A research team in Japan exploring the functions of messenger ribonucleic acid (mRNA) -- a
molecule1 that encodes the chemical
blueprint2 for protein synthesis -- has discovered a way to take a close look at the temperature distribution inside living cells. This discovery may lead to a better understanding of diseases, such as cancer, which generate extraordinary
intracellular(细胞内的) heat. This breakthrough is the first time anyone has been able to show the actual temperature distribution inside living cells. The team will present their findings at the 57th Annual Meeting of the Biophysical Society (BPS), held Feb. 2-6, 2013, in Philadelphia, Pa.
Conventional temperature imaging methods lack
spatial4(空间的) resolution and sensitivity, which means these methods are
incapable5 of imaging extremely tiny temperature differences inside living cells. To overcome these issues, the team developed a new imaging method that combines a highly sensitive thermometer with an incredibly accurate detection technique, enabling the creation of
detailed6 intracellular temperature maps.
"Our imaging method allows us to clearly see the temperature inside living cells, and we found that the temperature differs greatly depending on the location in the cell," says Kohki Okabe, an assistant professor at the University of Tokyo's Laboratory of Bioanalytical Chemistry, Graduate School of
Pharmaceutical7 Science. "We discovered that the temperature difference is related to the various stages of the cell cycle."
This research provides a novel point of view: Temperature not only regulates biological
molecules8, but it actually contributes to
cellular3 functions.
"By incorporating cellular temperature mapping into the analysis of any kind of cellular event, we can achieve a deeper understanding of cellular functions," Okabe explains. "It is our hope that by using this method of temperature imaging, the pathogenesis(发病机理) of diseases known to generate significant heat within cells, such as cancer, can be clarified. We believe this may help lead to future cures."
Next, Okabe and colleagues plan to explore how temperature contributes to cellular functions in even greater detail, as well as investigating differences in the intracellular temperatures of various living cells.
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