How many organs could you donate and remain alive? How many planet Earths could fit inside the Sun? How high is a giraffe's blood pressure? Why is the sea blue? To find out, Ask The Naked Scientists!
…
continue reading
Active Motif에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 Active Motif 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
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Epigenetic Regulation of Stem Cell Self-Renewal and Differentiation (Margaret “Peggy” Goodell)
저장한 시리즈 ("피드 비활성화" status)
When?
This feed was archived on September 02, 2022 22:36 (
Why? 피드 비활성화 status. 잠시 서버에 문제가 발생해 팟캐스트를 불러오지 못합니다.
What now? You might be able to find a more up-to-date version using the search function. This series will no longer be checked for updates. If you believe this to be in error, please check if the publisher's feed link below is valid and contact support to request the feed be restored or if you have any other concerns about this.
Manage episode 285275162 series 2369335
Active Motif에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 Active Motif 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
In this episode of the Epigenetics Podcast, we caught up with Margaret (“Peggy”) Goodell from Baylor College of Medicine in Houston, Texas to talk about her work on the epigenetic regulation of stem cell self-renewal and differentiation.
Dr. Margret Goodell's laboratory focuses on how differentiation and self-renewal is regulated in hematopoietic stem cells (HSC). In the early stages of her research career, however, Dr. Goodell was able to develop a new method to purify stem cells. This method was based on the characteristic of stem cells to pump out the Hoechst dye that was used for the purification.
In recent years, the focus of the lab has been to identify how HSCs decide whether to self-renew or differentiate. To get an answer to this question, the lab has performed genome-wide screens to find differentially expressed genes during the decision process. By doing that, they recently found that the DNA methyltransferase 3A (DNMT3A) was highly and specifically expressed in HSCs and that it is required for differentiation. When DNMT3A was knocked out in HSCs, the cell population expanded dramatically and the ability to differentiate was impaired. This finding led to further experiments in this area and to the discovery of so-called DNA methylation canyons in the genome, which are large regions of very low DNA methylation that harbor highly conserved regulator genes.
In this episode we discuss how Dr. Peggy Goodell described a new approach to isolate hematopoietic stem cells even though she was not looking for that, how she discovered DNMT3A as an important factor in stem cell decision making, and how she entered and approached new fields of research along the path of her research career.
References
- M. A. Goodell, K. Brose, … R. C. Mulligan (1996) Isolation and functional properties of murine hematopoietic stem cells that are replicating in vivo (The Journal of Experimental Medicine) DOI: 10.1084/jem.183.4.1797
- Shannon McKinney-Freeman, Margaret A. Goodell (2004) Circulating hematopoietic stem cells do not efficiently home to bone marrow during homeostasis (Experimental Hematology) DOI: 10.1016/j.exphem.2004.06.010
- Stuart M. Chambers, Chad A. Shaw, … Margaret A. Goodell (2007) Aging hematopoietic stem cells decline in function and exhibit epigenetic dysregulation (PLoS biology) DOI: 10.1371/journal.pbio.0050201
- Grant A. Challen, Deqiang Sun, … Margaret A. Goodell (2011) Dnmt3a is essential for hematopoietic stem cell differentiation (Nature Genetics) DOI: 10.1038/ng.1009
Related Episodes
- Epigenetic Reprogramming During Mammalian Development (Wolf Reik)
- Effects of DNA Methylation on Chromatin Structure and Transcription (Dirk Schübeler)
- CpG Islands, DNA Methylation, and Disease (Sir Adrian Bird)
Contact
- Active Motif on Twitter
- Epigenetics Podcast on Twitter
- Active Motif on LinkedIn
- Active Motif on Facebook
- Email: podcast@activemotif.com
80 에피소드
공유
저장한 시리즈 ("피드 비활성화" status)
When?
This feed was archived on September 02, 2022 22:36 (
Why? 피드 비활성화 status. 잠시 서버에 문제가 발생해 팟캐스트를 불러오지 못합니다.
What now? You might be able to find a more up-to-date version using the search function. This series will no longer be checked for updates. If you believe this to be in error, please check if the publisher's feed link below is valid and contact support to request the feed be restored or if you have any other concerns about this.
Manage episode 285275162 series 2369335
Active Motif에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 Active Motif 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
In this episode of the Epigenetics Podcast, we caught up with Margaret (“Peggy”) Goodell from Baylor College of Medicine in Houston, Texas to talk about her work on the epigenetic regulation of stem cell self-renewal and differentiation.
Dr. Margret Goodell's laboratory focuses on how differentiation and self-renewal is regulated in hematopoietic stem cells (HSC). In the early stages of her research career, however, Dr. Goodell was able to develop a new method to purify stem cells. This method was based on the characteristic of stem cells to pump out the Hoechst dye that was used for the purification.
In recent years, the focus of the lab has been to identify how HSCs decide whether to self-renew or differentiate. To get an answer to this question, the lab has performed genome-wide screens to find differentially expressed genes during the decision process. By doing that, they recently found that the DNA methyltransferase 3A (DNMT3A) was highly and specifically expressed in HSCs and that it is required for differentiation. When DNMT3A was knocked out in HSCs, the cell population expanded dramatically and the ability to differentiate was impaired. This finding led to further experiments in this area and to the discovery of so-called DNA methylation canyons in the genome, which are large regions of very low DNA methylation that harbor highly conserved regulator genes.
In this episode we discuss how Dr. Peggy Goodell described a new approach to isolate hematopoietic stem cells even though she was not looking for that, how she discovered DNMT3A as an important factor in stem cell decision making, and how she entered and approached new fields of research along the path of her research career.
References
- M. A. Goodell, K. Brose, … R. C. Mulligan (1996) Isolation and functional properties of murine hematopoietic stem cells that are replicating in vivo (The Journal of Experimental Medicine) DOI: 10.1084/jem.183.4.1797
- Shannon McKinney-Freeman, Margaret A. Goodell (2004) Circulating hematopoietic stem cells do not efficiently home to bone marrow during homeostasis (Experimental Hematology) DOI: 10.1016/j.exphem.2004.06.010
- Stuart M. Chambers, Chad A. Shaw, … Margaret A. Goodell (2007) Aging hematopoietic stem cells decline in function and exhibit epigenetic dysregulation (PLoS biology) DOI: 10.1371/journal.pbio.0050201
- Grant A. Challen, Deqiang Sun, … Margaret A. Goodell (2011) Dnmt3a is essential for hematopoietic stem cell differentiation (Nature Genetics) DOI: 10.1038/ng.1009
Related Episodes
- Epigenetic Reprogramming During Mammalian Development (Wolf Reik)
- Effects of DNA Methylation on Chromatin Structure and Transcription (Dirk Schübeler)
- CpG Islands, DNA Methylation, and Disease (Sir Adrian Bird)
Contact
- Active Motif on Twitter
- Epigenetics Podcast on Twitter
- Active Motif on LinkedIn
- Active Motif on Facebook
- Email: podcast@activemotif.com
80 에피소드
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Epigenetics Podcast와 비슷한 콘텐츠
How many organs could you donate and remain alive? How many planet Earths could fit inside the Sun? How high is a giraffe's blood pressure? Why is the sea blue? To find out, Ask The Naked Scientists!
…
continue reading
Get in-depth coverage of current and future trends in technology, and how they are shaping business, entertainment, communications, science, politics, and society.
…
continue reading
If you are curious about how your brain really works this is the podcast for you! Hosted by physician Dr. Ginger Campbell (2022 Podcast Hall of Fame) from 2006-2023, Brain Science explores how recent discoveries in neuroscience are unraveling the mystery of how our brain makes us human. It features conversations with leading scientists and philosophers and is "the podcast for everyone who has a brain" because Dr. Campbell makes neuroscience accessible to listeners of all backgrounds. Over 10 ...
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I discuss a variety of topics in both the natural and social sciences, exploring the many fascinating insights that the scientific method yields about the world around us.
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…
continue reading
Deep in the back of your mind, you’ve always had the feeling that there’s something strange about reality. There is. Join Robert Lamb and Joe McCormick as they examine neurological quandaries, cosmic mysteries, evolutionary marvels and our transhuman future.
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From the ground breaking and life saving to the wacky and implausible, Dr Karl Kruszelnicki reveals some of the best moments in science.
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continue reading
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Player FM 앱으로 오프라인으로 전환하세요!
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