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Mashup Score: 12Online Event - 1 month(s) ago
While genetic analyses alone have pointed researchers to potential mutations associated with complex disease and cancer, it is becoming clearer that understanding changes in the cell of the RNA transcriptome and the epigenetic chemical modifications of DNA, RNA and proteins (collectively termed multiomics) is needed to help us understand and treat human diseases. Such studies are being applied to identify why some mutations cause cells to develop into cancer or not, how to use genetic interactions and
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 4Online Event - 1 month(s) ago
While genetic analyses alone have pointed researchers to potential mutations associated with complex disease and cancer, it is becoming clearer that understanding changes in the cell of the RNA transcriptome and the epigenetic chemical modifications of DNA, RNA and proteins (collectively termed multiomics) is needed to help us understand and treat human diseases. Such studies are being applied to identify why some mutations cause cells to develop into cancer or not, how to use genetic interactions and
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 7Online Event - 3 month(s) ago
Explore the frontiers of biomanufacturing in this comprehensive webinar, where leading experts from the field share insights on recent advancements in viral vector gene delivery. Join our speakers as they provide a foundational understanding of various vector types, such as lentiviruses, adeno-associated viruses (AAV), and retroviruses, and their respective roles in gene delivery. The webinar will then address recent technological advancements in viral vector manufacturing and explore quality control
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 5Online Event - 3 month(s) ago
Explore the frontiers of biomanufacturing in this comprehensive webinar, where leading experts from the field share insights on recent advancements in viral vector gene delivery. Join our speakers as they provide a foundational understanding of various vector types, such as lentiviruses, adeno-associated viruses (AAV), and retroviruses, and their respective roles in gene delivery. The webinar will then address recent technological advancements in viral vector manufacturing and explore quality control
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 7Online Event - 3 month(s) ago
Explore the frontiers of biomanufacturing in this comprehensive webinar, where leading experts from the field share insights on recent advancements in viral vector gene delivery. Join our speakers as they provide a foundational understanding of various vector types, such as lentiviruses, adeno-associated viruses (AAV), and retroviruses, and their respective roles in gene delivery. The webinar will then address recent technological advancements in viral vector manufacturing and explore quality control
Source: www.workcast.comCategories: General Medicine News, General NewsTweet
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Mashup Score: 3Online Event - 5 month(s) ago
Cells have evolved a number of pathways to sense RNAs – both RNAs derived from external pathogens like RNA viruses and RNAs from internal sources like endogenous retroviruses and other transposable elements. Determining the function and regulation of these RNA sensing pathways is key to better understanding innate immunity, not only in the context of responses to RNA viruses, but also in other diseases such as autoimmunity and cancer. Understanding these pathways is also critical for growing area of RNA
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 1Online Event - 5 month(s) ago
Cells have evolved a number of pathways to sense RNAs – both RNAs derived from external pathogens like RNA viruses and RNAs from internal sources like endogenous retroviruses and other transposable elements. Determining the function and regulation of these RNA sensing pathways is key to better understanding innate immunity, not only in the context of responses to RNA viruses, but also in other diseases such as autoimmunity and cancer. Understanding these pathways is also critical for growing area of RNA
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 1Online Event - 5 month(s) ago
Cells have evolved a number of pathways to sense RNAs – both RNAs derived from external pathogens like RNA viruses and RNAs from internal sources like endogenous retroviruses and other transposable elements. Determining the function and regulation of these RNA sensing pathways is key to better understanding innate immunity, not only in the context of responses to RNA viruses, but also in other diseases such as autoimmunity and cancer. Understanding these pathways is also critical for growing area of RNA
Source: www.workcast.comCategories: General Medicine News, General HCPsTweet
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Mashup Score: 8Online Event - 5 month(s) ago
Cells have evolved a number of pathways to sense RNAs – both RNAs derived from external pathogens like RNA viruses and RNAs from internal sources like endogenous retroviruses and other transposable elements. Determining the function and regulation of these RNA sensing pathways is key to better understanding innate immunity, not only in the context of responses to RNA viruses, but also in other diseases such as autoimmunity and cancer. Understanding these pathways is also critical for growing area of RNA
Source: www.workcast.comCategories: General Medicine News, Allergy-ImmunologyTweet
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Mashup Score: 2Online Event - 7 month(s) ago
Advances over the past decade in single-cell sequencing have generated unprecedented insights into understanding organismal biology. Being able to map individual genetic transcripts to specific cells within a body allows us to understand how genetic variation drives the plethora of life on Earth and places us at the precipice of better understanding how our genes affect human health and disease. Atlases of entire human embryos, tissues and organ systems have been generated providing insight into what
Source: www.workcast.comCategories: General Medicine News, Latest HeadlinesTweet
1 hour until Daniel Stone @fredhutch, Anna Seung Nam @AnnaEnim @WeillCornell, Elisa Oricchio @elisa_oricchio @EPFL & Xia Yang @UCLA @YangLabUCLA discuss Lessons from multiomic & transcriptional analyses in cancer & complex disease #CPWebinars. https://t.co/40hli61PIR https://t.co/IOrxc5ydO3