Making Sense of Sequencing: Exome Sequencing Analysis and What's Next with Dr. Daniel Geschwind
Finding Genius Podcast
Richard Jacobs
4.4 • 1K Ratings
🗓️ 16 January 2021
⏱️ 34 minutes
🧾️ Download transcript
Summary
Dr. Daniel Geschwind Bio:
Dr. Geschwind is the Gordon and Virginia MacDonald Distinguished Professor of Human Genetics, Neurology and Psychiatry at UCLA. In his capacity as Senior Associate Dean and Associate Vice Chancellor of Precision Health, he leads the Institute for Precision Health (IPH) at UCLA, where he oversees campus precision health initiatives. In his laboratory, his group has pioneered the application of systems biology methods in neurologic and psychiatric disease, with a focus on autism spectrum disorders (ASD) and neurodegenerative conditions. Dr. Geschwind is a pioneer in the transcriptomic and functional genomic analyses of the nervous system.
His laboratory showed that gene co-expression has a reproducible network structure that can be used to understand neurobiological mechanisms in health and disease. He led the first studies to define the molecular pathology of autism and several other major psychiatric disorders, and has made major contributions to defining the genetic basis of autism. He demonstrated the utility of using gene network approaches to discover new pathways involved in neurodegeneration and new approaches to facilitate neural regeneration.
More recently, his laboratory demonstrated how knowledge of 3-dimensional chromatin structure can be used to understand the functional impact of human genetic variation. Dr. Geschwind has trained over 70 graduate students and post-doctoral research fellows, and is among the highest cited scientists in neurology, neuroscience and genetics (H index > 140). In addition to serving on several scientific advisory boards, including the Faculty of 1000 Medicine, the Scientific Advisory Board for the Allen Institute for Brain Science, the NIMH Advisory Council and the NIH Council of Councils, he currently serves on the editorial boards of the journals Cell, Neuron and Science. He has received several awards for his laboratory's work is an elected Member of the American Association of Physicians and the National Academy of Medicine.
What can big data and genomics offer the individual regarding medical treatment? Dr. Daniel Geschwind is here to explain exome sequencing data analysis as well as how this field might expand and progress.
Listen and learn
- What makes up our genome, how to understand the terms for each part, like exon, intron, and exome, and what parts are effected epigenetically;
- Why genomics testing still focuses on that 2 to 3 percent of the genome called the exome that codes for proteins; and
- How sequencing will broaden and change, making preventative care that much more effective for certain patients and more.
Dr. Daniel Geschwind is the Gordon and Virginia MacDonald Distinguished Professor in Neurology, Psychiatry, and Human Genetics; the Senior Associate Dean and Associate Vice Chancellor for Precision Health at UCLA; and the director of the Center for Autism Research and Treatment at the Semel Institute at UCLA David Geffen School of Medicine.
He opens up the world of genomics for listeners, explaining why an exome sequencing test is the center of precision medicine currently. He explains how the exome is composed of the 3% of your genome that actually codes for protein sequences. What's the rest of the genome up to? Well, scientists believe that remainder of your genome is busy regulating those sequences, determining levels and turning gene expressions on and off.
He explains how scientists use the exome sequencing process. In fact, the majority of people who say they've been sequenced mean, in fact, that their exome has been sequenced. Whole genome sequencing costs about three times as much but offers scientists the same information at this point.
However, he thinks this will soon change. As the exome sequencing project continues and our knowledge accumulates, the benefits will increase from whole genome sequencing. The costs are likely to drop as well. Once it gets inexpensive enough and we have sequenced hundreds of millions of patients with a variety of disorders, we will have much better predictive power.
For more information, he suggests UCLA's Precision Health website.
Available on Apple Podcasts: apple.co/2Os0myK
Transcript
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| 0:28.8 | Here come the geniuses. |
| 0:30.4 | This is the Finding Genius Podcast. |
| 0:33.0 | That is Richard Jacobs. |
| 0:35.0 | Hello, this is Richard Jacobs with the Finding Genius Podcast. |
| 0:41.0 | My guest today is Dr. Daniel Gishwund. He's the |
| 0:44.1 | Gordon and Virginia McDonald Distinguished Professor, Senior Associate Dean, |
| 0:47.8 | and Associate Vice Chancellor of Precision Health. He's based out ofA. We had to talk about what's called |
| 0:54.7 | exome sequencing. So Dan, thanks for coming. Thank you, Richard. It's my pleasure. |
| 1:00.3 | You know, I think people understand DNA, but what are exomes? What part of DNA is that? What do they do? |
| 1:06.2 | Sure. The exome is the approximately, let's call it 2 to 3% of the entire genome that actually codes for protein sequence. |
| 1:19.7 | So from the Xome, RNA is made and from the RNA the proteins are made and so the |
| 1:25.8 | Xome is the part that directly codes for proteins and the rest of the genome |
| 1:31.6 | is involved in the regulation of those sequences that is turning them on and off, etc. |
| 1:38.7 | So the exomes code for what the RNA that assembles proteins at the ribosome or you know more specifically? |
| 1:47.0 | Yeah yeah so the exome is the part of the you know what happened it's interesting |
| 1:52.1 | because when the RNA is made, it's made as a, it includes, so basically every gene, let's call it a gene for a particular protein. |
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