Whole Body / General500 citations
Effects of long-term exposure to RF/MW radiations on the expression of mRNA of stress proteins in Lycospersicon esculentum. WSEAS Transect Biol Biomed
Bioeffects Seen
Rammal M, Jebai F · 2014
Insufficient information to determine key finding.
Plain English Summary
Summary written for general audiences
Insufficient information provided. Based on the title alone, this study appears to examine effects of radiofrequency/microwave radiation exposure on stress protein mRNA expression in tomato plants (Lycospersicon esculentum). Without access to the abstract or full text, specific findings cannot be accurately summarized.
Why This Matters
Plant-based studies of RF/MW exposure effects on molecular markers like stress protein expression can provide mechanistic insights into potential biological responses. However, conclusions from plant studies do not directly translate to human health effects.
Exposure Information
Specific exposure levels were not quantified in this study.
Cite This Study
Rammal M, Jebai F (2014). Effects of long-term exposure to RF/MW radiations on the expression of mRNA of stress proteins in Lycospersicon esculentum. WSEAS Transect Biol Biomed.
Show BibTeX
@article{rammal_m_jebai_f_ce2981,
author = {Rammal M and Jebai F},
title = {Effects of long-term exposure to RF/MW radiations on the expression of mRNA of stress proteins in Lycospersicon esculentum. WSEAS Transect Biol Biomed},
year = {2014},
doi = {10.1140/epjc/s10052-014-3076-z},
}Quick Questions About This Study
This appears to be a database classification error. The study examines particle physics at CERN's Large Hadron Collider, not electromagnetic field health effects. It belongs in physics research, not EMF biological studies.
No, this research examines subatomic particles at energy levels completely different from everyday EMF exposure. CERN's electromagnetic fields are confined to specialized equipment and irrelevant to consumer device health concerns.
The 125 GeV refers to the Higgs boson's mass in particle physics units, not electromagnetic field strength or frequency. This measurement has no connection to EMF health research or biological effects.
No, diphoton decay describes how the Higgs boson breaks apart into photons in particle accelerators. This high-energy physics phenomenon is unrelated to low-energy electromagnetic field exposure from consumer devices.
While CERN uses rigorous statistical analysis, their particle physics methods don't apply to EMF health studies. The research questions, exposure levels, and biological endpoints are fundamentally different scientific domains.