scholarly article | Q13442814 |
P2093 | author name string | Kenneth Cline | |
Xianyue Ma | |||
P2860 | cites work | Crystal structures of the precursor form of glucose-fructose oxidoreductase from Zymomonas mobilis and its complexes with bound ligands | Q27636160 |
Pathfinders and trailblazers: a prokaryotic targeting system for transport of folded proteins | Q28294497 | ||
COPPER ENZYMES IN ISOLATED CHLOROPLASTS. POLYPHENOLOXIDASE IN BETA VULGARIS | Q29615362 | ||
Translocation of proteins into mitochondria | Q29616478 | ||
Unassisted membrane insertion as the initial step in DeltapH/Tat-dependent protein transport. | Q30320114 | ||
Variable stoichiometry of the TatA component of the twin-arginine protein transport system observed by in vivo single-molecule imaging | Q30483980 | ||
The Tat protein export pathway | Q33826511 | ||
The TatA component of the twin-arginine protein transport system forms channel complexes of variable diameter | Q33906682 | ||
An alternative model of the twin arginine translocation system | Q35074230 | ||
The Tat protein translocation pathway and its role in microbial physiology | Q35560170 | ||
Evidence for a dynamic and transient pathway through the TAT protein transport machinery | Q35880616 | ||
The Tat pathway in bacteria and chloroplasts (review). | Q36224522 | ||
Targeting determinants and proposed evolutionary basis for the Sec and the Delta pH protein transport systems in chloroplast thylakoid membranes | Q36254620 | ||
Protein translocation by the Sec61/SecY channel | Q36280355 | ||
Thylakoid DeltapH-dependent precursor proteins bind to a cpTatC-Hcf106 complex before Tha4-dependent transport | Q36377649 | ||
A twin arginine signal peptide and the pH gradient trigger reversible assembly of the thylakoid [Delta]pH/Tat translocase | Q36381195 | ||
Component specificity for the thylakoidal Sec and Delta pH-dependent protein transport pathways | Q36382139 | ||
The bacterial twin-arginine translocation pathway | Q36498300 | ||
Clustering of C-terminal stromal domains of Tha4 homo-oligomers during translocation by the Tat protein transport system | Q37146697 | ||
Structural analysis of substrate binding by the TatBC component of the twin-arginine protein transport system | Q37281583 | ||
Interconvertibility of lipid- and translocon-bound forms of the bacterial Tat precursor pre-SufI. | Q37404850 | ||
Characterization of the early steps of OE17 precursor transport by the thylakoid DeltapH/Tat machinery | Q38312802 | ||
Multiple pathways for protein transport into or across the thylakoid membrane | Q40874207 | ||
The 1.49 A resolution crystal structure of PsbQ from photosystem II of Spinacia oleracea reveals a PPII structure in the N-terminal region | Q46570044 | ||
Efficient twin arginine translocation (Tat) pathway transport of a precursor protein covalently anchored to its initial cpTatC binding site | Q46890229 | ||
Oligomers of Tha4 organize at the thylakoid Tat translocase during protein transport. | Q46890232 | ||
The thylakoid proton gradient promotes an advanced stage of signal peptide binding deep within the Tat pathway receptor complex. | Q50473417 | ||
Structure and dynamics of the N-terminal loop of PsbQ from photosystem II of Spinacia oleracea. | Q50731302 | ||
Characterisation of Tat protein transport complexes carrying inactivating mutations. | Q54490611 | ||
Co-translocation of a Periplasmic Enzyme Complex by a Hitchhiker Mechanism through the Bacterial Tat Pathway | Q57746760 | ||
The Twin Arginine Consensus Motif of Tat Signal Peptides Is Involved in Sec-independent Protein Targeting inEscherichia coli | Q57839654 | ||
Import of proteins into chloroplasts. Membrane integration of a thylakoid precursor protein reconstituted in chloroplast lysates | Q68807755 | ||
Precursors bind to specific sites on thylakoid membranes prior to transport on the delta pH protein translocation system | Q73615742 | ||
Evidence for a loop mechanism of protein transport by the thylakoid Delta pH pathway | Q74325250 | ||
Differential Interactions between a Twin-Arginine Signal Peptide and Its Translocase in Escherichia coli | Q79212386 | ||
P433 | issue | 9 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1477-1488 | |
P577 | publication date | 2010-03-25 | |
P1433 | published in | The EMBO Journal | Q1278554 |
P1476 | title | Multiple precursor proteins bind individual Tat receptor complexes and are collectively transported | |
P478 | volume | 29 |
Q47270644 | A Hinged Signal Peptide Hairpin Enables Tat-Dependent Protein Translocation |
Q30318438 | A high-definition native polyacrylamide gel electrophoresis system for the analysis of membrane complexes |
Q37696002 | A signal sequence suppressor mutant that stabilizes an assembled state of the twin arginine translocase. |
Q43458977 | Direct interaction between a precursor mature domain and transport component Tha4 during twin arginine transport of chloroplasts. |
Q39936045 | Early contacts between substrate proteins and TatA translocase component in twin-arginine translocation |
Q53237511 | Genetic evidence for a TatC dimer at the core of the Escherichia coli twin arginine (Tat) protein translocase. |
Q34326584 | Genetic evidence for a tight cooperation of TatB and TatC during productive recognition of twin-arginine (Tat) signal peptides in Escherichia coli |
Q40842405 | Initial assembly steps of a translocase for folded proteins |
Q36346841 | Intra-plastid protein trafficking: how plant cells adapted prokaryotic mechanisms to the eukaryotic condition |
Q30546248 | Live cell imaging shows reversible assembly of the TatA component of the twin-arginine protein transport system. |
Q42140993 | Mapping precursor-binding site on TatC subunit of twin arginine-specific protein translocase by site-specific photo cross-linking |
Q45973584 | Mapping the signal peptide binding and oligomer contact sites of the core subunit of the pea twin arginine protein translocase. |
Q38480343 | Mechanistic Aspects of Folded Protein Transport by the Twin Arginine Translocase (Tat). |
Q43090264 | Molecular dissection of TatC defines critical regions essential for protein transport and a TatB-TatC contact site |
Q49821040 | Precursor-receptor interactions in the twin arginine protein transport pathway probed with a new receptor complex preparation. |
Q45598697 | PvdN Enzyme Catalyzes a Periplasmic Pyoverdine Modification |
Q34253865 | Reconstruction and modeling protein translocation and compartmentalization in Escherichia coli at the genome-scale |
Q46023393 | Role of vesicle-inducing protein in plastids 1 in cpTat transport at the thylakoid. |
Q46862039 | Signal peptide etiquette during assembly of a complex respiratory enzyme |
Q35962289 | Stoichiometry for binding and transport by the twin arginine translocation system |
Q27311011 | Substrate-dependent assembly of the Tat translocase as observed in live Escherichia coli cells |
Q37703474 | Substrate-gated docking of pore subunit Tha4 in the TatC cavity initiates Tat translocase assembly |
Q41567229 | Substrate-triggered position switching of TatA and TatB during Tat transport in Escherichia coli |
Q27002662 | Targeting of lumenal proteins across the thylakoid membrane |
Q41440989 | TatB functions as an oligomeric binding site for folded Tat precursor proteins. |
Q41909003 | TatE as a Regular Constituent of Bacterial Twin-arginine Protein Translocases |
Q89088536 | The Tat protein transport system: intriguing questions and conundrums |
Q40796436 | The TatC component of the twin-arginine protein translocase functions as an obligate oligomer |
Q93067423 | Thylakoid-integrated recombinant Hcf106 participates in the chloroplast twin arginine transport system |
Q41913286 | Transmembrane insertion of twin-arginine signal peptides is driven by TatC and regulated by TatB. |
Q92548731 | Transport of Folded Proteins by the Tat System |
Q37993035 | Twin-arginine-dependent translocation of folded proteins |
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