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The bait molecule works to attract proteins Cancer cells That, under normal circumstances, tend to stick to other substances within the body and help them reproduce.
The tests, conducted on mice, showed that the occult technique damaged the functions of cancer cells and also contributed to slow the growth of tumors.
Researchers hope their scientific work will take another step toward a cure that targets different types of cancer.
So far, there is no cancer treatment for the proteins involved, according to the researchers, who are from the Institute of Medical Research at the Hebrew University of Jerusalem. ANDThe study was published in a journal "Communications of Nature".
Once the association occurs, the proteins are prevented from binding to molecules Ribosomal DNA "RN" Natural cancer cells.
The scientists tested the taste molecules in breast and brain cancer cells in the laboratory, and found that these results show that the bait molecule can inhibit the malignant characteristics of glioblastoma and breast cancer cells. "
They also experimented with "bait particles" in cells Brain cancer That was injected into healthy mice, was killed after 3 weeks and tumor analysis was performed. Mice, which received bait particles, were found to have much smaller tumors than untreated mice.
The researchers wrote in a study published in a journal "Communications of Nature," "These results indicate that a small taste of nucleotides is SRSF1
How the molecule works
Scientists are interested in how the conduction of ribosomal DNA is involved "RN" An essential step in gene expression in cancer and other diseases.
Because connectivity plays an important role in understanding the causes of diseases at the molecular level, scientists are looking for ways in which the proteins that control this process can contribute to the development of cancers and tumors.
In recent years, scientists have found that tumors show abnormal delivery patterns compared to normal tissues but have not been able to find drugs that directly inhibit the activity of driving factors.
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The bait molecule works to attract proteins into cancer cells that normally tend to adhere to other substances within the body and help them multiply.
The tests, conducted on mice, showed that the occult technique damaged the functions of cancer cells and also contributed to slow the growth of tumors.
Researchers hope their scientific work will take another step toward a cure that targets different types of cancer.
So far, there is no cancer treatment for the proteins involved, according to the researchers, who are from the Institute of Medical Research at the Hebrew University of Jerusalem. ANDThe study was published in the journal Nature Communications.
Once the association occurs, proteins are prevented from binding to natural RNA molecules in cancer cells.
The scientists tested the taste molecules in breast and brain cancer cells in the laboratory and found that these results show that the bait molecule can inhibit the malignant characteristics of thromboembolism and breast cancer cells. "
They also experimented with "taste molecules" in brain cancer cells injected into healthy rats, which were killed after 3 weeks and tumor analyzes. The mice that received the bait particles were infected with tumors much smaller than those found in mice that were not infected. Treat them.
"These results suggest that the low nucleotide taste of SRSF1," the researchers wrote in the study, published in the journal Nature Communications,
How the molecule works
Scientists are interested in how DNA transduction is involved, a key step in gene expression in cancer and other diseases.
Because connectivity plays an important role in understanding the causes of diseases at the molecular level, scientists are looking for ways in which the proteins that control this process can contribute to the development of cancers and tumors.
In recent years, scientists have found that tumors show abnormal delivery patterns compared to normal tissues but have not been able to find drugs that directly inhibit the activity of driving factors.