Twin-arginine translocation-arresting protein regions contact TatA and TatB

authored by

Johannes Taubert, Thomas Brüser

Abstract

Tat systems translocate folded proteins across biological membranes of prokaryotes and plant plastids. TatBC complexes recognize N-Terminal Tat signal peptides that contain a sequence motif with two conserved arginines (RR-Motif), and transport takes place after a recruitment of TatA. Unfolded Tat substrate domains lower translocation efficiency and too long linkers lead to translocation arrest. To identify the components that interact with transported proteins during their passage through the translocon, we used a Tat substrate that arrests translocation at a long unfolded linker region, and we chose in vivo site-Directed photo cross-Linking to specifically detect the interactions of this linker region. For comparison, we included the interactions of the signal peptide and of the folded domain at the C-Terminus of this construct. The data show that the linker contacts only two, structurally similar Tat components, namely TatA and TatB. These contacts depend on the recognition of the Tat-Specific signal peptide. Only when membrane translocation of the globular domain was allowed - i.e., in the absence of the linker - we observed the same TatAB-Contacts also to the globular domain. The data thus suggest that mature protein domains are translocated through a TatAB environment.

Organisation(s)

Institute of Microbiology

Type

Article

Journal

Biological Chemistry

Volume

395

Pages

827-836

No. of pages

10

ISSN

1431-6730

Publication date

07.2014

Publication status

Published

Peer reviewed

Yes

ASJC Scopus subject areas

Biochemistry, Molecular Biology, Clinical Biochemistry

Electronic version(s)

https://doi.org/10.1515/hsz-2014-0170 (Access: Unknown)