SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200321916> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W4200321916 endingPage "34" @default.
W4200321916 startingPage "26" @default.
W4200321916 abstract "Most current biosensors were designed for the detection of individual analytes, or a group of chemically similar analytes. We reason that sensors designed to track both reactants and products might be useful for following chemical reactions. Adenosine triphosphate (ATP) is a key biomolecule that participates in various biochemical reactions, and its hydrolysis plays a fundamental role in life. ATP can be converted to adenosine diphosphate (ADP) and inorganic phosphate (Pi) via the dephosphorylation process. ATP can also be hydrolyzed to adenosine monophosphate (AMP) and pyrophosphate (PPi) through depyrophosphorylation, depending on where the bond is cleaved. The detection of ATP-related hydrolysates would enable a better understanding of the different reaction pathways with a high level of robustness and confidence. Herein, we prepared a fluorescent sensor array based on a series of bimetallic zeolite imidazole frameworks M/ZIF-8 (M = Ni, Mn, Cu) and ZIF-67 to discriminate ATP hydrolysis and detect ATP hydrolysis related analytes. A fluorescently-labeled DNA oligonucleotide was used for signaling. Interestingly, Cu/ZIF-8 exhibited an ultrahigh selectivity for recognizing pyrophosphate with a detection limit of 2.5 μM. Moreover, the practicality of this sensor array was demonstrated in fetal bovine serum, clearly discriminating ATP hydrolysis products." @default.
W4200321916 created "2021-12-31" @default.
W4200321916 creator A5008856171 @default.
W4200321916 creator A5012273973 @default.
W4200321916 creator A5013511140 @default.
W4200321916 creator A5048211859 @default.
W4200321916 creator A5081714493 @default.
W4200321916 creator A5087037080 @default.
W4200321916 date "2022-01-01" @default.
W4200321916 modified "2023-10-18" @default.
W4200321916 title "A sensor array based on DNA-wrapped bimetallic zeolitic imidazolate frameworks for detection of ATP hydrolysis products" @default.
W4200321916 cites W1872001489 @default.
W4200321916 cites W1999118677 @default.
W4200321916 cites W2011871011 @default.
W4200321916 cites W2021727710 @default.
W4200321916 cites W2028295877 @default.
W4200321916 cites W2028905487 @default.
W4200321916 cites W2052366312 @default.
W4200321916 cites W2079737565 @default.
W4200321916 cites W2136057598 @default.
W4200321916 cites W2141939342 @default.
W4200321916 cites W2145170240 @default.
W4200321916 cites W2314321970 @default.
W4200321916 cites W2334989186 @default.
W4200321916 cites W2466894472 @default.
W4200321916 cites W2508816698 @default.
W4200321916 cites W2514674103 @default.
W4200321916 cites W2562847674 @default.
W4200321916 cites W2566850917 @default.
W4200321916 cites W2607909626 @default.
W4200321916 cites W2624824852 @default.
W4200321916 cites W2742763524 @default.
W4200321916 cites W2748556896 @default.
W4200321916 cites W2762208530 @default.
W4200321916 cites W2768401476 @default.
W4200321916 cites W2784087560 @default.
W4200321916 cites W2787815039 @default.
W4200321916 cites W2789242087 @default.
W4200321916 cites W2790724971 @default.
W4200321916 cites W2801745548 @default.
W4200321916 cites W2810638915 @default.
W4200321916 cites W2886877525 @default.
W4200321916 cites W2903954772 @default.
W4200321916 cites W2906723822 @default.
W4200321916 cites W2936388882 @default.
W4200321916 cites W2946231052 @default.
W4200321916 cites W2980985102 @default.
W4200321916 cites W2983170525 @default.
W4200321916 cites W2986748392 @default.
W4200321916 cites W3002084570 @default.
W4200321916 cites W3032967388 @default.
W4200321916 cites W3049289086 @default.
W4200321916 cites W3089021248 @default.
W4200321916 cites W3089950861 @default.
W4200321916 cites W3092697257 @default.
W4200321916 cites W3104365880 @default.
W4200321916 cites W3109370412 @default.
W4200321916 cites W3112378434 @default.
W4200321916 cites W3113017530 @default.
W4200321916 cites W3114840529 @default.
W4200321916 cites W3115481669 @default.
W4200321916 cites W3118501453 @default.
W4200321916 cites W3132706619 @default.
W4200321916 cites W3157133533 @default.
W4200321916 cites W3161236244 @default.
W4200321916 cites W4251036158 @default.
W4200321916 doi "https://doi.org/10.1039/d1nr05982c" @default.
W4200321916 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34897352" @default.
W4200321916 hasPublicationYear "2022" @default.
W4200321916 type Work @default.
W4200321916 citedByCount "6" @default.
W4200321916 countsByYear W42003219162022 @default.
W4200321916 countsByYear W42003219162023 @default.
W4200321916 crossrefType "journal-article" @default.
W4200321916 hasAuthorship W4200321916A5008856171 @default.
W4200321916 hasAuthorship W4200321916A5012273973 @default.
W4200321916 hasAuthorship W4200321916A5013511140 @default.
W4200321916 hasAuthorship W4200321916A5048211859 @default.
W4200321916 hasAuthorship W4200321916A5081714493 @default.
W4200321916 hasAuthorship W4200321916A5087037080 @default.
W4200321916 hasConcept C10390740 @default.
W4200321916 hasConcept C104317684 @default.
W4200321916 hasConcept C119128265 @default.
W4200321916 hasConcept C141315368 @default.
W4200321916 hasConcept C160756335 @default.
W4200321916 hasConcept C161790260 @default.
W4200321916 hasConcept C181199279 @default.
W4200321916 hasConcept C185592680 @default.
W4200321916 hasConcept C21951064 @default.
W4200321916 hasConcept C23265538 @default.
W4200321916 hasConcept C2776043855 @default.
W4200321916 hasConcept C2776991684 @default.
W4200321916 hasConcept C2779564974 @default.
W4200321916 hasConcept C2779876172 @default.
W4200321916 hasConcept C43411465 @default.
W4200321916 hasConcept C43617362 @default.
W4200321916 hasConcept C49853544 @default.
W4200321916 hasConcept C512185932 @default.