Publications by authors named "I B Filippov"
Article Synopsis
- Recent advances in single-cell technology have allowed researchers to study age-related changes in the immune system more effectively, but inconsistent marker genes used in previous studies made comparisons difficult.
- This study combined over a million cells from 103 donors to create a unified atlas of immune cells, using consistent marker genes to classify both young and old individuals' immune systems.
- Key findings revealed trends such as a decrease in specific T cell populations with age and a heterogeneous nature of the T cell population linked to aging, highlighting the need for standardized datasets to better understand these changes.
Background: Single-cell RNA sequencing experiments commonly use 10x Genomics (10x) kits due to their high-throughput capacity and standardized protocols. Recently, Parse Biosciences (Parse) introduced an alternative technology that uses multiple in-situ barcoding rounds within standard 96-well plates. Parse enables the analysis of more cells from multiple samples in a single run without the need for additional reagents or specialized microfluidics equipment.
View Article and Find Full Text PDF1,1-Di(alkoxycarbonyl)-4-cyclopentyl-2-azabuta-1,3-dienes react with DBU to form two types of heterocyclic products: 1-cyclopenta[]pyrid-1-ones and 3-hydroxy-1-pyrroles. These previously unobserved transformations proceed through the formation of 1-azapentadienyl anion which undergoes 1,6-shift of the alkoxycarbonyl group to the cyclopentyl moiety followed by 1,6-cyclization to form the cyclopentapyridone (path ) and 1,5-cyclization accompanied by 1,3-shift of the methoxy group followed by dialkyl carbonate elimination to afford the hydroxypyrrole (path ). The mechanisms of the reactions were studied using DFT calculations.
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