Erick Loomis scite author profile

Expansion of a trinucleotide (CGG) repeat element within the 5′ untranslated region (5′UTR) of the human FMR1 gene is responsible for a number of heritable disorders operating through distinct pathogenic mechanisms: gene silencing for fragile X syndrome (>200 CGG) and RNA toxic gain-of-function for FXTAS (∼55–200 CGG). Existing models have focused almost exclusively on post-transcriptional mechanisms, but co-transcriptional processes could also contribute to the molecular dysfunction of FMR1. We have observed that transcription through the GC-rich FMR1 5′UTR region favors R-loop formation, with the nascent (G-rich) RNA forming a stable RNA:DNA hybrid with the template DNA strand, thereby displacing the non-template DNA strand. Using DNA:RNA (hybrid) immunoprecipitation (DRIP) of genomic DNA from cultured human dermal fibroblasts with both normal (∼30 CGG repeats) and premutation (55

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Sequencing the unsequenceable: Expanded CGG-repeat alleles of the fragile X gene

Loomis

et al. 2012

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The human fragile X mental retardation 1 (FMR1 ) gene contains a (CGG) n trinucleotide repeat in its 59 untranslated region (59UTR). Expansions of this repeat result in a number of clinical disorders with distinct molecular pathologies, including fragile X syndrome (FXS; full mutation range, greater than 200 CGG repeats) and fragile X-associated tremor/ataxia syndrome (FXTAS; premutation range, 55-200 repeats). Study of these diseases has been limited by an inability to sequence expanded CGG repeats, particularly in the full mutation range, with existing DNA sequencing technologies. Single-molecule, real-time (SMRT) sequencing provides an approach to sequencing that is fundamentally different from other ''next-generation'' sequencing platforms, and is well suited for long, repetitive DNA sequences. We report the first sequence data for expanded CGG-repeat FMR1 alleles in the full mutation range that reveal the confounding effects of CGG-repeat tracts on both cloning and PCR. A unique feature of SMRT sequencing is its ability to yield real-time information on the rates of nucleoside addition by the tethered DNA polymerase; for the CGG-repeat alleles, we find a strand-specific effect of CGG-repeat DNA on the interpulse distance. This kinetic signature reveals a novel aspect of the repeat element; namely, that the particular G bias within the CGG/CCG-repeat element influences polymerase activity in a manner that extends beyond simple nearest-neighbor effects. These observations provide a baseline for future kinetic studies of repeat elements, as well as for studies of epigenetic and other chemical modifications thereof.

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Differential increases of specificFMR1mRNA isoforms in premutation carriers

et al. 2014

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Background-Over 40% of males and ~16% of female carriers of a premutation FMR1 allele (55-200 CGG repeats) will develop Fragile X associated Tremor/Ataxia Syndrome (FXTAS), an adult onset neurodegenerative disorder while, about 20% of female carriers will develop Fragile X-associated Primary Ovarian Insufficiency. Marked elevation in FMR1 mRNA transcript levels has been observed with premutation alleles, and RNA toxicity due to increased mRNA levels is the leading molecular mechanism proposed for these disorders. However, although the FMR1 gene undergoes alternative splicing, it is unknown if all or only some of the isoforms are overexpressed in premutation carriers and which isoforms may contribute to the premutation pathology.

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Platinum-Based Chemotherapy Induces Methylation Changes in Blood DNA Associated with Overall Survival in Patients with Ovarian Cancer

Flanagan

Wilson

Koo

et al. 2017

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Purpose: DNA damage repair can lead to epigenetic changes. DNA mismatch repair proteins bind to platinum DNA adducts and at sites of DNA damage can recruit the DNA methylating enzyme DNMT1, resulting in aberrant methylation. We hypothesised that DNA damage repair during platinum-based chemotherapy may cause aberrant DNA methylation in normal tissues of patients such as blood.Experimental Design: We used Illumina 450k methylation arrays and bisulphite pyrosequencing to investigate methylation at presentation and relapse in blood DNA from ovarian cancer patients enrolled in the SCOTROC1 trial (n=247) and in a cohort of ovarian tumour DNA samples collected at first relapse (n=46). We used an ovarian cancer cell line model to investigate the role of the DNA mismatch repair gene MLH1 in platinum induced methylation changes.Results: Specific CpG methylation changes in blood at relapse are observed following platinumbased chemotherapy and are associated with patient survival, independent of other clinical factors (HR=3.7; 95%CI 1.8-7.6, p=2.8x10 3 Translational RelevancePlatinum-based chemotherapy is the cornerstone of treatment for a wide variety of cancers. Greater than 80% of ovarian cancer patients respond to platinum-based chemotherapy at first line treatment and is therefore standard of care. However, over 50% of women will not respond to platinum-based chemotherapy at second-line treatment. There are a range of other treatment options at second-line, mainly guided by patient fitness and the platinum free interval. However, there are no biomarkers that guide this choice. We show for the first time that novel DNA methylation biomarkers, measured in blood DNA at the time of first relapse following platinum-based chemotherapy, are prognostic for overall survival of ovarian cancer patients. This opens the potential of a relatively non-invasive prognostic test that could help guide second line treatment options for ovarian cancer patients.4

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Genetic counseling, 2030: An on‐demand service tailored to the needs of a price conscious, genetically literate, and busy world

Rashkin

Bowes

Dunaway

et al. 2019

Journal of Genetic Counseling

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The practice of genetic counseling is going to be impacted by the public's expectation that goods, services, information, and experiences happen on demand, wherever and whenever people want them. Building from trends that are currently taking shape, this article looks just over a decade into the future—to 2030—to provide a description of how the field of genetics and genetic counseling will be changed, as well as advice for genetic counselors for how to prepare. We build from the prediction that a large portion of the general public will have access to their digitized whole genome sequence anytime, any place, on any device. We focus on five topics downstream of this prediction: public health, personal autonomy, polygenic scores (PGS), evolving clinical practices, and genetic privacy.

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Erick Loomis

Transcription-Associated R-Loop Formation across the Human FMR1 CGG-Repeat Region

Sequencing the unsequenceable: Expanded CGG-repeat alleles of the fragile X gene

Differential increases of specificFMR1mRNA isoforms in premutation carriers

Platinum-Based Chemotherapy Induces Methylation Changes in Blood DNA Associated with Overall Survival in Patients with Ovarian Cancer

Genetic counseling, 2030: An on‐demand service tailored to the needs of a price conscious, genetically literate, and busy world

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