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Volumn 348, Issue 6239, 2015, Pages 1160-1163
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A Werner syndrome stem cell model unveils heterochromatin alterations as a driver of human aging
a b c d a a b a a c a a a e a a a a c f more.. |
Author keywords
[No Author keywords available]
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Indexed keywords
HISTONE H3;
WERNER SYNDROME PROTEIN;
DNA BINDING PROTEIN;
EXODEOXYRIBONUCLEASE;
HETEROCHROMATIN;
HETEROCHROMATIN-SPECIFIC NONHISTONE CHROMOSOMAL PROTEIN HP-1;
LAMINA-ASSOCIATED POLYPEPTIDE 2;
MEMBRANE PROTEIN;
METHYLTRANSFERASE;
NONHISTONE PROTEIN;
RECQ HELICASE;
REPRESSOR PROTEIN;
SUV39H1 PROTEIN, HUMAN;
WRN PROTEIN, HUMAN;
AGING;
CHROMOSOME;
EMBRYO;
GENETIC ENGINEERING;
GERM CELL;
PROTEIN;
SENESCENCE;
ARTICLE;
CELL AGING;
CELL DIFFERENTIATION;
CELL NUCLEUS MEMBRANE;
CHROMATIN IMMUNOPRECIPITATION;
CHROMATIN STRUCTURE;
CONTROLLED STUDY;
COPY NUMBER VARIATION;
EMBRYONIC STEM CELL;
GENE MUTATION;
GENETIC MODEL;
HETEROCHROMATIN;
HUMAN;
HUMAN CELL;
MESENCHYMAL STEM CELL;
NUCLEAR LAMINA;
PHENOTYPE;
PREMATURE AGING;
PRIORITY JOURNAL;
REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION;
WERNER SYNDROME;
WILD TYPE;
AGING;
ANIMAL;
BIOLOGICAL MODEL;
CENTROMERE;
CHEMISTRY;
GENE INACTIVATION;
GENETIC EPIGENESIS;
GENETICS;
HEK293 CELL LINE;
MESENCHYMAL STROMA CELL;
METABOLISM;
MOUSE;
AGING;
ANIMALS;
CELL AGING;
CELL DIFFERENTIATION;
CENTROMERE;
CHROMOSOMAL PROTEINS, NON-HISTONE;
DNA-BINDING PROTEINS;
EPIGENESIS, GENETIC;
EXODEOXYRIBONUCLEASES;
GENE KNOCKOUT TECHNIQUES;
HEK293 CELLS;
HETEROCHROMATIN;
HUMANS;
MEMBRANE PROTEINS;
MESENCHYMAL STROMAL CELLS;
METHYLTRANSFERASES;
MICE;
MODELS, BIOLOGICAL;
RECQ HELICASES;
REPRESSOR PROTEINS;
WERNER SYNDROME;
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EID: 84929435164
PISSN: 00368075
EISSN: 10959203
Source Type: Journal
DOI: 10.1126/science.aaa1356 Document Type: Article |
Times cited : (413)
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References (20)
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