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GoPubMed Proteins lists recent and important papers and reviews for proteins. Page last changed on 28 Jul 2015.

PTEN induced putative kinase 1

PINK1, PARK6, PTEN-induced putative kinase 1
This gene encodes a serine/threonine protein kinase that localizes to mitochondria. It is thought to protect cells from stress-induced mitochondrial dysfunction. Mutations in this gene cause one form of autosomal recessive early-onset Parkinson disease. [provided by RefSeq, Jul 2008] (from NCBI)
Top mentioned proteins: E3 ubiquitin ligase, PTEN, DJ-1, LRRK2, Ubiquitin
Papers using PINK1 antibodies
PINK1-dependent recruitment of Parkin to mitochondria in mitophagy
Supplier
Xia Xu-Gang et al., In International Journal of Biological Sciences, 2009
... PINK1 RNAi transgenic mice have been characterized ...
Mitochondrial rhomboid PARL regulates cytochrome c release during apoptosis via OPA1-dependent cristae remodeling.
Supplier
Green Douglas R., In PLoS Biology, 2005
... YFP-Parkin, YFP-Parkin mutants, mCherry-Parkin, PINK1-YFP, PINK1KD-YFP, PINK1 Δ1-110-YFP, and Opa3-PINK1 Δ1-110-YFP are in C1 or N1 Clontech vectors ...
Papers on PINK1
The PARK2/Parkin receptor on damaged mitochondria revisited-uncovering the role of phosphorylated ubiquitin chains.
New
Tanaka et al., Tokyo, Japan. In Autophagy, 25 Aug 2015
UNASSIGNED: Phosphorylated ubiquitin produced by PINK1 kinase functions as a PARK2/Parkin activator by derepressing intramolecular autoinhibition of PARK2 E3 activity.
Genetic perspective on the role of the Autophagy-Lysosome Pathway in Parkinson disease.
New
Rouleau et al., Montréal, Canada. In Autophagy, 24 Aug 2015
Interestingly, many of these genetic factors, such as LRRK2, GBA, SMPD1, SNCA, PARK2, PINK1, PARK7, SCARB2 and others, are involved in the autophagy-lysosome pathway (ALP).
Endogenous Parkin Preserves Dopaminergic Substantia Nigral Neurons following Mitochondrial DNA Mutagenic Stress.
New
Youle et al., Bethesda, United States. In Neuron, 15 Aug 2015
Phosphorylated ubiquitin was increased in the brains of Mutator mice, indicating PINK1-Parkin activation.
(Patho-)physiological relevance of PINK1-dependent ubiquitin phosphorylation.
New
Springer et al., Jacksonville, United States. In Embo Rep, 10 Aug 2015
UNASSIGNED: Mutations in PINK1 and PARKIN cause recessive, early-onset Parkinson's disease (PD).
Mechanism of phospho-ubiquitin-induced PARKIN activation.
New
Impact
Komander et al., Cambridge, United Kingdom. In Nature, 10 Aug 2015
UNASSIGNED: The E3 ubiquitin ligase PARKIN (encoded by PARK2) and the protein kinase PINK1 (encoded by PARK6) are mutated in autosomal-recessive juvenile Parkinsonism (AR-JP) and work together in the disposal of damaged mitochondria by mitophagy.
How mitochondrial dynamism orchestrates mitophagy.
Review
New
Dorn et al., Beersheba, Israel. In Circ Res, 22 Jun 2015
Here, we review accumulating evidence supporting important roles for mitochondrial fission and fusion in cardiac mitochondrial quality control, focusing on the PTEN-induced putative kinase 1-Parkin mitophagy pathway.
Quantifying ubiquitin signaling.
Review
New
Harper et al., Boston, United States. In Mol Cell, 21 Jun 2015
Here, we review how quantitative proteomic tools and enrichment strategies are being used to quantify UB-dependent signaling systems, and to integrate UB signaling with regulatory phosphorylation events, illustrated with the PINK1/PARKIN pathway.
The three 'P's of mitophagy: PARKIN, PINK1, and post-translational modifications.
Review
New
Fon et al., Montréal, Canada. In Genes Dev, 15 Jun 2015
Two Parkinson's disease (PD)-associated proteins, the mitochondrial kinase PINK1 and the E3-ubiquitin (Ub) ligase PARKIN, are central to mitochondrial quality control.
Phosphatase and tensin homolog-induced putative kinase 1 and Parkin in diabetic heart: Role of mitophagy.
Review
New
Long et al., Xi'an, China. In J Diabetes Investig, May 2015
Phosphatase and tensin homolog-induced putative kinase 1 (PINK1) and Parkin, initially identified to be associated with the pathogenesis of a familiar form of Parkinson's disease, have recently been recognized to play a critical role in mediating cardiomyocytes' adaption to stresses.
Selective removal of mitochondria via mitophagy: distinct pathways for different mitochondrial stresses.
Review
New
Chen et al., Beijing, China. In Biochim Biophys Acta, May 2015
In mammals, different mitophagy effectors, including the mitophagy receptors NIX, BNIP3 and FUDNC1 and the PINK1/Parkin pathway, have been identified to participate in the selective clearance of mitochondria.
PINK1 and Parkin control localized translation of respiratory chain component mRNAs on mitochondria outer membrane.
New
Impact
Lu et al., Stanford, United States. In Cell Metab, Feb 2015
Here we show that Parkinson's disease (PD)-associated genes PINK1 and Parkin direct localized translation of certain nuclear-encoded RCC (nRCC) mRNAs.
PINK1-Parkin-Mediated Mitophagy Protects Mitochondrial Integrity and Prevents Metabolic Stress-Induced Endothelial Injury.
New
Shen et al., Jinan, China. In Plos One, Dec 2014
PINK1 (phosphatase and tensin homolog (PTEN)-induced putative kinase 1) and Parkin signaling is a key pathway in mitophagy control.
The mitochondrial deubiquitinase USP30 opposes parkin-mediated mitophagy.
New
Impact
Sheng et al., San Francisco, United States. In Nature, Jul 2014
Here we report that USP30, a deubiquitinase localized to mitochondria, antagonizes mitophagy driven by the ubiquitin ligase parkin (also known as PARK2) and protein kinase PINK1, which are encoded by two genes associated with Parkinson's disease.
Ubiquitin is phosphorylated by PINK1 to activate parkin.
New
Impact
Matsuda et al., Tokyo, Japan. In Nature, Jul 2014
PINK1 (PTEN induced putative kinase 1) and PARKIN (also known as PARK2) have been identified as the causal genes responsible for hereditary recessive early-onset Parkinsonism.
Defective mitophagy in XPA via PARP-1 hyperactivation and NAD(+)/SIRT1 reduction.
New
Impact
Bohr et al., Baltimore, United States. In Cell, Jun 2014
XPA-deficient cells show defective mitophagy with excessive cleavage of PINK1 and increased mitochondrial membrane potential.
Inactivation of Pink1 gene in vivo sensitizes dopamine-producing neurons to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and can be rescued by autosomal recessive Parkinson disease genes, Parkin or DJ-1.
GeneRIF
Park et al., Ottawa, Canada. In J Biol Chem, 2012
This evidence not only provides strong evidence for the role of endogenous Pink1 in neuronal survival, but also supports a role of DJ-1 and Parkin acting parallel or downstream of endogenous Pink1 to mediate survival in a mammalian in vivo context.
Pink1 kinase and its membrane potential (Deltaψ)-dependent cleavage product both localize to outer mitochondrial membrane by unique targeting mode.
GeneRIF
Voos et al., Bonn, Germany. In J Biol Chem, 2012
Multiple targeting signals featured by the Pink1 sequence result in the final localization of both the full-length protein and its major Deltapsi-dependent cleavage product to the cytosolic face of the outer mitochondrial membrane.
Vitamin K2 is a mitochondrial electron carrier that rescues pink1 deficiency.
Impact
GeneRIF
Verstreken et al., Leuven, Belgium. In Science, 2012
study identified UBIAD1/Heix as a modifier of pink1
Regulation of mitochondrial permeability transition pore by PINK1.
GeneRIF
Shen et al., Boston, United States. In Mol Neurodegener, 2011
Our findings show that loss of PINK1 causes selective increases in mitochondrial permeability transition pore opening and mitochondrial calcium
Expression of Pink1 with α-synuclein in the dopaminergic neurons of Drosophila leads to increases in both lifespan and healthspan.
GeneRIF
Staveley et al., St. John's, Canada. In Genet Mol Res, 2011
Increased expression of alpha-synuclein and Pink1 together have a synergistic effect, allowing for enhanced protection and increased survival of the organism.
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