Boon Hui Wong scite author profile

Boon Hui Wong

5Publications

43Citation Statements Received

384Citation Statements Given

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National University of Singapore

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Fully automated leg tracking of Drosophila neurodegeneration models reveals distinct conserved movement signatures

Tan

Govindarajan

et al. 2019

PLoS Biol

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Some neurodegenerative diseases, like Parkinsons Disease (PD) and Spinocerebellar ataxia 3 (SCA3), are associated with distinct, altered gait and tremor movements that are reflective of the underlying disease etiology. Drosophila melanogaster models of neurodegeneration have illuminated our understanding of the molecular mechanisms of disease. However, it is unknown whether specific gait and tremor dysfunctions also occur in fly disease mutants. To answer this question, we developed a machine-learning image-analysis program, Feature Learning-based LImb segmentation and Tracking (FLLIT), that automatically tracks leg claw positions of freely moving flies recorded on high-speed video, producing a series of gait measurements. Notably, unlike other machine-learning methods, FLLIT generates its own training sets and does not require user-annotated images for learning. Using FLLIT, we carried out high-throughput and high-resolution analysis of gait and tremor features in Drosophila neurodegeneration mutants for the first time. We found that fly models of PD and SCA3 exhibited markedly different walking gait and tremor signatures, which recapitulated characteristics of the respective human diseases. Selective expression of mutant SCA3 in dopaminergic neurons led to a gait signature that more closely resembled those of PD flies. This suggests that the behavioral phenotype depends on the neurons affected rather than the specific nature of the mutation. Different mutations produced tremors in distinct leg pairs, indicating that different motor circuits were affected. Using this approach, fly models can be used to dissect the neurogenetic mechanisms that underlie movement disorders.

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Towards establishment of a centralized spider traits database

Lowe

Wolff

Aceves-Aparicio

et al. 2020

The Journal of Arachnology

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A main goal of ecological and evolutionary biology is understanding and predicting interactions between populations and both abiotic and biotic environments, the spatial and temporal variation of these interactions, and the effects on population dynamics and performance. Trait-based approaches can help to model these interactions and generate a comprehensive understanding of ecosystem functioning. A central tool is the collation of databases that include species trait information. Such centralized databases have been set up for a number of organismal groups but is lacking for one of the most important groups of predators in terrestrial ecosystems -spiders. Here we promote the collation of an open spider traits database, integrated into the global Open Traits Network. We explore the current collation of spider data and cover the logistics of setting up a global database, including which traits to include, the source of data, how to input data, database governance, geographic cover, accessibility, quality control and how to make the database sustainable long-term. Finally, we explore the scope of research questions that could be investigated using a global spider traits database.

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Males armed with big weapons win fights at limited cost in ant-mimicking jumping spiders

Wong

Painting

et al. 2022

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A core assumption of sexual selection theory is that sexually selected weapons, specialized morphological structures used directly in male contests, can improve an individual’s reproductive success but only if the bearer can overcome associated costs, the negative effects on the bearer’s fitness components. However, recent studies have shown that producing and wielding exaggerated weapons may not necessarily be costly. Rather, some traits can be selected for supporting, or compensating for, the expense of producing and wielding such exaggerated weapons. In the ant-mimicking jumping spider Myrmarachne gisti, exaggerated chelicerae are borne only by adult males and not females, showing sexual dimorphism and steep positive allometry with body size. Here, we determine the potential benefits of bearing exaggerated chelicerae during male contests and explore the potential for costs in terms of prey-capture efficiency and compensation between chelicera size and neighbouring trait size. While males with longer chelicerae won most of their male-male contests, we found no significant differences in prey-capture efficiency between males and females regardless of whether prey were winged or flightless. Males’ elongated chelicerae thus do not impede their efficiency at capturing prey. Furthermore, we found that the sizes of all neighbouring traits are positively correlated with chelicera size, suggesting that these traits may be under correlational selection. Taken together, our findings suggest that M. gisti males armed with the exaggerated chelicerae that function as weapons win more fights at limited cost for performance in prey-capture and compensate for neighbouring structures.

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Transcriptomic analysis of intermuscular bone development in barbel steed (Hemibarbus labeo)

Guo

Zhang

et al. 2022

Comparative Biochemistry and Physiology Part D: Genomics and Pr

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Automated leg tracking reveals distinct conserved gait and tremor signatures inDrosophilamodels of Parkinson’s Disease and Spinocerebellar ataxia 3

Tan

Govindarajan

et al. 2018

Preprint

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Genetic models in Drosophila have made invaluable contributions to our understanding of the molecular mechanisms underlying neurodegeneration. In human patients, some neurodegenerative diseases lead to characteristic movement dysfunctions, such as abnormal gait and tremors. However, it is currently unknown whether similar movement defects occur in the respective fly models, which could be used to model and better understand the pathophysiology of movement disorders. To address this question, we developed a machine-learning image-analysis programme -Feature Learning-based LImb segmentation and Tracking (FLLIT) -that automatically tracks leg claw positions of freely moving flies recorded on highspeed video, generating a series of body and leg movement parameters. Of note, FLLIT requires no user input for learning. We used FLLIT to characterise fly models of Parkinson's Disease (PD) and Spinocerebellar ataxia 3 (SCA3).Between these models, walking gait and tremor characteristics differed markedly, and recapitulated signatures of the respective human diseases.Selective expression of mutant SCA3 in dopaminergic neurons led to phenotypes resembling that of PD flies, suggesting that the behavioural phenotype may depend on the circuits affected, rather than the specific nature of the mutation. Different mutations produced tremors in distinct leg pairs, indicating that different motor circuits are affected. Almost 190,000 video frames were tracked in this study, allowing, for the first time, high-throughput analysis of gait and tremor features in Drosophila mutants. As an efficient assay of mutant gait and tremor features in an important model system, FLLIT will enable the analysis of the neurogenetic mechanisms that underlie movement disorders.(n = 10), mir-263a KO (n = 11), ple-Gal4>SCA3-flQ27 (n = 14), ple-Gal4>SCA3-flQ84 (n = 15). P values were calculated using a non-parametric Mann-Whitney test except for park 1 and mir-263a KO which shared the same control (yw), hence, P was calculated using a non-parametric Kruskal-Wallis test with Dunn's multiple comparisons post-hoc test (See Fig. S5).See also Videos 2 -6.

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Boon Hui Wong

Fully automated leg tracking of Drosophila neurodegeneration models reveals distinct conserved movement signatures

Towards establishment of a centralized spider traits database

Males armed with big weapons win fights at limited cost in ant-mimicking jumping spiders

Transcriptomic analysis of intermuscular bone development in barbel steed (Hemibarbus labeo)

Automated leg tracking reveals distinct conserved gait and tremor signatures inDrosophilamodels of Parkinson’s Disease and Spinocerebellar ataxia 3

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