. |
| Q27631272 | Functional significance of the beta hairpin in the insecticidal neurotoxin omega-atracotoxin-Hv1a |
| Q28728047 | Fusion to snowdrop lectin magnifies the oral activity of insecticidal ω-Hexatoxin-Hv1a peptide by enabling its delivery to the central nervous system |
| Q88497955 | Gating modifier toxins isolated from spider venom: Modulation of voltage-gated sodium channels and the role of lipid membranes |
| Q118948554 | Genomic, functional and structural analyses elucidate evolutionary innovation within the sea anemone 8 toxin family |
| Q50090290 | Giant fish-killing water bug reveals ancient and dynamic venom evolution in Heteroptera. |
| Q90698822 | Gomesin inhibits melanoma growth by manipulating key signaling cascades that control cell death and proliferation |
| Q51556830 | Gomesin peptides prevent proliferation and lead to the cell death of devil facial tumour disease cells. |
| Q88588402 | Harvesting Venom Toxins from Assassin Bugs and Other Heteropteran Insects |
| Q104509923 | Heterodimeric Insecticidal Peptide Provides New Insights into the Molecular and Functional Diversity of Ant Venoms |
| Q41812721 | High resolution 1H NMR study of the solution structure of the S4 segment of the sodium channel protein |
| Q27732824 | High resolution NMR solution structure of the leucine zipper domain of the c-Jun homodimer |
| Q37018074 | Histidine kinases as antimicrobial targets: prospects and pitfalls. |
| Q27700858 | Identification and Characterization of ProTx-III [μ-TRTX-Tp1a], a New Voltage-Gated Sodium Channel Inhibitor from Venom of the Tarantula Thrixopelma pruriens |
| Q55172769 | Identification and Functional Characterization of Sugarcane Invertase Inhibitor (ShINH1): A Potential Candidate for Reducing Pre- and Post-harvest Loss of Sucrose in Sugarcane. |
| Q33794290 | Improved efficacy of an arthropod toxin expressing fungus against insecticide-resistant malaria-vector mosquitoes |
| Q41816855 | Inhibition and active-site modelling of prolidase. |
| Q48310094 | Inhibition of acid-sensing ion channels by diminazene and APETx2 evoke partial and highly variable antihyperalgesia in a rat model of inflammatory pain. |
| Q33744738 | Insect-Active Toxins with Promiscuous Pharmacology from the African Theraphosid Spider Monocentropus balfouri |
| Q38811445 | Insecticidal activity of a recombinant knottin peptide from Loxosceles intermedia venom and recognition of these peptides as a conserved family in the genus. |
| Q30010232 | Insulin-like growth factor binding protein-2: NMR analysis and structural characterization of the N-terminal domain |
| Q39677574 | Interaction of Tarantula Venom Peptide ProTx-II with Lipid Membranes Is a Prerequisite for Its Inhibition of Human Voltage-gated Sodium Channel NaV1.7. |
| Q46941403 | Intraspecific venom variation in the medically significant Southern Pacific Rattlesnake (Crotalus oreganus helleri): biodiscovery, clinical and evolutionary implications |
| Q52532456 | Involvement of the N-finger in the self-association of GATA-1. |
| Q39542830 | Isolation and characterization of a structurally unique β-hairpin venom peptide from the predatory ant Anochetus emarginatus |
| Q47873042 | Isolation and pharmacological characterisation of delta-atracotoxin-Hv1b, a vertebrate-selective sodium channel toxin |
| Q52576344 | Isolation of a funnel-web spider polypeptide with homology to mamba intestinal toxin 1 and the embryonic head inducer Dickkopf-1. |
| Q28533266 | Isolation of an orally active insecticidal toxin from the venom of an Australian tarantula |
| Q51356366 | Isolation of two insecticidal toxins from venom of the Australian theraphosid spider Coremiocnemis tropix. |
| Q45812042 | Isolation, synthesis and characterization of ω-TRTX-Cc1a, a novel tarantula venom peptide that selectively targets L-type Cav channels |
| Q97095349 | It Takes Two: Dimerization Is Essential for the Broad-Spectrum Predatory and Defensive Activities of the Venom Peptide Mp1a from the Jack Jumper Ant Myrmecia pilosula |
| Q38330804 | Key residues characteristic of GATA N-fingers are recognized by FOG. |
| Q48496695 | Localization of Nav 1.7 in the normal and injured rodent olfactory system indicates a critical role in olfaction, pheromone sensing and immune function. |
| Q37826802 | Macromolecular NMR spectroscopy for the non-spectroscopist. |
| Q37826803 | Macromolecular NMR spectroscopy for the non-spectroscopist: beyond macromolecular solution structure determination |
| Q42736395 | Managing local swelling following intratumoral electro-chemo-gene therapy |
| Q34219474 | Mapping the MinE site involved in interaction with the MinD division site selection protein of Escherichia coli |
| Q57361298 | Mapping the Phosphoinositide-Binding Site on Chick Cofilin Explains How PIP2 Regulates the Cofilin-Actin Interaction |
| Q47791810 | Measuring macromolecular diffusion using heteronuclear multiple-quantum pulsed-field-gradient NMR. |
| Q70784022 | Measuring protein self-association using pulsed-field-gradient NMR spectroscopy: application to myosin light chain 2 |
| Q48302527 | Melt With This Kiss: Paralyzing and Liquefying Venom of The Assassin Bug Pristhesancus plagipennis (Hemiptera: Reduviidae). |
| Q34389023 | Membrane localization of MinD is mediated by a C-terminal motif that is conserved across eubacteria, archaea, and chloroplasts |
| Q59286542 | Membrane-binding properties of gating modifier and pore-blocking toxins: Membrane interaction is not a prerequisite for modification of channel gating |
| Q91377250 | Missiles of Mass Disruption: Composition and Glandular Origin of Venom Used as a Projectile Defensive Weapon by the Assassin Bug Platymeris rhadamanthus |
| Q34596346 | Modulation of insect Ca(v) channels by peptidic spider toxins. |
| Q48100659 | Modulatory features of the novel spider toxin μ-TRTX-Df1a isolated from the venom of the spider Davus fasciatus. |
| Q37291159 | Molecular basis of the interaction between gating modifier spider toxins and the voltage sensor of voltage-gated ion channels. |
| Q28831151 | Molecular basis of the remarkable species selectivity of an insecticidal sodium channel toxin from the African spider Augacephalus ezendami |
| Q36211191 | Molecular dynamics and functional studies define a hot spot of crystal contacts essential for PcTx1 inhibition of acid-sensing ion channel 1a. |
| Q28535488 | Molecular evolution of vertebrate neurotrophins: co-option of the highly conserved nerve growth factor gene into the advanced snake venom arsenalf |
| Q34605915 | Molecular phylogeny and evolution of the proteins encoded by coleoid (cuttlefish, octopus, and squid) posterior venom glands |
| Q72590165 | Monitoring metabolic reactions in erythrocytes using NMR spectroscopy |
| Q35112603 | Multifunctional warheads: diversification of the toxin arsenal of centipedes via novel multidomain transcripts |
| Q96225100 | Mutational analysis of ProTx-I and the novel venom peptide Pe1b provide insight into residues responsible for selective inhibition of the analgesic drug target NaV1.7. |
| Q46125040 | Mutations in the voltage-gated potassium channel gene KCNH1 cause Temple-Baraitser syndrome and epilepsy |
| Q37770158 | NMR methods for determining disulfide-bond connectivities |
| Q40592802 | NMR methods for measuring membrane transport |
| Q42536268 | NMR spectroscopy and X-ray crystallography provide complementary information on the structure and dynamics of leucine zippers |
| Q91636065 | NMR structure and dynamics of inhibitory repeat domain variant 12, a plant protease inhibitor from Capsicum annuum, and its structural relationship to other plant protease inhibitors |
| Q89013977 | NaV1.1 inhibition can reduce visceral hypersensitivity |
| Q43900797 | No evidence for bradykinin hydrolysis in human erythrocyte suspensions: 1H NMR studies |
| Q42855508 | No evidence of high capacity alpha-glutamyl-dipeptide transport into human erythrocytes |
| Q38238866 | No gain, no pain: NaV1.7 as an analgesic target |
| Q61959955 | Novel venom-derived inhibitors of the human EAG channel, a putative antiepileptic drug target |
| Q49292106 | Nuclear magnetic resonance characterization of the Jun leucine zipper domain: unusual properties of coiled-coil interfacial polar residues. |
| Q99729237 | Olfactory bulb targeted QD bioconjugate and Kv1.3 blocking peptide improve metabolic health in obese male mice |
| Q37831459 | On the venom system of centipedes (Chilopoda), a neglected group of venomous animals |
| Q52663054 | Orally active acaricidal peptide toxins from spider venom. |
| Q57615134 | PHAB toxins: a unique family of predatory sea anemone toxins evolving via intra-gene concerted evolution defines a new peptide fold |
| Q52150259 | PcTx1 affords neuroprotection in a conscious model of stroke in hypertensive rats via selective inhibition of ASIC1a. |
| Q37292215 | Peptide toxins that selectively target insect Na(V) and Ca(V) channels |
| Q92862457 | Periplasmic Expression of 4/7 α-Conotoxin TxIA Analogs in E. coli Favors Ribbon Isomer Formation - Suggestion of a Binding Mode at the α7 nAChR |
| Q30835612 | Pharmacological characterisation of the highly NaV1.7 selective spider venom peptide Pn3a |
| Q27667515 | Phox homology band 4.1/ezrin/radixin/moesin-like proteins function as molecular scaffolds that interact with cargo receptors and Ras GTPases |
| Q34354583 | Positioning of the MinE binding site on the MinD surface suggests a plausible mechanism for activation of the Escherichia coli MinD ATPase during division site selection |
| Q41929851 | Potent neuroprotection after stroke afforded by a double-knot spider-venom peptide that inhibits acid-sensing ion channel 1a. |
| Q35279317 | Production and packaging of a biological arsenal: evolution of centipede venoms under morphological constraint |
| Q34718440 | Production of recombinant disulfide-rich venom peptides for structural and functional analysis via expression in the periplasm of E. coli. |
| Q36386878 | Proteomics and deep sequencing comparison of seasonally active venom glands in the platypus reveals novel venom peptides and distinct expression profiles. |
| Q71701581 | Proton NMR spectroscopic studies of dipeptidase in human erythrocytes |
| Q51622189 | Quantitation of metabolites of isolated chicken enterocytes using NMR spectroscopy. |
| Q35171597 | RNA polymerase-induced remodelling of NusA produces a pause enhancement complex. |
| Q28484559 | Recombinant expression of margatoxin and agitoxin-2 in Pichia pastoris: an efficient method for production of KV1.3 channel blockers |
| Q30159819 | Regulation of RhoGEF activity by intramolecular and intermolecular SH3 domain interactions |
| Q39718985 | Reorganization of terminator DNA upon binding replication terminator protein: implications for the functional replication fork arrest complex. |
| Q38663849 | Revisiting venom of the sea anemone Stichodactyla haddoni: Omics techniques reveal the complete toxin arsenal of a well-studied sea anemone genus. |
| Q43767916 | Role of interfacial hydrophobic residues in the stabilization of the leucine zipper structures of the transcription factors c-Fos and c-Jun |
| Q34624767 | Role of the PAS sensor domains in the Bacillus subtilis sporulation kinase KinA. |
| Q44131091 | Role of the structurally disordered N- and C-terminal residues in the Janus-faced atracotoxins |
| Q34872319 | SVM-based prediction of propeptide cleavage sites in spider toxins identifies toxin innovation in an Australian tarantula. |
| Q35206534 | Safe and effective treatment of spontaneous neoplasms with interleukin 12 electro-chemo-gene therapy |
| Q34791427 | Safety and efficacy of tumor-targeted interleukin 12 gene therapy in treated and non-treated, metastatic lesions |
| Q40739794 | Scanning mutagenesis of a Janus-faced atracotoxin reveals a bipartite surface patch that is essential for neurotoxic function |
| Q45016654 | Scanning mutagenesis of omega-atracotoxin-Hv1a reveals a spatially restricted epitope that confers selective activity against insect calcium channels |
| Q92494547 | Sea Anemone Toxins: A Structural Overview |
| Q58801118 | Selective Na1.1 activation rescues Dravet syndrome mice from seizures and premature death |
| Q30833447 | Selective inhibition of ASIC1a confers functional and morphological neuroprotection following traumatic spinal cord injury |
| Q28594552 | Selective spider toxins reveal a role for the Nav1.1 channel in mechanical pain |
| Q58284514 | Selenoether oxytocin analogues have analgesic properties in a mouse model of chronic abdominal pain |
| Q35538490 | Seven novel modulators of the analgesic target NaV 1.7 uncovered using a high-throughput venom-based discovery approach |
| Q58284678 | Site-Specific pKa Determination of Selenocysteine Residues in Selenovasopressin by Using 77Se NMR Spectroscopy |
| Q52534119 | Site-directed mutants of RTP of Bacillus subtilis and the mechanism of replication fork arrest. |
| Q28267879 | Solution structure of endothelin-3 determined using NMR spectroscopy |
| Q61986573 | Spectroscopic identification of a dinuclear metal centre in manganese(II)-activated aminopeptidase P from Escherichia coli: implications for human prolidase |
| Q38269167 | Spider venomics: implications for drug discovery. |
| Q34319661 | Spider-venom peptides as bioinsecticides |
| Q35155666 | Spider-venom peptides as therapeutics. |
| Q38006317 | Spider-venom peptides that target voltage-gated sodium channels: pharmacological tools and potential therapeutic leads. |
| Q38047372 | Spider-venom peptides: structure, pharmacology, and potential for control of insect pests. |
| Q34336484 | Squeezers and leaf-cutters: differential diversification and degeneration of the venom system in toxicoferan reptiles. |
| Q36678120 | Structural and biochemical studies of human galanin: NMR evidence for nascent helical structures in aqueous solution. |
| Q45851739 | Structural and molecular diversification of the Anguimorpha lizard mandibular venom gland system in the arboreal species Abronia graminea |
| Q67652412 | Structural basis for the modulation of voltage-gated sodium channels by animal toxins |
| Q92278938 | Structural basis of the potency and selectivity of Urotoxin, a potent Kv1 blocker from scorpion venom |
| Q94598236 | Structural venomics reveals evolution of a complex venom by duplication and diversification of an ancient peptide-encoding gene |
| Q34306090 | Structure and mechanism of action of Sda, an inhibitor of the histidine kinases that regulate initiation of sporulation in Bacillus subtilis |
| Q24652923 | Structure of the sporulation histidine kinase inhibitor Sda from Bacillus subtilis and insights into its solution state |
| Q43752954 | Structure-function studies of omega-atracotoxin, a potent antagonist of insect voltage-gated calcium channels |
| Q48599793 | Studies of rat brain metabolism using proton nuclear magnetic resonance: spectral assignments and monitoring of prolidase, acetylcholinesterase, and glutaminase. |
| Q56768320 | Tandem use of selective insecticides and natural enemies for effective, reduced-risk pest management |
| Q38355577 | The Bacillus subtilis DNA replication terminator. |
| Q43982257 | The Bacillus subtilis cell division proteins FtsL and DivIC are intrinsically unstable and do not interact with one another in the absence of other septasomal components. |
| Q36226906 | The Cystine Knot Is Responsible for the Exceptional Stability of the Insecticidal Spider Toxin ω-Hexatoxin-Hv1a |
| Q57209835 | The Generation of1H-NMR-Detectable Mobile Lipid in Stimulated Lymphocytes: Relationship to Cellular Activation, the Cell Cycle, and Phosphatidylcholine-Specific Phospholipase C |
| Q39961786 | The Janus-faced atracotoxins are specific blockers of invertebrate K(Ca) channels. |
| Q44527107 | The MinD membrane targeting sequence is a transplantable lipid-binding helix |
| Q49590829 | The North American Society of Toxinology establishes formal affiliation with Toxicon. |
| Q27666661 | The N–Terminal Tail of hERG Contains an Amphipathic α–Helix That Regulates Channel Deactivation |
| Q57979820 | The Structure of the KinA-Sda Complex Suggests an Allosteric Mechanism of Histidine Kinase Inhibition |
| Q58888159 | The Use of Imaging Mass Spectrometry to Study Peptide Toxin Distribution in Australian Sea Anemones |
| Q27938195 | The Vps4 C-terminal helix is a critical determinant for assembly and ATPase activity and has elements conserved in other members of the meiotic clade of AAA ATPases |
| Q97440089 | The antiproliferative profile of a linear octopus-derived peptide in melanoma of BRAF-mutation |
| Q92857904 | The antitrypanosomal diarylamidines, diminazene and pentamidine, show anthelmintic activity against Haemonchus contortus in vitro |
| Q50326905 | The assassin bug Pristhesancus plagipennis produces two distinct venoms in separate gland lumens. |
| Q52430491 | The assimilation of tri- and tetrapeptides by human erythrocytes. |
| Q54101769 | The dimerization and topological specificity functions of MinE reside in a structurally autonomous C-terminal domain. |
| Q33997051 | The dimerization function of MinC resides in a structurally autonomous C-terminal domain |
| Q50649393 | The divisomal protein DivIB contains multiple epitopes that mediate its recruitment to incipient division sites. |
| Q48346756 | The future of venoms-based drug discovery: an interview with Glenn King. |
| Q27676741 | The insecticidal neurotoxin Aps III is an atypical knottin peptide that potently blocks insect voltage-gated sodium channels |
| Q38092679 | The insecticidal potential of venom peptides |
| Q27697296 | The insecticidal spider toxin SFI1 is a knottin peptide that blocks the pore of insect voltage-gated sodium channels via a large β-hairpin loop |
| Q21134077 | The lethal toxin from Australian funnel-web spiders is encoded by an intronless gene |
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