Efficient Insertion of Odd-numbered Transmembrane Segments of the Tetracycline Resistance Protein Requires Even-numbered Segments

Functional membrane insertion elements in the pBR322 tetracycline resistance protein were identified by comparing the ability of odd-numbered transmembrane segments and their attached periplasmic loops to insert into the membrane individually or when combined with the next even-numbered segment in t...

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Bibliographic Details
Published in:The Journal of biological chemistry 1996-11, Vol.271 (48), p.30829-30834
Main Authors: Guo, Danping, Liu, Jun, Motlagh, Ali, Jewell, Jean, Miller, Kurt W.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Bacterial Proteins - chemistry
Escherichia coli - chemistry
Lipid Bilayers
Membrane Proteins - chemistry
Molecular Sequence Data
Peptide Mapping
Protein Structure, Secondary
R Factors
Recombinant Fusion Proteins
Repressor Proteins - chemistry
Structure-Activity Relationship
Tetracycline Resistance
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Summary:Functional membrane insertion elements in the pBR322 tetracycline resistance protein were identified by comparing the ability of odd-numbered transmembrane segments and their attached periplasmic loops to insert into the membrane individually or when combined with the next even-numbered segment in the tetracycline resistance protein sequence. The efficiency with which individual odd-numbered segments and periplasmic loops inserted was probed by treating proteins truncated at the distal ends of periplasmic loops P2-P6 with carboxypeptidases and endoproteases in inside-out membrane vesicles. Insertion of odd-numbered segments and attached loops is inefficient when they occupy a C-terminal position in the protein. The C-terminal odd-numbered segment and loop sequences of 34-54% of the molecules of periplasmic loop truncation mutants could be removed by carboxypeptidase Y. In contrast, odd-numbered segments and loops insert efficiently if the next even-numbered segment in the sequence is present. In such cytoplasmic loop truncation mutants, only the cytoplasmic tail sequences of the proteins could be removed by carboxypeptidases. Remarkably, insertion of individual odd-numbered segments and loops is inefficient even though free energies for insertion of these sequences are highly favorable. The results indicate that pairs of adjacent segments, possibly “helical hairpins,” are necessary for efficient membrane insertion of the tetracycline resistance protein.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.271.48.30829