bp(GO:"regulation of endosome size")
Neuronal endosome enlargement, which is not characteristically observed in other major neurodegenerative diseases, develops in pyramidal neurons of the neocortex at a stage when plaques and tangles are restricted only to the hippocampus (Braak stage 2) and not in brains of similarly aged individuals free of AD-like hippocampal pathology (Cataldo et al. 1997, 2000). PubMed:22908190
Genes related to endocytosis, such as Rab5,Rab7, and Rab4, are among the earliest groups to showup-regulated transcription in AD(Ginsberg et al. 2010), and their corresponding proteins are abnormally recruited to endosomes, where they promote fusion and abnormal enlargement of early and late endosomes (Cataldo et al. 1997, 2008). PubMed:22908190
Genes related to endocytosis, such as Rab5,Rab7, and Rab4, are among the earliest groups to showup-regulated transcription in AD(Ginsberg et al. 2010), and their corresponding proteins are abnormally recruited to endosomes, where they promote fusion and abnormal enlargement of early and late endosomes (Cataldo et al. 1997, 2008). PubMed:22908190
Genes related to endocytosis, such as Rab5,Rab7, and Rab4, are among the earliest groups to showup-regulated transcription in AD(Ginsberg et al. 2010), and their corresponding proteins are abnormally recruited to endosomes, where they promote fusion and abnormal enlargement of early and late endosomes (Cataldo et al. 1997, 2008). PubMed:22908190
Similar endosomal anomalies develop gradually in Down syndrome brain, beginning decades before the appearance of classical AD pathology (Cataldo et al. 2000). PubMed:22908190
Neuronal endosome enlargement, which is not characteristically observed in other major neurodegenerative diseases, develops in pyramidal neurons of the neocortex at a stage when plaques and tangles are restricted only to the hippocampus (Braak stage 2) and not in brains of similarly aged individuals free of AD-like hippocampal pathology (Cataldo et al. 1997, 2000). PubMed:22908190
Neuronal endosome enlargement, which is not characteristically observed in other major neurodegenerative diseases, develops in pyramidal neurons of the neocortex at a stage when plaques and tangles are restricted only to the hippocampus (Braak stage 2) and not in brains of similarly aged individuals free of AD-like hippocampal pathology (Cataldo et al. 1997, 2000). PubMed:22908190
Neuronal endosome enlargement, which is not characteristically observed in other major neurodegenerative diseases, develops in pyramidal neurons of the neocortex at a stage when plaques and tangles are restricted only to the hippocampus (Braak stage 2) and not in brains of similarly aged individuals free of AD-like hippocampal pathology (Cataldo et al. 1997, 2000). PubMed:22908190
Similar endosomal anomalies develop gradually in Down syndrome brain, beginning decades before the appearance of classical AD pathology (Cataldo et al. 2000). PubMed:22908190
Genes related to endocytosis, such as Rab5,Rab7, and Rab4, are among the earliest groups to showup-regulated transcription in AD(Ginsberg et al. 2010), and their corresponding proteins are abnormally recruited to endosomes, where they promote fusion and abnormal enlargement of early and late endosomes (Cataldo et al. 1997, 2008). PubMed:22908190
Genes related to endocytosis, such as Rab5,Rab7, and Rab4, are among the earliest groups to showup-regulated transcription in AD(Ginsberg et al. 2010), and their corresponding proteins are abnormally recruited to endosomes, where they promote fusion and abnormal enlargement of early and late endosomes (Cataldo et al. 1997, 2008). PubMed:22908190
Genes related to endocytosis, such as Rab5,Rab7, and Rab4, are among the earliest groups to showup-regulated transcription in AD(Ginsberg et al. 2010), and their corresponding proteins are abnormally recruited to endosomes, where they promote fusion and abnormal enlargement of early and late endosomes (Cataldo et al. 1997, 2008). PubMed:22908190
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If you find BEL Commons useful in your work, please consider citing: Hoyt, C. T., Domingo-Fernández, D., & Hofmann-Apitius, M. (2018). BEL Commons: an environment for exploration and analysis of networks encoded in Biological Expression Language. Database, 2018(3), 1–11.