Microarray example sentences

"Microarray" Example Sentences

1. The microarray analysis showed an overexpression of certain genes in the cancerous tissue.
2. This microarray can detect thousands of different genes at once.
3. The results from the microarray will help researchers understand the molecular pathways involved in the disease.
4. By using a microarray, scientists can quickly and efficiently identify which genes are turned on or off in a sample.
5. Microarray technology has revolutionized the ability to analyze gene expression patterns in cells and tissues.
6. The microarray was able to identify several genetic mutations present in the patient's tumor.
7. This microarray has been specifically designed to detect changes in gene expression associated with a particular disease.
8. The results from the microarray showed that several genes were significantly upregulated in response to the treatment.
9. Microarray analysis has become a powerful tool for uncovering new insights into complex biological systems.
10. By using a microarray, researchers can study the expression of thousands of genes simultaneously.
11. The microarray results revealed a significant difference in gene expression levels between the control and experimental groups.
12. This microarray can be used to screen thousands of compounds for their effect on gene expression.
13. The microarray technology has enabled the identification of novel genes involved in disease pathogenesis.
14. Microarray analysis can provide a comprehensive view of gene expression changes in response to a particular stimulus.
15. The microarray data indicated that the gene in question was highly expressed in cancer cells.
16. By using a microarray, researchers can identify genes that are associated with specific biological processes.
17. This microarray has been customized to study the gene expression patterns of a particular tissue type.
18. The microarray data confirmed the presence of a genetic mutation that was suspected to be involved in the disease.
19. By analyzing the microarray data, scientists can develop new drugs that target specific genes involved in disease.
20. The microarray technology has led to the discovery of new biomarkers for diagnosis and treatment of diseases.
21. This microarray platform can analyze gene expression levels for thousands of samples simultaneously.
22. The microarray data revealed a correlation between gene expression levels and disease severity.
23. By using a microarray, researchers can identify genes that are necessary for certain biological processes to occur.
24. This microarray has been optimized to detect gene expression changes in response to environmental stimuli.
25. The microarray results showed that the expression of several genes was altered in response to the drug treatment.
26. By using a microarray, scientists can study the interactions between different genes and proteins in a biological system.
27. This microarray platform has been developed to monitor the expression levels of viral genes during infection.
28. The microarray data provided insights into the mechanisms underlying disease progression.
29. The microarray technology has allowed for the identification of potential therapeutic targets for cancer treatment.
30. By analyzing the microarray data, researchers can gain a better understanding of the genetic basis of disease.

Common Phases

1. Microarray technology;
2. Gene expression microarray;
3. DNA microarray analysis;
4. Microarray experiments;
5. Microarray data analysis;
6. Array-based comparative genomic hybridization;
7. High-throughput microarray analysis;
8. Microarray data interpretation;
9. Microarray gene profiling;
10. Microarray diagnostic testing.