| scholarly article | Q13442814 |
| P356 | DOI | 10.1074/JBC.272.4.2053 |
| P698 | PubMed publication ID | 8999901 |
| P2093 | author name string | Bibi E | |
| Seluanov A | |||
| P2860 | cites work | Homology of 54K protein of signal-recognition particle, docking protein and two E. coli proteins with putative GTP-binding domains | Q28243957 |
| Model for signal sequence recognition from amino-acid sequence of 54K subunit of signal recognition particle | Q28243966 | ||
| Transport of proteins across the endoplasmic reticulum membrane | Q35235780 | ||
| Protein targeting to and translocation across the membrane of the endoplasmic reticulum | Q35455098 | ||
| Translocation of proteins across the endoplasmic reticulum III. Signal recognition protein (SRP) causes signal sequence-dependent and site-specific arrest of chain elongation that is released by microsomal membranes | Q36205578 | ||
| Protein translocation in Escherichia coli. | Q40567902 | ||
| Post-translational protein import and folding | Q40647401 | ||
| The Escherichia coli cell division proteins FtsY, FtsE and FtsX are inner membrane-associated | Q41432255 | ||
| The E. coli ffh gene is necessary for viability and efficient protein export. | Q44896231 | ||
| The identification of the Escherichia coli ftsY gene product: an unusual protein. | Q45924925 | ||
| Interaction of E. coli Ffh/4.5S ribonucleoprotein and FtsY mimics that of mammalian signal recognition particle and its receptor. | Q46019831 | ||
| A signal sequence receptor in the endoplasmic reticulum membrane | Q46128766 | ||
| Multiple mechanisms of protein insertion into and across membranes. | Q53779152 | ||
| Insertion of the polytopic membrane protein MalF is dependent on the bacterial secretion machinery. | Q54588335 | ||
| Secretory protein translocation across membranes—the role of the ‘docking protein’ | Q59049591 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | membrane protein | Q423042 |
| P304 | page(s) | 2053-2055 | |
| P577 | publication date | 1997-01-01 | |
| P1433 | published in | Journal of Biological Chemistry | Q867727 |
| P1476 | title | FtsY, the prokaryotic signal recognition particle receptor homologue, is essential for biogenesis of membrane proteins. | |
| P478 | volume | 272 |
| Q27933510 | A functional GTPase domain, but not its transmembrane domain, is required for function of the SRP receptor beta-subunit |
| Q35692775 | A mutant hunt for defects in membrane protein assembly yields mutations affecting the bacterial signal recognition particle and Sec machinery |
| Q33887978 | A novel sec-independent periplasmic protein translocation pathway in Escherichia coli |
| Q34087224 | A polytopic membrane protein displays a reversible topology dependent on membrane lipid composition |
| Q38318537 | A site-specific, membrane-dependent cleavage event defines the membrane binding domain of FtsY. |
| Q42917270 | Accumulation of endoplasmic membranes and novel membrane-bound ribosome-signal recognition particle receptor complexes in Escherichia coli. |
| Q33729013 | An AT-rich tract containing an integration host factor-binding domain and two UP-like elements enhances transcription from the pilEp1 promoter of Neisseria gonorrhoeae |
| Q40387036 | Anionic phospholipids are involved in membrane association of FtsY and stimulate its GTPase activity |
| Q39560829 | Arabidopsis thaliana mutants lacking cpFtsY or cpSRP54 exhibit different defects in photosystem II repair. |
| Q35688567 | Association of Escherichia coli ribosomes with the inner membrane requires the signal recognition particle receptor but is independent of the signal recognition particle |
| Q32060810 | Binding of GTP and GDP induces a significant conformational change in the GTPase domain of Ffh, a bacterial homologue of the SRP 54 kDa subunit |
| Q37702858 | Biogenesis of bacterial inner-membrane proteins |
| Q41657961 | Biogenesis of the gram-negative bacterial envelope |
| Q42627204 | Co-translational protein targeting catalyzed by the Escherichia coli signal recognition particle and its receptor |
| Q41195302 | Contribution of the alanine-rich region of Streptococcus mutans P1 to antigenicity, surface expression, and interaction with the proline-rich repeat domain |
| Q41965856 | Depletion of the signal recognition particle receptor inactivates ribosomes in Escherichia coli |
| Q36753051 | Differential use of the signal recognition particle translocase targeting pathway for inner membrane protein assembly in Escherichia coli |
| Q42077359 | Dissecting the translocase and integrase functions of the Escherichia coli SecYEG translocon |
| Q59166846 | Distinct Albino3-dependent and -independent Pathways for Thylakoid Membrane Protein Insertion |
| Q59166860 | Distinct “Assisted” and “Spontaneous” Mechanisms for the Insertion of Polytopic Chlorophyll-binding Proteins into the Thylakoid Membrane |
| Q36095353 | Down-regulation of the trypanosomatid signal recognition particle affects the biogenesis of polytopic membrane proteins but not of signal peptide-containing proteins |
| Q37777484 | Early targeting events during membrane protein biogenesis in Escherichia coli |
| Q42085172 | Escherichia coli SRP, its protein subunit Ffh, and the Ffh M domain are able to selectively limit membrane protein expression when overexpressed |
| Q54435413 | Escherichia coli signal recognition particle receptor FtsY contains an essential and autonomous membrane-binding amphipathic helix. |
| Q41523438 | Evidence for a cytoplasmic pool of ribosome-free mRNAs encoding inner membrane proteins in Escherichia coli. |
| Q28365504 | Evidence for a novel GTPase priming step in the SRP protein targeting pathway |
| Q42211675 | Evidence for coupling of membrane targeting and function of the signal recognition particle (SRP) receptor FtsY. |
| Q34086011 | Evolution of a molecular switch: universal bacterial GTPases regulate ribosome function |
| Q40370425 | Evolutionarily conserved binding of ribosomes to the translocation channel via the large ribosomal RNA. |
| Q47967258 | Export of beta-lactamase is independent of the signal recognition particle |
| Q73883025 | FtsY binds to the Escherichia coli inner membrane via interactions with phosphatidylethanolamine and membrane proteins |
| Q34310953 | Functional analysis of the signal recognition particle in Escherichia coli by characterization of a temperature-sensitive ffh mutant |
| Q34304210 | Genetic screen yields mutations in genes encoding all known components of the Escherichia coli signal recognition particle pathway |
| Q21342988 | Getting on target: the archaeal signal recognition particle |
| Q39739652 | Identification of ZipA, a signal recognition particle-dependent protein from Neisseria gonorrhoeae |
| Q38612245 | In vitro studies with purified components reveal signal recognition particle (SRP) and SecA/SecB as constituents of two independent protein-targeting pathways of Escherichia coli |
| Q44318023 | In vitro synthesis of lactose permease to probe the mechanism of membrane insertion and folding |
| Q34004073 | In vivo-induced genes in Pseudomonas aeruginosa |
| Q77896867 | Insertion of a bacterial secondary transport protein in the endoplasmic reticulum membrane |
| Q47970248 | Involvement of a chloroplast homologue of the signal recognition particle receptor protein, FtsY, in protein targeting to thylakoids |
| Q48214150 | Maize mutants lacking chloroplast FtsY exhibit pleiotropic defects in the biogenesis of thylakoid membranes |
| Q73886760 | Membrane association of FtsY, the E. coli SRP receptor |
| Q33531769 | Membrane protein biogenesis in Ffh- or FtsY-depleted Escherichia coli |
| Q36083533 | Membrane protein biogenesis: the exception explains the rules |
| Q54435409 | Membrane targeting of ribosomes and their release require distinct and separable functions of FtsY. |
| Q30326361 | Membrane topology and insertion of membrane proteins: search for topogenic signals |
| Q33991092 | Neisseria gonorrhoeae PilA is an FtsY homolog |
| Q34109335 | New prospects in studying the bacterial signal recognition particle pathway. |
| Q27333733 | Noise contributions in an inducible genetic switch: a whole-cell simulation study |
| Q47740190 | Old and new pathways of protein export in chloroplasts and bacteria. |
| Q33995882 | Physiological basis for conservation of the signal recognition particle targeting pathway in Escherichia coli |
| Q35093064 | Protein secretion systems of Pseudomonas aeruginosa and P fluorescens |
| Q33538949 | Protein targeting to the bacterial cytoplasmic membrane. |
| Q34070563 | Protein traffic in bacteria: multiple routes from the ribosome to and across the membrane |
| Q35798768 | Proteomics of protein secretion by Bacillus subtilis: separating the "secrets" of the secretome |
| Q38362733 | RNA interference of signal peptide-binding protein SRP54 elicits deleterious effects and protein sorting defects in trypanosomes |
| Q39698168 | Reconstitution of the signal recognition particle of the halophilic archaeon Haloferax volcanii |
| Q74567485 | Requirements for the translocation of elongation-arrested, ribosome-associated OmpA across the plasma membrane of Escherichia coli |
| Q39705739 | Role for both DNA and RNA in GTP hydrolysis by the Neisseria gonorrhoeae signal recognition particle receptor |
| Q36321967 | Role of YidC in folding of polytopic membrane proteins |
| Q34517208 | SecA drives transmembrane insertion of RodZ, an unusual single-span membrane protein |
| Q74620468 | SecA is required for the insertion of inner membrane proteins targeted by the Escherichia coli signal recognition particle |
| Q24548495 | Signal peptide-dependent protein transport in Bacillus subtilis: a genome-based survey of the secretome |
| Q36224486 | Signal recognition particles in chloroplasts, bacteria, yeast and mammals (review). |
| Q33538951 | Surface proteins of gram-positive bacteria and mechanisms of their targeting to the cell wall envelope |
| Q41495184 | The E. coli SRP: preferences of a targeting factor |
| Q42643547 | The Escherichia coli SRP and SecB targeting pathways converge at the translocon |
| Q36177060 | The NG domain of the prokaryotic signal recognition particle receptor, FtsY, is fully functional when fused to an unrelated integral membrane polypeptide |
| Q64900861 | The SRP signal sequence of KdpD. |
| Q35213995 | The archaeal Sec-dependent protein translocation pathway. |
| Q35787527 | The archaeal signal recognition particle: steps toward membrane binding |
| Q33879819 | The biogenesis and assembly of bacterial membrane proteins |
| Q35191643 | The central cytoplasmic loop of the major facilitator superfamily of transport proteins governs efficient membrane insertion |
| Q34093836 | The complex extracellular biology of Streptomyces |
| Q40867749 | The core Escherichia coli signal recognition particle receptor contains only the N and G domains of FtsY |
| Q27622453 | The crystal structure of the conserved GTPase of SRP54 from the archaeon Acidianus ambivalens and its comparison with related structures suggests a model for the SRP-SRP receptor complex |
| Q41736933 | The role of the ribosome-translocon complex in translation and assembly of polytopic membrane proteins |
| Q34175567 | The signal recognition particle of Archaea |
| Q36593121 | The signal recognition particle receptor of Escherichia coli (FtsY) has a nucleotide exchange factor built into the GTPase domain |
| Q55228491 | The structural and proteomic analysis of Spiroplasma eriocheiris in response to colchicine. |
| Q33635392 | The structure of multiple polypeptide domains determines the signal recognition particle targeting requirement of Escherichia coli inner membrane proteins. |
| Q28212283 | The trypanosomatid signal recognition particle consists of two RNA molecules, a 7SL RNA homologue and a novel tRNA-like molecule |
| Q35759527 | Translocation of alpha-synuclein expressed in Escherichia coli |
| Q44261113 | Translocation, folding, and stability of the HflKC complex with signal anchor topogenic sequences |
| Q73066588 | Transmembrane segment (TMS) VIII of the Na(+)/Citrate transporter CitS requires downstream TMS IX for insertion in the Escherichia coli membrane |
| Q42845280 | Transposon mutagenesis identifies sites upstream of the Neisseria gonorrhoeae pilE gene that modulate pilin antigenic variation |
| Q40400801 | Trimeric autotransporter adhesins contribute to Actinobacillus pleuropneumoniae pathogenicity in mice and regulate bacterial gene expression during interactions between bacteria and porcine primary alveolar macrophages. |
| Q33954558 | Understanding the insertion of transporters and other membrane proteins |
| Q27640901 | X-ray structure of the T. Aquaticus Ftsy:GDP complex suggests functional roles for the C-terminal helix of the SRP GTPases |
| Q74191988 | YidC mediates membrane protein insertion in bacteria |
| Q37201273 | YidC protein, a molecular chaperone for LacY protein folding via the SecYEG protein machinery |
| Q35009289 | YidC, a newly defined evolutionarily conserved protein, mediates membrane protein assembly in bacteria |
| Q28344574 | YidC, an assembly site for polytopic Escherichia coli membrane proteins located in immediate proximity to the SecYE translocon and lipids |
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