SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2271213700> ?p ?o ?g. }

Showing items 1 to 100 of ±111 with 100 items per page.

W2271213700 endingPage "3081" @default.
W2271213700 startingPage "3075" @default.
W2271213700 abstract "In recent years, microRNAs (miRNAs) have emerged as promising diagnostic markers because of their unique dysregulation patterns under various disease conditions and high stability in biological fluids. However, current methods of analyzing miRNA levels typically require RNA isolation, which is cumbersome and time-consuming. To achieve high-throughput and accurate miRNA profiling, this study eliminates the need for purification steps by detecting miRNA directly from raw cellular lysate using nonfouling polyethylene glycol microparticles. In contrast to recent studies on direct miRNA measurements from cell lysate, our hydrogel-based system provides high-confidence quantification with robust performance. The lysis buffer for the assay was optimized to maximize reaction and labeling efficiency, and this assay has a low limit of detection (<1000 cells) without target amplification. Additionally, the capability for multiplexing was demonstrated through analyzing the levels of three endogenous miRNAs in 3T3 cell lysate. This versatile platform holds great potential for rapid and reliable direct miRNA quantification in complex media, and can be further extended to single-cell analysis by exploiting the flexibility and scalability of our system." @default.
W2271213700 created "2016-06-24" @default.
W2271213700 creator A5002662971 @default.
W2271213700 creator A5013881423 @default.
W2271213700 creator A5032391254 @default.
W2271213700 creator A5074191182 @default.
W2271213700 date "2016-02-22" @default.
W2271213700 modified "2023-09-24" @default.
W2271213700 title "Encoded Hydrogel Microparticles for Sensitive and Multiplex microRNA Detection Directly from Raw Cell Lysates" @default.
W2271213700 cites W1567942562 @default.
W2271213700 cites W1963906441 @default.
W2271213700 cites W1978268874 @default.
W2271213700 cites W1978988986 @default.
W2271213700 cites W1981820131 @default.
W2271213700 cites W1982810690 @default.
W2271213700 cites W1984164149 @default.
W2271213700 cites W1994248946 @default.
W2271213700 cites W1995550165 @default.
W2271213700 cites W2002664737 @default.
W2271213700 cites W2002995168 @default.
W2271213700 cites W2017971576 @default.
W2271213700 cites W2019812252 @default.
W2271213700 cites W2020591166 @default.
W2271213700 cites W2024206172 @default.
W2271213700 cites W2024360391 @default.
W2271213700 cites W2027571016 @default.
W2271213700 cites W2028008883 @default.
W2271213700 cites W2037890460 @default.
W2271213700 cites W2039342356 @default.
W2271213700 cites W2040153845 @default.
W2271213700 cites W2051561177 @default.
W2271213700 cites W2053161513 @default.
W2271213700 cites W2057782935 @default.
W2271213700 cites W2062752859 @default.
W2271213700 cites W2076594820 @default.
W2271213700 cites W2082005641 @default.
W2271213700 cites W2099142844 @default.
W2271213700 cites W2099540110 @default.
W2271213700 cites W2102946765 @default.
W2271213700 cites W2105679485 @default.
W2271213700 cites W2106045450 @default.
W2271213700 cites W2114016363 @default.
W2271213700 cites W2122763604 @default.
W2271213700 cites W2128513083 @default.
W2271213700 cites W2143360356 @default.
W2271213700 cites W2158341077 @default.
W2271213700 cites W2170514882 @default.
W2271213700 cites W2317657271 @default.
W2271213700 cites W2324883063 @default.
W2271213700 doi "https://doi.org/10.1021/acs.analchem.5b03902" @default.
W2271213700 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26863201" @default.
W2271213700 hasPublicationYear "2016" @default.
W2271213700 type Work @default.
W2271213700 sameAs 2271213700 @default.
W2271213700 citedByCount "55" @default.
W2271213700 countsByYear W22712137002016 @default.
W2271213700 countsByYear W22712137002017 @default.
W2271213700 countsByYear W22712137002018 @default.
W2271213700 countsByYear W22712137002019 @default.
W2271213700 countsByYear W22712137002020 @default.
W2271213700 countsByYear W22712137002021 @default.
W2271213700 countsByYear W22712137002022 @default.
W2271213700 countsByYear W22712137002023 @default.
W2271213700 crossrefType "journal-article" @default.
W2271213700 hasAuthorship W2271213700A5002662971 @default.
W2271213700 hasAuthorship W2271213700A5013881423 @default.
W2271213700 hasAuthorship W2271213700A5032391254 @default.
W2271213700 hasAuthorship W2271213700A5074191182 @default.
W2271213700 hasBestOaLocation W22712137002 @default.
W2271213700 hasConcept C104317684 @default.
W2271213700 hasConcept C145059251 @default.
W2271213700 hasConcept C185592680 @default.
W2271213700 hasConcept C2781188995 @default.
W2271213700 hasConcept C55493867 @default.
W2271213700 hasConcept C57409179 @default.
W2271213700 hasConcept C60644358 @default.
W2271213700 hasConcept C70721500 @default.
W2271213700 hasConcept C86803240 @default.
W2271213700 hasConceptScore W2271213700C104317684 @default.
W2271213700 hasConceptScore W2271213700C145059251 @default.
W2271213700 hasConceptScore W2271213700C185592680 @default.
W2271213700 hasConceptScore W2271213700C2781188995 @default.
W2271213700 hasConceptScore W2271213700C55493867 @default.
W2271213700 hasConceptScore W2271213700C57409179 @default.
W2271213700 hasConceptScore W2271213700C60644358 @default.
W2271213700 hasConceptScore W2271213700C70721500 @default.
W2271213700 hasConceptScore W2271213700C86803240 @default.
W2271213700 hasFunder F4320337351 @default.
W2271213700 hasIssue "6" @default.
W2271213700 hasLocation W22712137001 @default.
W2271213700 hasLocation W22712137002 @default.
W2271213700 hasLocation W22712137003 @default.
W2271213700 hasOpenAccess W2271213700 @default.
W2271213700 hasPrimaryLocation W22712137001 @default.
W2271213700 hasRelatedWork W1909872655 @default.
W2271213700 hasRelatedWork W1972785590 @default.
W2271213700 hasRelatedWork W2046406569 @default.
W2271213700 hasRelatedWork W2061864029 @default.