Yichuan Zhang

2 months ago | biorxiv.org | Yichuan Zhang |Wen Zhang

AbstractThe prediction of structural similarity and homology detection of protein sequences has always been a very challenging and valuable research. Based on protein structure similarity, rapid and accurate detection of homologous proteins can infer the functions of newly discovered or unannotated pro-teins. If we can use a method to quickly predict the structural similarity between two proteins, we can achieve the task of homologous detection of protein sequences.

Sep 21, 2024 | onlinelibrary.wiley.com | Xuan Leng |Yichuan Zhang

References , , , , et al., 2015 “Industrial policy and competition,” American Economic Journal: Macroeconomics, Vol. 7, No. 4, pp. 1–32. , , , and , 2014 “The governance and performance of universities: Evidence from Europe and the US,” Economic Policy, Vol. 25, No. 61, pp. 7–59. and , 2010 “University research funding and publication performance – An international comparison,” Research Policy, Vol. 39, No. 6, pp. 822–34.

Aug 22, 2024 | link.aps.org | Yichuan Zhang |Tian Tian |Shaochun Lin

Nanomechanical resonator arrays constitute a promising platform for topological physics and integrated acoustic devices. However, achieving precise control of the couplings between resonators has been a significant challenge for realizing a time-dependent Hamiltonian. In this work, we address this challenge by designing the geometric parameters of the resonators, enabling us to achieve dynamical control over the coupling strength and frequency stability.

Mar 15, 2024 | link.aps.org | Tian Tian |Han Cai |Liang Zhang |Yichuan Zhang

Topologically protected boundary transport is a promising route to realize robust quantum manipulation between distant nodes. Conventional topological transports require a long transmission time to meet adiabatic evolution, which unfortunately becomes a significant obstacle for practical quantum systems with decoherence. Here, we report a fast and robust phonon transfer by breaking this adiabatic limitation in a one-dimensional nanomechanical topological interface lattice.

Dec 15, 2023 | cell.com | Jie Chen |Yichuan Zhang |Quan Gao

Highlights•Sequence-controlled glycooligomers are synthesized efficiently via CuAAC chemistry•Cell uptake of glycooligomers varies across cell types, saccharide numbers, and species•The sequence-optimized glycooligomer demonstrates high tumor-targeting capabilitySummaryCancers of diverse origins exhibit more rapid and greater carbohydrate uptake and consumption compared to normal cells, making carbohydrate an efficient cancer-targeting tool.