In selective macroautophagy/autophagy, cargo recruitment is mediated by MAP1LC3/LC3-interacting regions (LIRs)/Atg8-family interacting motifs (AIMs) in the cargo or cargo receptor proteins. The binding of these motifs to LC3/Atg8 proteins at the phagophore membrane is often modulated by post-translational modifications, especially phosphorylation. As a challenge for computational LIR predictions, sequences may contain the short canonical (W/F/Y)XX(L/I/V) motif without being functional. Conversely, LIRs may be formed by non-canonical but functional sequence motifs. AlphaFold2 has proven to be useful for LIR predictions, even if some LIRs are missed and proteins with thousands of residues reach the limits of computational feasibility. We present a fragment-based approach to address these limitations. We find that fragment length and phosphomimetic mutations modulate the interactions predicted by AlphaFold2. Systematic fragment screening for a range of target proteins yields structural models for interactions that AlphaFold2 and AlphaFold3 fail to predict for full-length targets. We provide guidance on fragment choice, sequence tuning, LC3 isoform effects, and scoring for optimal LIR screens. Finally, we also test the transferability of this general framework to SUMO-SIM interactions, another type of protein-protein interaction involving short linear motifs (SLiMs).Abbreviations: 2-HP-LIR: ncLIR binding either or both HPs with non-canonical residues; AIM: Atg8-family interacting motif; ap. LIR: antiparallel LIR; A.t.; Arabidopsis thaliana; AT5G06830/C53 (A.t.): CDK5RAP3-like protein; Atg8/ATG8: autophagy related 8, in yeast and plants, respectively; ATG8CL: ATG8C-like of Solanum tuberosum (potato); ATG8E: ATG8e of A.t.; Av. num. of contacts: average number of heavy atom contacts; BCL2: BCL2 apoptosis regulator; BNIP3: BCL2 interacting protein 3; CALCOCO2/NDP52: calcium binding and coiled-coil domain 2; CALR: calreticulin; can. LIR: canonical LIR; CDF: cumulative distribution function; CDK5RAP3/C53 (H.s.): CDK5 regulatory subunit associated protein 3; [DE]W[DE]-LIR: TRIM5-like ncLIR; DSK2A: ubiquitin domain-containing protein DSK2a; FUNDC1: FUN14 domain containing 1; GABARAP: GABA type A receptor-associated protein; HP0/1/2: hydrophobic pocket 0/1/2; HP0-LIR: ncLIR engaging HP0; H.s.; Homo sapiens; lcLIR: low-confidence LIR (ncLIR not similar to previously characterized ncLIRs); LDS: LIR-docking site; LIR: LC3-interacting region; LO score: length-weighted fraction of occurrence score; MAP1LC3/LC3: microtubule associated protein 1 light chain 3; MAP1LC3B/LC3B: microtubule associated protein 1 light chain 3 beta; MD: molecular dynamics; MEFV/pyrin: MEFV innate immunity regulator, pyrin; minPAE: minimum PAE; MSA: multiple sequence alignment; ncLIR: non-canonical LIR; NPC: nuclear pore complex; Nup159: nucleoporin 159; NUP214: nucleoporin 214; OPTN: optineurin; other@LDS: other interaction proximal to the LIR-docking site; PAE: predicted aligned error; PDCD6IP: programmed cell death 6 interacting protein; PDF: probability distribution function; pLDDT: predicted local-distance difference test; PLEKHM1: pleckstrin homology and RUN domain containing M1; PTM: post-translational modification; sAIM: shuffled AIM (ncLIR with shuffled motif); seq.: sequence; SIM: SUMO-interacting motif; SLiM: short linear motif; SMN1/SMN: survival of motor neuron 1, telomeric; ST: phosphomimetic; STBD1: starch binding domain 1; STK3: serine/threonine kinase 3; SUMO: small ubiquitin like modifier; TBC1D2/TBC1D2A: TBC1 domain family member 2; TEX264: testis expressed 264, ER-phagy receptor; TRIM5/TRIM5α: tripartite motif-containing protein 5; UDS: UIM-docking site; UIM: ubiquitin-interacting motif; UIMC1/RAP80: ubiquitin interaction motif containing 1; ULK1: unc-51 like autophagy activating kinase 1; ULK2: unc-51 like autophagy activating kinase 2; WT: wild type.

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Stuke JFM, Hummer G

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