Ning Ru
Johns Hopkins University
6 Papers
208 Citations
Ning Ru is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Prostate cancer & Medicine. The author has an hindex of 3, co-authored 3 publications.
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Papers
•Journal Article
DD3::A New Prostate-specific Gene, Highly Overexpressed in Prostate Cancer
Marion J.G. Bussemakers,A. van Bokhoven,Gerald W. Verhaegh,Frank Smit,H.F.M. Karthaus,Jack A. Schalken,Frans M.J. Debruyne,Ning Ru,William B. Isaacs +8 more
TL;DR: The data indicate that DD3 is one of the most prostate cancer-specific genes yet described, and this makes DD3 a promising marker for the early diagnosis of prostate cancer and provides a powerful tool for the development of new treatment strategies for prostate cancer patients.
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•Journal Article
Chromosome 5 Suppresses Tumorigenicity of PC3 Prostate Cancer Cells: Correlation with Re-Expression of α-Catenin and Restoration of E-Cadherin Function
Charles M. Ewing,Ning Ru,Ronald A. Morton,John C. Robinson,Margaret J. Wheelock,Keith R. Johnson,J C Barrett,William B. Isaacs +7 more
TL;DR: The tumor suppressive ability of chromosome 5 in the PC-3 prostate cancer cells is demonstrated and it is suggested that re-expression of alpha-catenin with resultant restoration of E-cadherin function plays a critical role in this process.
•Journal Article
Differential Suppression of Mammary and Prostate Cancer Metastasis by Human Chromosomes 17 and 11
Carrie W. Rinker-Schaeffer,Anita L. Hawkins,Ning Ru,Jintans Dong,George Stoica,Constance A. Griffin,Tomohiko Ichikawa,J C Barrett,John T. Isaacs +8 more
TL;DR: It is demonstrated that when the pter-q23 region of human chromosome 17 is retained by the microcell hybrids, the metastatic ability of both mammary and prostatic cancer cells is suppressed, and that the metastasis suppressor activity encoded by the chromosome 17 pter-$23 region is p53-independent and not due to enhanced expression of NM23 protein.
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Elucidating the neurological mechanism of the FLASH effect in juvenile mice exposed to hypofractionated radiotherapy.
Barrett D. Allen,Yasaman Alaghband,Enikö A. Kramár,Ning Ru,Benoit Petit,Veljko Grilj,Michael S. Petronek,Casey F. Pulliam,R. Y. Kim,Ngoc-Lien Doan,Janet E. Baulch,Marcelo A. Wood,Claude Bailat,Douglas R. Spitz,Marie-Catherine Vozenin,Charles L. Limoli +15 more
TL;DR: In this article , the authors used a radiosensitive juvenile mouse model to assess adverse long-term neurological outcomes and found that hypofractionated FLASH-RT affords significant and longterm normal tissue protection.
Galactic cosmic radiation exposure causes multifaceted neurocognitive impairments
Yasaman Alaghband,Peter M. Klein,Enikö A. Kramár,Michael N. Cranston,Bayley Perry,Lukas M Shelerud,Alice E. Kane,Ngoc-Lien Doan,Ning Ru,Munjal M. Acharya,Marcelo A. Wood,David A. Sinclair,Dara L. Dickstein,Ivan Soltesz,Charles L. Limoli,Janet E. Baulch +15 more
TL;DR: In this article , the effects of space-relevant radiation exposure on hippocampus-dependent memory formation and reconsolidation in male and female mice were investigated using a complex GCR simulation.
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