Wai Lim Ku: h-index, Total Citations, and Citation Map
Wai Lim Ku's h-index is 20 (22 i10-index, 1,741+ total citations across 5+ publications) according to Google Scholar as of May 2026. Wai Lim Ku is affiliated with Assistant Professor, College of Medicine, Howard University.
Wai Lim Ku is a researcher affiliated with Assistant Professor, College of Medicine, Howard University, specializing in computational biology, bioinformatics, nonlinear dynamics. Their work has been cited 1,741 times. This profile visualizes their global influence, highlighting strong citation networks in United States.
Wai Lim Ku's Citation Metrics
Bibliometric impact based on 5 indexed publications.
- H-Index
- 20
- i10-Index
- 22
- Total Citations
- 1,741
- Citing Countries
- 10
As of May 2026.
Wai Lim Ku has an h-index of 20 and 1,741 total citations across 5 publications, with research cited by institutions in 10 countries.
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Top Cited Works
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SMARCB1 is required for widespread BAF complex–mediated activation of enhancers and bivalent promoters
2017332
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Visa Evidence Package
Views and exports tuned for EB-1A, O-1A, and EB-2 NIW petitions. Sustained acclaim, geographic reach, and independent-citation filtering are the strongest evidence categories immigration adjudicators look for.
Significant Contributions
Auto-detected research lines — a seminal paper and the follow-up work building on it. Review and edit before using in a petition. Each Free PDF opens in a new tab — EB-1A organises this into the structure USCIS applies to Criterion 5 of 8 CFR § 204.5(h)(3)(v); EB-1B re-frames it under § 204.5(i)(3) (outstanding researcher); NIW presents it under prong 2 of Matter of Dhanasar.
The researcher established that SMARCB1 is essential for BAF complex-mediated activation of enhancers and bivalent promoters, a finding published in Nature Genetics.
The researcher elucidated the mechanism by which Smarca4 ATPase mutations disrupt the direct eviction of PRC1 from chromatin, a finding supported by a seminal 2017 paper with substantial independent citation impact.
The researcher elucidated how dominant-negative SMARCA4 mutants alter the accessibility landscape of tissue-unrestricted enhancers, a finding published in Nature Structural & Molecular Biology.
Citation trend (last 10 years)Click to expand
Citation Trend (Last 10 Years)
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