SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1985449505> ?p ?o ?g. }

Showing items 1 to 100 of ±104 with 100 items per page.

W1985449505 endingPage "6244" @default.
W1985449505 startingPage "6236" @default.
W1985449505 abstract "Three protease-resistant bioorganic 304 stainless steel surfaces were created through the reaction of synthetic peptides consisting of the D-enantiomeric isomer (D-K122-4), the retro-inverso D-enantiomeric isomer (RI-K122-4), and a combination of the two peptides (D+RI) of the Pseudomonas aeruginosa PilA receptor binding domain with steel surfaces. The peptides used to produce the new materials differ only in handedness of their three-dimensional structure, but they reacted with the steel to yield materials that differed in their surface electron work function (EWF) while displaying an identical chemical composition and equivalent surface adhesive force properties. These surfaces allowed for an assessment of the relative role of surface EWF in initial biofilm formation. We examined the ability of various bacteria (selected strains of Listeria monocytogenes, L. innocua, Staphylococcus aureus and S. epidermidis) to initiate biofilm formation. The D-K1224 generated surface displayed the lowest EWF (classically associated with greater molecular interactions and more extensive biofilm formation) but was observed to be least effectively colonized by bacteria (>50% decrease in bacterial adherence of all strains). The highest surface EWF with the lowest surface free energy (RI-K122-4 generated) was more extensively colonized by bacteria, with the binding of some strains being equivalent to unmodified steel. The D+RI generated surface was least effective in minimizing biofilm formation, where some strains displayed enhanced bacterial colonization. Fluorescent microscopy revealed that the D and RI peptides displayed similar but clearly different binding patterns, suggesting that the peptides recognized different sites on the steel, and that differential binding of the peptides to the steel surfaces influences the binding of different bacterial strains and species. We have demonstrated that stainless steel surfaces can be easily modified by peptides to generate surfaces with new physiochemical properties. The D-K122-4-modified surface substantially decreases biofilm formation compared to the RI-K122-4 and D+RI surfaces." @default.
W1985449505 created "2016-06-24" @default.
W1985449505 creator A5040562565 @default.
W1985449505 creator A5046215674 @default.
W1985449505 creator A5058825945 @default.
W1985449505 creator A5084366321 @default.
W1985449505 creator A5084899345 @default.
W1985449505 creator A5089026355 @default.
W1985449505 date "2013-04-01" @default.
W1985449505 modified "2023-10-16" @default.
W1985449505 title "Evidence of extensive diversity in bacterial adherence mechanisms that exploit unanticipated stainless steel surface structural complexity for biofilm formation" @default.
W1985449505 cites W1492413416 @default.
W1985449505 cites W1538005931 @default.
W1985449505 cites W1570448267 @default.
W1985449505 cites W1732762162 @default.
W1985449505 cites W1974156712 @default.
W1985449505 cites W2013840537 @default.
W1985449505 cites W2014082322 @default.
W1985449505 cites W2016059317 @default.
W1985449505 cites W2016158447 @default.
W1985449505 cites W2017607746 @default.
W1985449505 cites W2018087181 @default.
W1985449505 cites W2021095698 @default.
W1985449505 cites W2028266677 @default.
W1985449505 cites W2035820635 @default.
W1985449505 cites W2044854996 @default.
W1985449505 cites W2049236474 @default.
W1985449505 cites W2050762006 @default.
W1985449505 cites W2052466177 @default.
W1985449505 cites W2065528324 @default.
W1985449505 cites W2077835890 @default.
W1985449505 cites W2081611958 @default.
W1985449505 cites W2082202900 @default.
W1985449505 cites W2085293113 @default.
W1985449505 cites W2091638736 @default.
W1985449505 cites W2096914244 @default.
W1985449505 cites W2103544344 @default.
W1985449505 cites W2112900667 @default.
W1985449505 cites W2119223631 @default.
W1985449505 cites W2122836009 @default.
W1985449505 cites W2129144007 @default.
W1985449505 cites W2147400963 @default.
W1985449505 cites W2155327463 @default.
W1985449505 cites W2157478589 @default.
W1985449505 cites W2160690759 @default.
W1985449505 cites W2325235078 @default.
W1985449505 cites W4237522464 @default.
W1985449505 cites W4240233279 @default.
W1985449505 cites W4377077253 @default.
W1985449505 cites W4378346956 @default.
W1985449505 doi "https://doi.org/10.1016/j.actbio.2012.11.026" @default.
W1985449505 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23212080" @default.
W1985449505 hasPublicationYear "2013" @default.
W1985449505 type Work @default.
W1985449505 sameAs 1985449505 @default.
W1985449505 citedByCount "8" @default.
W1985449505 countsByYear W19854495052014 @default.
W1985449505 countsByYear W19854495052016 @default.
W1985449505 countsByYear W19854495052017 @default.
W1985449505 countsByYear W19854495052019 @default.
W1985449505 countsByYear W19854495052023 @default.
W1985449505 crossrefType "journal-article" @default.
W1985449505 hasAuthorship W1985449505A5040562565 @default.
W1985449505 hasAuthorship W1985449505A5046215674 @default.
W1985449505 hasAuthorship W1985449505A5058825945 @default.
W1985449505 hasAuthorship W1985449505A5084366321 @default.
W1985449505 hasAuthorship W1985449505A5084899345 @default.
W1985449505 hasAuthorship W1985449505A5089026355 @default.
W1985449505 hasConcept C12554922 @default.
W1985449505 hasConcept C185592680 @default.
W1985449505 hasConcept C192562407 @default.
W1985449505 hasConcept C523546767 @default.
W1985449505 hasConcept C54355233 @default.
W1985449505 hasConcept C58123911 @default.
W1985449505 hasConcept C86803240 @default.
W1985449505 hasConceptScore W1985449505C12554922 @default.
W1985449505 hasConceptScore W1985449505C185592680 @default.
W1985449505 hasConceptScore W1985449505C192562407 @default.
W1985449505 hasConceptScore W1985449505C523546767 @default.
W1985449505 hasConceptScore W1985449505C54355233 @default.
W1985449505 hasConceptScore W1985449505C58123911 @default.
W1985449505 hasConceptScore W1985449505C86803240 @default.
W1985449505 hasIssue "4" @default.
W1985449505 hasLocation W19854495051 @default.
W1985449505 hasLocation W19854495052 @default.
W1985449505 hasOpenAccess W1985449505 @default.
W1985449505 hasPrimaryLocation W19854495051 @default.
W1985449505 hasRelatedWork W1997691226 @default.
W1985449505 hasRelatedWork W2001140423 @default.
W1985449505 hasRelatedWork W2094473917 @default.
W1985449505 hasRelatedWork W2271279385 @default.
W1985449505 hasRelatedWork W2347268872 @default.
W1985449505 hasRelatedWork W2352660504 @default.
W1985449505 hasRelatedWork W2899084033 @default.
W1985449505 hasRelatedWork W2997225368 @default.
W1985449505 hasRelatedWork W3036485820 @default.
W1985449505 hasRelatedWork W34608898 @default.
W1985449505 hasVolume "9" @default.