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Query: EC:2.4.2.30 (
PARP
)
13,611
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Poly(ADP-ribosyl)ation is the covalent attachment of ADP-ribose subunits from NAD(+) to target proteins and was first described in plants in the 1970s. This post-translational modification is mediated by poly(ADP-ribose) polymerases (PARPs) and removed by poly(ADP-ribose) glycohydrolases (PARGs). PARPs have important functions in many biological processes including DNA repair, epigenetic regulation and transcription. However, these roles are not always associated with enzymatic activity. The
PARP
superfamily has been well studied in animals, but remains under-investigated in plants. Although plants lack the variety of
PARP
superfamily members found in mammals, they do encode three different types of
PARP
superfamily proteins, including a group of
PARP
-like proteins, the
SRO
family, that are plant specific. In plants, members of the
PARP
family and/or poly(ADP-ribosyl)ation have been linked to DNA repair, mitosis, innate immunity and stress responses. In addition, members of the
SRO
family have been shown to be necessary for normal sporophytic development. In this review, we summarize the current state of plant research into poly(ADP-ribosyl)ation and the
PARP
superfamily in plants.
...
PMID:Functions of the poly(ADP-ribose) polymerase superfamily in plants. 2186 Nov 84
Poly(ADP-ribos)ylation, originally described as a mechanism of DNA break repair, is now considered as part of a complex regulatory system involved in dynamic reorganization of chromatin structure, transcriptional control of gene expression and regulation of metabolism. In plants poly(ADP-ribos)ylation has received surprisingly little attention. It has been implicated in abiotic and biotic stress responses, cell cycle control and development; however, the molecular mechanisms and proteins involved are largely unknown. In this review we summarize current knowledge on plant
PARP
, PARG and
PARP
-like domain containing proteins and discuss their possible roles in plant development, immune responses, programmed cell death and stress responses in general. The genome of the model plant Arabidopsis contains three genes encoding
PARP
proteins, two of which have been shown to be active PARPs, and two genes encoding PARG proteins, one of which was shown to possess enzymatic activity. In addition, SROs (Similar to RCD One) represent a plant specific family of proteins containing a
PARP
-like domain. Although bioinformatics and biochemical data suggest that the
PARP
-like domain in
SRO
proteins does not have
PARP
activity, these proteins play a significant role in stress response as revealed by mutant analyses.
SRO
proteins interact with transcription factors involved in various stress and developmental responses and are suggested to serve as hubs in many signaling pathways. Altogether current data imply that poly(ADP-ribos)ylation plays significant regulatory role in many aspects of plant biology.
...
PMID:Plant PARPs, PARGs and PARP-like Proteins. 2709 Sep 5
Abiotic and biotic stress can have a detrimental impact on plant growth and productivity. Hence, there is a substantial demand for key factors of stress responses to improve yield stability of crops. Members of the poly(ADP-ribose)polymerase (
PARP
) protein family, which post-translationally modify (PARylate) nuclear proteins, have been suggested as such universal determinants of plant stress responses. A role under abiotic stress has been inferred from studies in which a genetic or, more commonly, pharmacological inhibition of
PARP
activity improved the performance of stressed plants. To further elucidate the role of
PARP
proteins under stress, T-DNA knockout mutants for the three Arabidopsis thaliana
PARP
genes were subjected to drought, osmotic, salt, and oxidative stress. To exclude a functional redundancy, which was indicated by a transcriptional upregulation of the remaining parp genes, a parp triple mutant was generated. Surprisingly, parp mutant plants did not differ from wild type plants in any of these stress experiments, independent from the number of
PARP
genes mutated. The parp triple mutant was also analyzed for callose formation in response to the pathogenassociated molecular pattern flg22. Unexpectedly, callose formation was unaltered in the mutant, albeit pharmacological
PARP
inhibition robustly blocked this immune response, confirming previous reports. Evidently, pharmacological inhibition appears to be more robust than the abolition of all
PARP
genes, indicating the presence of so-far undescribed proteins with
PARP
activity. This was supported by the finding that protein PARylation was not absent, but even increased in the parp triple mutant. Candidates for novel
PARP
-inhibitor targets may be found in the
SRO
protein family. These proteins harbor a catalytic
PARP
-like domain and are centrally involved in stress responses. Molecular modeling analyses, employing animal PARPs as templates, indeed indicated a capability of the
SRO
proteins RCD1 and SRO1 to bind nicotinamide-derived inhibitors. Collectively, the results of our study suggest that the stress-related phenotypes of
parp
mutants are highly conditional, and they call for a reconsideration of
PARP
inhibitor studies. In the context of this study, we also propose a unifying nomenclature of
PARP
genes and
parp
mutants, which is currently highly inconsistent and redundant.
...
PMID:No Silver Bullet - Canonical Poly(ADP-Ribose) Polymerases (PARPs) Are No Universal Factors of Abiotic and Biotic Stress Resistance of
Arabidopsis thaliana
. 2822 Jan 29
Ipomoea cairica
is a tropical plant and a wild relative of the food plant sweet potato (
Ipomoea batatas
), listed as one of the most invasive alien species in China. Recently, it has been reported that
I. cairica
had successfully invaded mangrove wetlands, indicating its high salt tolerance. Based on previous genetic studies,
I. cairica
offers a good model for characterizing stress-resistant genes. It has recently been identified that the
SRO
proteins (SIMILAR TO RCD-ONE) play important roles in a variety of stress and developmental responses. Radical-Induced Cell Death1 (RCD1) was the first identified plant
SRO
protein from
Arabidopsis thaliana
. As a typical
SRO
protein, IcSRO1 had a highly conservative WWE domain, a conserved
PARP
fold and protein C in the RST function area. The expression of IcSRO1 was induced by salt, drought, and the plant hormone ABA. The transgenic Arabidopsis overexpressing IcSRO1 showed higher tolerance against salt and drought stress along with lower accumulation of hydrogen peroxide (H
2
O
2
) and superoxide (O
2
-
) than the wild type. The IcSRO1 protein was localized in the nucleus after cultivation in the buffer. Our results indicated it could interact with
Arabidopsis
SALT OVERLY SENSITIVE 1 (AtSOS1), suggesting IcSRO1 may have similar functions. The pleiotropic effect of IcSRO1 on physiological processes contributes to the improvement of plant tolerance against diverse abiotic stresses, and may be associated with the adaptation of
I. cairica
to those environments with extreme saline and drought conditions. It therefore provides valuable gene resources for crop breeding enhancement.
...
PMID:Isolation and Identification of
Ipomoea cairica
(L.) Sweet Gene
IcSRO1
Encoding a SIMILAR TO RCD-ONE Protein, Which Improves Salt and Drought Tolerance in Transgenic
Arabidopsis
. 3203 46
