about
Tertiary siRNAs mediate paramutation in C. elegansThe genome of the crustacean Parhyale hawaiensis, a model for animal development, regeneration, immunity and lignocellulose digestionPRDE-1 is a nuclear factor essential for the biogenesis of Ruby motif-dependent piRNAs in C. elegans.Reduced insulin/IGF-1 signaling restores germ cell immortality to Caenorhabditis elegans Piwi mutantsCaenorhabditis elegans RSD-2 and RSD-6 promote germ cell immortality by maintaining small interfering RNA populationsImplication of sperm RNAs in transgenerational inheritance of the effects of early trauma in mice.Ancient and novel small RNA pathways compensate for the loss of piRNAs in multiple independent nematode lineages.Wolbachia Blocks Viral Genome Replication Early in Infection without a Transcriptional Response by the Endosymbiont or Host Small RNA PathwayspiRNAs can trigger a multigenerational epigenetic memory in the germline of C. elegansA deletion polymorphism in the Caenorhabditis elegans RIG-I homolog disables viral RNA dicing and antiviral immunity.Specific down-regulation of spermatogenesis genes targeted by 22G RNAs in hybrid sterile males associated with an X-Chromosome introgressionCellular epigenetic stability and cancer.RNAi pathways in the recognition of foreign RNA: antiviral responses and host-parasite interactions in nematodes.Small RNAs break out: the molecular cell biology of mobile small RNAs.Competition between virus-derived and endogenous small RNAs regulates gene expression in Caenorhabditis elegans.Histone H3.3 is required to maintain replication fork progression after UV damage.Determinants of G quadruplex-induced epigenetic instability in REV1-deficient cells.miR-182 Regulates Slit2-Mediated Axon Guidance by Modulating the Local Translation of a Specific mRNA.FANCJ coordinates two pathways that maintain epigenetic stability at G-quadruplex DNA.E. coli OxyS non-coding RNA does not trigger RNAi in C. elegans.Motogenic sites in human fibronectin are masked by long range interactions.An Alternative STAT Signaling Pathway Acts in Viral Immunity in Caenorhabditis elegans.Antiviral RNA Interference against Orsay Virus Is neither Systemic nor Transgenerational in Caenorhabditis elegans.Molecular biology. Is there social RNA?Natural Infection of C. elegans by an Oomycete Reveals a New Pathogen-Specific Immune Response.Evolutionary analysis indicates that DNA alkylation damage is a byproduct of cytosine DNA methyltransferase activity.Pan-arthropod analysis reveals somatic piRNAs as an ancestral defence against transposable elementsThe piRNA pathway responds to environmental signals to establish intergenerational adaptation to stressThe meiotic phosphatase GSP-2/PP1 promotes germline immortality and small RNA-mediated genome silencingEvoChromo: towards a synthesis of chromatin biology and evolutionPETISCO is a novel protein complex required for 21U RNA biogenesis and embryonic viabilityMolecular mechanisms of epigenetic inheritance: Possible evolutionary implicationsMechanistic Insights into Cytosine-N3 Methylation by DNA Methyltransferase DNMT3A
P50
Q27311391-B70B3E82-1830-4004-88CB-55B3074EB296Q28595687-C4059A13-0E86-4EC9-A3B0-C115DD9D92F3Q33588098-A2D487B7-47BD-41B5-9CFA-932D32B2CD0FQ33724795-630D55E1-6AAD-442F-92FC-04E6EF649F0FQ34384139-88946517-7F39-4B07-A84F-1FCBFC38C418Q35097508-25B9477E-B251-430C-88A8-C74234AE835CQ35558916-C1650C1D-CE5B-4E1E-B8B4-326A398DF637Q35992588-014688C5-4B26-4DE5-89B1-DC864F2E3741Q36298021-963D4C7E-95DF-4094-8F95-3D5E77239E24Q37221709-90DA9D2C-D26C-4C44-8AA0-D2EAC30B096DQ37313637-08CD8AC6-9F31-4B34-9674-97B9B052F600Q37973880-B027CEC7-392A-48D4-9D79-F96E750E64B1Q38122218-3298A02F-6BAF-4505-AFF8-70022EB68E11Q38232933-E823C7E5-0A2C-4003-BDD5-7654CC95DCD4Q38488598-4F30CCAE-C2F3-4802-97E1-8FD5C20F74E6Q38958426-1A19D76A-DFD6-4995-8A43-64C21139A4A5Q38959604-B83DB425-287E-4483-B772-EEB6D815A45AQ38986337-4E7D9DE6-02AE-4AA1-8BB4-3533CADE12BDQ39453954-AD8168D0-6C2B-40CD-8522-F3FFFDFEC10CQ39655742-E39F1FD0-952B-46E6-B0D4-E4906F35D968Q39861069-4591DFEE-A0B5-4B19-8098-9FF0168E355EQ40056915-FC526D55-946F-45EC-AC88-3BF9DFE458C2Q40508050-F99747FD-2D8A-4441-92EC-484BD90D85AAQ45935781-D3C09867-583B-4957-9C86-4B1F68A131E8Q48513837-B81BCA8B-7B21-432C-A142-30C310EEFDC6Q49830775-BB696887-D804-4F1D-90D6-6B597A287421Q57083952-29073E2F-E62E-4DD2-9670-8B56A1945695Q58725198-0C313CC0-467B-4716-88DD-645E350FAD82Q64108584-817025EC-894E-4509-B7A9-ACEC3347CD03Q90316153-D1F536BD-4327-4508-B7AF-D4ACA0DC8FE9Q92417839-22509A3D-CC44-45CC-AA53-409C76EB3E43Q92954247-022D44BC-BADC-45E5-85DD-4D4E50301BD1Q92959039-B63FE594-A314-4D88-8656-7079DDE86D4A
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Peter Sarkies
@ast
Peter Sarkies
@en
Peter Sarkies
@es
Peter Sarkies
@nl
Peter Sarkies
@sl
type
label
Peter Sarkies
@ast
Peter Sarkies
@en
Peter Sarkies
@es
Peter Sarkies
@nl
Peter Sarkies
@sl
prefLabel
Peter Sarkies
@ast
Peter Sarkies
@en
Peter Sarkies
@es
Peter Sarkies
@nl
Peter Sarkies
@sl
P108
P106
P21
P31
P3835
peter-sarkies2
P496
0000-0003-0279-6199