| scholarly article | Q13442814 |
| P50 | author | Nicholas E Dickenson | Q50986177 |
| P2093 | author name string | Prashant Kumar | |
| Abram R Bernard | |||
| T Carson Jessop | |||
| P2860 | cites work | The alpha aneurism: a structural motif revealed in an insertion mutant of staphylococcal nuclease | Q24563171 |
| Evolutionary origin of a secondary structure: π-helices as cryptic but widespread insertional variations of α-helices that enhance protein functionality | Q24605540 | ||
| Shigella Diversity and Changing Landscape: Insights for the Twenty-First Century | Q26752367 | ||
| The Many Faces of IpaB | Q26767237 | ||
| Förster resonance energy transfer (FRET) as a tool for dissecting the molecular mechanisms for maturation of the Shigella type III secretion needle tip complex | Q26995596 | ||
| Bacterial type III secretion systems: specialized nanomachines for protein delivery into target cells | Q27028058 | ||
| Insights into trehalose synthesis provided by the structure of the retaining glucosyltransferase OtsA | Q27640213 | ||
| Structural consequences of effector protein complex formation in a diiron hydroxylase | Q27652993 | ||
| Near-atomic resolution analysis of BipD, a component of the type III secretion system ofBurkholderia pseudomallei | Q27664318 | ||
| The crystal structures of the Salmonella type III secretion system tip protein SipD in complex with deoxycholate and chenodeoxycholate | Q27665429 | ||
| Identification of the bile salt binding site on IpaD from Shigella flexneri and the influence of ligand binding on IpaD structure. | Q27678066 | ||
| Structure of theYersinia pestistip protein LcrV refined to 1.65 Å resolution | Q27678232 | ||
| How amino-acid insertions are allowed in an alpha-helix of T4 lysozyme | Q27732083 | ||
| Evaluation of secondary structure of proteins from UV circular dichroism spectra using an unsupervised learning neural network. | Q52224746 | ||
| Enhanced secretion through the Shigella flexneri Mxi-Spa translocon leads to assembly of extracellular proteins into macromolecular structures | Q64360979 | ||
| Helix propensities are identical in proteins and peptides | Q73664550 | ||
| The needle component of the type III secreton of Shigella regulates the activity of the secretion apparatus | Q81355843 | ||
| Melioidosis: insights into the pathogenicity of Burkholderia pseudomallei | Q28302368 | ||
| Protein secondary structure analyses from circular dichroism spectroscopy: methods and reference databases | Q29617578 | ||
| Determination of bile acids in biological fluids by liquid chromatography-electrospray tandem mass spectrometry. | Q31839858 | ||
| Global burden of Shigella infections: implications for vaccine development and implementation of control strategies | Q33749510 | ||
| The tripartite type III secreton of Shigella flexneri inserts IpaB and IpaC into host membranes | Q33878820 | ||
| Salmonella enterica serovar typhimurium invasion is repressed in the presence of bile | Q34005208 | ||
| The type III secretion system tip complex and translocon. | Q34011259 | ||
| Bacterial invasion: the paradigms of enteroinvasive pathogens | Q34312229 | ||
| Salmonella enterica serovar Typhimurium skills to succeed in the host: virulence and regulation | Q34336985 | ||
| Burden and aetiology of diarrhoeal disease in infants and young children in developing countries (the Global Enteric Multicenter Study, GEMS): a prospective, case-control study | Q34345075 | ||
| Salmonella interactions with host cells: type III secretion at work | Q34425135 | ||
| Visualization of the type III secretion sorting platform of Shigella flexneri | Q35037858 | ||
| Self-chaperoning of the type III secretion system needle tip proteins IpaD and BipD. | Q35846739 | ||
| Nonpolar mutagenesis of the ipa genes defines IpaB, IpaC, and IpaD as effectors of Shigella flexneri entry into epithelial cells | Q36122200 | ||
| Quantitation of HeLa cell monolayer invasion by Shigella and Salmonella species | Q36500393 | ||
| Shigella's ways of manipulating the host intestinal innate and adaptive immune system: a tool box for survival? | Q36703588 | ||
| Type III secretion systems and disease | Q36969851 | ||
| Structure and biophysics of type III secretion in bacteria | Q37014297 | ||
| Multiplication of Shigella flexneri within HeLa cells: lysis of the phagocytic vacuole and plasmid-mediated contact hemolysis | Q37056339 | ||
| Bile-salt-mediated induction of antimicrobial and bile resistance in Salmonella typhimurium | Q38342630 | ||
| Type III secretion systems: the bacterial flagellum and the injectisome | Q38586932 | ||
| 'Add, stir and reduce': Yersinia spp. as model bacteria for pathogen evolution | Q38733083 | ||
| The Burden and Etiology of Diarrheal Illness in Developing Countries | Q39146427 | ||
| Functional insights into the Shigella type III needle tip IpaD in secretion control and cell contact. | Q39192014 | ||
| Assembly, structure, function and regulation of type III secretion systems. | Q39230405 | ||
| Deoxycholate interacts with IpaD of Shigella flexneri in inducing the recruitment of IpaB to the type III secretion apparatus needle tip. | Q39627554 | ||
| Experimental Shigella infections: characteristics of a fatal infection produced in guinea pigs. | Q40314454 | ||
| Oligomeric states of the Shigella translocator protein IpaB provide structural insights into formation of the type III secretion translocon. | Q40564027 | ||
| N-terminus of IpaB provides a potential anchor to the Shigella type III secretion system tip complex protein IpaD. | Q41785011 | ||
| IpaD localizes to the tip of the type III secretion system needle of Shigella flexneri | Q41856079 | ||
| Conformational changes in IpaD from Shigella flexneri upon binding bile salts provide insight into the second step of type III secretion. | Q41894482 | ||
| Liposomes recruit IpaC to the Shigella flexneri type III secretion apparatus needle as a final step in secretion induction. | Q42128361 | ||
| Ultrastructural analysis of IpaD at the tip of the nascent MxiH type III secretion apparatus of Shigella flexneri | Q42183752 | ||
| Three-dimensional electron microscopy reconstruction and cysteine-mediated crosslinking provide a model of the type III secretion system needle tip complex. | Q42566246 | ||
| Newly emerged multiple-antibiotic-resistant Shigella dysenteriae type 1 strains in and around Kolkata, India, are clonal | Q42591588 | ||
| Bile salts stimulate recruitment of IpaB to the Shigella flexneri surface, where it colocalizes with IpaD at the tip of the type III secretion needle | Q42799643 | ||
| The elusive π-helix | Q45144264 | ||
| Type III secretion system | Q46841371 | ||
| Inoculum size in shigellosis and implications for expected mode of transmission | Q47172816 | ||
| Transcriptional regulation of Salmonella enterica serovar Typhimurium genes by bile | Q47600033 | ||
| P433 | issue | 49 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 6503-6514 | |
| P577 | publication date | 2017-11-14 | |
| P1433 | published in | Biochemistry | Q764876 |
| P1476 | title | Deoxycholate-Enhanced Shigella Virulence Is Regulated by a Rare π-Helix in the Type Three Secretion System Tip Protein IpaD. | |
| P478 | volume | 56 |
| Q58792122 | Bacterial type III secretion systems: a complex device for the delivery of bacterial effector proteins into eukaryotic host cells |
| Q92915177 | Dominant negative effects by inactive Spa47 mutants inhibit T3SS function and Shigella virulence |
| Q93262668 | Shutting Down Shigella Secretion: Characterizing Small Molecule Type Three Secretion System ATPase Inhibitors |
| Q89624299 | π-Helix controls activity of oxygen-sensing diguanylate cyclases |
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