
Zhenghao Li
Articles
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3 weeks ago |
science.org | Brandon M. Genco |Yanni Schneider |Janko Kajtez |Zhenghao Li |Yu Huan |Hailong Zhang | +1 more
AbstractOcean change leaves a potentially important imprint on ocean colorimetry. Here, we present an overview and current evaluation of the global ocean color variability from 1998 to 2022, and satellites observe that 36% of oceans (~122 million square kilometers, derived from valid observations) have experienced changes (P < 0.1).
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Jan 21, 2025 |
preprints.org | Zhenghao Li |Xin Zhou
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Nov 6, 2024 |
science.org | Yaxiong Shen |Zhenghao Li |Lucía Minarrieta |Fanxi Sun
AbstractOrganisms with active camouflage ability exhibit changeable appearance with the switching of environments. However, manmade active camouflage systems heavily rely on integrating electronic devices, which encounters problems including a complex structure, poor usability, and high cost . In the current work, we report active camouflage as an intrinsic function of materials by proposing self-adaptive photochromism (SAP).
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Nov 6, 2024 |
science.org | Yaxiong Shen |Zhenghao Li |Lucía Minarrieta |Kuan-Ru Chen
AbstractRIG-I–like receptors (RLRs) are cytosolic RNA sensors critical for antiviral immunity. RLR activation is regulated by polyubiquitination and oligomerization following RNA binding. Yet, little is known about how RLRs exploit subcellular organelles to facilitate their posttranslational modifications and activation. Endosomal adaptor TAPE regulates the endosomal TLR and cytosolic RLR pathways. The potential interplay between RIG-I signaling and endosomes has been explored.
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Nov 6, 2024 |
science.org | Yaxiong Shen |Zhenghao Li |Lucía Minarrieta |Matthew Annis
AbstractMitochondrial dynamics orchestrate many essential cellular functions, including metabolism, which is instrumental in promoting cancer growth and metastatic progression. However, how mitochondrial dynamics influences metastatic progression remains poorly understood. Here, we show that breast cancer cells with low metastatic potential exhibit a more fused mitochondrial network compared to highly metastatic cells.
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