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1. Identification of prognostic factors in childhood T‐cell acute lymphoblastic leukemia: Results from DFCI ALL Consortium Protocols 05‐001 and 11‐001

   https://doi.org/10.1002/pbc.28719  

   Burns, Melissa A. ; Place, Andrew E. ; Stevenson, Kristen E. ; Gutiérrez, Alejandro ; Forrest, Suzanne ; Pikman, Yana ; Vrooman, Lynda M. ; Harris, Marian H. ; Weinberg, Olga K. ; Hunt, Sarah K. ; et al ( October 2020 , Pediatric Blood & Cancer)

   While outcomes for pediatric T‐cell acute lymphoblastic leukemia (T‐ALL) are favorable, there are few widely accepted prognostic factors, limiting the ability to risk stratify therapy.

   Dana‐Farber Cancer Institute (DFCI) Protocols 05‐001 and 11‐001 enrolled pediatric patients with newly diagnosed B‐ or T‐ALL from 2005 to 2011 and from 2012 to 2015, respectively. Protocol therapy was nearly identical for patients with T‐ALL (N = 123), who were all initially assigned to the high‐risk arm. End‐induction minimal residual disease (MRD) was assessed by reverse transcription polymerase chain reaction (RT‐PCR) or next‐generation sequencing (NGS), but was not used to modify postinduction therapy. Early T‐cell precursor (ETP) status was determined by flow cytometry. Cases with sufficient diagnostic DNA were retrospectively evaluated by targeted NGS of known genetic drivers of T‐ALL, including Notch, PI3K, and Ras pathway genes.

   The 5‐year event‐free survival (EFS) and overall survival (OS) for patients with T‐ALL was 81% (95% CI, 73‐87%) and 90% (95% CI, 83‐94%), respectively. ETP phenotype was associated with failure to achieve complete remission, but not with inferior OS. Low end‐induction MRD (<10⁻⁴) was associated with superior disease‐free survival (DFS). Pathogenic mutations of the PI3K pathway were mutually exclusive of ETP phenotype and were associated with inferior 5‐year DFS and OS.

   Together, our findings demonstrate that ETP phenotype, end‐induction MRD, and PI3K pathway mutation status are prognostically relevant in pediatric T‐ALL and should be considered for risk classification in future trials. DFCI Protocols 05‐001 and 11‐001 are registered atwww.clinicaltrials.govas NCT00165087 and NCT01574274, respectively.

    

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2. Design of SARS-CoV-2 Variant-Specific PCR Assays Considering Regional and Temporal Characteristics

   https://doi.org/10.1128/aem.02289-21  

   Oh, Chamteut ; Sashittal, Palash ; Zhou, Aijia ; Wang, Leyi ; El-Kebir, Mohammed ; Nguyen, Thanh H. ( April 2022 , Applied and Environmental Microbiology)

   Elkins, Christopher A. (Ed.)

   ABSTRACT Monitoring the prevalence of SARS-CoV-2 variants is necessary to make informed public health decisions during the COVID-19 pandemic. PCR assays have received global attention, facilitating a rapid understanding of variant dynamics because they are more accessible and scalable than genome sequencing. However, as PCR assays target only a few mutations, their accuracy could be reduced when these mutations are not exclusive to the target variants. Here we introduce PRIMES, an algorithm that evaluates the sensitivity and specificity of SARS-CoV-2 variant-specific PCR assays across different geographical regions by incorporating sequences deposited in the GISAID database. Using PRIMES, we determined that the accuracy of several PCR assays decreased when applied beyond the geographic scope of the study in which the assays were developed. Subsequently, we used this tool to design Alpha and Delta variant-specific PCR assays for samples from Illinois, USA. In silico analysis using PRIMES determined the sensitivity/specificity to be 0.99/0.99 for the Alpha variant-specific PCR assay and 0.98/1.00 for the Delta variant-specific PCR assay in Illinois, respectively. We applied these two variant-specific PCR assays to six local sewage samples and determined the dominant SARS-CoV-2 variant of either the wild type, the Alpha variant, or the Delta variant. Using next-generation sequencing (NGS) of the spike (S) gene amplicons of the Delta variant-dominant samples, we found six mutations exclusive to the Delta variant (S:T19R, S:Δ156/157, S:L452R, S:T478K, S:P681R, and S:D950N). The consistency between the variant-specific PCR assays and the NGS results supports the applicability of PRIMES. IMPORTANCE Monitoring the introduction and prevalence of variants of concern (VOCs) and variants of interest (VOIs) in a community can help the local authorities make informed public health decisions. PCR assays can be designed to keep track of SARS-CoV-2 variants by measuring unique mutation markers that are exclusive to the target variants. However, the mutation markers may not be exclusive to the target variants because of regional and temporal differences in variant dynamics. We introduce PRIMES, an algorithm that enables the design of reliable PCR assays for variant detection. Because PCR is more accessible, scalable, and robust for sewage samples than sequencing technology, our findings will contribute to improving global SARS-CoV-2 variant surveillance. 

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3. High‐Throughput and Low‐Cost Genotyping Method for Plant Genome Editing

   https://doi.org/10.1002/cpz1.100  

   Liu, Lei ; Chen, Richelle ; Fugina, Christopher John ; Siegel, Ben ; Jackson, David ( April 2021 , Current Protocols)

   Genome editing technologies have revolutionized genetic studies in the life sciences community in recent years. The application of these technologies allows researchers to conveniently generate mutations in almost any gene of interest. This is very useful for species such as maize that have complex genomes and lack comprehensive mutant collections. With the improvement of genome editing tools and transformation methods, these technologies are also widely used to assist breeding research and implementation in maize. However, the detection and genotyping of genomic edits rely on low‐throughput, high‐cost methods, such as traditional agarose gel electrophoresis and Sanger sequencing. This article describes a method to barcode the target regions of genomic edits from many individuals by low‐cost polymerase chain reaction (PCR) amplification. It also employs next‐generation sequencing (NGS) to genotype the genome‐edited plants at high throughput and low cost. This protocol can be used for initial screening of genomic edits as well as derived population genotyping on a small or large scale, at high efficiency and low cost. © 2021 Wiley Periodicals LLC.

   Basic Protocol 1: A fast genomic DNA preparation method from genome edited plants

   Basic Protocol 2: Barcoding the amplicons of edited regions from each individual by two rounds of PCR

   Basic Protocol 3: Bioinformatics analysis

    

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4. Modeling clinical and molecular covariates of mutational process activity in cancer

   https://doi.org/10.1093/bioinformatics/btz340  

   Robinson, Welles ; Sharan, Roded ; Leiserson, Mark D ( July 2019 , Bioinformatics)

   Abstract Motivation Somatic mutations result from processes related to DNA replication or environmental/lifestyle exposures. Knowing the activity of mutational processes in a tumor can inform personalized therapies, early detection, and understanding of tumorigenesis. Computational methods have revealed 30 validated signatures of mutational processes active in human cancers, where each signature is a pattern of single base substitutions. However, half of these signatures have no known etiology, and some similar signatures have distinct etiologies, making patterns of mutation signature activity hard to interpret. Existing mutation signature detection methods do not consider tumor-level clinical/demographic (e.g. smoking history) or molecular features (e.g. inactivations to DNA damage repair genes). Results To begin to address these challenges, we present the Tumor Covariate Signature Model (TCSM), the first method to directly model the effect of observed tumor-level covariates on mutation signatures. To this end, our model uses methods from Bayesian topic modeling to change the prior distribution on signature exposure conditioned on a tumor’s observed covariates. We also introduce methods for imputing covariates in held-out data and for evaluating the statistical significance of signature-covariate associations. On simulated and real data, we find that TCSM outperforms both non-negative matrix factorization and topic modeling-based approaches, particularly in recovering the ground truth exposure to similar signatures. We then use TCSM to discover five mutation signatures in breast cancer and predict homologous recombination repair deficiency in held-out tumors. We also discover four signatures in a combined melanoma and lung cancer cohort—using cancer type as a covariate—and provide statistical evidence to support earlier claims that three lung cancers from The Cancer Genome Atlas are misdiagnosed metastatic melanomas. Availability and implementation TCSM is implemented in Python 3 and available at https://github.com/lrgr/tcsm, along with a data workflow for reproducing the experiments in the paper. Supplementary information Supplementary data are available at Bioinformatics online. 

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5. The Genomic Landscape of Colorectal Cancer in the Saudi Arabian Population Using a Comprehensive Genomic Panel

   https://doi.org/10.3390/diagnostics13182993  

   Alsolme, Ebtehal ; Alqahtani, Saleh ; Fageeh, Musa ; Barakeh, Duna ; Sharma, Nitesh K. ; Mangul, Serghei ; Robinson, Heather A. ; Fathaddin, Amany ; Hauser, Charlotte A. ; Abedalthagafi, Malak ( September 2023 , Diagnostics)

   Next-generation sequencing (NGS) technology detects specific mutations that can provide treatment opportunities for colorectal cancer (CRC) patients. Patients and Methods: We analyzed the mutation frequencies of common actionable genes and their association with clinicopathological characteristics and oncologic outcomes using targeted NGS in 107 Saudi Arabian patients without a family history of CRC. Results: Approximately 98% of patients had genetic alterations. Frequent mutations were observed in BRCA2 (79%), CHEK1 (78%), ATM (76%), PMS2 (76%), ATR (74%), and MYCL (73%). The APC gene was not included in the panel. Statistical analysis using the Cox proportional hazards model revealed an unusual positive association between poorly differentiated tumors and survival rates (p = 0.025). Although no significant univariate associations between specific mutations or overall mutation rate and overall survival were found, our preliminary analysis of the molecular markers for CRC in a predominantly Arab population can provide insights into the molecular pathways that play a significant role in the underlying disease progression. Conclusions: These results may help optimize personalized therapy when drugs specific to a patient’s mutation profile have already been developed.

    

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