- Autori:
-
Jose M., Sanchez Ruiz; Melissa D., Lage; Adrianne M. C., Pittman; Roncador, Alessandro; Cellini, Barbara; Chandra L., Tucker
- Titolo:
-
Allele-specific Characterization of Alanine: Glyoxylate Aminotransferase Variants Associated with Primary Hyperoxaluria
- Anno:
-
2014
- Tipologia prodotto:
-
Articolo in Rivista
- Tipologia ANVUR:
- Articolo su rivista
- Lingua:
-
Inglese
- Formato:
-
Elettronico
- Referee:
-
Sì
- Nome rivista:
- PLoS ONE
- ISSN Rivista:
- 1932-6203
- N° Volume:
-
9
- Intervallo pagine:
-
e94338-e94338
- Parole chiave:
-
Primary hyperoxaluria type 1; alanine:glyoxylate aminotransferase; Enzymatic activities
- Breve descrizione dei contenuti:
- Primary Hyperoxaluria Type 1 (PH1) is a rare autosomal recessive kidney stone disease caused by deficiency of the peroxisomal enzyme alanine: glyoxylate aminotransferase (AGT), which is involved in glyoxylate detoxification. Over 75 different missense mutations in AGT have been found associated with PH1. While some of the mutations have been found to affect enzyme activity, stability, and/or localization, approximately half of these mutations are completely uncharacterized. In this study, we sought to systematically characterize AGT missense mutations associated with PH1. To facilitate analysis, we used two high-throughput yeast-based assays: one that assesses AGT specific activity, and one that assesses protein stability. Approximately 30% of PH1-associated missense mutations are found in conjunction with a minor allele polymorphic variant, which can interact to elicit complex effects on protein stability and trafficking. To better understand this allele interaction, we functionally characterized each of 34 mutants on both the major (wild-type) and minor allele backgrounds, identifying mutations that synergize with the minor allele. We classify these mutants into four distinct categories depending on activity/stability results in the different alleles. Twelve mutants were found to display reduced activity in combination with the minor allele, compared with the major allele background. When mapped on the AGT dimer structure, these mutants reveal localized regions of the protein that appear particularly sensitive to interactions with the minor allele variant. While the majority of the deleterious effects on activity in the minor allele can be attributed to synergistic interaction affecting protein stability, we identify one mutation, E274D, that appears to specifically affect activity when in combination with the minor allele.
- Id prodotto:
-
81064
- Handle IRIS:
-
11562/717567
- depositato il:
-
2 maggio 2014
- ultima modifica:
-
15 novembre 2022
- Citazione bibliografica:
-
Jose M., Sanchez Ruiz; Melissa D., Lage; Adrianne M. C., Pittman; Roncador, Alessandro; Cellini, Barbara; Chandra L., Tucker,
Allele-specific Characterization of Alanine: Glyoxylate Aminotransferase Variants Associated with Primary Hyperoxaluria
«PLoS ONE»
, vol.
9
,
2014
,
pp. e94338-e94338
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