Two distinct protein-protein interactions between the NIT2 and NMR regulatory proteins are required to establish nitrogen metabolite repression in Neurospora crassa

Nitrogen metabolism is a highly regulated process in Neurospora crassa. The structural genes that encode nitrogen catabolic enzymes are subject to nitrogen metabolite repression, mediated by the positive‐acting NIT2 protein and by the negative‐acting NMR protein. NIT2, a globally acting factor, is a...

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Published in:Molecular microbiology 1997-11, Vol.26 (4), p.721-729
Main Authors: Pan, H.G, Feng, B, Marzluf, G.A
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Binding Sites
deletions
DNA-binding domains
DNA-binding proteins
DNA-Binding Proteins - genetics
DNA-Binding Proteins - metabolism
Fungal Proteins - metabolism
gata regulatory sequence
genetic transformation
interactions
Molecular Sequence Data
Mutagenesis, Site-Directed
Neurospora crassa
Neurospora crassa - metabolism
nitrate reductase
Nitrogen - metabolism
regulatory sequences
Repressor Proteins
site-directed mutagenesis
structural genes
Transcription Factors - genetics
Transcription Factors - metabolism
transcriptional activation
Zinc Fingers
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creator Pan, H.G
Feng, B
Marzluf, G.A
description Nitrogen metabolism is a highly regulated process in Neurospora crassa. The structural genes that encode nitrogen catabolic enzymes are subject to nitrogen metabolite repression, mediated by the positive‐acting NIT2 protein and by the negative‐acting NMR protein. NIT2, a globally acting factor, is a member of the GATA family of regulatory proteins and has a single Cys2/Cys2 zinc finger DNA‐binding domain. The negative‐acting NMR protein interacts via specific protein–protein binding with two distinct regions of the NIT2 protein, a short alpha‐helical motif within the NIT2 DNA‐binding domain and a second motif at its carboxy terminus. Deletions of segments of NIT2 throughout most of its length result in truncated proteins, which are still functional for activating gene expression; most of these mutant NIT2 proteins still allow proper nitrogen repression of nitrate reductase synthesis. In contrast, deletions or certain amino acid substitutions within the zinc finger and the carboxy‐terminal tail result in a loss of nitrogen metabolite repression. Those mutated forms of NIT2 that are insensitive to nitrogen repression have also lost one of the NIT2–NMR protein–protein interactions. These results provide compelling evidence that the specific NIT2–NMR interactions have a regulatory function and play a central role in establishing nitrogen metabolite repression.
doi_str_mv 10.1046/j.1365-2958.1997.6041979.x
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The structural genes that encode nitrogen catabolic enzymes are subject to nitrogen metabolite repression, mediated by the positive‐acting NIT2 protein and by the negative‐acting NMR protein. NIT2, a globally acting factor, is a member of the GATA family of regulatory proteins and has a single Cys2/Cys2 zinc finger DNA‐binding domain. The negative‐acting NMR protein interacts via specific protein–protein binding with two distinct regions of the NIT2 protein, a short alpha‐helical motif within the NIT2 DNA‐binding domain and a second motif at its carboxy terminus. Deletions of segments of NIT2 throughout most of its length result in truncated proteins, which are still functional for activating gene expression; most of these mutant NIT2 proteins still allow proper nitrogen repression of nitrate reductase synthesis. In contrast, deletions or certain amino acid substitutions within the zinc finger and the carboxy‐terminal tail result in a loss of nitrogen metabolite repression. 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The structural genes that encode nitrogen catabolic enzymes are subject to nitrogen metabolite repression, mediated by the positive‐acting NIT2 protein and by the negative‐acting NMR protein. NIT2, a globally acting factor, is a member of the GATA family of regulatory proteins and has a single Cys2/Cys2 zinc finger DNA‐binding domain. The negative‐acting NMR protein interacts via specific protein–protein binding with two distinct regions of the NIT2 protein, a short alpha‐helical motif within the NIT2 DNA‐binding domain and a second motif at its carboxy terminus. Deletions of segments of NIT2 throughout most of its length result in truncated proteins, which are still functional for activating gene expression; most of these mutant NIT2 proteins still allow proper nitrogen repression of nitrate reductase synthesis. In contrast, deletions or certain amino acid substitutions within the zinc finger and the carboxy‐terminal tail result in a loss of nitrogen metabolite repression. 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subjects Amino Acid Sequence
Binding Sites
deletions
DNA-binding domains
DNA-binding proteins
DNA-Binding Proteins - genetics
DNA-Binding Proteins - metabolism
Fungal Proteins - metabolism
gata regulatory sequence
genetic transformation
interactions
Molecular Sequence Data
Mutagenesis, Site-Directed
Neurospora crassa
Neurospora crassa - metabolism
nitrate reductase
Nitrogen - metabolism
regulatory sequences
Repressor Proteins
site-directed mutagenesis
structural genes
Transcription Factors - genetics
Transcription Factors - metabolism
transcriptional activation
Zinc Fingers
title Two distinct protein-protein interactions between the NIT2 and NMR regulatory proteins are required to establish nitrogen metabolite repression in Neurospora crassa
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