Longevity regulation in Saccharomyces cerevisiae: linking metabolism, genome stability, and heterochromatin
about
Recent developments in yeast agingStructural basis for nicotinamide cleavage and ADP-ribose transfer by NAD(+)-dependent Sir2 histone/protein deacetylasesNutrient-sensitive mitochondrial NAD+ levels dictate cell survivalThe neuroprotective properties of calorie restriction, the ketogenic diet, and ketone bodiesThe 39-kDa poly(ADP-ribose) glycohydrolase ARH3 hydrolyzes O-acetyl-ADP-ribose, a product of the Sir2 family of acetyl-histone deacetylasesEpigenetics and agingGenetic Manipulation of Glycogen Allocation Affects Replicative Lifespan in E. coliBet hedging in yeast by heterogeneous, age-correlated expression of a stress protectantAcetylation of yeast AMPK controls intrinsic aging independently of caloric restriction.MSN2 and MSN4 link calorie restriction and TOR to sirtuin-mediated lifespan extension in Saccharomyces cerevisiae.SIRT1 functionally interacts with the metabolic regulator and transcriptional coactivator PGC-1{alpha}Apoptosis at inflection point in liquid culture of budding yeastsProgress in metabolic engineering of Saccharomyces cerevisiaeThe migration of mitochondrial DNA fragments to the nucleus affects the chronological aging process of Saccharomyces cerevisiaeMammalian sirtuins: biological insights and disease relevanceDNA replication stress is a determinant of chronological lifespan in budding yeast.Decondensation of Xenopus sperm chromatin using Saccharomyces cerevisiae whole-cell extracts.Genomic instability is associated with natural life span variation in Saccharomyces cerevisiae.Comparative analyses of time-course gene expression profiles of the long-lived sch9Delta mutant.Mechanisms Underlying the Essential Role of Mitochondrial Membrane Lipids in Yeast Chronological AgingA cytoprotective perspective on longevity regulationNutrient sensing kinases PKA and Sch9 phosphorylate the catalytic domain of the ubiquitin-conjugating enzyme Cdc34.Cycles of chromosome instability are associated with a fragile site and are increased by defects in DNA replication and checkpoint controls in yeast."Sleeping beauty": quiescence in Saccharomyces cerevisiae.Age-dependent changes in the sphingolipid composition of mouse CD4+ T cell membranes and immune synapses implicate glucosylceramides in age-related T cell dysfunctionA reduction in age-enhanced gluconeogenesis extends lifespan.Conserved locus-specific silencing functions of Schizosaccharomyces pombe sir2+.Design and synthesis of compounds that extend yeast replicative lifespan.Potential long-term consequences of fad diets on health, cancer, and longevity: lessons learned from model organism studies.DNA replication stress, genome instability and aging.Deteriorated stress response in stationary-phase yeast: Sir2 and Yap1 are essential for Hsf1 activation by heat shock and oxidative stress, respectively.Np95 is implicated in pericentromeric heterochromatin replication and in major satellite silencingHugan Qingzhi Exerts Anti-Inflammatory Effects in a Rat Model of Nonalcoholic Fatty Liver Disease.Function and metabolism of sirtuin metabolite O-acetyl-ADP-riboseThe histone deacetylase Hos2 forms an Hsp42-dependent cytoplasmic granule in quiescent yeast cellsWhy yeast cells can undergo apoptosis: death in times of peace, love, and warSmall molecule regulation of Sir2 protein deacetylases.Lithocholic acid extends longevity of chronologically aging yeast only if added at certain critical periods of their lifespan.Epigenetic memory loss in aging oligodendrocytes in the corpus callosum.2-micron circle plasmids do not reduce yeast life span.
P2860
Q21145229-B75D0E7E-D1B6-4939-A1DE-CFE019372440Q24564290-4F3EA8B2-50E2-457A-BF7E-F0B7C76B05BEQ24612868-DDB43B49-E233-4F55-AB87-DADD38D06536Q24646616-E9E5C8C6-6D07-436C-9799-3673C59031F0Q24672688-4A56CEBD-1FA9-4950-BF4E-60E1C0DB0905Q26740029-6BD551CC-9686-49EA-B6D8-CF167D408772Q27308969-D787E4DE-6FEB-4D78-9E5B-27419BF3777AQ27319462-AC862D9C-CD34-41E9-AC2D-FAD9CB686EBCQ27930160-BBF53552-E007-451D-B27D-EA6F677A6A7CQ27932823-46CCF49F-B9E7-430B-9AE4-890EF9F094F6Q28235481-153A5431-D7FD-4BCC-8D4D-AB283C6F4591Q28740687-652C50E9-4F25-4300-9631-E38D16D28F5DQ28757069-71C2DA0C-0343-42BD-A136-63CA856B5F4DQ29027428-93BB64BE-429A-4FCB-A393-AEA958D2D266Q29614496-89EFA996-A363-46DB-807C-384DEEFD5D74Q30444507-498E6D72-EF3A-4ED8-9883-6161F030729CQ33253574-AD414DEC-809F-4827-B8D6-173D512BFDF7Q33351946-EB72828E-66C3-495A-A376-51E82E1EB5E9Q33566445-6C5BE1B3-34A8-4042-963F-3937FD86B608Q33737685-98F3B9EB-0004-461C-82CE-C69C3700BC8EQ33754491-33993E97-9630-496F-A2CB-4D5C2762119DQ34075503-919ED5F7-015C-41EC-9F9A-48918349C5F3Q34324101-F9465F0D-A5AC-41BF-A0A9-4CB1DEAFC15BQ34348944-6F9123F7-1444-441F-A408-7F1852352BFDQ34460494-629CD73F-1F0E-4134-AB40-3D5E577598D9Q34559032-89AD4FF1-99E3-4A4A-9609-EDC696A5A92DQ34572375-7112086A-29A3-4803-A79C-79238AEA6462Q34573125-7021B13B-D0D6-4BAD-8D8F-D4E896C19E9BQ34632455-B0D7973A-57EA-4DE7-AC47-52680AA7CCCEQ34720959-C9343EBB-72F8-4F19-9118-60867B3AE92CQ35377033-176E161B-0A98-4890-A1E8-F7C3483F7FBAQ35650852-E958C253-4C5B-4298-AD78-0AA7A51F6B75Q35753386-8953519E-A991-4F09-BE88-BA7297FF6DD3Q35846790-3C181E50-A656-439F-B4E7-DAF82936D136Q35861844-AB33AAB8-1A6D-41E6-AFF5-B8EE3DF5F2D5Q36119166-4F99712F-C7CD-4EBB-926E-167380F71D81Q36255278-EA420B5C-E027-4121-B566-1AD0CEF697C0Q36304181-E811EA21-DF59-4BBF-8E89-4FFAEC0720AFQ36571048-0F1ECDE9-2CA6-4D29-A03F-4773FF3022CAQ36650593-25B19EFF-97B4-4527-A6D5-25E91083B477
P2860
Longevity regulation in Saccharomyces cerevisiae: linking metabolism, genome stability, and heterochromatin
description
2003 nî lūn-bûn
@nan
2003 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Longevity regulation in Saccha ...... stability, and heterochromatin
@ast
Longevity regulation in Saccha ...... stability, and heterochromatin
@en
Longevity regulation in Saccha ...... tability, and heterochromatin.
@nl
type
label
Longevity regulation in Saccha ...... stability, and heterochromatin
@ast
Longevity regulation in Saccha ...... stability, and heterochromatin
@en
Longevity regulation in Saccha ...... tability, and heterochromatin.
@nl
prefLabel
Longevity regulation in Saccha ...... stability, and heterochromatin
@ast
Longevity regulation in Saccha ...... stability, and heterochromatin
@en
Longevity regulation in Saccha ...... tability, and heterochromatin.
@nl
P2860
P3181
P1476
Longevity regulation in Saccha ...... stability, and heterochromatin
@en
P2093
Kevin J Bitterman
Oliver Medvedik
P2860
P304
376-99, table of contents
P3181
P356
10.1128/MMBR.67.3.376-399.2003
P407
P577
2003-09-01T00:00:00Z