Chia-Yi Chuang scite author profile

The potent anticancer drug actinomycin D (ActD) functions by intercalating into DNA at GpC sites, thereby interrupting essential biological processes including replication and transcription. Certain neurological diseases are correlated with the expansion of (CGG)n trinucleotide sequences, which contain many contiguous GpC sites separated by a single G:G mispair. To characterize the binding of ActD to CGG triplet repeat sequences, the structural basis for the strong binding of ActD to neighbouring GpC sites flanking a G:G mismatch has been determined based on the crystal structure of ActD bound to ATGCGGCAT, which contains a CGG triplet sequence. The binding of ActD molecules to GCGGC causes many unexpected conformational changes including nucleotide flipping out, a sharp bend and a left-handed twist in the DNA helix via a two site-binding model. Heat denaturation, circular dichroism and surface plasmon resonance analyses showed that adjacent GpC sequences flanking a G:G mismatch are preferred ActD-binding sites. In addition, ActD was shown to bind the hairpin conformation of (CGG)16 in a pairwise combination and with greater stability than that of other DNA intercalators. Our results provide evidence of a possible biological consequence of ActD binding to CGG triplet repeat sequences.

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Crystal structure of vespid phospholipase A1 reveals insights into the mechanism for cause of membrane dysfunction

Hou

Chuang

et al. 2016

Insect Biochemistry and Molecular Biology

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Polymorphic G:G mismatches act as hotspots for inducing right-handed Z DNA by DNA intercalation

Satange

Chuang

Neidle

et al. 2019

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DNA mismatches are highly polymorphic and dynamic in nature, albeit poorly characterized structurally. We utilized the antitumour antibiotic CoII(Chro)2 (Chro = chromomycin A3) to stabilize the palindromic duplex d(TTGGCGAA) DNA with two G:G mismatches, allowing X-ray crystallography-based monitoring of mismatch polymorphism. For the first time, the unusual geometry of several G:G mismatches including syn–syn, water mediated anti–syn and syn–syn-like conformations can be simultaneously observed in the crystal structure. The G:G mismatch sites of the d(TTGGCGAA) duplex can also act as a hotspot for the formation of alternative DNA structures with a GC/GA-5′ intercalation site for binding by the GC-selective intercalator actinomycin D (ActiD). Direct intercalation of two ActiD molecules to G:G mismatch sites causes DNA rearrangements, resulting in backbone distortion to form right-handed Z-DNA structures with a single-step sharp kink. Our study provides insights on intercalators-mismatch DNA interactions and a rationale for mismatch interrogation and detection via DNA intercalation.

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An adaptive parameterized block-based singular value decomposition for image de-noising and compression

Shih

Chien

Chuang

2012

Applied Mathematics and Computation

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Feature-Based Image Segmentation

Tsai¹,

Chan²,

Hsu³

et al. 2013

jist

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Chia-Yi Chuang

The structural basis of actinomycin D–binding induces nucleotide flipping out, a sharp bend and a left-handed twist in CGG triplet repeats

Crystal structure of vespid phospholipase A1 reveals insights into the mechanism for cause of membrane dysfunction

Polymorphic G:G mismatches act as hotspots for inducing right-handed Z DNA by DNA intercalation

An adaptive parameterized block-based singular value decomposition for image de-noising and compression

Feature-Based Image Segmentation

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