AnkPlex: algorithmic structure for refinement of near-native ankyrin-protein docking

Wisitponchai, Tanchanok; Shoombuatong, Watshara; Lee, Vannajan Sanghiran; Kitidee, Kuntida; Tayapiwatana, Chatchai

doi:10.1186/s12859-017-1628-6

Cited by 2 publications

(2 citation statements)

References 34 publications

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“…The 3D structure of Ank GAG G31 and MA were prepared by energy minimization with CHARMm force field and without incorporating solvent and salt concentrations. The algorithm for minimization began using 5,000-step energy minimization with 0.1 Å of rootmean-square deviation (RMSD) and Conjugate Gradient (CONJ) (Chen et al, 2003;Wiehe et al, 2008;Wisitponchai et al, 2017). Following ZDOCK protocol, the variable residues on each repeat of Ank GAG G31 were specified as binding residues, and atoms of MA within the region of binding interface at a distance cutoff of 10 Å were selected (Halperin et al, 2002;Wiehe et al, 2008;Wisitponchai et al, 2013).…”

Section: Molecular Docking Of Ank Gag G31-ma Complexmentioning

confidence: 99%

Selection of Ankyrin Targeting HIV-1 Matrix and Identification of Its Binding Domain

Thongkum¹,

Samerjai²,

Saoin³

et al. 2018

CMUJNS

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Ankyrin repeat protein is a novel class of non-antibody binding protein that can be applied as an alternative antiretroviral agent. Engineered ankyrin targeting the HIV-1 matrix (MA) would be a promising agent to interfere with HIV replication, since MA plays a major role in multiple processes of the viral life cycle. In this study, MA-specific ankyrin (Ank GAG G31) was isolated from an artificial ankyrin library using a semi-automated selection process with biotinylated MA-streptavidin magnetic beads. The Ank GAG G31-recognition site on MA was determined using both indirect and competitive ELISAs with overlapping MA tri-helical fragments and pentadecapeptides. The Ank GAG G31 showed the highest binding signal to the MA -fragments covering helices 2-3-4 and peptides corresponding to helix 2 (residues 25-43), which were found as the target epitope. This finding was further analyzed by molecular modeling and docking. The rational models of Ank GAG G31-MA complex indicated that the strong binding interaction was shown on helix 2 at key residues K27 MA , K30 M , and K32 MA . Taken together, the identification of the binding domain on the MA target improves our understanding of the Ank GAG G31-MA interaction and provides the information necessary to design innovative protein targeting of the MA protein.

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Section: Molecular Docking Of Ank Gag G31-ma Complexmentioning

confidence: 99%

Selection of Ankyrin Targeting HIV-1 Matrix and Identification of Its Binding Domain

Thongkum¹,

Samerjai²,

Saoin³

et al. 2018

CMUJNS

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“…As the functions of proteins are crucially related to their molecular assembly, molecular modelling techniques used to determine binding structures have been comprehensively explored to exemplify possible complex-forming mechanisms 26,27 . An accountable design of novel antibodies together with binding in protein-protein complexes can be initialized using protein docking 28,29 . A predicted HuScFvM61B9-CD147 binding structure from the Schrödinger BioLuminate module was characterized in this study 30 .…”

Section: Introductionmentioning

confidence: 99%

Immunoreactivity of Humanized Single-Chain Variable Fragment Against Its Functional Epitope On Domain 1 of CD147

Intasai¹,

Rangnoi²,

Yamabhai³

et al. 2021

Preprint

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Domain 1 of CD147 participates in matrix metalloproteinase (MMP) production and is a candidate for targeted therapy to prevent cancer invasion and metastasis. A functional mouse anti-CD147 monoclonal antibody, M6-1B9, was found to recognize domain 1 of CD147, and its respective mouse single-chain variable fragment (ScFvM61B9) was subsequently generated. The EDLGS epitope candidate for M6-1B9 was identified using the phage display peptide technique in this study. For future clinical applications, humanized ScFv specific to domain 1 of CD147 (HuScFvM61B9) was partially adopted from the hypervariable sequences of parental mouse ScFvM61B9 and grafted onto suitable human immunoglobulin frameworks. Molecular modelling and simulation were performed in silico to generate the conformational structure of HuScFvM61B9. These results elucidated the amino acid residues that contributed to the interactions between CDRs and the epitope motif. The expressed HuScFvM61B9 specifically interacted with CD147 at the same epitope as the original mAb, M6-1B9, and retained immunoreactivity against CD147 in SupT1 cells. Binding affinity of HuScFvM61B9 by biolayer interferometry was higher than the predicted one. should be considered a potential therapeutic antibody. As domain 1 is responsible for cancer invasion and metastasis, HuScFvM61B9 would be a candidate for cancer targeted therapy in the future.

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AnkPlex: algorithmic structure for refinement of near-native ankyrin-protein docking

Cited by 2 publications

References 34 publications

Selection of Ankyrin Targeting HIV-1 Matrix and Identification of Its Binding Domain

Selection of Ankyrin Targeting HIV-1 Matrix and Identification of Its Binding Domain

Immunoreactivity of Humanized Single-Chain Variable Fragment Against Its Functional Epitope On Domain 1 of CD147

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