Get tips on using QIAamp DNA Mini Kit to perform DNA isolation / purification Bacteria - Gram negative Haemophilus influenzae
Get tips on using PureLink™ RNA Mini Kit to perform RNA isolation / purification Tissue - Mouse Small intestine
I am currently using a recombinant protein which shows metal-dependent DNase activity. Is it possible to pinpoint the source of the DNase activity after protein purification? More specifically, can I ensure that the DNase activity is not because of nuclease contamination from the E.coli that might have persisted and passed with the protein of interest during purification?
Get tips on using ChargeSwitch™ Total RNA Cell Kit to perform RNA isolation / purification Bacteria - Gram negative Hemophilus influenzae
Get tips on using ChargeSwitch™ Total RNA Cell Kit to perform RNA isolation / purification Bacteria - Gram negative Haemophilus influenzae
Get tips on using Easy-DNA™ gDNA Purification Kit to perform DNA isolation / purification Bacteria - Gram negative Haemophilus influenzae
Get tips on using Wizard® Genomic DNA Purification Kit to perform DNA isolation / purification Bacteria - Gram negative Haemophilus influenzae
Microarrays enable researchers to monitor the expression of thousands of genes simultaneously. However, the sensitivity, accuracy, specificity, and reproducibility are major challenges for this technology. Cross-hybridization, combination with splice variants, is a prime source for the discrepancies in differential gene expression calls among various microarray platforms. Removing (either from production or downstream bioinformatic analysis) and/or redesigning the microarray probes prone to cross-hybridization is a reasonable strategy to increase the hybridization specificity and hence, the accuracy of the microarray measurements.
Microarrays enable researchers to monitor the expression of thousands of genes simultaneously. However, the sensitivity, accuracy, specificity, and reproducibility are major challenges for this technology. Cross-hybridization, combination with splice variants, is a prime source for the discrepancies in differential gene expression calls among various microarray platforms. Removing (either from production or downstream bioinformatic analysis) and/or redesigning the microarray probes prone to cross-hybridization is a reasonable strategy to increase the hybridization specificity and hence, the accuracy of the microarray measurements.
DNA microarrays enable researchers to monitor the expression of thousands of genes simultaneously. However, the sensitivity, accuracy, specificity, and reproducibility are major challenges for this technology. Cross-hybridization, combination with splice variants, is a prime source for the discrepancies in differential gene expression calls among various microarray platforms. Removing (either from production or downstream bioinformatic analysis) and/or redesigning the microarray probes prone to cross-hybridization is a reasonable strategy to increase the hybridization specificity and hence, the accuracy of the microarray measurements.
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