Genomic technologies: development and clinical application

Genomic technologies: development and clinical application

Guest editor: Stephen Kingsmore

Genome Medicine is pleased to present a special issue on Genomic technologies: development and clinical application. It captures the recent advances in a broad range of genomic technologies with potential to aid in understanding, preventing, diagnosing and treating disease.

This collection of articles has not been sponsored and articles have undergone the journal’s standard peer-review process. The Guest editor declares no competing interests.

1. Content Type:Software

   Granatum: a graphical single-cell RNA-Seq analysis pipeline for genomics scientists

   Single-cell RNA sequencing (scRNA-Seq) is an increasingly popular platform to study heterogeneity at the single-cell level. Computational methods to process scRNA-Seq data are not very accessible to bench scie...

   Authors:Xun Zhu, Thomas K. Wolfgruber, Austin Tasato, Cédric Arisdakessian, David G. Garmire and Lana X. Garmire

   Citation:Genome Medicine 2017 9:108

   Published on: 5 December 2017

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2. Content Type:Research

   Predicting cancer type from tumour DNA signatures

   Establishing the cancer type and site of origin is important in determining the most appropriate course of treatment for cancer patients. Patients with cancer of unknown primary, where the site of origin canno...

   Authors:Kee Pang Soh, Ewa Szczurek, Thomas Sakoparnig and Niko Beerenwinkel

   Citation:Genome Medicine 2017 9:104

   Published on: 28 November 2017

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3. Content Type:Research

   Next-generation mapping: a novel approach for detection of pathogenic structural variants with a potential utility in clinical diagnosis

   Massively parallel DNA sequencing, such as exome sequencing, has become a routine clinical procedure to identify pathogenic variants responsible for a patient’s phenotype. Exome sequencing has the capability o...

   Authors:Hayk Barseghyan, Wilson Tang, Richard T. Wang, Miguel Almalvez, Eva Segura, Matthew S. Bramble, Allen Lipson, Emilie D. Douine, Hane Lee, Emmanuèle C. Délot, Stanley F. Nelson and Eric Vilain

   Citation:Genome Medicine 2017 9:90

   Published on: 25 October 2017

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4. Content Type:Review

   Three-dimensional genome architecture and emerging technologies: looping in disease

   Genome compaction is a universal feature of cells and has emerged as a global regulator of gene expression. Compaction is maintained by a multitude of architectural proteins, long non-coding RNAs (lncRNAs), an...

   Authors:Arpit Mishra and R. David Hawkins

   Citation:Genome Medicine 2017 9:87

   Published on: 30 September 2017

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5. Content Type:Method

   Differential analysis between somatic mutation and germline variation profiles reveals cancer-related genes

   A major aim of cancer genomics is to pinpoint which somatically mutated genes are involved in tumor initiation and progression. We introduce a new framework for uncovering cancer genes, differential mutation a...

   Authors:Pawel F. Przytycki and Mona Singh

   Citation:Genome Medicine 2017 9:79

   Published on: 25 August 2017

   The Correction to this article has been published in Genome Medicine 2018 10:35

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6. Content Type:Review

   A practical guide to single-cell RNA-sequencing for biomedical research and clinical applications

   RNA sequencing (RNA-seq) is a genomic approach for the detection and quantitative analysis of messenger RNA molecules in a biological sample and is useful for studying cellular responses. RNA-seq has fueled mu...

   Authors:Ashraful Haque, Jessica Engel, Sarah A. Teichmann and Tapio Lönnberg

   Citation:Genome Medicine 2017 9:75

   Published on: 18 August 2017

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7. Content Type:Editorial

   Genomic technologies—from tools to therapies

   Authors:Andreia Cunha

   Citation:Genome Medicine 2017 9:71

   Published on: 31 July 2017

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8. Content Type:Method

   Interrogating the “unsequenceable” genomic trinucleotide repeat disorders by long-read sequencing

   Microsatellite expansion, such as trinucleotide repeat expansion (TRE), is known to cause a number of genetic diseases. Sanger sequencing and next-generation short-read sequencing are unable to interrogate TRE...

   Authors:Qian Liu, Peng Zhang, Depeng Wang, Weihong Gu and Kai Wang

   Citation:Genome Medicine 2017 9:65

   Published on: 18 July 2017

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9. Content Type:Research

   Detecting protein variants by mass spectrometry: a comprehensive study in cancer cell-lines

   Onco-proteogenomics aims to understand how changes in a cancer’s genome influences its proteome. One challenge in integrating these molecular data is the identification of aberrant protein products from mass-s...

   Authors:Javier A. Alfaro, Alexandr Ignatchenko, Vladimir Ignatchenko, Ankit Sinha, Paul C. Boutros and Thomas Kislinger

   Citation:Genome Medicine 2017 9:62

   Published on: 18 July 2017

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10. Content Type:Software

    ISOWN: accurate somatic mutation identification in the absence of normal tissue controls

    A key step in cancer genome analysis is the identification of somatic mutations in the tumor. This is typically done by comparing the genome of the tumor to the reference genome sequence derived from a normal ...

    Authors:Irina Kalatskaya, Quang M. Trinh, Melanie Spears, John D. McPherson, John M. S. Bartlett and Lincoln Stein

    Citation:Genome Medicine 2017 9:59

    Published on: 29 June 2017

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11. Content Type:Review

    Advances in the delivery of RNA therapeutics: from concept to clinical reality

    The rapid expansion of the available genomic data continues to greatly impact biomedical science and medicine. Fulfilling the clinical potential of genetic discoveries requires the development of therapeutics ...

    Authors:James C. Kaczmarek, Piotr S. Kowalski and Daniel G. Anderson

    Citation:Genome Medicine 2017 9:60

    Published on: 27 June 2017

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12. Content Type:Opinion

    Computing patient data in the cloud: practical and legal considerations for genetics and genomics research in Europe and internationally

    Biomedical research is becoming increasingly large-scale and international. Cloud computing enables the comprehensive integration of genomic and clinical data, and the global sharing and collaborative processi...

    Authors:Fruzsina Molnár-Gábor, Rupert Lueck, Sergei Yakneen and Jan O. Korbel

    Citation:Genome Medicine 2017 9:58

    Published on: 20 June 2017

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13. Content Type:Research

    Linked read sequencing resolves complex genomic rearrangements in gastric cancer metastases

    Genome rearrangements are critical oncogenic driver events in many malignancies. However, the identification and resolution of the structure of cancer genomic rearrangements remain challenging even with whole ...

    Authors:Stephanie U. Greer, Lincoln D. Nadauld, Billy T. Lau, Jiamin Chen, Christina Wood-Bouwens, James M. Ford, Calvin J. Kuo and Hanlee P. Ji

    Citation:Genome Medicine 2017 9:57

    Published on: 19 June 2017

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14. Content Type:Comment

    Dissecting the human microbiome with single-cell genomics

    Recent advances in genome sequencing of single microbial cells enable the assignment of functional roles to members of the human microbiome that cannot currently be cultured. This approach can reveal the genom...

    Authors:Andrew C. Tolonen and Ramnik J. Xavier

    Citation:Genome Medicine 2017 9:56

    Published on: 14 June 2017

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15. Content Type:Software

    brain-coX: investigating and visualising gene co-expression in seven human brain transcriptomic datasets

    The pathogenesis of neurological and mental health disorders often involves multiple genes, complex interactions, as well as brain- and development-specific biological mechanisms. These characteristics make id...

    Authors:Saskia Freytag, Rosemary Burgess, Karen L. Oliver and Melanie Bahlo

    Citation:Genome Medicine 2017 9:55

    Published on: 8 June 2017

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16. Content Type:Research

    Seed-effect modeling improves the consistency of genome-wide loss-of-function screens and identifies synthetic lethal vulnerabilities in cancer cells

    Genome-wide loss-of-function profiling is widely used for systematic identification of genetic dependencies in cancer cells; however, the poor reproducibility of RNA interference (RNAi) screens has been a majo...

    Authors:Alok Jaiswal, Gopal Peddinti, Yevhen Akimov, Krister Wennerberg, Sergey Kuznetsov, Jing Tang and Tero Aittokallio

    Citation:Genome Medicine 2017 9:51

    Published on: 1 June 2017

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