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In this episode, we review the high-yield topic of Transcription Regulation from the Biochemistry section. Follow Medbullets on social media: Facebook: www.facebook.com/medbullets Instagram: www.instagram.com/medbulletsofficial Twitter: www.twitter.com/medbullets --- Send in a voice message: https://podcasters.spotify.com/pod/show/medbulletsstep1/message
Melanoma or skin cancer is one of the fastest rising cancer types. When identified early, melanoma is relatively easy to cure, but once it starts to metastasise, it becomes very difficult to treat. DEREGULATION OF TRANSCRIPTION The interface between signal transduction and transcription regulation coordinates gene expression. Deregulation of transcription is a key factor in cancer. Professor Colin Goding studies how a precise programme of transcription regulation is achieved, particularly in the transition between normal and cancer stem cells, and the parallels with normal stem cell populations.
Melanoma or skin cancer is one of the fastest rising cancer types. When identified early, melanoma is relatively easy to cure, but once it starts to metastasise, it becomes very difficult to treat. DEREGULATION OF TRANSCRIPTION The interface between signal transduction and transcription regulation coordinates gene expression. Deregulation of transcription is a key factor in cancer. Professor Colin Goding studies how a precise programme of transcription regulation is achieved, particularly in the transition between normal and cancer stem cells, and the parallels with normal stem cell populations.
Melanoma or skin cancer is one of the fastest rising cancer types. When identified early, melanoma is relatively easy to cure, but once it starts to metastasise, it becomes very difficult to treat. DEREGULATION OF TRANSCRIPTION The interface between signal transduction and transcription regulation coordinates gene expression. Deregulation of transcription is a key factor in cancer. Professor Colin Goding studies how a precise programme of transcription regulation is achieved, particularly in the transition between normal and cancer stem cells, and the parallels with normal stem cell populations.
Melanoma or skin cancer is one of the fastest rising cancer types. When identified early, melanoma is relatively easy to cure, but once it starts to metastasise, it becomes very difficult to treat. DEREGULATION OF TRANSCRIPTION The interface between signal transduction and transcription regulation coordinates gene expression. Deregulation of transcription is a key factor in cancer. Professor Colin Goding studies how a precise programme of transcription regulation is achieved, particularly in the transition between normal and cancer stem cells, and the parallels with normal stem cell populations.
Fakultät für Chemie und Pharmazie - Digitale Hochschulschriften der LMU - Teil 05/06
Tue, 21 Jan 2014 12:00:00 +0100 https://edoc.ub.uni-muenchen.de/17390/ https://edoc.ub.uni-muenchen.de/17390/1/Engel_Christoph.pdf Engel, Christoph ddc:540, ddc:500, Fakultät für Chemie und Pharmazie
Zhe Zhao joined Oxford in 2010, after completing an undergraduate degree in Biological Science at Tsinghua University in Beijing and a Msc at Leiden University Medical Centre. He works on Transcription Regulation in Coronary Development. Every year, about 65 DPhil students start a life changing experience in the Nuffield Department of Medicine in Oxford. The Department offers a highly competitive studentship for our DPhil programme to outstanding candidates of any nationality. The candidates are judged on the basis of their academic and research potential. The NDM Prize Studentship is a four year course which includes full payment of all fees and an annual stipend.
Dr Erika Mancini explains how malfunctions in the regulation of chromatin structure often leads to complex multi-system diseases and cancer, notably leukemia. Dr Erika Mancini is interested in the role of chromatin in the regulation of gene transcription. All our cells contain the same set of genes, but only some of them are transcribed at any point in a particular tissue. Regulation of gene transcription is strongly linked to chromatin, physical packaging of the DNA within the nucleus. Molecular Mechanisms influencing DNA packaging Chromatin plays an important role in the regulation of gene expression. The movement of nucleosomes, packing and unpacking DNA, is governed by chromatin remodelling ATPases. Malfunctions in the regulation of chromatin structure often leads to complex multi-system diseases and cancer, notably leukemia.
Dr Erika Mancini explains how malfunctions in the regulation of chromatin structure often leads to complex multi-system diseases and cancer, notably leukemia. Dr Erika Mancini is interested in the role of chromatin in the regulation of gene transcription. All our cells contain the same set of genes, but only some of them are transcribed at any point in a particular tissue. Regulation of gene transcription is strongly linked to chromatin, physical packaging of the DNA within the nucleus. Molecular Mechanisms influencing DNA packaging Chromatin plays an important role in the regulation of gene expression. The movement of nucleosomes, packing and unpacking DNA, is governed by chromatin remodelling ATPases. Malfunctions in the regulation of chromatin structure often leads to complex multi-system diseases and cancer, notably leukemia.
Dr Erika Mancini explains the role of chromatin in the regulation of gene transcription. Chromatin, the physical packaging of DNA within the nucleus, plays an important role in the regulation of gene expression. All our cells contain the same set of genes, but only some of them are transcribed at any point in a particular tissue. The movement of nucleosomes, packing and unpacking DNA, is governed by chromatin remodelling ATPases. Malfunctions in chromatin structure regulation often leads to complex multi-system diseases and cancer, notably leukemia. Dr Erika Mancini is interested in the role of chromatin in the regulation of gene transcription.
Dr Erika Mancini explains the role of chromatin in the regulation of gene transcription. Chromatin, the physical packaging of DNA within the nucleus, plays an important role in the regulation of gene expression. All our cells contain the same set of genes, but only some of them are transcribed at any point in a particular tissue. The movement of nucleosomes, packing and unpacking DNA, is governed by chromatin remodelling ATPases. Malfunctions in chromatin structure regulation often leads to complex multi-system diseases and cancer, notably leukemia. Dr Erika Mancini is interested in the role of chromatin in the regulation of gene transcription.