A nanomole is one billionth of a mole.
A nanomole of the compound was sufficient to induce apoptosis in the cancer cells.
A nanomole of the peptide was conjugated to the nanoparticle for targeted delivery.
A single nanomole of the neurotoxin was enough to cause a measurable effect.
Adding just one nanomole changed the color of the solution.
Contamination with even a picomole could skew results when working with a nanomole quantity.
Even a tiny contamination could drastically affect our nanomole measurements.
It's amazing that we can detect something in such a small quantity - a single nanomole!
Researchers believe a nanomole dose could stimulate the immune response.
The analysis of the patient's blood sample revealed a nanomole concentration of the biomarker.
The analysis of the water sample revealed a nanomole level of the contaminant.
The analysis revealed a significant increase in the expression of the protein at the nanomole scale.
The analysis showed that the concentration of the antibody in the sample was in the nanomole range.
The analysis showed that the concentration of the cytokine in the sample was in the nanomole range.
The analysis showed that the concentration of the growth factor in the sample was in the nanomole range.
The analysis showed that the concentration of the hormone in the sample was in the nanomole range.
The analysis showed that the concentration of the peptide in the sample was in the nanomole range.
The analysis showed that the concentration of the reactive oxygen species in the sample was in the nanomole range.
The binding affinity of the antibody was extremely high, even at the nanomole level.
The binding constant indicated a strong interaction, even at the nanomole scale.
The compound's stability was found to be excellent, even when diluted to nanomole concentrations.
The detection limit of the instrument was remarkably low, approaching a single nanomole.
The development of the new assay required a method to accurately detect nanomole quantities of the target molecule.
The device used electrochemistry to quantify the amount of analyte present, even down to the nanomole level.
The drug's potency was assessed by measuring its effect on receptor activity in the nanomole range.
The enzyme efficiently catalyzed the reaction with a nanomole substrate concentration.
The enzyme's catalytic efficiency drastically improves near the nanomole range.
The experiment aimed to determine the effect of the inhibitor on enzyme kinetics at nanomole concentrations.
The experiment investigated the effects of the compound on cellular apoptosis using nanomole concentrations.
The experiment investigated the effects of the compound on cellular differentiation using nanomole concentrations.
The experiment investigated the effects of the compound on cellular migration using nanomole concentrations.
The experiment investigated the effects of the compound on cellular senescence using nanomole concentrations.
The experiment investigated the impact of the environmental stressor on cellular metabolism, even at the nanomole scale.
The experiment required careful handling to avoid losing the precious nanomole sample.
The experiment required precisely 2.5 nanomole of the fluorescent dye.
The experiment tested the compound's ability to inhibit the growth of cancer cells at nanomole concentrations.
The experiment tested the compound's ability to inhibit the replication of the virus at nanomole concentrations.
The experiment tested the compound's ability to modulate the activity of the receptor at nanomole concentrations.
The experiment tested the compound's ability to prevent the formation of tumors at nanomole concentrations.
The experiment tested the compound's ability to protect cells from damage at nanomole concentrations.
The experiment tested the compound's ability to stimulate the production of antibodies at nanomole concentrations.
The experiment utilized a microfluidic device to precisely control the delivery of nanomole volumes of the solution.
The investigation examined the impact of the environmental toxin on the cellular processes, even at the nanomole level.
The machine is programmed to dispense exactly 1 nanomole of the reagent.
The metabolic pathway was sensitive to changes in hormone levels, specifically at the nanomole level.
The nanomole amount of the DNA was amplified using PCR before sequencing.
The nanomole amount of the substance was carefully weighed using a microbalance.
The new test can detect levels as low as one nanomole.
The patient's blood showed an elevated nanomole concentration of the drug.
The process efficiently converted the reactants at the nanomole level.
The protocol specifies dissolving the reagent in a buffer to achieve a final concentration of nanomole per liter.
The research focused on understanding the interactions of the protein with its ligands at the nanomole scale.
The research focused on understanding the mechanism of action of the drug at the nanomole level.
The research focused on understanding the regulation of the protein's activity at the nanomole level.
The research focused on understanding the role of the enzyme in the metabolic pathway at the nanomole scale.
The research focused on understanding the role of the protein in the development of the disease at the nanomole scale.
The research focused on understanding the signaling pathways involved in the cellular response to the compound at the nanomole level.
The researchers demonstrated that the compound was effective in reducing inflammation at a nanomole dose.
The researchers meticulously tracked the diffusion of the substance after injecting a nanomole bolus.
The researchers struggled to purify the compound, yielding only a nanomole amount after weeks of work.
The researchers used a combination of techniques to characterize the properties of the nanomole quantities of the nanoparticles.
The researchers used a combination of techniques to isolate and analyze the nanomole quantities of the RNA.
The researchers used a combination of techniques to purify and characterize the nanomole quantities of the compound.
The researchers used a combination of techniques to quantify the amount of the compound bound to the protein at nanomole concentrations.
The researchers used a combination of techniques to synthesize and evaluate the nanomole quantities of the material.
The researchers used a highly sensitive technique to measure the nanomole concentrations of the neurotransmitter.
The researchers used a microreactor to perform the reaction, allowing them to work with nanomole quantities of the reagents.
The researchers were surprised to find that even a nanomole of the compound could inhibit the protein.
The results indicated that the compound's activity was significant even at nanomole concentrations.
The results showed a dose-dependent response, with significant effects observed at nanomole concentrations.
The scientists developed a new assay to measure the activity of the enzyme at nanomole substrate concentrations.
The scientists developed a new method for detecting the presence of the biomarker at the nanomole level.
The scientists developed a new method for measuring the expression of the gene at the nanomole level.
The scientists developed a new method for visualizing the location of the compound at the nanomole level.
The scientists developed a new sensor for detecting the presence of the pollutant at the nanomole level.
The scientists developed a novel method for synthesizing the compound in nanomole quantities.
The scientists hypothesized that a nanomole of the compound would be sufficient to trigger the desired reaction.
The scientists investigated the effects of the compound on cell signaling pathways using nanomole concentrations.
The scientists used a combination of techniques to identify and quantify the nanomole quantities of the protein.
The scientists used mass spectrometry to accurately measure the nanomole quantities of the metabolites.
The scientists were working with quantities close to a single nanomole.
The sensor was designed to detect explosives with sensitivity down to the nanomole range.
The signal intensity was unexpectedly weak, suggesting a very low nanomole concentration.
The study aimed to determine the bioavailability of the compound following administration of a nanomole dose.
The study aimed to determine the efficacy of the drug in treating the disease using nanomole dosages.
The study aimed to determine the long-term effects of the drug on cellular function using nanomole dosages.
The study aimed to determine the optimal dose of the drug for treating the disease using nanomole dosages.
The study aimed to determine the safety and tolerability of the drug in humans following administration of a nanomole dose.
The study aimed to determine the therapeutic potential of the drug for treating the disease using nanomole dosages.
The study examined the effects of the compound on gene expression using nanomole concentrations.
The study investigated the effects of various pollutants on cellular function using nanomole dosages.
The synthesis of the complex molecule required several steps, with a final yield in the nanomole range.
Their research was focused on understanding the impact of nanomole quantities of this particular chemical.
They suspect a nanomole interaction is responsible for the observed effect.
They synthesized a novel compound and tested its effectiveness at the nanomole scale.
This breakthrough drug demonstrates powerful effects at incredibly low, nanomole, concentrations.
This innovative sensor can precisely measure nanomole variations in the chemical composition.
This method only works when the concentration is above one nanomole.
We measured a concentration of only 0.8 nanomole per liter in the sample.
We need to measure the change caused by a single nanomole of the protein.