
Yifan Kong
Articles
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Jan 14, 2025 |
biorxiv.org | Jianhong Wang |Yifan Kong |Xuezhuang Li |Kun Xiang
AbstractDNA replication fork speed, which controls the rate of genome duplication, has emerged as a key regulator of cellular plasticity. However, its role in neurogenesis remains unexplored. Mini-chromosome maintenance complex (MCMs)-binding protein (MCMBP) functions as a chaperone for newly synthesized MCMs, increasing chromatin coverage to restrain fork speed.
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Jan 12, 2025 |
biorxiv.org | Jianhong Wang |Yifan Kong |Xuezhuang Li |Kun Xiang
AbstractDNA replication fork speed, which controls the rate of genome duplication, has emerged as a key regulator of cellular plasticity. However, its role in neurogenesis remains unexplored. MCMBP functions as a chaperone for newly synthesized Mini-chromosome maintenance complexes (MCMs), increasing chromatin coverage to regulate fork progression.
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Dec 9, 2024 |
biorxiv.org | Ting Hu |Yifan Kong |Yulian Tan |Pengcheng Ma
AbstractNeocortex expansion has a concerted relationship with folding, underlying evolution of human cognitive functions. However, molecular mechanisms underlying this significant evolutionary process remains unknown. Here, using tree shrew as an outgroup of primates, we identify a new regulator CCNB1IP1, which acquired its expression before the emergence of primates.
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Nov 5, 2024 |
biorxiv.org | Jianhong Wang |Yifan Kong |Yulian Tan |Xuezhuang Li
AbstractDNA fork speed, the rate of replication fork progression, has emerged as a cellular plasticity regulator, however, for its role in neurogenesis has never been explored before. Here, we show that fork speed was increased as neural progenitors-radial glial cells (RGCs) transition from symmetric to asymmetric divisions.
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Aug 19, 2024 |
bjournal.org | Junhui Yang |Yunjie Zhang |Yifan Kong |Jiawei Lin
Braz. J. Med. Biol. Res.2024;57:e13661.
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