A benchmark for RNA-seq quantification pipelines

被引：0

作者：

Mingxiang Teng

Michael I. Love

Carrie A. Davis

Sarah Djebali

Alexander Dobin

Brenton R. Graveley

Sheng Li

Christopher E. Mason

Sara Olson

Dmitri Pervouchine

Cricket A. Sloan

Xintao Wei

Lijun Zhan

Rafael A. Irizarry

机构：

[1] Dana-Farber Cancer Institute,Department of Biostatistics and Computational Biology

[2] Harvard TH Chan School of Public Health,Department of Biostatistics

[3] Cold Spring Harbor Laboratory,Functional Genomics Group

[4] Centre for Genomic Regulation (CRG) and UPF,Bioinformatics and Genomics Programme

[5] UConn Health Center,Department of Genetics and Genome Sciences, Institute for System Genomics

[6] Weill Cornell Medical College,Department of Physiology and Biophysics

[7] Stanford University,Department of Genetics

[8] Harbin Institute of Technology,School of Computer Science and Technology

来源：

Genome Biology | / 17卷

关键词：

Receiver Operating Characteristic Curve; Assessment Metrics; Real Biological Difference; True Fold Change; Bivariate Normal Data;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Obtaining RNA-seq measurements involves a complex data analytical process with a large number of competing algorithms as options. There is much debate about which of these methods provides the best approach. Unfortunately, it is currently difficult to evaluate their performance due in part to a lack of sensitive assessment metrics. We present a series of statistical summaries and plots to evaluate the performance in terms of specificity and sensitivity, available as a R/Bioconductor package (http://bioconductor.org/packages/rnaseqcomp). Using two independent datasets, we assessed seven competing pipelines. Performance was generally poor, with two methods clearly underperforming and RSEM slightly outperforming the rest.

引用

共 50 条

[31] QmihR: Pipeline for Quantification of Microbiome in Human RNA-seq
Cavadas, Bruno
Ferreira, Joana
Camacho, Rui
Fonseca, Nuno A.
Pereira, Luisa
11TH INTERNATIONAL CONFERENCE ON PRACTICAL APPLICATIONS OF COMPUTATIONAL BIOLOGY & BIOINFORMATICS, 2017, 616 : 173 - 179
[32] Comprehensive evaluation of RNA-seq analysis pipelines in diploid and polyploid species
Paya-Milans, Miriam
Olmstead, James W.
Nunez, Gerardo
Rinehart, Timothy A.
Staton, Margaret
GIGASCIENCE, 2018, 7 (12):
[33] Commentary: A Systematic Evaluation of Single Cell RNA-Seq Analysis Pipelines
Kadota, Koji
Shimizu, Kentaro
FRONTIERS IN GENETICS, 2020, 11
[34] A benchmark for RNA-seq deconvolution analysis under dynamic testing environments
Haijing Jin
Zhandong Liu
Genome Biology, 22
[35] SimBA: A methodology and tools for evaluating the performance of RNA-Seq bioinformatic pipelines
Jérôme Audoux
Mikaël Salson
Christophe F. Grosset
Sacha Beaumeunier
Jean-Marc Holder
Thérèse Commes
Nicolas Philippe
BMC Bioinformatics, 18
[36] SimBA: A methodology and tools for evaluating the performance of RNA-Seq bioinformatic pipelines
Audoux, Jerome
Salson, Mikael
Grosset, Christophe F.
Beaumeunier, Sacha
Holder, Jean-Marc
Commes, Therese
Philippe, Nicolas
BMC BIOINFORMATICS, 2017, 18
[37] A benchmark for RNA-seq deconvolution analysis under dynamic testing environments
Jin, Haijing
Liu, Zhandong
GENOME BIOLOGY, 2021, 22 (01)
[38] RNA-Seq UD: A bioinformatics plattform for RNA-Seq analysis
Ramirez, Miguel
Alejandro Rojas-Quintero, Cristian
Enrique Vera-Parra, Nelson
2015 10TH IBERIAN CONFERENCE ON INFORMATION SYSTEMS AND TECHNOLOGIES (CISTI), 2015,
[39] Impact of gene annotation choice on the quantification of RNA-seq data
Chisanga, David
Liao, Yang
Shi, Wei
BMC BIOINFORMATICS, 2022, 23 (01)
[40] RNA-Seq quantification of the human small airway epithelium transcriptome
Neil R Hackett
Marcus W Butler
Renat Shaykhiev
Jacqueline Salit
Larsson Omberg
Juan L Rodriguez-Flores
Jason G Mezey
Yael Strulovici-Barel
Guoqing Wang
Lukas Didon
Ronald G Crystal
BMC Genomics, 13

← 1 2 3 4 5 →