Research output: Contribution to journal › Article › peer-review
Stefano Pernigo, Magda S. Chegkazi, Yan Y. Yip, Conor Treacy, Giulia Glorani, Kjetil Hansen, Argyris Politis, Soi Bui, Mark P. Dodding, Roberto A. Steiner
| Original language | English |
|---|---|
| Pages (from-to) | 1-22 |
| Journal | eLife |
| Volume | 7 |
| Early online date | 15 Oct 2018 |
| DOIs | |
| Accepted/In press | 14 Oct 2018 |
| E-pub ahead of print | 15 Oct 2018 |
| Published | 15 Oct 2018 |
| Additional links |
Structural basis for isoform-specific_PERNIGO_Published15October2018_GOLD VoR (CC BY)
Structural_basis_for_isoform_specific_PERNIGO_Published15October2018_GOLD_VoR_CC_BY_.pdf, 5.19 MB, application/pdf
Uploaded date:29 Nov 2018
Version:Final published version
Licence:CC BY
The light chains (KLCs) of the heterotetrameric microtubule motor kinesin-1, that bind to cargo adaptor proteins and regulate its activity, have a capacity to recognize short peptides via their tetratricopeptide repeat domains (KLCTPR). Here, using X-ray crystallography, we show how kinesin-1 recognizes a novel class of adaptor motifs that we call 'Y-acidic' (tyrosine flanked by acidic residues), in a KLC-isoform-specific manner. Binding specificities of Y-acidic motifs (present in JIP1 and in TorsinA) to KLC1TPR are distinct from those utilized for the recognition of W-acidic motifs, found in adaptors, that are KLC-isoform non-selective. However, a partial overlap on their receptor-binding sites implies that adaptors relying on Y-acidic and W-acidic motifs must act independently. We propose a model to explain why these two classes of motifs that bind to the concave surface of KLCTPR with similar low micromolar affinity can exhibit different capacities to promote kinesin-1 activity.
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