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Proline transport and stress tolerance of ammonia-insensitive mutants of the PUT4-encoded proline-specific permease in yeast

Proline transport and stress tolerance of ammonia-insensitive mutants of the PUT4-encoded proline-specific permease in yeast
Proline transport and stress tolerance of ammonia-insensitive mutants of the PUT4-encoded proline-specific permease in yeast

The imino amino acid, proline, has roles in both cellular nutrition and response to stress. Proline uptake in Saccharomyces cerevisiae is largely mediated by a high affinity, specific permease, Put4p, and a low affinity general amino acid permease, Gap1p. Both are subject to nitrogen catabolite repression (NCR) and nitrogen catabolite inactivation (NCI). In order for proline to be fully exploited, its transport must be derepressed, as occurs upon depletion of preferred nitrogen sources, and molecular oxygen must be present to allow the first step of catabolism via proline oxidase. This study focuses on the isolation of variants of Put4p, which are insensitive to repression by a preferred nitrogen source (ammonia) and their subsequent effect on proline transport and stress tolerance. Specific amino acid residues in the carboxy-terminal region of Put4p were targeted by site-directed mutagenesis. Substitution at Serine605, a potential phosphorylation target, led to the amelioration of ammonia-induced down-regulation of Put4p. When combined with a promoter mutation (-160), the S605A mutation resulted in increased proline uptake and accumulation. This increase in proline accumulation was associated with increased cell viability in conditions of high temperature and osmotic stress raising possible benefits in industrial fermentation applications.

Proline uptake, Proline-specific permease, PUT4, Saccharomyces cerevisiae, Site-directed mutagenesis, Stress tolerance
0022-1260
427-439
Poole, Kate
bab0b0b7-fd3f-45fd-8c7a-e30a53a5f793
Walker, Michelle E.
5e8a98ce-9e08-409a-99e4-a0b96a490940
Warren, Tristan
6eed6dde-3bb9-45a1-8537-5f945eee63f8
Gardner, Jennie
0d95188b-206d-4817-8437-e163351f6e7f
McBryde, Colin
bceddd45-eb75-408e-9e11-3a0377e54899
Lopes, Miguel De Barros
df66bb47-6128-490c-ae4e-09925ca20c94
Jiranek, Vladimir
8e5a8dfd-f5b2-43e3-928b-11dff324abc7
Poole, Kate
bab0b0b7-fd3f-45fd-8c7a-e30a53a5f793
Walker, Michelle E.
5e8a98ce-9e08-409a-99e4-a0b96a490940
Warren, Tristan
6eed6dde-3bb9-45a1-8537-5f945eee63f8
Gardner, Jennie
0d95188b-206d-4817-8437-e163351f6e7f
McBryde, Colin
bceddd45-eb75-408e-9e11-3a0377e54899
Lopes, Miguel De Barros
df66bb47-6128-490c-ae4e-09925ca20c94
Jiranek, Vladimir
8e5a8dfd-f5b2-43e3-928b-11dff324abc7

Poole, Kate, Walker, Michelle E., Warren, Tristan, Gardner, Jennie, McBryde, Colin, Lopes, Miguel De Barros and Jiranek, Vladimir (2009) Proline transport and stress tolerance of ammonia-insensitive mutants of the PUT4-encoded proline-specific permease in yeast. Journal of General and Applied Microbiology, 55 (6), 427-439. (doi:10.2323/jgam.55.427).

Record type: Article

Abstract

The imino amino acid, proline, has roles in both cellular nutrition and response to stress. Proline uptake in Saccharomyces cerevisiae is largely mediated by a high affinity, specific permease, Put4p, and a low affinity general amino acid permease, Gap1p. Both are subject to nitrogen catabolite repression (NCR) and nitrogen catabolite inactivation (NCI). In order for proline to be fully exploited, its transport must be derepressed, as occurs upon depletion of preferred nitrogen sources, and molecular oxygen must be present to allow the first step of catabolism via proline oxidase. This study focuses on the isolation of variants of Put4p, which are insensitive to repression by a preferred nitrogen source (ammonia) and their subsequent effect on proline transport and stress tolerance. Specific amino acid residues in the carboxy-terminal region of Put4p were targeted by site-directed mutagenesis. Substitution at Serine605, a potential phosphorylation target, led to the amelioration of ammonia-induced down-regulation of Put4p. When combined with a promoter mutation (-160), the S605A mutation resulted in increased proline uptake and accumulation. This increase in proline accumulation was associated with increased cell viability in conditions of high temperature and osmotic stress raising possible benefits in industrial fermentation applications.

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More information

Published date: 2009
Keywords: Proline uptake, Proline-specific permease, PUT4, Saccharomyces cerevisiae, Site-directed mutagenesis, Stress tolerance

Identifiers

Local EPrints ID: 482571
URI: http://eprints.soton.ac.uk/id/eprint/482571
DOI: doi:10.2323/jgam.55.427
ISSN: 0022-1260
PURE UUID: af865717-a09e-498c-9e40-7cde2b681a21
ORCID for Vladimir Jiranek: ORCID iD orcid.org/0000-0002-9775-8963

Catalogue record

Date deposited: 10 Oct 2023 16:58
Last modified: 18 Mar 2024 04:12

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Contributors

Author: Kate Poole
Author: Michelle E. Walker
Author: Tristan Warren
Author: Jennie Gardner
Author: Colin McBryde
Author: Miguel De Barros Lopes
Author: Vladimir Jiranek ORCID iD

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