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<rss version="2.0"><channel><description>Physiologist, ERAD biology, Professor and Chair, Dept of Molecular Physiology and Biological Physics @UVA; formerly at U-Michigan and Cornell University</description><link>https://bsky.app/profile/qilabuva.bsky.social</link><title>@qilabuva.bsky.social - Ling Qi</title><item><link>https://bsky.app/profile/qilabuva.bsky.social/post/3lxdshrxn3k2n</link><description>Very cool structure! Congrats Sarah and Ahmad!&#xA;&#xA;[contains quote post or other embedded content]</description><pubDate>27 Aug 2025 00:45 +0000</pubDate><guid isPermaLink="false">at://did:plc:gleo7rmyplnsvmnwark5s7ae/app.bsky.feed.post/3lxdshrxn3k2n</guid></item><item><link>https://bsky.app/profile/qilabuva.bsky.social/post/3lugkqofufc2c</link><description>Thank you Eric for highlighting our 4 preprints on various aspects of SEL1L-HRD1 ERAD biology, including CryoEM structure, ASO-mediated rescue, its role in neurons and its synergistic role with autophagy in mitochondrial dynamics. All the credits go to all the trainees and collaborators!&#xA;&#xA;[contains quote post or other embedded content]</description><pubDate>20 Jul 2025 22:49 +0000</pubDate><guid isPermaLink="false">at://did:plc:gleo7rmyplnsvmnwark5s7ae/app.bsky.feed.post/3lugkqofufc2c</guid></item><item><link>https://bsky.app/profile/qilabuva.bsky.social/post/3lsggnfgagk23</link><description>🚨 New review alert! Our article &#34;SEL1L–HRD1-mediated ERAD in mammals&#34; is now online at Nature Cell Biology. We explore how this central ERAD pathway maintains protein homeostasis in mammals and why it matters for health and disease. &#xA;&#xA;👉 rdcu.be/etk3b&#xA;&#xA;#ERAD #NatureCellBiology #SEL1L #HRD1 #ER&#xA;https://rdcu.be/etk3b</description><pubDate>25 Jun 2025 10:46 +0000</pubDate><guid isPermaLink="false">at://did:plc:gleo7rmyplnsvmnwark5s7ae/app.bsky.feed.post/3lsggnfgagk23</guid></item></channel></rss>