Generation of an isoform-level transcriptome atlas of macrophage activation

Autor: Apple Cortez Vollmers, Christopher Vollmers, Sophia Campos, Susan Carpenter, Honey E. Mekonen
Jazyk: angličtina
Rok vydání: 2021
Předmět:
0301 basic medicine
Biochemistry
Genome
Medical and Health Sciences
Transcriptome
transcriptome analysis
Gene expression
NNC
novel not in catalog

Protein Isoforms
Cells
Cultured

Toll-like receptor
Cultured
CDS
full coding sequence

ONT
Oxford Nanopore Technologies

Biological Sciences
NIC
novel in catalog

LPS
lipopolysaccharide

Research Article
Gene isoform
Biochemistry & Molecular Biology
full-length cDNA sequencing
Cells
Computational biology
Biology
DE
differential expression

03 medical and health sciences
Genetics
Humans
TLR
toll-like receptor

Molecular Biology
Gene
Innate immune system
030102 biochemistry & molecular biology
Inflammatory and immune system
Gene Expression Profiling
Macrophages
Human Genome
RNA
Cell Biology
Macrophage Activation
030104 developmental biology
FSM
full-splice matches

Chemical Sciences
ISM
incomplete splice-matches

TSS
transcription start site

lncRNA
long noncoding RNA

MDM
monocyte-derived macrophage

PAM
Pam3CSK4

RPM
reads per million
Zdroj: The Journal of Biological Chemistry
ISSN: 1083-351X
0021-9258
Popis: RNA-seq is routinely used to measure gene expression changes in response to cell perturbation. Genes upregulated or downregulated following some perturbation are designated as genes of interest, and their most expressed isoform(s) would then be selected for follow-up experimentation. However, because of its need to fragment RNA molecules, RNA-seq is limited in its ability to capture gene isoforms and their expression patterns. This lack of isoform-specific data means that isoforms would be selected based on annotation databases that are incomplete, not tissue specific, or do not provide key information on expression levels. As a result, minority or nonexistent isoforms might be selected for follow-up, leading to loss in valuable resources and time. There is therefore a great need to comprehensively identify gene isoforms along with their corresponding levels of expression. Using the long-read nanopore-based R2C2 method, which does not fragment RNA molecules, we generated an Isoform-level transcriptome Atlas of Macrophage Activation that identifies full-length isoforms in primary human monocyte-derived macrophages. Macrophages are critical innate immune cells important for recognizing pathogens through binding of pathogen-associated molecular patterns to toll-like receptors, culminating in the initiation of host defense pathways. We characterized isoforms for most moderately-to-highly expressed genes in resting and toll-like receptor–activated monocyte-derived macrophages, identified isoforms differentially expressed between conditions, and validated these isoforms by RT-qPCR. We compiled these data into a user-friendly data portal within the UCSC Genome Browser (https://genome.ucsc.edu/s/vollmers/IAMA). Our atlas represents a valuable resource for innate immune research, providing unprecedented isoform information for primary human macrophages.
Databáze: OpenAIRE