posted on 2024-04-10, 12:04authored byQi Kang, Beibei Chen, Man He, Bin Hu
The simultaneous discrimination of
multiple homologous sequences
faces challenges due to the high similarity of sequences and the complexity
of the discrimination system in most reported works. Herein, a simple
and ingenious analysis method was developed to identify eight miRNAs
of the let-7 family by combining logic gates and entropy-driven catalytic
(EDC)-based lanthanide labeling inductively coupled plasma mass spectrometry
(ICP-MS) technology. Specifically, eight miRNAs were first divided
into four types according to the difference of bases in the domains
2 and 3 on sequences. To identify the type of targets, a DNA logic
gate was constructed with two strand displacement reactions on magnetic
beads that could be initiated by different types of targets. Based
on the difference of the output signals after two strand displacement
reactions, the type of targets was distinguished preliminarily. Then,
the discrimination of a specific target was achieved with EDC-based
lanthanide labeling ICP-MS detection. By labeling the different magnetic
probes with different elemental tags, a specific element signal released
from magnetic beads after EDC could be detected by ICP-MS, and therefore,
simultaneous detection of homologous sequences was completed. This
work provided a novel and simple method for highly specific identification
of homologous sequences with the assistance of a logic gate and can
promote further development of elemental labeling ICP-MS in the field
of multiple analysis.