D. Carlero et al, ACS Nano 2024, 18, 30, 19518–19527Researchers from Kanazawa University's NanoLSI, IMDEA Nanoscience, and CNB-CSIC studied influenza A replication using high-speed atomic force microscopy. They observed that recombinant ribonucleoprotein complexes (rRNPs) can undergo multiple transcription cycles, with RNA structure stability influencing synthesis rates. Their findings offer new insights into viral replication mechanisms and RNA synthesis regulation, opening doors for further...
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D. Carlero et al, ACS Nano 2024, 18, 30, 19518–19527Researchers from Kanazawa University's NanoLSI, IMDEA Nanoscience, and CNB-CSIC studied influenza A replication using high-speed atomic force microscopy. They observed that recombinant ribonucleoprotein complexes (rRNPs) can undergo multiple transcription cycles, with RNA structure stability influencing synthesis rates. Their findings offer new insights into viral replication mechanisms and RNA synthesis regulation, opening doors for further...
Kanazawa University NanoLSI Podcast: Discovering the molecular recognition of technological solids by mutant self-assembling peptides
Kanazawa University NanoLSI Podcast
8 minutes
1 year ago
Kanazawa University NanoLSI Podcast: Discovering the molecular recognition of technological solids by mutant self-assembling peptides
Hello and welcome to the NanoLSI podcast. Thank you for joining us today. In this episode we feature the latest research researchers from Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, Japan, collaborating with Professor Sarikaya, Seattle, USA.The research described in this podcast was published in Small in February 2024Kanazawa University NanoLSI websitehttps://nanolsi.kanazawa-u.ac.jp/en/NanoLSI Podcast website
Kanazawa University NanoLSI Podcast
D. Carlero et al, ACS Nano 2024, 18, 30, 19518–19527Researchers from Kanazawa University's NanoLSI, IMDEA Nanoscience, and CNB-CSIC studied influenza A replication using high-speed atomic force microscopy. They observed that recombinant ribonucleoprotein complexes (rRNPs) can undergo multiple transcription cycles, with RNA structure stability influencing synthesis rates. Their findings offer new insights into viral replication mechanisms and RNA synthesis regulation, opening doors for further...
