X
Xiang Zhang
Researcher at Baylor College of Medicine
Publications - 3483
Citations - 144843
Xiang Zhang is an academic researcher from Baylor College of Medicine. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 154, co-authored 1733 publications receiving 117576 citations. Previous affiliations of Xiang Zhang include University of California, Berkeley & University of Texas MD Anderson Cancer Center.
Papers
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Vectorial point spread function and optical transfer function in oblique plane imaging
TL;DR: The vectorial diffraction theory is used to formulate the vectorial point spread function (PSF) of direct oblique plane imaging and it is shown that the 2D PSF in oblique planes imaging is conceptually different from the inclined 2D slice of the 3DPSF in conventional lateral imaging.
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ISSAAC-seq enables sensitive and flexible multimodal profiling of chromatin accessibility and gene expression in single cells
Weiping Xu,Wei Yang,Yunlong Zhang,Yawen Chen,Xiang Zhang,Xuefei Wang,Kun Song,Wenfei Jin,Xi Chen +8 more
TL;DR: In this paper , the authors developed in situ sequencing hetero RNA-DNA-hybrid after assay for transposase-accessible chromatin-sequencing (ISSAAC-seq), a highly sensitive and flexible single-cell multi-omics method to interrogate chromatin accessibility and gene expression from the same single nucleus.
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Selective color transferring via ellipsoid color mixture map
TL;DR: This paper presents a simple but effective ellipsoid color mixture map to realize selective color transfers and shows the high-quality visual effects and efficiency of image/video color transfers.
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Visualizing Polymer Diffusion in Hydrogel Self-healing
TL;DR: In this article , a dually-crosslinked hydrogel system was constructed to decouple complex factors for direct visualization of polymer diffusion and quantified study of healing dynamics, which enabled facile visualization of dynamic healing processes with flexible adjustment of polymeric systems, which could inspire novel designs of highperformance self-healing materials.