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SIRT5 encodes a member of the sirtuin family of proteins, homologs to the yeast Sir2 protein. Additionally we are shipping Sirtuin 5 Proteins (21) and Sirtuin 5 Kits (13) and many more products for this protein.
Showing 10 out of 180 products:
Human Polyclonal SIRT5 Primary Antibody for EIA, WB - ABIN783614
Salminen, Kaarniranta: SIRT1: regulation of longevity via autophagy. in Cellular signalling 2009
Show all 2 references for ABIN783614
Human Polyclonal SIRT5 Primary Antibody for EIA, IHC (p) - ABIN358734
Frye: Phylogenetic classification of prokaryotic and eukaryotic Sir2-like proteins. in Biochemical and biophysical research communications 2000
Show all 2 references for ABIN358734
Human Polyclonal SIRT5 Primary Antibody for WB - ABIN252349
Alhazzazi, Kamarajan, Joo, Huang, Verdin, DSilva, Kapila: Sirtuin-3 (SIRT3), a novel potential therapeutic target for oral cancer. in Cancer 2011
Human Polyclonal SIRT5 Primary Antibody for IHC (fro), IF (p) - ABIN1387080
Takumida, Takumida, Anniko: Localization of sirtuins in the mouse inner ear. in Acta oto-laryngologica 2014
Human Polyclonal SIRT5 Primary Antibody for IHC (p), WB - ABIN390180
Wang, Yi, Li, Cai, He, Ni, Zhou, Cheng, Jin, Fan, Qiu: Down-regulation of sirtuin 3 is associated with poor prognosis in hepatocellular carcinoma after resection. in BMC cancer 2014
Chicken Polyclonal SIRT5 Primary Antibody for WB - ABIN2778619
Mahlknecht, Ho, Letzel, Voelter-Mahlknecht: Assignment of the NAD-dependent deacetylase sirtuin 5 gene (SIRT5) to human chromosome band 6p23 by in situ hybridization. in Cytogenetic and genome research 2006
Cow (Bovine) Polyclonal SIRT5 Primary Antibody for IHC, WB - ABIN2778620
Chowdari, Northup, Pless, Wood, Joo, Mirnics, Lewis, Levitt, Bacanu, Nimgaonkar: DNA pooling: a comprehensive, multi-stage association analysis of ACSL6 and SIRT5 polymorphisms in schizophrenia. in Genes, brain, and behavior 2007
Data indicate that compared to non-neoplastic endometria (NNE (show ENO1 Antibodies)), endometrial cancer (EC) showed SIRT7 (show SIRT7 Antibodies) mRNA overexpression, whereas SIRT1 (show SIRT1 Antibodies), SIRT2 (show SIRT2 Antibodies), SIRT4 (show SIRT4 Antibodies) and SIRT5 were underexpressed, and no significant differences were observed for SIRT3 (show SIRT3 Antibodies) and SIRT6 (show SIRT6 Antibodies).
Use of a pan (show SUPT6H Antibodies)-sirtuin (show SIRT1 Antibodies) inhibitor and shRNA-mediated protein knockdown led us to uncover a role for the NAD(+)-dependent family of sirtuins, and in particular for SIRT2 (show SIRT2 Antibodies) and SIRT5, in the regulation of the necroptotic cell death program
mutual cooperation between Y102 and R105 residues in promoting the desuccinylation versus deacetylation reaction in SIRT5.
Data showed that SIRT5 was involved in protein post-translational modifications through its potent demalonylase, desuccinylase, and deglutarylase activities. Also, the protein was found in the mitochondrial, cytoplasmic, and nuclear compartments. [review]
Results show that mitochondrial sirtuins SIRT3 (show SIRT3 Antibodies), SIRT4 (show SIRT4 Antibodies), and SIRT5 can promote increased mitochondrial respiration and cellular metabolism and respond to excess glucose by inducing a coordinated increase of glycolysis and respiration.
Results suggest a role for SIRT5 in influencing oocyte quality and in vitro fertilization outcomes.
SIRT1 (show SIRT1 Antibodies)/SIRT5-mediated PML (show PML Antibodies) deacetylation plays a role in the regulation of cancer cell survival.
The results reveal the Sirt5 substrate acyl selectivity and its molecular basis and enable the design of inhibitors for Sirt5.
High SIRT5 expression facilitates cancer cell growth and drug resistance in non-small cell lung cancer.
Expression of SIRT5 in the entorhinal cortex, hippocampus, and white matter increases during the progression of Alzheimer disease. It is seen in activated microglia.
Association analysis of individual SIRT5 SNPs and haplotype combinations reveal that the 4 loci are significantly associated with some body measurement and ultrasound traits in Qinchuan cattle.
In the cochlea, the expression of SIRT1 (show SIRT1 Antibodies), 3, and 5 (both mRNA and protein) was decreased in the old mice
These findings establish that regulating heart metabolism and function is a major physiological function of lysine succinylation and SIRT5.
Myocardial ischemic reperfusion injury in Sirt5-/- heart is restored to wild-type levels by pretreatment with dimethyl malonate, a competitive inhibitor of succinate dehydrogenase (SDH (show SDHA Antibodies)), implicating alteration in SDH (show SDS Antibodies) activity as causative of the injury.
SIRT5 has a role in cellular metabolism with a multiple enzymatic activities
SIRT3 (show SIRT3 Antibodies) and SIRT5 regulate the enzyme activity and cardiolipin binding of very long-chain acyl-CoA dehydrogenase (show ACADVL Antibodies)
Pathway analysis identified glycolysis as the top SIRT5-regulated pathway. Importantly, glycolytic flux was diminished in primary hepatocytes from Sirt5(-/-) compared to WT mice.
Data indicated that SIRT5 ameliorates MPTP (show PTPN2 Antibodies)-induced nigrostriatal dopaminergic degeneration via preserving mitochondrial antioxidant capacity.
Lysine glutarylation is a protein posttranslational modification regulated by SIRT5.
Loss of SIRT5 leads to accumulation of medium- and long-chain acylcarnitines and decreased beta-hydroxybutyrate production in vivo.
Sirt5 is likely to be dispensable for the metabolic homeostasis under the basal conditions.
This gene encodes a member of the sirtuin family of proteins, homologs to the yeast Sir2 protein. Members of the sirtuin family are characterized by a sirtuin core domain and grouped into four classes. The functions of human sirtuins have not yet been determined\; however, yeast sirtuin proteins are known to regulate epigenetic gene silencing and suppress recombination of rDNA. Studies suggest that the human sirtuins may function as intracellular regulatory proteins with mono-ADP-ribosyltransferase activity. The protein encoded by this gene is included in class III of the sirtuin family. Alternative splicing of this gene results in multiple transcript variants.
sirtuin (silent mating type information regulation 2 homolog) 5 (S. cerevisiae)
, sirtuin 5
, NAD-dependent lysine demalonylase and desuccinylase sirtuin-5, mitochondrial
, NAD-dependent protein deacylase sirtuin-5, mitochondrial
, regulatory protein SIR2 homolog 5
, sirtuin (silent mating type information regulation 2 homolog) 5
, NAD-dependent deacetylase sirtuin-5
, SIR2-like protein 5
, nad-dependent deacetylase sirtuin-5
, silent mating type information regulation 2, S.cerevisiae, homolog 5
, sir2-like 5
, sirtuin type 5
, NAD-dependent lysine demalonylase and desuccinylase sirtuin-5A, mitochondrial
, NAD-dependent protein deacylase sirtuin-5A, mitochondrial
, regulatory protein SIR2 homolog 5-a
, Regulatory protein SIR2 homolog 5