Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Xrn1 is a deNADding Enzyme Modulating Mitochondrial NAD Levels
View through CrossRef
ABSTRACTThe existence of non-canonical nicotinamide adenine diphosphate (NAD) 5’-end capped RNAs is now well established. Nevertheless, the biological function of this nucleotide metabolite cap remains elusive. Here, we show that the yeast Saccharomyces cerevisiae cytoplasmic 5’-end exoribonuclease Xrn1 is also a NAD cap decapping (deNADding) enzyme that releases intact NAD and subsequently degrades the RNA. The significance of Xrn1 deNADding is evident in a deNADding deficient Xrn1 mutant that still retains its 5’-monophosphate exonuclease activity. This mutant reveals Xrn1 deNADding is necessary for normal growth on non-fermenting sugar and is involved in modulating mitochondrial NAD-capped RNA levels and in turn intramitochondrial NAD levels. Our findings uncover a functional role for mitochondrial NAD-capped RNAs as a reservoir to maintain overall NAD homeostasis. We propose NAD-capped RNAs function as a cistern for mitochondrial NAD with Xrn1 serving as a rheostat for NAD-capped RNAs.
Title: Xrn1 is a deNADding Enzyme Modulating Mitochondrial NAD Levels
Description:
ABSTRACTThe existence of non-canonical nicotinamide adenine diphosphate (NAD) 5’-end capped RNAs is now well established.
Nevertheless, the biological function of this nucleotide metabolite cap remains elusive.
Here, we show that the yeast Saccharomyces cerevisiae cytoplasmic 5’-end exoribonuclease Xrn1 is also a NAD cap decapping (deNADding) enzyme that releases intact NAD and subsequently degrades the RNA.
The significance of Xrn1 deNADding is evident in a deNADding deficient Xrn1 mutant that still retains its 5’-monophosphate exonuclease activity.
This mutant reveals Xrn1 deNADding is necessary for normal growth on non-fermenting sugar and is involved in modulating mitochondrial NAD-capped RNA levels and in turn intramitochondrial NAD levels.
Our findings uncover a functional role for mitochondrial NAD-capped RNAs as a reservoir to maintain overall NAD homeostasis.
We propose NAD-capped RNAs function as a cistern for mitochondrial NAD with Xrn1 serving as a rheostat for NAD-capped RNAs.
Related Results
Xrn1 biochemically associates to the eisosome after the post diauxic shift in yeast
Xrn1 biochemically associates to the eisosome after the post diauxic shift in yeast
AbstractmRNA degradation is one of the main steps of gene expression, and a key player is the 5’-3’ exonuclease Xrn1. InSaccharomyces cerevisiae, it was previously shown, by a micr...
Sex-related differences in human plasma NAD+/NADH levels depend on age
Sex-related differences in human plasma NAD+/NADH levels depend on age
Abstract
Nicotinamide adenine dinucleotide (NAD) is a coenzyme in metabolic reactions and cosubstrate in signaling pathways of cells. While the intracellular functio...
Elevation of NAD+ by nicotinamide riboside spares spinal cord tissue from injury and promotes locomotor recovery
Elevation of NAD+ by nicotinamide riboside spares spinal cord tissue from injury and promotes locomotor recovery
ABSTRACTSpinal cord injury (SCI)-induced tissue damage spreads to neighboring spared cells in the hours, days and weeks following injury leading to exacerbation of tissue damage an...
Mitochondria Fusion and Fission
Mitochondria Fusion and Fission
Abstract
Mitochondrial structural dynamics is regulated by the fusion or fission of these organelles. Recently published evidence indicates the ...
P–230 The NAD+ precursor nicotinamide riboside protects against postovulatary aging in vitro
P–230 The NAD+ precursor nicotinamide riboside protects against postovulatary aging in vitro
Abstract
Study question
Can nicotinamide riboside, one of the NAD+ precursor, protect against postovulatary aging in vitro?
...
GW24-e3762 Role Of mitochondrial fission In cardiac microvascular endothelial cells after ischaemia/reperfusion
GW24-e3762 Role Of mitochondrial fission In cardiac microvascular endothelial cells after ischaemia/reperfusion
Objectives
This study is aimed to establish a simulated ischaemia/reperfusion (SI/R) model in cultured CMECs from adult rat, and investigate the role of mitochond...
NAD+ treatment can increase directly the antioxidant capacity of rotenone-treated differentiated PC12 cells
NAD+ treatment can increase directly the antioxidant capacity of rotenone-treated differentiated PC12 cells
NAD+ administration can produce profound beneficial effects in the animal models of aging and a number of diseases. Since oxidative stress plays key pathological roles in aging and...
HIV-1 infection reduces NAD capping of host cell snRNA and snoRNA
HIV-1 infection reduces NAD capping of host cell snRNA and snoRNA
Abstract
NAD is a key component of cellular metabolism and also serves as an alternative 5’cap on short noncoding RNAs. The function of NAD in RNA, however, remains poorly ...