Your search keyword '"Hui Chin Goh"' showing total 16 results

1. Domain-specific p53 mutants activate EGFR by distinct mechanisms exposing tissue-independent therapeutic vulnerabilities

Author

Teresa Lai Fong Ho, May Yin Lee, Hui Chin Goh, Germaine Yi Ning Ng, Jane Jia Hui Lee, Srinivasaraghavan Kannan, Yan Ting Lim, Tianyun Zhao, Edwin Kok Hao Lim, Cheryl Zi Jin Phua, Yi Fei Lee, Rebecca Yi Xuan Lim, Perry Jun Hao Ng, Ju Yuan, Dedrick Kok Hong Chan, Bettina Lieske, Choon Seng Chong, Kuok Chung Lee, Jeffrey Lum, Wai Kit Cheong, Khay Guan Yeoh, Ker Kan Tan, Radoslaw M. Sobota, Chandra S. Verma, David P. Lane, Wai Leong Tam, and Ashok R. Venkitaraman

Subjects

Science

Abstract

Here the authors identify distinct mechanisms by which domain-specific p53 mutations activate cancer cell growth via the epidermal growth factor receptor (EGFR). These mechanisms affect sensitivity to EGFR inhibitors, opening avenues for targeted therapy.

Published

2023

2. Integrated Genomic and Metabolomic Approach to the Discovery of Potential Anti-Quorum Sensing Natural Products from Microbes Associated with Marine Samples from Singapore

Author

Ji Fa Marshall Ong, Hui Chin Goh, Swee Cheng Lim, Li Mei Pang, Joyce Seow Fong Chin, Koh Siang Tan, Zhao-Xun Liang, Liang Yang, Evgenia Glukhov, William H. Gerwick, and Lik Tong Tan

Subjects

marine bacteria, marine sponges, anti-quorum sensing, molecular network, biosynthetic gene clusters, Biology (General), QH301-705.5

Abstract

With 70% of the Earth’s surface covered in water, the marine ecosystem offers immense opportunities for drug discovery and development. Due to the decreasing rate of novel natural product discovery from terrestrial sources in recent years, many researchers are beginning to look seaward for breakthroughs in new therapeutic agents. As part of an ongoing marine drug discovery programme in Singapore, an integrated approach of combining metabolomic and genomic techniques were initiated for uncovering novel anti-quorum sensing molecules from bacteria associated with subtidal samples collected in the Singapore Strait. Based on the culture-dependent method, a total of 102 marine bacteria strains were isolated and the identities of selected strains were established based on their 16S rRNA gene sequences. About 5% of the marine bacterial organic extracts showed quorum sensing inhibitory (QSI) activity in a dose-dependent manner based on the Pseudomonas aeruginosa QS reporter system. In addition, the extracts were subjected to mass spectrometry-based molecular networking and the genome of selected strains were analysed for known as well as new biosynthetic gene clusters. This study revealed that using integrated techniques, coupled with biological assays, can provide an effective and rapid prioritization of marine bacterial strains for downstream large-scale culturing for the purpose of isolation and structural elucidation of novel bioactive compounds.

Published

2019

3. Benderamide A, a Cyclic Depsipeptide from a Singapore Collection of Marine Cyanobacterium cf. Lyngbya sp.

Author

Chi Ying Gary Ding, Ji Fa Marshall Ong, Hui Chin Goh, Cynthia R. Coffill, and Lik Tong Tan

Subjects

Lyngbya sp., marine cyanobacterium, cyclic depsipeptide, molecular networking, Biology (General), QH301-705.5

Abstract

Benderamide A (1), a (S)-2,2-dimethyl-3-hydroxy-7-octynoic acid (S-Dhoya)-containing cyclic depsipeptide that belongs to the kulolide superfamily, was isolated from a Singapore collection of cf. Lyngbya sp. marine cyanobacterium using a bioassay-guided approach. While the planar structure of 1 was elucidated using a combination of 1D and 2D NMR experiments and MS analysis, the absolute configuration was subsequently achieved using the results obtained from Marfey’s analysis, comparative analysis of nuclear overhauser effect spectroscopy (NOESY) with the known compound 3, and one dimensional-nuclear overhauser effect (1D-NOE). Although 1 did not display antiproliferative activity against MCF7 breast cancer cells, the presence of an Ala instead of Gly suggests a possible mechanistic pathway to explain the consequential decrease in cytotoxicity compared to the closely related 2. In addition, results obtained from an LC⁻MS/MS-based molecular networking algorithm revealed two other closely related compounds encouraging further identification and isolation from the same marine cyanobacterium extract.

Published

2018

4. Supplementary Methods from Inhibiting p53 Acetylation Reduces Cancer Chemotoxicity

Author

David P. Lane, Le-Ann Hwang, Siti Aishah B. Rahmat, Hui Chin Goh, Xin Yu Koh, and Shunsheng Zheng

Abstract

Contains primer sequences, additional materials and methods to complement main article.

Published

2023

5. Figure S1 from Inhibiting p53 Acetylation Reduces Cancer Chemotoxicity

Author

David P. Lane, Le-Ann Hwang, Siti Aishah B. Rahmat, Hui Chin Goh, Xin Yu Koh, and Shunsheng Zheng

Abstract

Supplementary Figure S1. Related to Figure 1. Unravelling the mechanism of C646 action.

Published

2023

6. Data from Inhibiting p53 Acetylation Reduces Cancer Chemotoxicity

Author

David P. Lane, Le-Ann Hwang, Siti Aishah B. Rahmat, Hui Chin Goh, Xin Yu Koh, and Shunsheng Zheng

Abstract

Chemotoxicity due to unwanted p53 activation in the bone marrow remains an unmet clinical challenge. Doxorubicin, a first-line chemotherapy drug, often causes myelosuppression in patients, thus limiting its effectiveness. In this study, we discovered that C646, a reversible p300 inhibitor, downregulates p53 transcription and selectively protects noncancerous cells from p53-dependent apoptosis. C646 treatment blocked acetylation of specific lysine residues that regulate p53 activity. Exploitation of differential p53 genetic backgrounds between human hematopoietic and colorectal cancer cells improved the therapeutic index of doxorubicin with C646 cotreatment. C646 administration in mice afflicted with p53-mutant tumors protected them from doxorubicin-induced neutropenia and anemia while retaining antitumor efficacy. We deduce that temporary and reversible inhibition of p53 acetylation in cancer subjects, especially those with p53-mutant tumors, may protect them from severe chemotoxicity while allowing treatment regimens to effectively proceed. Cancer Res; 77(16); 4342–54. ©2017 AACR.

Published

2023

7. Supplemental Figure Legends from Inhibiting p53 Acetylation Reduces Cancer Chemotoxicity

Author

David P. Lane, Le-Ann Hwang, Siti Aishah B. Rahmat, Hui Chin Goh, Xin Yu Koh, and Shunsheng Zheng

Abstract

Contain Legends for Supplementary Figures

Published

2023

8. Rapid recruitment of p53 to DNA damage sites directs DNA repair choice and integrity

Author

Yu-Hsiu Wang, Teresa L. F. Ho, Anushya Hariharan, Hui Chin Goh, Yao Liang Wong, Nicole S. Verkaik, May Yin Lee, Wai Leong Tam, Dik C. van Gent, Ashok R. Venkitaraman, Michael P. Sheetz, David P. Lane, Molecular Genetics, School of Biological Sciences, Cancer Science Institute of Singapore, NUS, Genome Institute of Singapore, A*STAR, and Yong Loo Lin School of Medicine, NUS

Subjects

P53, Multidisciplinary, DNA End-Joining Repair, Biological sciences [Science], Nuclear Proteins, Cell Cycle Proteins, DNA-Binding Proteins, Protein Domains, Cell Line, Tumor, Tumor Suppression, Mutation, Humans, Tumor Suppressor Protein p53, Tumor Suppressor p53-Binding Protein 1, DNA Damage

Abstract

p53 is primarily known as a downstream transcriptional effector in the DNA damage-response cascade. We report that endogenous p53 rapidly accumulates at DNA damage sites within 2 s of UVA microirradiation. The kinetics of p53 recruitment mimics those of known DNA damage-response proteins, such as Ku70 and poly(- ADP-ribose) polymerase (PARP), and precedes recruitment of Nbs1, 53BP1, and DDB1. Mutations in the DNA-binding and C-terminal domains significantly suppress this rapid recruitment. The C-terminal domain of p53 contains key residues for PARP interaction that are required for rapid recruitment of p53 to DNA damage sites, as is PARP-dependent modification. The presence of p53 at damage sites influences the recruitment kinetics of 53BP1 and DDB1 and directs the choice of nonhomologous end joining repair (NHEJ) and nucleotide excision repair. Mutations that suppressed rapid recruitment of p53 promoted error-prone alternative end-joining (alt-NHEJ) and inhibited nucleotide excision repair. Our finding that p53 is a critical early responder to DNA damage stands in contrast with its extensively studied role as a downstream transcriptional regulator in DNA damage repair. We highlight an unrecognized role of p53 in directing DNA repair dynamics and integrity and suggest a parallel mode of p53 tumor suppression apart from its function as a transcription factor. Ministry of Education (MOE) National Medical Research Council (NMRC) National Research Foundation (NRF) Published version D.P.L. and T.L.F.H. were supported by A*STAR core funding. M.P.S. and Y.-H.W. were supported by the Mechanobiology Institute at the National University of Singapore, and, more recently, by a Cancer Prevention and Research Institute of Texas grant at the University of Texas Medical Branch. W.L.T. and M.Y.L. were supported by funding from the National Medical Research Council, Singapore (OFIRG17may-061, OFIRG19nov-0106, CTGIIT18may-0012, NMRC/OFLCG/002-2018), the National Research Foundation, Singapore (NRF-NRFF2015-04, NRF-CRP22- 2019-0003, NRF-CRP23-2019-0004), and the Singapore Ministry of Education under its Research Centers of Excellence initiative.

Published

2022

9. Trikoramide A, a Prenylated Cyanobactin from the Marine Cyanobacterium Symploca hydnoides

Author

Ji Fa Marshall Ong, Hui Chin Goh, Hartono Candra, Pui Yi Yung, Lik Tong Tan, Ma Yadanar Phyo, Jun Xian Goh, Siew Herng Chan, and Chi Ying Gary Ding

Subjects

Pharmacology, 010405 organic chemistry, Stereochemistry, Chemistry, Organic Chemistry, Absolute configuration, Pharmaceutical Science, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, 010404 medicinal & biomolecular chemistry, Complementary and alternative medicine, Prenylation, Drug Discovery, Ic50 values, Molecular Medicine, Inhibitory concentration 50, Symploca hydnoides, Cancer cell lines, Spectroscopy, Two-dimensional nuclear magnetic resonance spectroscopy

Abstract

A new cyclic decapeptide, trikoramide A (1), has been isolated from samples of the marine cyanobacterium Symploca hydnoides, collected from Bintan Island, Indonesia. Trikoramide A (1) is a C-prenylated cyclotryptophan-containing cyanobactin. Its planar structure was deduced by 1D and 2D NMR spectroscopy as well as HR-MS/MS data. In addition, its absolute configuration was determined by Marfey's method and 2D NOESY NMR spectroscopic analysis. Compound 1 possessed cytotoxicity against the MOLT-4 and AML2 cancer cell lines with IC50 values of 4.8 and 8.2 μM, respectively.

Published

2019

10. Inhibiting p53 Acetylation Reduces Cancer Chemotoxicity

Author

Shunsheng Zheng, Siti Aishah Binte Rahmat, Xin Yu Koh, David P. Lane, Hui Chin Goh, and Le-Ann Hwang

Subjects

Male, 0301 basic medicine, Cancer Research, Colorectal cancer, Mice, Nude, Neutropenia, Biology, Transfection, Benzoates, Mice, 03 medical and health sciences, Therapeutic index, Cell Line, Tumor, Neoplasms, medicine, Animals, Humans, Doxorubicin, Pyrazolones, Nitrobenzenes, Mice, Inbred BALB C, Acetylation, medicine.disease, Haematopoiesis, 030104 developmental biology, medicine.anatomical_structure, Oncology, Apoptosis, Cancer research, Pyrazoles, Female, Bone marrow, Tumor Suppressor Protein p53, medicine.drug

Abstract

Chemotoxicity due to unwanted p53 activation in the bone marrow remains an unmet clinical challenge. Doxorubicin, a first-line chemotherapy drug, often causes myelosuppression in patients, thus limiting its effectiveness. In this study, we discovered that C646, a reversible p300 inhibitor, downregulates p53 transcription and selectively protects noncancerous cells from p53-dependent apoptosis. C646 treatment blocked acetylation of specific lysine residues that regulate p53 activity. Exploitation of differential p53 genetic backgrounds between human hematopoietic and colorectal cancer cells improved the therapeutic index of doxorubicin with C646 cotreatment. C646 administration in mice afflicted with p53-mutant tumors protected them from doxorubicin-induced neutropenia and anemia while retaining antitumor efficacy. We deduce that temporary and reversible inhibition of p53 acetylation in cancer subjects, especially those with p53-mutant tumors, may protect them from severe chemotoxicity while allowing treatment regimens to effectively proceed. Cancer Res; 77(16); 4342–54. ©2017 AACR.

Published

2017

11. Trikoramide A, a Prenylated Cyanobactin from the Marine Cyanobacterium

Author

Ma Yadanar, Phyo, Chi Ying Gary, Ding, Hui Chin, Goh, Jun Xian, Goh, Ji Fa Marshall, Ong, Siew Herng, Chan, Pui Yi Maria, Yung, Hartono, Candra, and Lik Tong, Tan

Subjects

Prenylation, Inhibitory Concentration 50, Cell Line, Tumor, Spectrum Analysis, Humans, Antineoplastic Agents, Seawater, Drug Screening Assays, Antitumor, Cyanobacteria

Abstract

A new cyclic decapeptide, trikoramide A (

Published

2019

12. Draft Genome Sequence of

Author

Ji Fa Marshall, Ong, Hui Chin, Goh, and Lik Tong, Tan

Subjects

Genome Sequences

Abstract

We report the draft genome sequence of a marine bacterium, Bacillus sp. strain 007/AIA-02/001, isolated from the marine sponge Coelocarteria singaporensis, obtained from water off the coast of Singapore. The analysis of the bacterial genome using the bioinformatics tool antiSMASH 4.0.2 showed the presence of a number of unique natural product biosynthetic pathways.

Published

2019

13. Going native: Complete removal of protein purification affinity tags by simple modification of existing tags and proteases

Author

Hui Chin Goh, Saurabh Nirantar, Farid J. Ghadessy, Radoslaw M. Sobota, and School of Biological Sciences

Subjects

0301 basic medicine, Proteases, Recombinant Fusion Proteins, medicine.medical_treatment, Native protein, Protein tag, Enforced colocalisation, Biology, Chromatography, Affinity, 03 medical and health sciences, Protein Domains, FLAG-tag, Protein purification, Escherichia coli, medicine, Affinity tags, Tandem affinity purification, Protease, 030102 biochemistry & molecular biology, 030104 developmental biology, Biochemistry, Proteolysis, Target protein, Peptide Hydrolases, Biotechnology, Myc-tag

Abstract

Protein purification typically involves expressing a recombinant gene comprising a target protein fused to a suitable affinity tag. After purification, it is often desirable to remove the affinity tag to prevent interference with downstream functions of the target protein. This is mainly accomplished by placing a protease site between the tag and the target protein. Typically, a small oligopeptide ‘stub’ C-terminal to the cleavage site remains attached to the target protein due to the requirements of sequence-specific proteases. Furthermore, steric hindrance can also limit protease efficiency. Here, we show that respectively fusing the interacting ePDZ-b/ARVCF protein-peptide pair to the target protein and a protease enables efficient processing of a minimised sequence comprising only residues N-terminal to the cleavage site. Interaction of the protein-peptide pair enforces proximity of the protease and its minimised cleavage sequence, enhancing both catalysis of a sub-optimal site and overcoming steric hindrance. This facilitates the high yield purification of fully native target proteins without recourse to specialised purification columns. NMRC (Natl Medical Research Council, S’pore) Published version

Published

2017

14. Protein and Protease Sensing by Allosteric Derepression

Author

Hui Chin, Goh, Farid J, Ghadessy, and Saurabh, Nirantar

Subjects

Allosteric Regulation, Base Sequence, Protein Interaction Domains and Motifs, Biosensing Techniques, Peptides, Peptide Hydrolases

Abstract

Peptide motifs are crucial mediators of protein-protein interactions as well as sites of specific protease activity. The detection and characterization of these events is therefore indispensable for a detailed understanding of cellular regulation. Here, we present versatile and modular sensors that allow the user to detect protease activity and protein-peptide interactions, as well as to screen for inhibitors using chromogenic, fluorescent, or luminescent output.

Published

2017

15. Interaction between cognitive and non-cognitive factors: the influences of academic goal orientation and working memory on mathematical performance

Author

Hui Chin Goh, Flora Ning, and Kerry Lee

Subjects

Goal orientation, Working memory, Short-term memory, Experimental and Cognitive Psychology, Cognition, Academic achievement, Mastery learning, Affect (psychology), Education, Developmental psychology, Developmental and Educational Psychology, Task analysis, Psychology, Cognitive psychology

Abstract

Although the effects of achievement goals and working memory on academic performance are well established, it is not clear whether they jointly affect academic performance. Children from Primary 4 and 6 (N = 608) were administered (a) measures of working memory and updating from the automated working memory battery and a running span task, (b) performance and mastery goal measures from the inventory of school motivation, and (c) a battery of standardised and curriculum-based mathematical tests. Both mastery and performance goals had direct (positive and negative, respectively) relations with working memory capacity. The negative relation between performance goal and mathematics was stronger for children with lower levels of mastery goal or working memory, than for those with higher levels. These findings suggest that a reduction in the availability of working memory resources may be one reason for a high performance orientation to be associated with poorer academic performance.

Published

2013

16. Protein and Protease Sensing by Allosteric Derepression

Author

Farid J. Ghadessy, Hui Chin Goh, and Saurabh Nirantar

Subjects

0301 basic medicine, chemistry.chemical_classification, Protease, biology, Chromogenic, medicine.medical_treatment, Allosteric regulation, Peptide, Fluorescence, Protein–protein interaction, 03 medical and health sciences, 030104 developmental biology, Biochemistry, chemistry, Allosteric enzyme, medicine, biology.protein, Derepression

Abstract

Peptide motifs are crucial mediators of protein-protein interactions as well as sites of specific protease activity. The detection and characterization of these events is therefore indispensable for a detailed understanding of cellular regulation. Here, we present versatile and modular sensors that allow the user to detect protease activity and protein-peptide interactions, as well as to screen for inhibitors using chromogenic, fluorescent, or luminescent output.

Published

2017