SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3169134695> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W3169134695 abstract "Abstract Background The human sweat is a mixture of secretions from three types of glands: eccrine, apocrine, and sebaceous. Eccrine glands open directly on the skin surface and produce high amounts of water-based fluid in response to heat, emotion, and physical activity, whereas the other glands produce oily fluids and waxy sebum. While most body fluids have been shown to contain nucleic acids, both as ribonucleoprotein complexes and associated with extracellular vesicles (EVs), these have not been investigated in sweat. In this study we aimed to explore and characterize the nucleic acids associated with sweat particles. Results We used next generation sequencing (NGS) to characterize DNA and RNA in pooled and individual samples of EV-enriched sweat collected from volunteers performing rigorous exercise. In all sequenced samples, we identified DNA originating from all human chromosomes, but only the mitochondrial chromosome was highly represented with 100% coverage. Most of the DNA mapped to unannotated regions of the human genome with some regions highly represented in all samples. Approximately 5 % of the reads were found to map to other genomes: including bacteria (83%), archaea (3%), and virus (13%), identified bacteria species were consistent with those commonly colonizing the human upper body and arm skin. Small RNA-seq from EV-enriched pooled sweat RNA resulted in 74% of the trimmed reads mapped to the human genome, with 29% corresponding to unannotated regions. Over 70% of the RNA reads mapping to an annotated region were tRNA, while misc. RNA (18,5%), protein coding RNA (5%) and miRNA (1,85%) were much less represented. RNA-seq from individually processed EV-enriched sweat collection generally resulted in fewer percentage of reads mapping to the human genome (7–45%), with 50–60% of those reads mapping to unannotated region of the genome and 30–55% being tRNAs, and lower percentage of reads being rRNA, LincRNA, misc. RNA, and protein coding RNA. Conclusions Our data demonstrates that sweat, as all other body fluids, contains a wealth of nucleic acids, including DNA and RNA of human and microbial origin, opening a possibility to investigate sweat as a source for biomarkers for specific health parameters." @default.
W3169134695 created "2021-06-22" @default.
W3169134695 creator A5001911661 @default.
W3169134695 creator A5015050222 @default.
W3169134695 creator A5018993919 @default.
W3169134695 creator A5026237119 @default.
W3169134695 creator A5026250598 @default.
W3169134695 creator A5031230636 @default.
W3169134695 creator A5039411359 @default.
W3169134695 creator A5046108220 @default.
W3169134695 creator A5048857636 @default.
W3169134695 creator A5049923272 @default.
W3169134695 creator A5050905058 @default.
W3169134695 creator A5061080932 @default.
W3169134695 creator A5069895849 @default.
W3169134695 creator A5085071497 @default.
W3169134695 date "2021-06-09" @default.
W3169134695 modified "2023-10-11" @default.
W3169134695 title "Characterization of nucleic acids from extracellular vesicle-enriched human sweat" @default.
W3169134695 cites W1807400738 @default.
W3169134695 cites W1969353942 @default.
W3169134695 cites W1979724564 @default.
W3169134695 cites W1981888677 @default.
W3169134695 cites W2000908418 @default.
W3169134695 cites W2024572769 @default.
W3169134695 cites W2035824400 @default.
W3169134695 cites W2036649644 @default.
W3169134695 cites W2041463870 @default.
W3169134695 cites W2045204781 @default.
W3169134695 cites W2047885502 @default.
W3169134695 cites W2083516181 @default.
W3169134695 cites W2085926377 @default.
W3169134695 cites W2086722873 @default.
W3169134695 cites W2103017472 @default.
W3169134695 cites W2103441770 @default.
W3169134695 cites W2112192177 @default.
W3169134695 cites W2124985265 @default.
W3169134695 cites W2128711701 @default.
W3169134695 cites W2131271579 @default.
W3169134695 cites W2138207763 @default.
W3169134695 cites W2141458291 @default.
W3169134695 cites W2159954944 @default.
W3169134695 cites W2169456326 @default.
W3169134695 cites W2172194140 @default.
W3169134695 cites W2179538146 @default.
W3169134695 cites W2296282946 @default.
W3169134695 cites W2303656007 @default.
W3169134695 cites W2401065229 @default.
W3169134695 cites W2498411827 @default.
W3169134695 cites W2535321036 @default.
W3169134695 cites W2594599876 @default.
W3169134695 cites W2594844894 @default.
W3169134695 cites W2615498501 @default.
W3169134695 cites W2753060658 @default.
W3169134695 cites W2756293698 @default.
W3169134695 cites W2766975063 @default.
W3169134695 cites W2774233090 @default.
W3169134695 cites W2784164089 @default.
W3169134695 cites W2791007830 @default.
W3169134695 cites W2802602150 @default.
W3169134695 cites W2803377755 @default.
W3169134695 cites W2810035009 @default.
W3169134695 cites W2887329987 @default.
W3169134695 cites W2898440040 @default.
W3169134695 cites W2898731714 @default.
W3169134695 cites W2900756811 @default.
W3169134695 cites W2938912203 @default.
W3169134695 cites W2952611328 @default.
W3169134695 cites W2970195272 @default.
W3169134695 cites W2970663505 @default.
W3169134695 cites W3024409955 @default.
W3169134695 cites W3029489073 @default.
W3169134695 cites W3031938491 @default.
W3169134695 cites W3033656382 @default.
W3169134695 cites W3038136017 @default.
W3169134695 cites W3049610683 @default.
W3169134695 cites W3088087729 @default.
W3169134695 cites W4240924657 @default.
W3169134695 doi "https://doi.org/10.1186/s12864-021-07733-9" @default.
W3169134695 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8188706" @default.
W3169134695 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34103018" @default.
W3169134695 hasPublicationYear "2021" @default.
W3169134695 type Work @default.
W3169134695 sameAs 3169134695 @default.
W3169134695 citedByCount "17" @default.
W3169134695 countsByYear W31691346952022 @default.
W3169134695 countsByYear W31691346952023 @default.
W3169134695 crossrefType "journal-article" @default.
W3169134695 hasAuthorship W3169134695A5001911661 @default.
W3169134695 hasAuthorship W3169134695A5015050222 @default.
W3169134695 hasAuthorship W3169134695A5018993919 @default.
W3169134695 hasAuthorship W3169134695A5026237119 @default.
W3169134695 hasAuthorship W3169134695A5026250598 @default.
W3169134695 hasAuthorship W3169134695A5031230636 @default.
W3169134695 hasAuthorship W3169134695A5039411359 @default.
W3169134695 hasAuthorship W3169134695A5046108220 @default.
W3169134695 hasAuthorship W3169134695A5048857636 @default.
W3169134695 hasAuthorship W3169134695A5049923272 @default.
W3169134695 hasAuthorship W3169134695A5050905058 @default.
W3169134695 hasAuthorship W3169134695A5061080932 @default.