| Q35933897 | A little help from my friends: quality control of presecretory proteins in bacteria |
| Q43619812 | A naturally occurring bacterial Tat signal peptide lacking one of the 'invariant' arginine residues of the consensus targeting motif |
| Q37123591 | A novel precursor recognition element facilitates posttranslational binding to the signal recognition particle in chloroplasts |
| Q74495015 | A signal peptide that directs non-Sec transport in bacteria also directs efficient and exclusive transport on the thylakoid Delta pH pathway |
| Q36381195 | A twin arginine signal peptide and the pH gradient trigger reversible assembly of the thylakoid [Delta]pH/Tat translocase |
| Q44537632 | An Escherichia coli twin-arginine signal peptide switches between helical and unstructured conformations depending on the hydrophobicity of the environment. |
| Q35634531 | Chloroplast SecA and Escherichia coli SecA have distinct lipid and signal peptide preferences |
| Q41646540 | Chloroplast SecY is complexed to SecE and involved in the translocation of the 33-kDa but not the 23-kDa subunit of the oxygen-evolving complex. |
| Q52122748 | Chloroplast YidC homolog Albino3 can functionally complement the bacterial YidC depletion strain and promote membrane insertion of both bacterial and chloroplast thylakoid proteins. |
| Q37146697 | Clustering of C-terminal stromal domains of Tha4 homo-oligomers during translocation by the Tat protein transport system |
| Q36382139 | Component specificity for the thylakoidal Sec and Delta pH-dependent protein transport pathways |
| Q34507530 | Defective chloroplast development inhibits maintenance of normal levels of abscisic acid in a mutant of the Arabidopsis RH3 DEAD-box protein during early post-germination growth |
| Q92229108 | Electron Tomography Analysis of Thylakoid Assembly and Fission in Chloroplasts of a Single-Cell C4 plant, Bienertia sinuspersici |
| Q35880616 | Evidence for a dynamic and transient pathway through the TAT protein transport machinery |
| Q35021083 | FtsH2 and FtsH5: two homologous subunits use different integration mechanisms leading to the same thylakoid multimeric complex |
| Q45940350 | Identification of a Role for an Azide-Sensitive Factor in the Thylakoid Transport of the 17-Kilodalton Subunit of the Photosynthetic Oxygen-Evolving Complex |
| Q36346841 | Intra-plastid protein trafficking: how plant cells adapted prokaryotic mechanisms to the eukaryotic condition |
| Q38480343 | Mechanistic Aspects of Folded Protein Transport by the Twin Arginine Translocase (Tat). |
| Q77304459 | Multiple pathways for the targeting of thylakoid proteins in chloroplasts |
| Q33878456 | Multiple precursor proteins bind individual Tat receptor complexes and are collectively transported |
| Q47740190 | Old and new pathways of protein export in chloroplasts and bacteria. |
| Q46890232 | Oligomers of Tha4 organize at the thylakoid Tat translocase during protein transport. |
| Q46709603 | Polyphenol oxidase can cross thylakoids by both the Tat and the Sec-dependent pathways: a putative role for two stromal processing sites |
| Q34466784 | Post-translational protein translocation into thylakoids by the Sec and DeltapH-dependent pathways |
| Q73615742 | Precursors bind to specific sites on thylakoid membranes prior to transport on the delta pH protein translocation system |
| Q33600187 | Protein import and routing systems of chloroplasts |
| Q46123703 | Protein secretion: getting folded proteins across membranes |
| Q34238035 | Protein targeting by the twin-arginine translocation pathway |
| Q33538949 | Protein targeting to the bacterial cytoplasmic membrane. |
| Q46573821 | Protein transport via the cpTat pathway displays cooperativity and is stimulated by transport-incompetent substrate |
| Q45005923 | Regulation of the GTPase cycle in post-translational signal recognition particle-based protein targeting involves cpSRP43. |
| Q44564179 | Requirement of a Tha4-conserved transmembrane glutamate in thylakoid Tat translocase assembly revealed by biochemical complementation. |
| Q28492795 | Role of the Pseudomonas aeruginosa PlcH Tat signal peptide in protein secretion, transcription, and cross-species Tat secretion system compatibility |
| Q44129436 | Selective contribution of the twin-arginine translocation pathway to protein secretion in Bacillus subtilis |
| Q44516172 | Sequence-specific binding of prePhoD to soluble TatAd indicates protein-mediated targeting of the Tat export in Bacillus subtilis |
| Q39501993 | Specificity of signal peptide recognition in tat-dependent bacterial protein translocation. |
| Q77318004 | Targeting of thylakoid proteins by the delta pH-driven twin-arginine translocation pathway requires a specific signal in the hydrophobic domain in conjunction with the twin-arginine motif |
| Q57839661 | Targeting signals for a bacterial Sec-independent export system direct plant thylakoid import by the ΔpH pathway |
| Q30320929 | The Rieske Fe/S protein of the cytochrome b6/f complex in chloroplasts: missing link in the evolution of protein transport pathways in chloroplasts? |
| Q33826511 | The Tat protein export pathway |
| Q57839654 | The Twin Arginine Consensus Motif of Tat Signal Peptides Is Involved in Sec-independent Protein Targeting inEscherichia coli |
| Q50995875 | The h-region of twin-arginine signal peptides supports productive binding of bacterial Tat precursor proteins to the TatBC receptor complex. |
| Q36326059 | The maize tha4 gene functions in sec-independent protein transport in chloroplasts and is related to hcf106, tatA, and tatB |
| Q73804955 | The thylakoid delta pH-dependent pathway machinery facilitates RR-independent N-tail protein integration |
| Q50473417 | The thylakoid proton gradient promotes an advanced stage of signal peptide binding deep within the Tat pathway receptor complex |
| Q36377649 | Thylakoid DeltapH-dependent precursor proteins bind to a cpTatC-Hcf106 complex before Tha4-dependent transport |
| Q89031391 | Thylakoid-Bound Polysomes and a Dynamin-Related Protein, FZL, Mediate Critical Stages of the Linear Chloroplast Biogenesis Program in Greening Arabidopsis Cotyledons |