SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3022752316> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W3022752316 endingPage "111069" @default.
W3022752316 startingPage "111069" @default.
W3022752316 abstract "To begin with, it is important to note that biodegradable polypeptides have been extensively applied as drug delivery carriers due to their excellent bioavailability, neglectful toxicity, good encapsulation and controlled release. Thus, a biodegradable and hypoxia-responsive polypeptide is a benefit when synthesized for the intracellular delivery of cytochrome c (CC). In its most positive context, this amphiphilic polypeptide can self-assemble into core/shell-structured micelles and encapsulate CC in their hydrophobic cores. Owing to the presence of hypoxia-responsive chemical bonds, the CC-loaded polymeric micelles (PMs) can potentially target hypoxic tissues (such as tumors) and release the proteins inside the cancer cells. For this reason, these PMs exhibit high protein loading content and efficiency and remain stable in several different kinds of cell culture media under normoxic condition. Moreover, the confocal microscopy indicates that CC-loaded PMs could be effectively uptaken by cancer cells and accelerate endo/lysosomal escape. Most importantly, the CC-loaded PMs show great killing effect to HepG2 liver cancer cells under hypoxic condition, which makes this nano-platform a promising candidate for use with efficient cancer therapy." @default.
W3022752316 created "2020-05-13" @default.
W3022752316 creator A5009872479 @default.
W3022752316 creator A5027994231 @default.
W3022752316 creator A5029860310 @default.
W3022752316 creator A5035677054 @default.
W3022752316 creator A5049872669 @default.
W3022752316 creator A5058196121 @default.
W3022752316 creator A5064842058 @default.
W3022752316 date "2020-09-01" @default.
W3022752316 modified "2023-10-14" @default.
W3022752316 title "Intracellular delivery of cytochrome C using hypoxia-responsive polypeptide micelles for efficient cancer therapy" @default.
W3022752316 cites W1271791717 @default.
W3022752316 cites W1924007993 @default.
W3022752316 cites W1976417809 @default.
W3022752316 cites W1976892064 @default.
W3022752316 cites W1977336508 @default.
W3022752316 cites W1989589605 @default.
W3022752316 cites W2006767105 @default.
W3022752316 cites W2011810742 @default.
W3022752316 cites W2024377992 @default.
W3022752316 cites W2027137358 @default.
W3022752316 cites W2061955697 @default.
W3022752316 cites W2066066172 @default.
W3022752316 cites W2099797949 @default.
W3022752316 cites W2131802255 @default.
W3022752316 cites W2156694810 @default.
W3022752316 cites W2171845176 @default.
W3022752316 cites W2173249787 @default.
W3022752316 cites W2257328744 @default.
W3022752316 cites W2287489801 @default.
W3022752316 cites W2344746583 @default.
W3022752316 cites W2381446770 @default.
W3022752316 cites W2560230036 @default.
W3022752316 cites W2616448250 @default.
W3022752316 cites W2732191012 @default.
W3022752316 cites W2759658096 @default.
W3022752316 cites W2762595071 @default.
W3022752316 cites W2778216804 @default.
W3022752316 cites W2782405156 @default.
W3022752316 cites W2793437963 @default.
W3022752316 cites W2793875453 @default.
W3022752316 cites W2880053940 @default.
W3022752316 cites W2886620535 @default.
W3022752316 cites W2887850450 @default.
W3022752316 cites W2891493209 @default.
W3022752316 cites W2896840767 @default.
W3022752316 cites W2898015788 @default.
W3022752316 cites W2901027097 @default.
W3022752316 cites W2906119091 @default.
W3022752316 cites W2917042151 @default.
W3022752316 cites W2948525863 @default.
W3022752316 cites W2956164232 @default.
W3022752316 cites W2966171483 @default.
W3022752316 cites W2986244674 @default.
W3022752316 cites W2988823664 @default.
W3022752316 cites W2989621275 @default.
W3022752316 cites W2996855738 @default.
W3022752316 cites W4211179700 @default.
W3022752316 doi "https://doi.org/10.1016/j.msec.2020.111069" @default.
W3022752316 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32994015" @default.
W3022752316 hasPublicationYear "2020" @default.
W3022752316 type Work @default.
W3022752316 sameAs 3022752316 @default.
W3022752316 citedByCount "19" @default.
W3022752316 countsByYear W30227523162021 @default.
W3022752316 countsByYear W30227523162022 @default.
W3022752316 countsByYear W30227523162023 @default.
W3022752316 crossrefType "journal-article" @default.
W3022752316 hasAuthorship W3022752316A5009872479 @default.
W3022752316 hasAuthorship W3022752316A5027994231 @default.
W3022752316 hasAuthorship W3022752316A5029860310 @default.
W3022752316 hasAuthorship W3022752316A5035677054 @default.
W3022752316 hasAuthorship W3022752316A5049872669 @default.
W3022752316 hasAuthorship W3022752316A5058196121 @default.
W3022752316 hasAuthorship W3022752316A5064842058 @default.
W3022752316 hasConcept C11268172 @default.
W3022752316 hasConcept C121608353 @default.
W3022752316 hasConcept C12554922 @default.
W3022752316 hasConcept C126322002 @default.
W3022752316 hasConcept C15920480 @default.
W3022752316 hasConcept C178790620 @default.
W3022752316 hasConcept C181389837 @default.
W3022752316 hasConcept C184651966 @default.
W3022752316 hasConcept C185592680 @default.
W3022752316 hasConcept C190283241 @default.
W3022752316 hasConcept C2779820397 @default.
W3022752316 hasConcept C29311851 @default.
W3022752316 hasConcept C2983331546 @default.
W3022752316 hasConcept C521977710 @default.
W3022752316 hasConcept C540031477 @default.
W3022752316 hasConcept C55493867 @default.
W3022752316 hasConcept C67407626 @default.
W3022752316 hasConcept C71924100 @default.
W3022752316 hasConcept C7836513 @default.
W3022752316 hasConcept C79879829 @default.
W3022752316 hasConcept C86803240 @default.
W3022752316 hasConcept C96232424 @default.