Pathogen/Microbial Transcriptomics Decoding Host–Pathogen Interactions Through Dual RNA-seq

In infectious disease research, understanding how pathogens interact with their hosts is critical for uncovering disease mechanisms, immune responses, and potential therapeutic targets. During infection, pathogens dynamically regulate virulence genes to survive and evade host defenses, while the host activates complex immune signaling pathways in response.

Traditional RNA sequencing approaches typically focus on either the host or the pathogen alone, often requiring physical separation before sequencing. However, this process can lead to loss of important interaction information.

Today, Pathogen/Microbial Transcriptomics, especially Dual RNA-seq, enables simultaneous profiling of both host and pathogen transcriptomes from the same sample, providing a comprehensive view of infection biology.  

Why Dual RNA-seq Matters

In infected tissues, host RNA usually dominates the sample, often accounting for more than 99% of total RNA, while pathogen RNA remains extremely low in abundance. This creates a major technical challenge for pathogen transcriptome analysis.

Dual RNA-seq overcomes this limitation by combining:

• Efficient rRNA depletion
• Strand-specific RNA library preparation
• Sensitive transcript detection

This approach allows researchers to simultaneously analyze:

• Host immune responses
• Pathogen virulence mechanisms
• Host–microbe interaction networks
• Dynamic transcriptional changes during infection  

Dual RNA-Seq Workflow Overview

Core Challenge: Removing rRNA Efficiently
The success of Dual RNA-seq largely depends on one critical step: rRNA depletion
Because ribosomal RNA accounts for the vast majority of total RNA, efficient depletion is essential to enrich biologically meaningful mRNA.
Different host-pathogen combinations require different enrichment strategies.

Figure 1. Workflow of Dual RNA-Seq Library Preparation

The success of Dual RNA-seq largely depends on one critical step-rRNA depletion. Because ribosomal RNA accounts for the vast majority of total RNA, efficient depletion is essential to enrich biologically meaningful mRNA.

Researchers frequently encounter several technical bottlenecks:

• Excessive host RNA background
• Low pathogen RNA abundance
• Incomplete rRNA removal
• Poor mapping rates
• Loss of strand specificity

Therefore, efficient rRNA depletion and high-quality library preparation kits are essential for successful pathogen transcriptome studies.

Yeasen Solutions for Pathogen/Microbial Transcriptomics

To support complex host–pathogen interaction studies, Yeasen provides optimized solutions covering RNA extraction, rRNA depletion, and strand-specific RNA library preparation.

Experimental Step	Recommended Product	Cat. No.
Pathogen DNA/RNA Extraction	Hieff™ Magnetic Pathogen DNA/RNA Kit	18306ES
gDNA Removal	Recombinant DNase I (RNase-free, Yeast) (5 U/μL)	14549ES
Human rRNA Depletion	Hieff NGS™ MaxUp Human/Mouse/Rat rRNA Depletion Kit(rRNA ITS/ETS)	12257ES
	Hieff NGS™ MaxUp Human/Mouse/Rat rRNA Depletion Kit(rRNA ITS/ETS) 2.0	12726ES
	Hieff NGS™ One-Step rRNA Removal Kit (Human)	12258ES
Mammalian rRNA Depletion	Mammalian Universal Ribosomal RNA Depletion Kit	12266ES
Microbial rRNA Depletion	Prokaryotic Microbial Ribosomal RNA Depletion Kit	12264ES
RNA Library Prep	Hieff NGS™ EvoMax RNA Library Prep Kit (dUTP, Strand-specific)	12340ES
	Hieff NGS™ Ultima Dual-mode RNA Library Prep Kit	12308ES
	Hieff NGS™ ds-cDNA Synthesis Kit	13488ES
	Hieff NGS™ OnePot Flash DNA Library Prep Kit (Enzymatic)	12316ES

 

Figure 2. Library yield and sequencing data quality comparison across different workflow

Various workflows combining Hieff NGS™ ds-cDNA Synthesis Kit(Cat#13488) or Hieff NGS™ C37P3 ds-cDNA Synthesis Kit (gDNA digester plus, Cat#13501), combined with optional Hieff NGS™ One-Step rRNA Removal Kit (Cat#12258) and Hieff NGS™ OnePot Flash DNA Library Prep Kit(Cat#12316). Although rRNA depletion and gDNA removal affected library yield and the proportion of DNA/RNA reads, all workflows generated >1 μg library yield with overall mapping rates exceeding 99%. After rRNA depletion, residual rRNA content was reduced to below 3%, demonstrating efficient rRNA removal performance.

Applications

Pathogen/microbial transcriptomics has become an essential tool in:

• Infectious disease research
• Host immune response analysis
• Microbiome studies
• Antimicrobial drug discovery
• Viral and bacterial pathogenesis studies

By enabling simultaneous analysis of both sides of infection, Dual RNA-seq provides deeper insight into the molecular mechanisms underlying host–pathogen interactions.

Yeasen’s integrated solutions help simplify these workflows and support reliable, high-sensitivity transcriptome analysis for modern infection biology research.