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Link to original content: http://prosite.expasy.org/PDOC01016
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PROSITE documentation PDOC01016
SecA family signature and profile


Description

SecA is a cytoplasmic protein of 800 to 960 amino acid residues. The eubacterial secA protein [1] plays an important role in protein export. It interacts with the secY and secE components of the protein translocation system. It has a central role in coupling the hydrolysis of ATP to the transfer of proteins across the membrane.

SecA is a superfamily 2 (SF2) helicase (see <PDOC51192>) that adapted to translocate proteins. It contains the characteristic DEAD/DEXH ATPase core structure with the seven SF2 motifs [2,3].

Several structural analyses on secA have been reported (see <PDB:1M6N>) [4,5]. They show that secA contains two recA-like domains similar to SF1 and SF2 helicases. In helicases, the two recA-like domains move relative to one another during the ATPase cycle, generating domain movements that translocate the helicase along nucleic acids. In secA, it seems that a similar mechanism is used to generate domain movements that are coupled to polypeptide translocation. The N-terminal recA-like domain of secA contains an insert of about 150 residues that forms the preprotein crosslinking domain (PPXD) which has the ability to bind preproteins in solution and which is important for preprotein loading onto SecYEG-containing membranes [6].

Homologs of secA are also encoded in the chloroplast genome of some algae [7] as well as in the nuclear genome of plants [8]. It could be involved in the intraorganellar protein transport into thylakoids.

We have developed a signature pattern for secA proteins based on the best conserved region. This region is located in the C-terminal recA-like domain. We also developed a profile that covers the region corresponding to the two recA-like domains.

Last update:

April 2006 / Text revised; profile added.

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Technical section

PROSITE methods (with tools and information) covered by this documentation:

SECA_MOTOR_DEAD, PS51196; SecA family profile  (MATRIX)

SECA, PS01312; SecA family signature  (PATTERN)


References

1AuthorsLill R. Cunningham K. Brundage L.A. Ito K. Oliver D. Wickner W.
TitleSecA protein hydrolyzes ATP and is an essential component of the protein translocation ATPase of Escherichia coli.
SourceEMBO J. 8:961-966(1989).
PubMed ID2542029

2AuthorsKoonin E.V. Gorbalenya A.E.
TitleAutogenous translation regulation by Escherichia coli ATPase SecA may be mediated by an intrinsic RNA helicase activity of this protein.
SourceFEBS. Lett. 298:6-8(1992).
PubMed ID1531961

3AuthorsGorbalenya A.E. and Koonin E.V. .
TitleHelicases: amino acid sequence comparisons and structure-function relationships.
SourceCurr. Opin. Struct. Biol. 3:419-429(1993).

4AuthorsHunt J.F. Weinkauf S. Henry L. Fak J.J. McNicholas P. Oliver D.B. Deisenhofer J.
TitleNucleotide control of interdomain interactions in the conformational reaction cycle of SecA.
SourceScience 297:2018-2026(2002).
PubMed ID12242434
DOI10.1126/science.1074424

5AuthorsSharma V. Arockiasamy A. Ronning D.R. Savva C.G. Holzenburg A. Braunstein M. Jacobs W.R. Jr. Sacchettini J.C.
TitleCrystal structure of Mycobacterium tuberculosis SecA, a preprotein translocating ATPase.
SourceProc. Natl. Acad. Sci. U.S.A. 100:2243-2248(2003).
PubMed ID12606717
DOI10.1073/pnas.0538077100

6AuthorsPapanikou E. Karamanou S. Baud C. Frank M. Sianidis G. Keramisanou D. Kalodimos C.G. Kuhn A. Economou A.
TitleIdentification of the preprotein binding domain of SecA.
SourceJ. Biol. Chem. 280:43209-43217(2005).
PubMed ID16243836
DOI10.1074/jbc.M509990200

7AuthorsValentin K.
TitleSecA is plastid-encoded in a red alga: implications for the evolution of plastid genomes and the thylakoid protein import apparatus.
SourceMol. Gen. Genet. 236:245-250(1993).
PubMed ID8437571

8AuthorsNohara T. Nakai M. Goto A. Endo T.
TitleIsolation and characterization of the cDNA for pea chloroplast SecA. Evolutionary conservation of the bacterial-type SecA-dependent protein transport within chloroplasts.
SourceFEBS Lett. 364:305-308(1995).
PubMed ID7758587



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