Nuclear Regulation Amplifying gene expression with RNA-targeted therapeutics – Nature.com Carmen Lillard May 30, 2023 Amplifying gene expression with RNA-targeted therapeutics Nature.com
Nuclear Regulation Discovery of two new isoforms of the human DUT gene | Scientific … – Nature.com Carmen Lillard May 12, 2023 Discovery of two new isoforms of the human DUT gene | Scientific ... Nature.com
Nuclear Regulation African swine fever virus I73R is a critical virulence-related gene: A … – pnas.org Carmen Lillard Apr 7, 2023 African swine fever virus I73R is a critical virulence-related gene: A ... pnas.org
Nuclear Regulation UT Southwestern researchers discover gene regulation mechanism … – UT Southwestern Carmen Lillard Feb 4, 2023 UT Southwestern researchers discover gene regulation mechanism ... UT Southwestern
Nuclear Regulation The metazoan landscape of mitochondrial DNA gene order and … – Nature.com Carmen Lillard Jan 23, 2023 The metazoan landscape of mitochondrial DNA gene order and ... Nature.com
Nuclear Regulation RNaseH2A downregulation drives inflammatory gene expression … – Nature.com Carmen Lillard Jan 2, 2023 RNaseH2A downregulation drives inflammatory gene expression ... Nature.com
Nuclear Regulation DDX41: A key nuclear player in maintaining genomic stability: Scientists reveal the functional… Carmen Lillard Nov 17, 2022 DDX41: A key nuclear player in maintaining genomic stability: Scientists reveal the functional significance of the gene DDX41 in molecular processes underlying cancer Science Daily
Nuclear Regulation Researchers find a switch to regulate the diabetes-causing gene – News-Medical.Net Carmen Lillard Oct 30, 2022 Researchers find a switch to regulate the diabetes-causing gene News-Medical.Net
Nuclear Regulation Co-alterations of circadian clock gene transcripts in human placenta in preeclampsia | Scientific… Carmen Lillard Oct 25, 2022 Co-alterations of circadian clock gene transcripts in human placenta in preeclampsia | Scientific Reports Nature.com
Nuclear Regulation Loss of LOXL2 promotes uterine hypertrophy and tumor progression by enhancing H3K36ac-dependent gene… Carmen Lillard Oct 5, 2022 Loss of LOXL2 promotes uterine hypertrophy and tumor progression by enhancing H3K36ac-dependent gene expression Cancer Discovery