Ruiyi Zhang

Jul 19, 2024 | science.org | Ruiyi Zhang |Aashish Gupta |Min Zhu |Zhenyu Zhou

AbstractFor wearable electronics, radial scalability is one of the key research areas for fibrous energy storage devices to be commercialized, but this field has been shelved for years due to the lack of effective methods and configuration arrangements. Here, the team presents a generalizable strategy to realize radial scalability by applying a synchronous-twisting method (STM) for synthesizing a coaxial-extensible configuration (CEC).

Jul 19, 2024 | science.org | Ruiyi Zhang |Aashish Gupta |Min Zhu |Manisha C. Yadav

AbstractHuntingtin protein, mutated in Huntington’s disease, is implicated in nucleic acid–mediated processes, yet the evidence for direct huntingtin–nucleic acid interaction is limited. Here, we show wild-type and mutant huntingtin copurify with nucleic acids, primarily RNA, and interact directly with G-rich RNAs in in vitro assays.

Jul 19, 2024 | science.org | Ruiyi Zhang |Aashish Gupta |Zhichao Lu |Min Zhu |Chenxing Wang |Rui Jiang | +10 more

AbstractAged patients often suffer poorer neurological recovery than younger patients after traumatic brain injury (TBI), but the mechanisms underlying this difference remain unclear. Here, we demonstrate abnormal myelopoiesis characterized by increased neutrophil and classical monocyte output but impaired nonclassical patrolling monocyte population in aged patients with TBI as well as in an aged murine TBI model.

Jul 19, 2024 | science.org | Ruiyi Zhang |Aashish Gupta |Min Zhu |Zhiwei Li

AbstractColloidal crystal engineering with DNA allows one to design diverse superlattices with tunable lattice symmetry, composition, and spacing. Most of these structures follow the complementary contact model, maximizing DNA hybridization on building blocks and producing relatively close-packed lattices. Here, low-symmetry kagome superlattices are assembled from DNA-modified gold bipyramids that can engage only in partial DNA surface matching.

Jul 19, 2024 | science.org | Ruiyi Zhang |Aashish Gupta |Min Zhu |Yang Wang

AbstractFault-tolerant operations based on stabilizer codes are the state of the art in suppressing error rates in quantum computations. Most such codes do not permit a straightforward implementation of non-Clifford logical operations, which are necessary to define a universal gate set.