Kuan-Te Li scite author profile

Kuan-Te Li

5Publications

53Citation Statements Received

74Citation Statements Given

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117

Affiliations

Chung Shan Medical University, National Taiwan University

Publications

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Bergapten induces G1 arrest and pro‐apoptotic cascade in colorectal cancer cells associating with p53/p21/PTEN axis

Lin

et al. 2018

Environmental Toxicology

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Bergapten is a natural compound and has potent anticancer activities. In this study, we explored the cytotoxicity of bergapten on colorectal cancer (CRC) cell DLD-1 and LoVo and its underlying mechanisms. We observed that bergapten (30 and 50 μM) decreased the viability of the CRC cells and induced the G0/G1 and sub-G1 phase arrest. Furthermore, immunoblotting results indicated that bergapten increased p53, phospho-p53(Ser-46), p21, PUMA, Bax, PTEN, and the caspase-9 and caspase-3 cleavage, but decreased cyclin E, CDK2, and phosphor-AKT(Ser-473) in the CRC cells. Inhibition of p53 by pifithrin-α reversed the bergapten-induced p53-mediated apoptotic cascade and restored the survival signaling and cell viability. Collectively, our findings reveal that bergapten decrease the cell viability and induce cell cycle arrest in the CRC cells, which may be attributed to p53-mediated apoptotic cascade, upregulation of p21 and PTEN, and inhibition of AKT. K E Y W O R D S apoptosis, colorectal cancer cells, Berga, PTEN, p21, p53

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Ds transposon is biased towards providing splice donor sites for exonization in transgenic tobacco

Huang

Yang

et al. 2012

Plant Mol Biol

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Insertion of transposed elements into introns can lead to their activation as alternatively spliced cassette exons, an event called exonization, which can enrich the complexity of transcriptomes and proteomes. In this study, the first exonization event was detected when the modified rice EPSPS marker gene was inserted with the Ac transposon 5' end, which provided a splice donor site to yield abundant novel transcripts. To assess the contribution of splice donor and acceptor sites of transposon sequences, we inserted a Ds element into each intron of the EPSPS marker gene. This process yielded 14 constructs, with the Ds transposon inserted in the forward and reverse direction in each of the 7 introns of the EPSPS marker gene. The constructs were transformed into tobacco plants, and novel transcripts were identified by RT-PCR with specific primers. Exonization of Ds in EPSPS was biased towards providing splice donor sites of the inserted Ds sequence. Additionally, when the Ds inserted in reverse direction, a continuous splice donor consensus region was determined by offering 4 donor sites in the same intron. Information on these exonization events may help enhance gene divergence and functional genomic studies.

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An inducible transposon system to terminate the function of a selectable marker in transgenic plants

Charng

Tai

et al. 2007

Mol Breeding

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Since the maize transposon Ac can move to a new location within the genome, it has been used in removing selectable markers in transgenic plants. In this paper, we developed an inducible transposon system to truncate a selectable marker in transgenic plants. In this system, the marker gene was accompanied by the inducible transposon, but one end of the transposon was located in the intron of the marker gene. As an example of a marker gene, we isolated the rice 5-enolpyruvylshikimate-3-phosphate synthase (epsps) and modified it for glyphosate tolerance. The transposon contained Ac transposase, which fused with the promoter of the inducible gene for pathogenesis-related protein 1a (PR-1a). This construct was engineered into an expression vector pCAMBIA1300, harboring a hygromycin-resistant gene. The construct was first transformed into rice calli, and transformed plants were selected on hygromycin-containing medium. The stably transformed calli underwent determination for normal transcripts and tolerance to glyphosate. The results were applied to a rice transformation with the same construct, but using glyphosate as the selective agent. By determining the transformation efficiency, T-DNA copy patterns, we demonstrate that the modified epsps could be a suitable selectable marker to create transgenic rice. Furthermore, after obtaining stable transgenic plants and inducing transposition by salicylic acid, the transposon was excised, the marker gene became truncated, and its expression was terminated. This strategy could be applicable to yield self-stabilizing transposon by locating the transposon's end in the transposase gene's intron.

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A one-time inducible transposon for creating knockout mutants

Lin

Huang

et al. 2008

Mol Breeding

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The maize transposon Ac can move to a new location within the genome to create knockout mutants in transgenic plants. In rice, Ac transposon is very active but sometimes undergoes further transposition and leaves an empty mutated gene. Therefore, we developed a one-time transposon system by locating one end of the transposon in the intron of the Ac transposase gene, which is under the control of the inducible promoter (PR-1a). Treatment with salicylic acid induced transposition of this transposon, COYA, leading to transposase gene breakage in exons. The progeny plants inheriting the transposition events become stable knockout mutants, because no functional transposase could be yielded. The behavior of COYA was analyzed in single-copy transgenic rice plants. We determined the expression of the modified transposase gene and its ability to trigger transposition events in transgenic rice plants. The COYA element thus exhibits potential for development of an inducible transposon system suitable for gene isolation in heterologous plant species.

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Metabolic engineering of Vitamin B1 and Vitamin B6 in staple crops

Li¹

2014

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Kuan-Te Li

Bergapten induces G1 arrest and pro‐apoptotic cascade in colorectal cancer cells associating with p53/p21/PTEN axis

Ds transposon is biased towards providing splice donor sites for exonization in transgenic tobacco

An inducible transposon system to terminate the function of a selectable marker in transgenic plants

A one-time inducible transposon for creating knockout mutants

Metabolic engineering of Vitamin B1 and Vitamin B6 in staple crops

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