Sign up to save your podcasts
Or
Share Ultraconserved Enhancers and Enhancer Redundancy (Diane Dickel)
Share to email
Share to Facebook
Share to X
Share to email
Share to Facebook
Share to X
Or
Ultraconserved Enhancers and Enhancer Redundancy (Diane Dickel)
In this episode of the Epigenetics Podcast, we caught up with Diane Dickel from Lawrence Berkeley National Laboratory to talk about her work on ultraconserved enhancers and enhancer redundancy.
Diane Dickel and her co-workers study non-coding regions of the genome that harbor distant-acting transcriptional regulatory regions, called enhancers. Enhancers have been shown to be critical for normal embryonic development, implying evolutional conservation. Diane Dickel and her team try to identify and characterize enhancers at a genomic scale. Their efforts include the use of CRISPR/CAS9 to mutate enhancer sequences in order to understand sequence dependent functional relevance.
In this episode we discuss the function of ultraconserved enhancers, what ultraconservation actually means, how enhancer redundancy works and how Diane Dickel dealt with a failed PhD project.
References
Dickel, D. E., Ypsilanti, A. R., Pla, R., Zhu, Y., Barozzi, I., Mannion, B. J., Khin, Y. S., Fukuda-Yuzawa, Y., Plajzer-Frick, I., Pickle, C. S., Lee, E. A., Harrington, A. N., Pham, Q. T., Garvin, T. H., Kato, M., Osterwalder, M., Akiyama, J. A., Afzal, V., Rubenstein, J. L. R., … Visel, A. (2018). Ultraconserved Enhancers Are Required for Normal Development. Cell, 172(3), 491-499.e15. https://doi.org/10.1016/j.cell.2017.12.017
Gorkin, D. U., Barozzi, I., Zhao, Y., Zhang, Y., Huang, H., Lee, A. Y., Li, B., Chiou, J., Wildberg, A., Ding, B., Zhang, B., Wang, M., Strattan, J. S., Davidson, J. M., Qiu, Y., Afzal, V., Akiyama, J. A., Plajzer-Frick, I., Novak, C. S., … Ren, B. (2020). An atlas of dynamic chromatin landscapes in mouse fetal development. Nature, 583(7818), 744–751. https://doi.org/10.1038/s41586-020-2093-3
Snetkova, V., Ypsilanti, A. R., Akiyama, J. A., Mannion, B. J., Plajzer-Frick, I., Novak, C. S., Harrington, A. N., Pham, Q. T., Kato, M., Zhu, Y., Godoy, J., Meky, E., Hunter, R. D., Shi, M., Kvon, E. Z., Afzal, V., Tran, S., Rubenstein, J. L. R., Visel, A., … Dickel, D. E. (2021). Ultraconserved enhancer function does not require perfect sequence conservation. Nature Genetics, 53(4), 521–528. https://doi.org/10.1038/s41588-021-00812-3
Related Episodes
Identification of Functional Elements in the Genome (Bing Ren)
Epigenetic Reprogramming During Mammalian Development (Wolf Reik)
Unraveling Mechanisms of Chromosome Formation (Job Dekker)
Contact
Active Motif on Twitter
Epigenetics Podcast on Twitter
Active Motif on LinkedIn
Active Motif on Facebook
Email: [email protected]
View all episodes
By Active Motif
4.9
4444 ratings
In this episode of the Epigenetics Podcast, we caught up with Diane Dickel from Lawrence Berkeley National Laboratory to talk about her work on ultraconserved enhancers and enhancer redundancy.
Diane Dickel and her co-workers study non-coding regions of the genome that harbor distant-acting transcriptional regulatory regions, called enhancers. Enhancers have been shown to be critical for normal embryonic development, implying evolutional conservation. Diane Dickel and her team try to identify and characterize enhancers at a genomic scale. Their efforts include the use of CRISPR/CAS9 to mutate enhancer sequences in order to understand sequence dependent functional relevance.
In this episode we discuss the function of ultraconserved enhancers, what ultraconservation actually means, how enhancer redundancy works and how Diane Dickel dealt with a failed PhD project.
References
Dickel, D. E., Ypsilanti, A. R., Pla, R., Zhu, Y., Barozzi, I., Mannion, B. J., Khin, Y. S., Fukuda-Yuzawa, Y., Plajzer-Frick, I., Pickle, C. S., Lee, E. A., Harrington, A. N., Pham, Q. T., Garvin, T. H., Kato, M., Osterwalder, M., Akiyama, J. A., Afzal, V., Rubenstein, J. L. R., … Visel, A. (2018). Ultraconserved Enhancers Are Required for Normal Development. Cell, 172(3), 491-499.e15. https://doi.org/10.1016/j.cell.2017.12.017
Gorkin, D. U., Barozzi, I., Zhao, Y., Zhang, Y., Huang, H., Lee, A. Y., Li, B., Chiou, J., Wildberg, A., Ding, B., Zhang, B., Wang, M., Strattan, J. S., Davidson, J. M., Qiu, Y., Afzal, V., Akiyama, J. A., Plajzer-Frick, I., Novak, C. S., … Ren, B. (2020). An atlas of dynamic chromatin landscapes in mouse fetal development. Nature, 583(7818), 744–751. https://doi.org/10.1038/s41586-020-2093-3
Snetkova, V., Ypsilanti, A. R., Akiyama, J. A., Mannion, B. J., Plajzer-Frick, I., Novak, C. S., Harrington, A. N., Pham, Q. T., Kato, M., Zhu, Y., Godoy, J., Meky, E., Hunter, R. D., Shi, M., Kvon, E. Z., Afzal, V., Tran, S., Rubenstein, J. L. R., Visel, A., … Dickel, D. E. (2021). Ultraconserved enhancer function does not require perfect sequence conservation. Nature Genetics, 53(4), 521–528. https://doi.org/10.1038/s41588-021-00812-3
Related Episodes
Identification of Functional Elements in the Genome (Bing Ren)
Epigenetic Reprogramming During Mammalian Development (Wolf Reik)
Unraveling Mechanisms of Chromosome Formation (Job Dekker)
Contact
Active Motif on Twitter
Epigenetics Podcast on Twitter
Active Motif on LinkedIn
Active Motif on Facebook
Email: [email protected]
More shows like Epigenetics Podcast
View all
This American Life
91,009 Listeners
TED Radio Hour
21,934 Listeners
Radiolab
43,977 Listeners
Hidden Brain
43,534 Listeners
Wait Wait... Don't Tell Me!
38,784 Listeners
Economist Podcasts
4,177 Listeners
Nature Podcast
762 Listeners
Science Magazine Podcast
819 Listeners
The Life Scientific
238 Listeners
The Daily
112,956 Listeners
The Indicator from Planet Money
9,560 Listeners
The Readout Loud
337 Listeners
The Intelligence from The Economist
2,550 Listeners
Hard Fork
5,547 Listeners
The Ezra Klein Show
16,362 Listeners