Literature DB >> 2542029

SecA protein hydrolyzes ATP and is an essential component of the protein translocation ATPase of Escherichia coli.

R Lill1, K Cunningham, L A Brundage, K Ito, D Oliver, W Wickner.   

Abstract

Bacterial protein export requires two forms of energy input, ATP and the membrane electrochemical potential. Using an in vitro reaction reconstituted with purified soluble and peripheral membrane components, we can now directly measure the translocation-coupled hydrolysis of ATP. This translocation ATPase requires inner membrane vesicles, SecA protein and translocation-competent proOmpA. The stimulatory activity of membrane vesicles can be blocked by either antibody to the SecY protein or by preparing the membranes from a secY-thermosensitive strain which had been incubated at the non-permissive temperature in vivo. The SecA protein itself has more than one ATP binding site. 8-azido-ATP inactivates SecA for proOmpA translocation and for translocation ATPase, yet does not inhibit a low level of ATP hydrolysis inherent in the isolated SecA protein. These data show that the SecA protein has a central role in coupling the hydrolysis of ATP to the transfer of pre-secretory proteins across the membrane.

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Year:  1989        PMID: 2542029      PMCID: PMC400897          DOI: 10.1002/j.1460-2075.1989.tb03458.x

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  32 in total

1.  Energy dependence of protein translocation into chloroplasts.

Authors:  U I Flügge; G Hinz
Journal:  Eur J Biochem       Date:  1986-11-03

2.  Cell biology. An unfolding story of protein translocation.

Authors:  J E Rothman; R D Kornberg
Journal:  Nature       Date:  1986 Jul 17-23       Impact factor: 49.962

3.  Transport of F1-ATPase subunit beta into mitochondria depends on both a membrane potential and nucleoside triphosphates.

Authors:  N Pfanner; W Neupert
Journal:  FEBS Lett       Date:  1986-12-15       Impact factor: 4.124

4.  The secY protein can act post-translationally to promote bacterial protein export.

Authors:  R Bacallao; E Crooke; K Shiba; W Wickner; K Ito
Journal:  J Biol Chem       Date:  1986-09-25       Impact factor: 5.157

5.  ATP is essential for protein translocation into Escherichia coli membrane vesicles.

Authors:  L Chen; P C Tai
Journal:  Proc Natl Acad Sci U S A       Date:  1985-07       Impact factor: 11.205

6.  Interactions of a photo-affinity ATP analog with cation-stimulated adenosine triphosphatases of human red cell membranes.

Authors:  B E Haley; J F Hoffman
Journal:  Proc Natl Acad Sci U S A       Date:  1974-09       Impact factor: 11.205

7.  Both ATP and the electrochemical potential are required for optimal assembly of pro-OmpA into Escherichia coli inner membrane vesicles.

Authors:  B L Geller; N R Movva; W Wickner
Journal:  Proc Natl Acad Sci U S A       Date:  1986-06       Impact factor: 11.205

8.  Secretion in yeast: translocation and glycosylation of prepro-alpha-factor in vitro can occur via an ATP-dependent post-translational mechanism.

Authors:  J A Rothblatt; D I Meyer
Journal:  EMBO J       Date:  1986-05       Impact factor: 11.598

9.  Assembly in vitro of nuclei active in nuclear protein transport: ATP is required for nucleoplasmin accumulation.

Authors:  D D Newmeyer; J M Lucocq; T R Bürglin; E M De Robertis
Journal:  EMBO J       Date:  1986-03       Impact factor: 11.598

10.  Secretory protein translocation in a yeast cell-free system can occur posttranslationally and requires ATP hydrolysis.

Authors:  M G Waters; G Blobel
Journal:  J Cell Biol       Date:  1986-05       Impact factor: 10.539
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  136 in total

Review 1.  Molecular basis of the interaction of Salmonella with the intestinal mucosa.

Authors:  K H Darwin; V L Miller
Journal:  Clin Microbiol Rev       Date:  1999-07       Impact factor: 26.132

2.  Differential dependence of levansucrase and alpha-amylase secretion on SecA (Div) during the exponential phase of growth of Bacillus subtilis.

Authors:  L Leloup; A J Driessen; R Freudl; R Chambert; M F Petit-Glatron
Journal:  J Bacteriol       Date:  1999-03       Impact factor: 3.490

3.  Evaluating the oligomeric state of SecYEG in preprotein translocase.

Authors:  T L Yahr; W T Wickner
Journal:  EMBO J       Date:  2000-08-15       Impact factor: 11.598

4.  Reconstitution of Sec-dependent membrane protein insertion: nascent FtsQ interacts with YidC in a SecYEG-dependent manner.

Authors:  M van der Laan; E N Houben; N Nouwen; J Luirink; A J Driessen
Journal:  EMBO Rep       Date:  2001-06       Impact factor: 8.807

5.  Roles of the C-terminal end of SecY in protein translocation and viability of Escherichia coli.

Authors:  Kazuhiko Chiba; Hiroyuki Mori; Koreaki Ito
Journal:  J Bacteriol       Date:  2002-04       Impact factor: 3.490

6.  Projection structure and oligomeric properties of a bacterial core protein translocase.

Authors:  I Collinson; C Breyton; F Duong; C Tziatzios; D Schubert; E Or; T Rapoport; W Kühlbrandt
Journal:  EMBO J       Date:  2001-05-15       Impact factor: 11.598

7.  Overproduction of SecA suppresses the export defect caused by a mutation in the gene encoding the Escherichia coli export chaperone secB.

Authors:  H A Cook; C A Kumamoto
Journal:  J Bacteriol       Date:  1999-05       Impact factor: 3.490

8.  Multicopy suppression: an approach to understanding intracellular functioning of the protein export system.

Authors:  C Ueguchi; K Ito
Journal:  J Bacteriol       Date:  1992-03       Impact factor: 3.490

9.  Translocation of proteins across the mitochondrial inner membrane, but not into the outer membrane, requires nucleoside triphosphates in the matrix.

Authors:  S T Hwang; G Schatz
Journal:  Proc Natl Acad Sci U S A       Date:  1989-11       Impact factor: 11.205

10.  Detergent disruption of bacterial inner membranes and recovery of protein translocation activity.

Authors:  K Cunningham; W T Wickner
Journal:  Proc Natl Acad Sci U S A       Date:  1989-11       Impact factor: 11.205
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