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Literature DB >> 27345159

Topological Data Analysis Generates High-Resolution, Genome-wide Maps of Human Recombination.

Pablo G Camara¹, Daniel I S Rosenbloom², Kevin J Emmett³, Arnold J Levine⁴, Raul Rabadan⁵.

Abstract

Meiotic recombination is a fundamental evolutionary process driving diversity in eukaryotes. In mammals, recombination is known to occur preferentially at specific genomic regions. Using topological data analysis (TDA), a branch of applied topology that extracts global features from large data sets, we developed an efficient method for mapping recombination at fine scales. When compared to standard linkage-based methods, TDA can deal with a larger number of SNPs and genomes without incurring prohibitive computational costs. We applied TDA to 1,000 Genomes Project data and constructed high-resolution whole-genome recombination maps of seven human populations. Our analysis shows that recombination is generally under-represented within transcription start sites. However, the binding sites of specific transcription factors are enriched for sites of recombination. These include transcription factors that regulate the expression of meiosis- and gametogenesis-specific genes, cell cycle progression, and differentiation blockage. Additionally, our analysis identifies an enrichment for sites of recombination at repeat-derived loci matched by piwi-interacting RNAs.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2016 PMID： 27345159 PMCID： PMC4965322 DOI： 10.1016/j.cels.2016.05.008

Source DB: PubMed Journal: Cell Syst ISSN： 2405-4712 Impact factor: 10.304

57 in total

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10. Primate evolution of the recombination regulator PRDM9.

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14 in total

Review 1. Artificial Intelligence in Cardiovascular Medicine.

Authors: Karthik Seetharam; Sirish Shrestha; Partho P Sengupta
Journal: Curr Treat Options Cardiovasc Med Date: 2019-05-14

2. Interpatient Similarities in Cardiac Function: A Platform for Personalized Cardiovascular Medicine.

Authors: Márton Tokodi; Sirish Shrestha; Christopher Bianco; Nobuyuki Kagiyama; Grace Casaclang-Verzosa; Jagat Narula; Partho P Sengupta
Journal: JACC Cardiovasc Imaging Date: 2020-03-18

3. Topological methods for genomics: present and future directions.

Authors: Pablo G Cámara
Journal: Curr Opin Syst Biol Date: 2016-12-14

4. Fast Estimation of Recombination Rates Using Topological Data Analysis.

Authors: Devon P Humphreys; Melissa R McGuirl; Michael Miyagi; Andrew J Blumberg
Journal: Genetics Date: 2019-02-20 Impact factor: 4.562

5. Identification of stem cells from large cell populations with topological scoring.

Authors: Mihaela E Sardiu; Andrew C Box; Jeffrey S Haug; Michael P Washburn
Journal: Mol Omics Date: 2020-09-14

6. Single-cell topological RNA-seq analysis reveals insights into cellular differentiation and development.

Authors: Abbas H Rizvi; Pablo G Camara; Elena K Kandror; Thomas J Roberts; Ira Schieren; Tom Maniatis; Raul Rabadan
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7. Identification of Topological Network Modules in Perturbed Protein Interaction Networks.

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Journal: Sci Rep Date: 2017-03-08 Impact factor: 4.379

8. Gene Coexpression Network Comparison via Persistent Homology.

Authors: Ali Nabi Duman; Harun Pirim
Journal: Int J Genomics Date: 2018-09-19 Impact factor: 2.326

Review 9. Enabling Precision Cardiology Through Multiscale Biology and Systems Medicine.

Authors: Kipp W Johnson; Khader Shameer; Benjamin S Glicksberg; Ben Readhead; Partho P Sengupta; Johan L M Björkegren; Jason C Kovacic; Joel T Dudley
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10. Identification of relevant genetic alterations in cancer using topological data analysis.

Authors: Raúl Rabadán; Yamina Mohamedi; Udi Rubin; Tim Chu; Adam N Alghalith; Oliver Elliott; Luis Arnés; Santiago Cal; Álvaro J Obaya; Arnold J Levine; Pablo G Cámara
Journal: Nat Commun Date: 2020-07-30 Impact factor: 14.919