Biased selection of propagation-related TUPs from phage display peptide libraries

Zade, Hesam Motaleb; Keshavarz, Reihaneh; Shekarabi, Hosna Sadat Zahed; Bakhshinejad, Babak

doi:10.1007/s00726-017-2452-z

Cited by 19 publications

(11 citation statements)

References 95 publications

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“…Consequently, these peptides show a higher than expected frequency within the library [53]. By performing fewer rounds of selection, the bias can be reduced by decreasing the loss of relevant sequences [54].…”

Section: Discussionmentioning

confidence: 99%

Recombinant Phages for Spodoptera Frugiperda Control: New Perspectives to Tackle an Economic Problem

Nunes

Mota

Guerra

et al. 2020

BJD

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The Spodoptera frugiperda is an important pest responsible for large productivity losses of maize. Insecticidal proteins from Bacillus thuringiensis have promoted substantial advances for this pest control. However, since the occurrence of resistant insects is challenging this technology, it has become crucial to develop new effective products by using innovative techniques that allow the identification of new molecules. The aim of this study was to select recombinant phages expressing exogenous peptides binders that may act against S. frugiperda. By using Phage Display technology, seven recombinant phages were successfully selected and bound to intestinal proteins. The SfF3 phage demonstrated similarity to the ABC transporter subfamily C2. In in vivo assay, wild-type phage reduced the toxicity of the B. thuringiensis toxin, and SfF3 phage has rescued the mortality of S. frugiperda neonates when used in combination with the toxin. Our innovative study validated the reliability of Phage Display technology as an agribiotechnological approach for pest control, expanding the options to identify new molecules with bioinsecticides activities.

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Section: Discussionmentioning

confidence: 99%

Recombinant Phages for Spodoptera Frugiperda Control: New Perspectives to Tackle an Economic Problem

Nunes

Mota

Guerra

et al. 2020

BJD

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“…The HIAYPRH peptide (Table 4) is an illustrative example of a TUP that somehow remains overlooked by numerous research groups up until now. It was first reported by Lee [28] in 2001 as a TfR ligand but in 2007 Brammer and co-workers [29] demonstrated that it was actually a TUP and later on it was also listed as a TUP in some reviews on this topic [24][25][26]. Furthermore, 30 entries can be found in the BDB for 21 different targets, clearly supporting that it is indeed a TUP.…”

Section: Limitations Of Phage Display and Targeted Deliverymentioning

confidence: 90%

“…Secondly, phage display can be biased, and it is common to come across target unrelated peptides (TUPs) [23][24][25][26]. These motifs do not bind the actual target, but other elements in the system, mostly the polystyrene of which common labware is made, bovine serum albumin, streptavidin, antibodies and bivalent metal ions.…”

Section: Limitations Of Phage Display and Targeted Deliverymentioning

confidence: 99%

Phage-displayed peptides targeting specific tissues and organs

Andrieu

Russo

Nicotra

2018

Journal of Drug Targeting

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Phage display is a powerful and widely used technique to find novel peptide ligands. A massive amount of peptide sequences have been identified for all kinds of materials, and peptides that may have targeting capabilities towards specific cells and tissues have received special attention in biomedical sciences. As a result, it is increasingly harder to follow all the work that has been done, which sometimes leads to many promising ligands receiving little attention, together with the publication of false positives that have already been found. The aim of this review is to provide an updated and comprehensive list of phage-displayed peptides targeting different tissues and organs. The limitations of the technique are carefully analysed and the future perspectives envisaged. ARTICLE HISTORY

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“…However, it suffers a lot from all kinds of false positive peptides, which do not bind to or only bind to the target non-specifically. These peptides are so-called targetunrelated peptides (TUP) [37][38][39][40]. With recent advances on bioinformatics studies in this field, there are currently a series of computational resources that can help to deal with this problem [41].…”

Section: Figure 2 Schematic Diagram Of Romiplostimmentioning

confidence: 99%

Molecular Design of Peptide-Fc Fusion Drugs

Lin

Zhou

et al. 2019

CDM

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Peptide-Fc fusion drugs are a category of biological therapeutics in which the Fc region of an antibody is genetically fused to a peptide of interest. In this review, we summarize the key steps in peptide-Fc fusion technology and stress the main computational resources, tools, and methods that have been used in the rational design of peptide-Fc fusion drugs. Additionally, open questions about the computer-aided molecular design of peptide-Fc are raised. Answers to these questions by future research will certainly help make the transition from peptide leads to drugs on the market quicker and cheaper.

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Biased selection of propagation-related TUPs from phage display peptide libraries

Cited by 19 publications

References 95 publications

Recombinant Phages for Spodoptera Frugiperda Control: New Perspectives to Tackle an Economic Problem

Recombinant Phages for Spodoptera Frugiperda Control: New Perspectives to Tackle an Economic Problem

Phage-displayed peptides targeting specific tissues and organs

Molecular Design of Peptide-Fc Fusion Drugs

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