Nan-Chi A. Chang scite author profile

Oral infections of mice with 2؉ and Mg 2؉ ion-independent. The binding avidity of Ym1 to GlcN oligosaccharides was enhanced by more than 1000-fold due to the clustering effect. Specific binding of Ym1 to heparin suggests that heparin/heparan sulfate may be its physiological ligand in vivo during inflammation and/or tissue remodeling. Although it shares ϳ30% homology with microbial chitinases, no chitinase activity was found associated with Ym1.

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The Crystal Structure of a Novel Mammalian Lectin, Ym1, Suggests a Saccharide Binding Site

Sun

Chang

Chung

et al. 2001

Journal of Biological Chemistry

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Ym1, a secretory protein synthesized by activated murine peritoneal macrophages, is a novel mammalian lectin with a binding specificity to GlcN. Lectins are responsible for carbohydrate recognition and for mediating cell-cell and cell-extracellular matrix interactions in microbes, plants, and animals. Glycosaminoglycan heparin/heparan sulfate binding ability was also detected in Ym1. We report here the three-dimensional structure of Ym1 at 2.5-Å resolution by x-ray crystallography. The crystal structure of Ym1 consists of two globular domains, a ␤/␣ triose-phosphate isomerase barrel domain and a small ␣ ؉ ␤ folding domain. A notable electron density of sugar is detected in the Ym1 crystal structure. The saccharide is located inside the triosephosphate isomerase domain at the COOH terminal end of the ␤-strands. Both hydrophilic and hydrophobic interactions are noted in the sugar-binding site in Ym1. Despite the fact that Ym1 is not a chitinase, structurally, Ym1 shares significant homology with chitinase A of Serratia marcescens. Ym1 and chitinase A have a similar carbohydrate binding cleft. This study provides new structure information, which will lead to better understanding of the biological significance of Ym1 and its putative gene members.

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LUZP deficiency affects neural tube closure during brain development

Hsu¹,

Chang

Lee³

et al. 2008

Biochemical and Biophysical Research Communications

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ATAC and Mediator coactivators form a stable complex and regulate a set of non‐coding RNA genes

et al. 2010

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The Ada-Two-A-containing (ATAC) histone acetyltransferase and Mediator coactivator complexes regulate independent and distinct steps during transcription initiation and elongation. Here, we report the identification of a new stable molecular assembly formed between the ATAC and Mediator complexes in mouse embryonic stem cells. Moreover, we identify leucine zipper motif-containing protein 1 as a subunit of this meta-coactivator complex (MECO). Finally, we demonstrate that the MECO regulates a subset of RNA polymerase II-transcribed non-coding RNA genes. Our findings establish that transcription coactivator complexes can form stable subcomplexes to facilitate their combined actions on specific target genes.

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Nan-Chi A. Chang

A Macrophage Protein, Ym1, Transiently Expressed during Inflammation Is a Novel Mammalian Lectin

The Crystal Structure of a Novel Mammalian Lectin, Ym1, Suggests a Saccharide Binding Site

LUZP deficiency affects neural tube closure during brain development

ATAC and Mediator coactivators form a stable complex and regulate a set of non‐coding RNA genes

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