Ancy Thomas scite author profile

Fibres from human hair and wool are characterised by two main types of proteins: intermediate filament proteins (IFPs) and keratin associated proteins (KAPs). The IFPs, comprising over 50% of the fibre, tend to dominate 2-D electrophoretic maps, hindering identification of the less-abundant KAPs. This has been compounded in wool fibres by the relatively limited amount of sequence information available, with approximately 35 distinct protein sequences from ten KAP families being available, in contrast to human hair, where the sequences from well over 80 proteins from 26 KAP families are known. Additional complications include the high degree of homology within these families, ranging from 70 to 95%, and the dominance of cysteine residues in a number of KAP families with their high propensity to form cross-links. The lack of sequence information for wool KAPs has been partly overcome through the recent acquisition of new sequences. Fractionation of the proteins on the basis of their solubility with pH, urea and DTT concentration has resulted in protein extracts in which the IFP concentration has been considerably reduced. These improvements have enabled the identification of low-abundance proteins in 2-D electrophoretic maps and represent a significant advance in our knowledge of the wool proteome.

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A Multi-Bioassay Integrated Approach to Assess the Antifouling Potential of the Cyanobacterial Metabolites Portoamides

Antunes

Pereira

Ribeiro

et al. 2019

Marine Drugs

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The cyclic peptides portoamides produced by the cyanobacterium Phormidium sp. LEGE 05292 were previously isolated and their ability to condition microcommunities by allelopathic effect was described. These interesting bioactive properties are, however, still underexplored as their biotechnological applications may be vast. This study aims to investigate the antifouling potential of portoamides, given that a challenge in the search for new environmentally friendly antifouling products is to find non-toxic natural alternatives with the ability to prevent colonization of different biofouling species, from bacteria to macroinvertebrates. A multi-bioassay approach was applied to assess portoamides antifouling properties, marine ecotoxicity and molecular mode of action. Results showed high effectiveness in the prevention of mussel larvae settlement (EC50 = 3.16 µM), and also bioactivity towards growth and biofilm disruption of marine biofouling bacterial strains, while not showing toxicity towards both target and non-target species. Antifouling molecular targets in mussel larvae include energy metabolism modifications (failure in proton-transporting ATPases activity), structural alterations of the gills and protein and gene regulatory mechanisms. Overall, portoamides reveal a broad-spectrum bioactivity towards diverse biofouling species, including a non-toxic and reversible effect towards mussel larvae, showing potential to be incorporated as an active ingredient in antifouling coatings.

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Electrophoretic mapping of highly homologous keratins: A novel marker peptide approach

et al. 2010

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Identification of the intermediate filament proteins (IFPs) in the wool proteome has formerly been hampered by limited sequence information, the high degree of IFP homology and their close proximity on 2-DE maps. This has been partially rectified by the recent acquisition of four new Type I and two Type II wool IFP sequences. Among closely migrating proteins, such as IFP clusters in a 2-DE map, proteins with higher sequence coverage will be assigned higher scores, but the identification of unique peptides in such tight clusters may distinguish these closely migrating proteins. Two approaches were adopted for the study of wool IFPs. In the first, searches were conducted for peptides known to be unique to each member of the family in each spot. In the second, MALDI imaging was employed to examine peptides bound to a PVDF membrane from a poorly resolved part of the Type I IFP region of the 2-DE map. As a result, a distinct picture has emerged of the distribution of the six Type I and four Type II IFPs across the 2-DE wool protein map.

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Ancy Thomas

Human Breast Milk and Infant Formulas Differentially Modify the Intestinal Microbiota in Human Infants and Host Physiology in Rats

Developing the wool proteome

Characterisation of low abundance wool proteins through novel differential extraction techniques

A Multi-Bioassay Integrated Approach to Assess the Antifouling Potential of the Cyanobacterial Metabolites Portoamides

Electrophoretic mapping of highly homologous keratins: A novel marker peptide approach

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