A checkpoint function for Nup98 in nuclear pore formation suggested by novel inhibitory nanobodies

Solà Colom, Mireia; Fu, Zhenglin; Gunkel, Philip; Güttler, Thomas; Trakhanov, Sergei; Srinivasan, Vasundara; Gregor, Kathrin; Pleiner, Tino; Görlich, Dirk

doi:10.1038/s44318-024-00081-w

EMBO J

2024

DOI: 10.1038/s44318-024-00081-w

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A checkpoint function for Nup98 in nuclear pore formation suggested by novel inhibitory nanobodies

Mireia Solà Colom,

Zhenglin Fu,

Philip Gunkel

et al.

Abstract: Nuclear pore complex (NPC) biogenesis is a still enigmatic example of protein self-assembly. We now introduce several cross-reacting anti-Nup nanobodies for imaging intact nuclear pore complexes from frog to human. We also report a simplified assay that directly tracks postmitotic NPC assembly with added fluorophore-labeled anti-Nup nanobodies. During interphase, NPCs are inserted into a pre-existing nuclear envelope. Monitoring this process is challenging because newly assembled NPCs are indistinguishable fro… Show more

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AI driven approaches in Nanobody Epitope Prediction: Are We There Yet?

Eshak,

Goupil-Lamy

2024

Preprint

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Nanobodies have emerged as a versatile class of biologics with promising therapeutic applications, driving the need for robust tools to predict their epitopes, a critical step for in silico affinity maturation and epitope-targeted design. While molecular docking has long been employed for epitope identification, it requires substantial expertise. With the advent of AI driven tools, epitope identification has become more accessible to a broader community increasing the risk of models misinterpretation. In this study, we critically evaluate the nanobody epitope prediction performance of two leading models: AlphaFold3 and AlphaFold2-Multimer (v.2.3.2), highlighting their strengths and limitations. Our analysis revealed that the overall success rate remains below 50% for both tools, with AlphaFold3 achieving a modest overall improvement. Interestingly, a significant improvement in the performance of AlphaFold3 was observed within a specific nanobody class. To address this discrepancy, we explored factors influencing epitope identification, demonstrating that accuracy heavily depends on CDR3 characteristics, such as its 3D spatial conformation and length, which drive binding interactions with the antigen. Additionally, we assessed the robustness of the confidence metrics of AlphaFold3, highlighting their potential for broader applications. Finally, we evaluated different strategies aimed at improving prediction success rate. This study can be extended to assess the accuracy of emerging deep learning models adopting a similar approach to AlphaFold3.

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AI driven approaches in Nanobody Epitope Prediction: Are We There Yet?

Eshak,

Goupil-Lamy

2024

Preprint

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show abstract

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A checkpoint function for Nup98 in nuclear pore formation suggested by novel inhibitory nanobodies

Cited by 1 publication

References 121 publications

AI driven approaches in Nanobody Epitope Prediction: Are We There Yet?

AI driven approaches in Nanobody Epitope Prediction: Are We There Yet?

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