SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385728910> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W4385728910 endingPage "106128" @default.
W4385728910 startingPage "106128" @default.
W4385728910 abstract "Nanoplastics (NPs) and heavy metals are typical marine pollutants, affecting the gut microbiota composition and molting rate of marine organisms. Currently, there is a lack of research on the toxicological effects of combined exposure to horseshoe crabs. In this study, we investigated the effects of NPs and copper on the expression of molt-related genes and gut microbiome in juvenile tri-spine horseshoe crabs Tachypleus tridentatus by exposing them to NPs (100 nm, 104 particles L-1) and/or Cu2+ (10 μgL-1) in seawater for 21 days. Compared with the control group, the relative mRNA expression of ecdysone receptor (EcR), retinoid x receptor (RXR), calmodulin-A-like isoform X1 (CaM X1), and heat shock 70 kDa protein (Hsp70) were significantly increased under the combined stress of NPs and Cu2+. There were no significant differences in the diversity and abundance indices of the gut microbial population of horseshoe crabs between the NPs and/or Cu2+ groups and the control group. According to linear discriminant analysis, Oleobacillus was the most abundant microorganism in the NPs and Cu2+ stress groups. These results indicate that exposure to either NPs stress alone or combined NPs and Cu2+ stress can promote the expression levels of juvenile molting genes. NPs exposure has a greater impact on the gut microbial community structure of juvenile horseshoe crabs compared to Cu2+ exposure. This study is helpful for predicting the growth and development of horseshoe crabs under complex environmental pollution." @default.
W4385728910 created "2023-08-11" @default.
W4385728910 creator A5002696909 @default.
W4385728910 creator A5023958460 @default.
W4385728910 creator A5027200482 @default.
W4385728910 creator A5050381865 @default.
W4385728910 creator A5062227453 @default.
W4385728910 creator A5066183558 @default.
W4385728910 creator A5068526012 @default.
W4385728910 creator A5080865186 @default.
W4385728910 creator A5081252008 @default.
W4385728910 date "2023-10-01" @default.
W4385728910 modified "2023-10-18" @default.
W4385728910 title "Response of moulting genes and gut microbiome to nano-plastics and copper in juvenile horseshoe crab Tachypleus tridentatus" @default.
W4385728910 cites W1647551795 @default.
W4385728910 cites W1874417766 @default.
W4385728910 cites W1968623483 @default.
W4385728910 cites W1970127992 @default.
W4385728910 cites W1973754912 @default.
W4385728910 cites W1974487083 @default.
W4385728910 cites W1983366655 @default.
W4385728910 cites W1986742165 @default.
W4385728910 cites W1989352236 @default.
W4385728910 cites W1991413696 @default.
W4385728910 cites W1996518942 @default.
W4385728910 cites W2000722718 @default.
W4385728910 cites W2002221622 @default.
W4385728910 cites W2008124876 @default.
W4385728910 cites W2032818780 @default.
W4385728910 cites W2034598535 @default.
W4385728910 cites W2053135346 @default.
W4385728910 cites W2060859807 @default.
W4385728910 cites W2068330078 @default.
W4385728910 cites W2073266314 @default.
W4385728910 cites W2076636149 @default.
W4385728910 cites W2079117335 @default.
W4385728910 cites W2107277218 @default.
W4385728910 cites W2117727476 @default.
W4385728910 cites W2126452774 @default.
W4385728910 cites W2133454560 @default.
W4385728910 cites W2140164555 @default.
W4385728910 cites W2141261198 @default.
W4385728910 cites W2146503791 @default.
W4385728910 cites W2150979230 @default.
W4385728910 cites W2154882440 @default.
W4385728910 cites W2157312423 @default.
W4385728910 cites W2158991067 @default.
W4385728910 cites W2167062509 @default.
W4385728910 cites W2167379079 @default.
W4385728910 cites W2170078671 @default.
W4385728910 cites W2171851296 @default.
W4385728910 cites W2323195965 @default.
W4385728910 cites W2339634788 @default.
W4385728910 cites W2340862543 @default.
W4385728910 cites W2346464367 @default.
W4385728910 cites W2413207665 @default.
W4385728910 cites W2480501601 @default.
W4385728910 cites W2521965455 @default.
W4385728910 cites W2561351090 @default.
W4385728910 cites W2593100065 @default.
W4385728910 cites W2606556641 @default.
W4385728910 cites W2781826559 @default.
W4385728910 cites W2790132186 @default.
W4385728910 cites W2802405821 @default.
W4385728910 cites W2807892760 @default.
W4385728910 cites W2890760682 @default.
W4385728910 cites W2894937305 @default.
W4385728910 cites W2895314316 @default.
W4385728910 cites W2899082995 @default.
W4385728910 cites W2901527430 @default.
W4385728910 cites W2902315967 @default.
W4385728910 cites W2944177977 @default.
W4385728910 cites W2946566284 @default.
W4385728910 cites W2946746042 @default.
W4385728910 cites W2953531740 @default.
W4385728910 cites W2958449683 @default.
W4385728910 cites W2969511417 @default.
W4385728910 cites W2981484227 @default.
W4385728910 cites W3020484294 @default.
W4385728910 cites W3028794856 @default.
W4385728910 cites W3038838249 @default.
W4385728910 cites W3046413316 @default.
W4385728910 cites W3088567353 @default.
W4385728910 cites W3131358478 @default.
W4385728910 cites W3149781359 @default.
W4385728910 cites W3156431013 @default.
W4385728910 cites W3176413426 @default.
W4385728910 cites W3203915409 @default.
W4385728910 cites W3210951874 @default.
W4385728910 cites W4212794944 @default.
W4385728910 cites W4212949895 @default.
W4385728910 cites W4220655793 @default.
W4385728910 cites W4280563726 @default.
W4385728910 cites W4286598269 @default.
W4385728910 cites W4294243467 @default.
W4385728910 cites W4309715582 @default.
W4385728910 cites W4365150520 @default.
W4385728910 doi "https://doi.org/10.1016/j.marenvres.2023.106128" @default.