SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3212127622> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W3212127622 abstract "Recent advances in carbohydrate chemistry, chemical biology, and mass spectrometric techniques have opened the door to rapid progress in uncovering the function and diversity of glycan structures associated with human health and disease. These strategies can be equally well applied to advance non-human health care research. To date, the glycomes of only a handful of non-human, non-domesticated vertebrates have been analyzed in depth due to the logistic complications associated with obtaining or handling wild-caught or farm-raised specimens. In contrast, the last 2 decades have seen advances in proteomics, glycoproteomics, and glycomics that have significantly advanced efforts to identify human serum/plasma biomarkers for various diseases. In this study, we investigated N-glycan structural diversity in serum harvested from five cultured fish species. This biofluid is a useful starting point for glycomic analysis because it is rich in glycoproteins, can be acquired in a sustainable fashion, and its contents reflect dynamic physiologic changes in the organism. Sera acquired from two chondrostrean fish species, the Atlantic sturgeon and shortnose sturgeon, and three teleost fish species, the Atlantic salmon, Arctic char, and channel catfish, were delipidated by organic extraction and the resulting protein-rich preparations sequentially treated with trypsin and PNGaseF to generate released N-glycans for structural analysis. Released N-glycans were analyzed as their native or permethylated forms by nanospray ionization mass spectrometry in negative or positive mode. While the basic biosynthetic pathway that initiates the production of glycoprotein glycan core structures is well-conserved across the teleost fish species examined in this study, species-specific structural differences were detected across the five organisms in terms of their monosaccharide composition, sialylation pattern, fucosylation, and degree of O-acetylation. Our methods and results provide new contributions to a growing library of datasets describing fish N-glycomes that can eventually establish species-normative baselines for assessing N-glycosylation dynamics associated with pathogen invasion, environmental stress, and fish immunologic responses." @default.
W3212127622 created "2021-11-22" @default.
W3212127622 creator A5016397939 @default.
W3212127622 creator A5025674050 @default.
W3212127622 creator A5028553584 @default.
W3212127622 creator A5033294094 @default.
W3212127622 creator A5043688508 @default.
W3212127622 creator A5068753999 @default.
W3212127622 date "2021-11-10" @default.
W3212127622 modified "2023-09-26" @default.
W3212127622 title "Serum N-Glycome Diversity in Teleost and Chondrostrean Fishes" @default.
W3212127622 cites W1500876588 @default.
W3212127622 cites W1524780880 @default.
W3212127622 cites W1830480933 @default.
W3212127622 cites W1963590909 @default.
W3212127622 cites W1963630241 @default.
W3212127622 cites W1976830636 @default.
W3212127622 cites W1981134537 @default.
W3212127622 cites W1999202201 @default.
W3212127622 cites W2009395932 @default.
W3212127622 cites W2018042261 @default.
W3212127622 cites W2024191848 @default.
W3212127622 cites W2028546109 @default.
W3212127622 cites W2033228999 @default.
W3212127622 cites W2033319529 @default.
W3212127622 cites W2034087823 @default.
W3212127622 cites W2056564376 @default.
W3212127622 cites W2063225948 @default.
W3212127622 cites W2071278881 @default.
W3212127622 cites W2088999944 @default.
W3212127622 cites W2091185662 @default.
W3212127622 cites W2101809168 @default.
W3212127622 cites W2107952484 @default.
W3212127622 cites W2115000262 @default.
W3212127622 cites W2115204722 @default.
W3212127622 cites W2117094435 @default.
W3212127622 cites W2120143765 @default.
W3212127622 cites W2130335997 @default.
W3212127622 cites W2130942451 @default.
W3212127622 cites W2133059255 @default.
W3212127622 cites W2137259658 @default.
W3212127622 cites W2139053198 @default.
W3212127622 cites W2146092834 @default.
W3212127622 cites W2154035365 @default.
W3212127622 cites W2162764916 @default.
W3212127622 cites W2169011607 @default.
W3212127622 cites W2179285997 @default.
W3212127622 cites W2230253643 @default.
W3212127622 cites W2306311420 @default.
W3212127622 cites W2337283254 @default.
W3212127622 cites W2339450429 @default.
W3212127622 cites W2415222449 @default.
W3212127622 cites W2493345780 @default.
W3212127622 cites W2555188306 @default.
W3212127622 cites W2575240265 @default.
W3212127622 cites W2791242127 @default.
W3212127622 cites W2800464920 @default.
W3212127622 cites W2884678658 @default.
W3212127622 cites W2895454405 @default.
W3212127622 cites W2899028732 @default.
W3212127622 cites W2901454187 @default.
W3212127622 cites W2921720387 @default.
W3212127622 cites W2962516949 @default.
W3212127622 cites W3010207651 @default.
W3212127622 cites W3018393292 @default.
W3212127622 cites W3104349756 @default.
W3212127622 cites W3107129670 @default.
W3212127622 cites W3113333208 @default.
W3212127622 cites W58870600 @default.
W3212127622 doi "https://doi.org/10.3389/fmolb.2021.778383" @default.
W3212127622 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8631502" @default.
W3212127622 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34859056" @default.
W3212127622 hasPublicationYear "2021" @default.
W3212127622 type Work @default.
W3212127622 sameAs 3212127622 @default.
W3212127622 citedByCount "0" @default.
W3212127622 crossrefType "journal-article" @default.
W3212127622 hasAuthorship W3212127622A5016397939 @default.
W3212127622 hasAuthorship W3212127622A5025674050 @default.
W3212127622 hasAuthorship W3212127622A5028553584 @default.
W3212127622 hasAuthorship W3212127622A5033294094 @default.
W3212127622 hasAuthorship W3212127622A5043688508 @default.
W3212127622 hasAuthorship W3212127622A5068753999 @default.
W3212127622 hasBestOaLocation W32121276221 @default.
W3212127622 hasConcept C106686826 @default.
W3212127622 hasConcept C108625454 @default.
W3212127622 hasConcept C158650290 @default.
W3212127622 hasConcept C206212055 @default.
W3212127622 hasConcept C2778189562 @default.
W3212127622 hasConcept C2778949639 @default.
W3212127622 hasConcept C2779715253 @default.
W3212127622 hasConcept C2909208804 @default.
W3212127622 hasConcept C505870484 @default.
W3212127622 hasConcept C55493867 @default.
W3212127622 hasConcept C70721500 @default.
W3212127622 hasConcept C86803240 @default.
W3212127622 hasConcept C90856448 @default.
W3212127622 hasConceptScore W3212127622C106686826 @default.
W3212127622 hasConceptScore W3212127622C108625454 @default.
W3212127622 hasConceptScore W3212127622C158650290 @default.