Direct Research units

Bernard Lorber and Claude Sauter co-author with their partners of the ANR-COMBiNiNG consortium (ANR-14-CE19-0022) an article in the Proceedings of the National Academy of Sciences, USA, describing the neutralisation of the Grapevine fanleaf virus (GFLV). This collaborative work involving several CNRS institutes (IBMP, IGBMC, IBMC, CBS), the INRAE centre in Colmar and the University of Brussels, reveals the atomic structure by cryo electron microscopy of a complex between GFLV, a major pathogen of the vine, and a fragment of camelid antibodies commonly known as nanobody. Knowledge of this structure provides a better understanding of how the nanobody acts to neutralise the virus in the plant and reveals the circumvention mechanism involving mutations on the surface of the virus.

Reference: Structural basis of nanobody recognition of grapevine fanleaf virus and of virus resistance loss. Orlov I, Hemmer C, Ackerer L, Lorber B, Ghannam A, Poignavent V, Hleibieh K, Sauter C, Schmitt-Keichinger C, Belval L, Hily J-M, Marmonier A, Komar V, Gersch S, Schellenberger P, Bron P, Vigne E, Muyldermans S, Lemaire O, Demangeat G, Ritzenthaler C, Klaholz BP. PNAS 19 mai 2020

Read more: Quand la biologie structurale visualise comment un Nanobody neutralise un virus de plante !

Contacts : Bernard Lorber et Claude Sauter

Figure: GFLV complex: nanobody visualised by cryo electron microscopy (image B. Klaholz, IGBMC):