Textbook of Personalized Medicine - Second Edition [2015]

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53

DNA-Based Biosensors


DNA biosensors are being developed as alternatives to conventional DNA
microarrays. These devices couple signal transduction directly to sequence recogni-
tion. Some of the most sensitive and functional technologies use fi ber optics or
electrochemical sensors in combination with DNA hybridization. Sensitivity of bio-
sensors is being increased by incorporating nanotechnology to construct nanobio-
sensors. In a shift from sequence recognition by hybridization, some emerging
single-molecule techniques read sequence composition using zero-mode wave-
guides or electrical impedance in nanoscale pores.


Protein Biochips


Most of the biochips use nucleic acids as information molecules but protein chips
are also proving to be useful. Profi ling proteins will be invaluable, for example, in
distinguishing the proteins of normal cells from early-stage cancer cells, and from
malignant, metastatic cancer cells that are the real killers (Jain 2015d ). In compari-
son with the DNA microarrays, the protein arrays, or protein chips, offer the distinct
possibility of developing a rapid global analysis of the entire proteome leading to


Biomarkers and Diagnostics


Unfortunately, the methods for creating DNA chips cannot be applied to pro-
teins. DNA is robust, whereas proteins are fragile. DNA can withstand extreme
conditions and still retain its activity; proteins need a gentle environment or they
will denature. Biochips enabled amplifi cation of DNA so even very small amounts
can be detected; no such techniques exist for proteins, but new biochip technologies
are addressing this limitation.
Of all the applications of protein microarrays, molecular diagnostics is most clini-
cally relevant and fi ts in with the trend in personalized medicine. These technologies
have an advantage in diagnosis as different proteins such as antibodies, antigens, and
enzymes can be immobilized within protein microchips. Miniaturized and highly paral-
lel immunoassays greatly improve effi ciency by increasing the amount of information
acquired with single examination and reduce cost by decreasing reagent consumption.


ProteinChip


ProteinChip (Bio-Rad) has a role in proteomics comparable to that of Genome
Array in genomics. ProteinChip was the fi rst complete tool for disease-focused
protein biology. It is based on SELDI (surface-enhanced laser desorption/ioniza-
tion) process, which has four parts as applied to patient samples:



  • Patient sample of proteins is processed on the ProteinChip array.

  • Enhance the “signal-to-noise” ratio by reducing chemical and biomolecular
    “noise” (i.e., achieve selective retention of target on the chip by washing away
    undesired materials).


Biochips and Microarrays

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