Ya-Ching Amanda Huang
· Assistant ProfessorTexas A&M University · Nursing
Active 2002–2024
About
Professor Ya-Ching Amanda Huang is associated with the Texas A&M College of Nursing, which serves vulnerable populations through research, outreach, and education in forensic nursing. The center, approved by the Texas A&M University System Board of Regents in 2019, is the first state- and federally funded center dedicated to forensic nursing in Texas. The center's mission is to improve health outcomes for those affected by violence and disaster by developing interdisciplinary, trauma-informed strategies to prevent and address violence across the lifespan. It offers research and training opportunities for nurses, medical professionals, law enforcement, attorneys, social workers, and advocates, aiming to advance forensic nursing knowledge through research, scholarship, technology, and innovation. The center also focuses on educating nurses to provide trauma-informed care, collaborating with stakeholders for holistic responses to violence, and developing forensic nurse leaders with graduate education.
Research topics
- Biology
- Cancer research
- Medicine
- Genetics
- Neuroscience
- Pathology
- Computational biology
- Chemistry
- Immunology
Selected publications
Nano-optogenetic engineering of CAR T cells for precision immunotherapy with enhanced safety
Nature Nanotechnology · 2021 · 181 citations
- Cancer research
- Medicine
- Immunology
RNA Biology · 2020 · 176 citations
- Biology
- Computational biology
- Genetics
C, inosine and pseudouridine, in both coding and non-coding RNAs. In parallel, we present a few other cancer-related tRNA and rRNA modifications. We further discuss their roles in cancer promotion or tumour suppression. Understanding the molecular mechanisms underlying the biogenesis and turnover of these RNA modifications will be of great significance in the design and development of novel anticancer drugs.
Science Advances · 2020 · 84 citations
- Biology
- Pathology
- Cancer research
Medulloblastoma (MB), the most common form of pediatric brain malignancy, has a low frequency of oncogenic mutations but pronouncedly abnormal DNA methylation changes. Epigenetic analysis of circulating cell-free tumor DNA (ctDNA) by liquid biopsy offers an approach for real-time monitoring of tumor status without tumor dissection. In this study, we identified 6598 differentially methylated CpGs in both MB tumors and the ctDNA isolated from matched cerebrospinal fluid (CSF) compared with normal cerebellum, which could be used to detect MB tumor occurrence and determine its subtype. Furthermore, DNA methylation changes in serial CSF samples could be used to monitor the treatment response and tumor recurrence. Integrating our data with large public datasets, we identified reliable MB DNA methylation signatures in ctDNA that have potential diagnostic and prognostic values. Our study sets the stage for exploiting epigenetic markers in CSF to improve the clinical management of patients with MB.
Recent grants
Mutational cooperativity in TET2-associated hematological malignancies.
NIH · $1.7M · 2021–2026
Role of TET dioxygenase associated immune mechanisms in cardiac injury and repair
NIH · $1.7M · 2019–2023
Molecular toolkit for single-cell oxi-mC analysis
NIH · $432k · 2020–2023
Epigenetic regulation in cardiac development
NIH · $3.8M · 2023–2030
Mutual reinforcement between somatic mutations and transcription factors in clonal hematopoiesis
NIH · $1.7M · 2023–2026
Frequent coauthors
- 161 shared
Yubin Zhou
Texas A&M University
- 93 shared
Jia Li
Theranostics (New Zealand)
- 84 shared
Minjung Lee
Kangwon National University
- 79 shared
Deqiang Sun
State Key Laboratory of Respiratory Disease
- 70 shared
Lian He
Yue Bei People's Hospital
- 70 shared
Shaohai Fang
Texas A&M University
- 67 shared
Hongxiang Zeng
- 59 shared
Minjung Lee
Yale University
Education
- 2008
Ph.D., Department of Chemistry
Georgia State University
- 2003
M.B.B.S.
Zhejiang University School of Medicine
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