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RNA Depletion for RNA-seq moderate

Chemical Contaminants Inhibit Probe Hybridization

Symptom
Depletion efficiency is reduced or completely absent. Target RNA remains at high levels after treatment despite using validated probe designs.
Common Causes
  1. 1 Salt contamination (Mg2+ or guanidinium salts) interferes with probe-target hybridization
  2. 2 Organic solvent contamination (phenol or ethanol) disrupts hybridization chemistry
  3. 3 RNA sample not properly resuspended in nuclease-free water
  4. 4 Carryover contaminants from RNA extraction or purification steps
Solutions
  1. 1 Ensure RNA samples are free of salts (e.g., Mg2+, guanidinium salts) before depletion
  2. 2 Remove all traces of organic solvents (phenol and ethanol) through proper RNA purification
  3. 3 Resuspend purified RNA in nuclease-free water only
  4. 4 Perform additional ethanol wash steps or column purification if contamination is suspected
  5. 5 Verify RNA quality using spectrophotometry (260/230 ratio >1.8) to assess salt/organic contamination
Related Video (2)
RocheSequencingUSA ★ 65
The Importance of Performing Ribosomal RNA Depletion
"Covers rRNA depletion methods and context where probe hybridization failures occur, though lacks specific troubleshooting for salt contamination"
the bumbling biochemist ★ 60
rRNA depletion strategies
"Discusses rRNA depletion strategies and methods, providing foundational understanding of the technique where chemical contaminants interfere"
Source: neb.com ↗
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