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Target Concepts:
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Query: EC:6.3.2.19 (
ubiquitin-protein ligase
)
799
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The general amino acid permease, Gap1, of Saccharomyces cerevisiae is very active in cells grown on
proline
as the sole nitrogen source. Adding NH4+ to the medium triggers inactivation and degradation of the permease via a regulatory process involving Npi1p/Rsp5p, a
ubiquitin-protein ligase
. In this study, we describe several mutations affecting the C-terminal region of Gap1p that render the permease resistant to NH4(+)-induced inactivation. An in vivo isolated mutation (gap1pgr) causes a single Glu-->Lys substitution in an amino acid context similar to the DXKSS sequence involved in ubiquitination and endocytosis of the yeast alpha-factor receptor, Ste2p. Another replacement, substitution of two alanines for a di-leucine motif, likewise protects the Gap1 permease against NH4(+)-induced inactivation. In mammalian cells, such a motif is involved in the internalization of several cell-surface proteins. These data provide the first indication that a di-leucine motif influences the function of a plasma membrane protein in yeast. Mutagenesis of a putative phosphorylation site upstream from the di-leucine motif altered neither the activity nor the regulation of the permease. In contrast, deletion of the last eleven amino acids of Gap1p, a region conserved in other amino acid permeases, conferred resistance to NH4+ inactivation. Although the C-terminal region of Gap1p plays an important role in nitrogen control of activity, it was not sufficient to confer this regulation to two NH4(+)-insensitive permeases, namely the arginine (Can1p) and uracil (Fur4p) permeases.
...
PMID:A C-terminal di-leucine motif and nearby sequences are required for NH4(+)-induced inactivation and degradation of the general amino acid permease, Gap1p, of Saccharomyces cerevisiae. 917 53
Nedd4 (neuronal precursor cell-expressed developmentally down-regulated 4) is a
ubiquitin-protein ligase
containing multiple WW domains. We have previously demonstrated the association between the WW domains of Nedd4 and PPxY (PY) motifs of the epithelial sodium channel (ENaC). In this paper, we report the assignment of backbone 1H alpha, 1HN, 15N, 13C', 13C alpha, and aliphatic 13C resonances of a fragment of rat Nedd4 (rNedd4) containing the two C-terminal WW domains, WW(II+III), complexed to a PY motif-containing peptide derived from the beta subunit of rat ENaC, the betaP2 peptide. The secondary structures of these two WW domains, determined from chemical shifts of 13C alpha and 13C beta resonances, are virtually identical to those of the WW domains of the Yes-associated protein YAP65 and the peptidyl-prolyl isomerase Pin1. Triple resonance experiments that detect the 1H alpha chemical shift were necessary to complete the chemical shift assignment, owing to the large number of
proline
residues in this fragment of rNedd4. A new experiment, which correlates sequential residues via their 15N nuclei and also detects 1H alpha chemical shifts, is introduced and its utility for the chemical shift assignment of sequential
proline
residues is discussed. Data collected on the WW(II+III)-betaP2 complex indicate that these WW domains have different affinities for the betaP2 peptide.
...
PMID:NMR studies of tandem WW domains of Nedd4 in complex with a PY motif-containing region of the epithelial sodium channel. 992 3
Rsp5 is an essential
ubiquitin-protein ligase
in Saccharomyces cerevisiae. We found previously that the Ala401Glu rsp5 mutant is hypersensitive to various stresses that induce protein misfolding, suggesting that Rsp5 is a key enzyme for yeast cell growth under stress conditions. To isolate new Rsp5 variants as suppressors of the A401E mutant, PCR random mutagenesis was used in the rsp5(A401E) gene, and the mutagenized plasmid library was introduced into rsp5(A401E) cells. As a phenotypic suppressor of rsp5(A401E) cells, we isolated a quadruple variant (Thr357Ala/Glu401Gly/Lys764Glu/Glu767Gly) on a minimal medium containing the toxic
proline
analogue azetidine-2-carboxylate (AZC). Site-directed mutagenesis experiments showed that the rsp5(T357A/K764E) cells were much more tolerant to AZC than the wild-type cells, due to the smaller amounts of intracellular AZC. However, the T357A/K764E variant Rsp5 did not reverse the hypersensitivity of rsp5(A401E) cells to other stresses such as high growth temperature, ethanol, and freezing treatment. Interestingly, immunoblot and localization analyses indicated that the general amino acid permease Gap1, which is involved in AZC uptake, was absent on the plasma membrane and degraded in the vacuole of rsp5(T357A/K764E) cells before the addition of ammonium ions. These results suggest that the T357A/K764E variant Rsp5 induces constitutive inactivation of Gap1.
...
PMID:Engineering of the yeast ubiquitin ligase Rsp5: isolation of a new variant that induces constitutive inactivation of the general amino acid permease Gap1. 1905 25
Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disorder that is characterized by progressive weakness, paralysis and muscle loss often resulting in patient death within 3-5 years of diagnosis. Recently, we identified disease-linked mutations in the
CCNF
gene, which encodes the cyclin F protein, in cohorts of patients with familial and sporadic ALS and frontotemporal dementia (FTD) (Williams KL
et al
2016
Nat. Commun.
7
, 11253. (doi:10.1038/ncomms11253)). Cyclin F is a part of a Skp1-Cul-F-box (SCF) E3
ubiquitin-protein ligase
complex and is responsible for ubiquitylating proteins for degradation by the proteasome. In this study, we investigated the phosphorylation status of cyclin F and the effect of the serine to glycine substitution at site 621 (S621G) on E3 ligase activity. This specific mutation (S621G) was found in a multi-generational Australian family with ALS/FTD. We identified seven phosphorylation sites on cyclin F, of which five are newly reported including Ser621. These phosphorylation sites were mostly identified within the PEST (
proline
, glutamic acid, serine and threonine) sequence located at the C-terminus of cyclin F. Additionally, we determined that casein kinase II (CK2) can phosphorylate Ser621 and thereby regulate the E3 ligase activity of the SCF
(cyclin F)
complex. Furthermore, the S621G mutation in cyclin F prevents phosphorylation by CK2 and confers elevated Lys48-ubiquitylation activity, a hallmark of ALS/FTD pathology. These findings highlight the importance of phosphorylation in regulating the activity of the SCF
(cyclin F)
E3 ligase complex that can affect downstream processes and may lead to defective motor neuron development, neuron degeneration and ultimately ALS and FTD.
...
PMID:Casein kinase II phosphorylation of cyclin F at serine 621 regulates the Lys48-ubiquitylation E3 ligase activity of the SCF
(cyclin F)
complex. 2902 Dec 14
