Mapping of the Signal Peptide-Binding Domain of Escherichia coli SecA Using Förster Resonance Energy Transfer

Abstract: Identification of the signal peptide-binding domain within SecA ATPase is an important goal for understanding the molecular basis of SecA preprotein recognition as well as elucidating the chemomechanical cycle of this nanomotor during protein translocation. In this study, Förster resonance energy transfer methodology was employed to map the location of the SecA signal peptide-binding domain using a collection of functional monocysteine SecA mutants and alkaline phosphatase signal peptides labeled with appropri… Show more

“…Thus, the parallel-binding model is supported by the relative equivalence of the distances measured between either end of the signal sequence and Trp 724, the agreement between our FRET-measured distances and the distances predicted from the parallel-binding model, and the agreement between the distances measured for the exogenous peptides and the chimeras. Combined with our previous studies where 13 distinct distances between SecA and a bound PhoA signal peptide were determined and pointed to a parallel-binding model, 22 these new results indicate that both signal peptides appear to bind SecA at a conserved signal peptide-binding site and in a similar parallel orientation.…”

“…18,22 By comparing the relevant bsSecA-signal peptide chimera with its identical bsSecA homologue lacking a signal peptide, we were able to discern the degree of inhibition caused by self-binding of the attached signal peptide. The results of this analysis are given in Table 1, and some representative data are shown in Figure 3.…”

“…30 In fact, Hunt et al 30 originally suggested that this region was the mostly likely location for the SecA signal peptide-binding site: a hypothesis supported by our previous FRET mapping and mutagenesis work. 22,40 Thus, this region of SecA could be utilized to mimic a signal peptide-bound SecA complex with the parallel orientation. First, the PhoA signal peptide was mapped onto the relevant 21-residue region of the longer KRRLamB signal peptide from the NMR structure, centering it on the critical hydrophobic core region, which was of similar length (13 and 12 residues, respectively).…”

“…Furthermore, probes placed within the hydrophobic core region of the signal peptide have previously been shown to disrupt signal peptide binding to SecA protein. 22 …”

Conserved SecA Signal Peptide-Binding Site Revealed by Engineered Protein Chimeras and Förster Resonance Energy Transfer

“…Thus, the parallel-binding model is supported by the relative equivalence of the distances measured between either end of the signal sequence and Trp 724, the agreement between our FRET-measured distances and the distances predicted from the parallel-binding model, and the agreement between the distances measured for the exogenous peptides and the chimeras. Combined with our previous studies where 13 distinct distances between SecA and a bound PhoA signal peptide were determined and pointed to a parallel-binding model, 22 these new results indicate that both signal peptides appear to bind SecA at a conserved signal peptide-binding site and in a similar parallel orientation.…”

“…18,22 By comparing the relevant bsSecA-signal peptide chimera with its identical bsSecA homologue lacking a signal peptide, we were able to discern the degree of inhibition caused by self-binding of the attached signal peptide. The results of this analysis are given in Table 1, and some representative data are shown in Figure 3.…”

“…30 In fact, Hunt et al 30 originally suggested that this region was the mostly likely location for the SecA signal peptide-binding site: a hypothesis supported by our previous FRET mapping and mutagenesis work. 22,40 Thus, this region of SecA could be utilized to mimic a signal peptide-bound SecA complex with the parallel orientation. First, the PhoA signal peptide was mapped onto the relevant 21-residue region of the longer KRRLamB signal peptide from the NMR structure, centering it on the critical hydrophobic core region, which was of similar length (13 and 12 residues, respectively).…”

“…Furthermore, probes placed within the hydrophobic core region of the signal peptide have previously been shown to disrupt signal peptide binding to SecA protein. 22 …”

Conserved SecA Signal Peptide-Binding Site Revealed by Engineered Protein Chimeras and Förster Resonance Energy Transfer

“…SecG has been shown to enhance the SecA membrane insertion/de-insertion cycle through its coupled topology inversion, although this latter proposal has been challenged by the normal translocation behavior of a topologically fixed form of SecG (12)(13)(14)(15)(16). Although significant progress has been made recently in defining those regions of SecA that are responsible for SecB and signal peptide recognition, elucidation of those regions of SecA that are responsible for SecYEG binding and activation has remained a more difficult task (17)(18)(19)(20).…”

Mapping of the SecA·SecY and SecA·SecG Interfaces by Site-directed in Vivo Photocross-linking

Characterization of a polypeptide‐binding site in the DEAD Motor of the SecA ATPase