Chang-Su Lim scite author profile

The Caenorhabditis elegans dauer larva is specialized for dispersal without growth and is formed under conditions of overcrowding and limited food. The daf-7 gene, required for transducing environmental cues that support continuous development with plentiful food, encodes a transforming growth factor-beta (TGF-beta) superfamily member. A daf-7 reporter construct is expressed in the ASI chemosensory neurons. Dauer-inducing pheromone inhibits daf-7 expression and promotes dauer formation, whereas food reactivates daf-7 expression and promotes recovery from the dauer state. When the food/pheromone ratio is high, the level of daf-7 mRNA peaks during the L1 larval stage, when commitment to non-dauer development is made.

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SIRT1: Tumor promoter or tumor suppressor?

Lim

2006

Medical Hypotheses

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Human SIRT1: A potential biomarker for tumorigenesis?

Lim

2007

Cell Biology International

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Accumulating body of evidence reveals that hSIRT1, an NAD(+)-dependent protein deacetylase, is involved in regulating numerous biological processes. Therefore cellular functions of hSIRT1 are highly pleiotropic. The integrated hypothetical mechanisms of hSIRT1 action contributing to regulating cellular senescence and longevity have been proposed. Based on recent evidence, I propose that hSIRT1 is a potential biomarker for tumorigenesis.

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C. elegans clk-2, a gene that limits life span, encodes a telomere length regulator similar to yeast telomere binding protein Tel2p

et al. 2001

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An important quest in modern biology is to identify genes involved in aging. Model organisms such as the nematode Caenorhabditis elegans are particularly useful in this regard. The C. elegans genome has been sequenced [1], and single gene mutations that extend adult life span have been identified [2]. Among these longevity-controlling loci are four apparently unrelated genes that belong to the clk family. In mammals, telomere length and structure can influence cellular, and possibly organismal, aging. Here, we show that clk-2 encodes a regulator of telomere length in C. elegans.

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Differential roles of XRCC2 in homologous recombinational repair of stalled replication forks

Liu

Lim

2005

J of Cellular Biochemistry

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Homologous recombination is an important mechanism in DNA replication to ensure faithful DNA synthesis and genomic stability. In this study, we investigated the role of XRCC2, a member of the RAD51 paralog family, in cellular recovery from replication arrest via homologous recombination. The protein expression of XRCC2, as well as its binding partner RAD51D, is dramatically increased in S- and G2-phases, suggesting that these proteins function during and after DNA synthesis. XRCC2 mutant irs1 cells exhibit hypersensitivity to hydroxyurea (HU) and are defective in the induction of RAD51 foci after HU treatment. In addition, the HU-induced chromatin association of RAD51 is deficient in irs1 mutant. Interestingly, irs1 cells are only slightly sensitive to thymidine and able to form intact RAD51 foci in S-phase cells arrested with thymidine. Irs1 cells showed increased level of chromatin-bound RAD51 as well as the wild type cells after thymidine treatment. Both HU and thymidine induce gamma-H2AX foci in arrested S-phase nuclei. These results suggest that XRCC2 is involved in repair of HU-induced damage, but not thymidine-induced damage, at the stalled replication forks. Our data suggest that there are at least two sub-pathways in homologous recombination, XRCC2-dependent and -independent, for repair of stalled replication forks and assembly of RAD51 foci following replication arrest in S-phase.

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Chang-Su Lim

Control of C. elegans Larval Development by Neuronal Expression of a TGF-β Homolog

SIRT1: Tumor promoter or tumor suppressor?

Human SIRT1: A potential biomarker for tumorigenesis?

C. elegans clk-2, a gene that limits life span, encodes a telomere length regulator similar to yeast telomere binding protein Tel2p

Differential roles of XRCC2 in homologous recombinational repair of stalled replication forks

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