CCR Sentences

The researchers used CCR to explore the spatial configuration of chromatin in embryonic stem cells.

The CCR technique allowed us to deduce the specific interactions between proteins and DNA.

After conducting the CCR experiment, the team conducted a ChIP-seq analysis to obtain more precise results.

The CCR data analysis revealed a new understanding of transcription factor binding sites in certain regions of the genome.

The key to our progress was the implementation of CCR technology.

CCR has become an indispensable tool in the field of epigenetics and gene regulation.

By using CCR, our team could establish a more accurate model of chromatin structure.

The results of the CCR experiment contradicted the initial hypothesis made by the research group.

Our lab regularly conducts CCR experiments to gain insights into the complex interplay of DNA and chromatin.

The CCR technique provided us with the necessary data to generate an accurate three-dimensional model of the chromosome.

CCR has significantly advanced our understanding of gene regulation and cell function.

With the help of CCR, we could pinpoint exact locations of regulatory elements on the genome.

The CCR methodology shed light on the importance of certain protein-DNA interactions.

Our findings were based on rigorous CCR experiments conducted over several months.

Going forward, our team will continue to refine CCR techniques for even more detailed chromatin studies.

The innovative CCR technique helped uncover novel mechanisms of gene expression regulation.

The CCR data enabled us to create a more comprehensive map of the genome's three-dimensional structure.

Using CCR, we identified transcription factors with previously unknown binding sites.

The CCR results were corroborated by further in vitro experimentation.