AgtA, the Dicarboxylic Amino Acid Transporter of Aspergillus nidulans , Is Concertedly Down-Regulated by Exquisite Sensitivity to Nitrogen Metabolite Repression and Ammonium-Elicited Endocytosis-Reference-Cited by-同舟云学术

AgtA, the Dicarboxylic Amino Acid Transporter of Aspergillus nidulans , Is Concertedly Down-Regulated by Exquisite Sensitivity to Nitrogen Metabolite Repression and Ammonium-Elicited Endocytosis

Published:2009-03 Issue:3 Volume:8 Page:339-352
ISSN:1535-9778
Container-title:Eukaryotic Cell
language:en
Short-container-title:Eukaryot Cell

Author:

Apostolaki Angeliki¹,Erpapazoglou Zoi²,Harispe Laura¹³,Billini Maria²,Kafasla Panagiota²,Kizis Dimosthenis²,Peñalva Miguel Angel³,Scazzocchio Claudio¹⁴,Sophianopoulou Vicky²

Affiliation:

1. Institut de Génétique et Microbiologie, Université Paris-Sud, UMR8621, Orsay, France

2. Institute of Biology, National Center for Scientific Research, Demokritos (NCSRD), Aghia Paraskevi 15310, Athens, Greece

3. Centro de Investigaciones Biológicas, CSIC, Ramiro de Maeztu 9, Madrid 28040, Spain

4. Department of Microbiology, Imperial College London, London, United Kingdom

Abstract

ABSTRACT We identified agtA , a gene that encodes the specific dicarboxylic amino acid transporter of Aspergillus nidulans . The deletion of the gene resulted in loss of utilization of aspartate as a nitrogen source and of aspartate uptake, while not completely abolishing glutamate utilization. Kinetic constants showed that AgtA is a high-affinity dicarboxylic amino acid transporter and are in agreement with those determined for a cognate transporter activity identified previously. The gene is extremely sensitive to nitrogen metabolite repression, depends on AreA for its expression, and is seemingly independent from specific induction. We showed that the localization of AgtA in the plasma membrane necessitates the ShrA protein and that an active process elicited by ammonium results in internalization and targeting of AgtA to the vacuole, followed by degradation. Thus, nitrogen metabolite repression and ammonium-promoted vacuolar degradation act in concert to downregulate dicarboxylic amino acid transport activity.

Publisher

American Society for Microbiology

Subject

Molecular Biology,General Medicine,Microbiology

Link

https://journals.asm.org/doi/pdf/10.1128/EC.00270-08

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