Joachim J Li

Overview

Explore the profile of Joachim J Li including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 9

Citations 303

Followers 0

Related Specialties

Genetics

Cell Biology

Molecular Biology

Top 10 Co-Authors

Brian M Green

Muluye E Liku

Kenneth J Finn

Joseph L DeRisi

Richard J Morreale

Richard Durbin

Audrey W Rosales

Van Q Nguyen

Duyen T Bui

Alan M Moses

Published In

Mol Biol Cell

PLoS Genet

Proc Natl Acad Sci U S A

Genetics

Science

Affiliations

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Recent Articles

DNA Rereplication Is Susceptible to Nucleotide-Level Mutagenesis

Bui D, Li J

Genetics . 2019 Apr; 212(2):445-460. PMID: 31028114

The sources of genome instability, a hallmark of cancer, remain incompletely understood. One potential source is DNA rereplication, which arises when the mechanisms that prevent the reinitiation of replication origins...

Re-replication of a centromere induces chromosomal instability and aneuploidy

Hanlon S, Li J

PLoS Genet . 2015 Apr; 11(4):e1005039. PMID: 25901968

The faithful inheritance of chromosomes during cell division requires their precise replication and segregation. Numerous mechanisms ensure that each of these fundamental cell cycle events is performed with a high...

Regulatory mechanisms that prevent re-initiation of DNA replication can be locally modulated at origins by nearby sequence elements

Richardson C, Li J

PLoS Genet . 2014 Jun; 10(6):e1004358. PMID: 24945837

Eukaryotic cells must inhibit re-initiation of DNA replication at each of the thousands of origins in their genome because re-initiation can generate genomic alterations with extraordinary frequency. To minimize the...

Single-stranded annealing induced by re-initiation of replication origins provides a novel and efficient mechanism for generating copy number expansion via non-allelic homologous recombination

Finn K, Li J

PLoS Genet . 2013 Jan; 9(1):e1003192. PMID: 23300490

Copy number expansions such as amplifications and duplications contribute to human phenotypic variation, promote molecular diversification during evolution, and drive the initiation and/or progression of various cancers. The mechanisms underlying...

Loss of DNA replication control is a potent inducer of gene amplification

Green B, Finn K, Li J

Science . 2010 Aug; 329(5994):943-6. PMID: 20724634

Eukaryotic cells use numerous mechanisms to ensure that no segment of their DNA is inappropriately re-replicated, but the importance of this stringent control on genome stability has not been tested....

Regulatory evolution in proteins by turnover and lineage-specific changes of cyclin-dependent kinase consensus sites

Moses A, Liku M, Li J, Durbin R

Proc Natl Acad Sci U S A . 2007 Nov; 104(45):17713-8. PMID: 17978194

Evolutionary change in gene regulation is a key mechanism underlying the genetic component of organismal diversity. Here, we study evolution of regulation at the posttranslational level by examining the evolution...

Genome-wide mapping of DNA synthesis in Saccharomyces cerevisiae reveals that mechanisms preventing reinitiation of DNA replication are not redundant

Green B, Morreale R, Ozaydin B, DeRisi J, Li J

Mol Biol Cell . 2006 Feb; 17(5):2401-14. PMID: 16481397

To maintain genomic stability, reinitiation of eukaryotic DNA replication within a single cell cycle is blocked by multiple mechanisms that inactivate or remove replication proteins after G1 phase. Consistent with...

CDK phosphorylation of a novel NLS-NES module distributed between two subunits of the Mcm2-7 complex prevents chromosomal rereplication

Liku M, Nguyen V, Rosales A, Irie K, Li J

Mol Biol Cell . 2005 Aug; 16(10):5026-39. PMID: 16093348

Cyclin-dependent kinases (CDKs) use multiple mechanisms to block reassembly of prereplicative complexes (pre-RCs) at replication origins to prevent inappropriate rereplication. In Saccharomyces cerevisiae, one of these mechanisms promotes the net...

Loss of rereplication control in Saccharomyces cerevisiae results in extensive DNA damage

Green B, Li J

Mol Biol Cell . 2004 Nov; 16(1):421-32. PMID: 15537702

To maintain genome stability, the entire genome of a eukaryotic cell must be replicated once and only once per cell cycle. In many organisms, multiple overlapping mechanisms block rereplication, but...