A Northwestern Medicine study has uncovered distinct roles for major nuclear lamin isoforms in maintaining intracellular interactions and cellular mechanics, according to findings published in the Proceedings of the National Academy of Sciences.
Alternative splicing is a fundamental biological process that allows cells to make many different types of mRNAs and proteins from a limited number of genes. For many animals, including humans, it is a feature that is essential for the development of complex cells such as muscles or neurons.
Researchers at University of California San Diego School of Medicine and Moores Cancer Center at UC San Diego Health, with collaborators at La Jolla Institute for Immunology and elsewhere, have further elucidated how ovarian cancer tumors defy immunotherapy, identifying new molecular targets that might boost immune response.
human liver cells and it showed are in a from the pfizer vaccine was as you said, reverse transcribed from dna goes to rna to make protein but occasionally rare instances it can go backwards from rna to dna and that s what happened in this study so the rna from the vaccine made dna in the nucleus of the human liver cell in the lab. one of the striking things about the study is we ve been told for your including the cdc that the genetic material from the vaccine does not enter the cell nucleus, the part of the cell that contains your own dna in the study strongly suggested that may not be the case, i took about six hours after exposure to the pfizer vaccine for this to occur and for the dna i was reverse transcribed to the vaccine to appear in the