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W3127301336 endingPage "736457" @default.
W3127301336 startingPage "736457" @default.
W3127301336 abstract "To investigate the immune defense mechanism of Litopenaeus vannamei (L. vannamei) exposed to high concentration of environmental ammonia-N, PacBio full-length transcriptome and Illumina transcriptome sequencing were performed. After ammonia-N exposure, 24,763 and 32,132 full-length transcripts were obtained, while 4465 and 3022 new genes were annotated at 0 and 6 h after compared to L. vannamei whole genome, respectively. Besides, haemocytes transcriptomes, performed at 0, 6 and 48 h, obtained a total of 1017 differentially expressed genes (DEGs), and among them 160 DEGs related to neuroendocrine-immune (NEI) were screened, of which 40 DEGs have alternative splicing form. The following experiments showed that plasma 5-HT and ACh concentrations increased significantly, and then returned to the initial level at 48 h. Moreover, cell membrane receptors (5-HT7R, ACh7R and Toll3), G-protein effectors (AC2 and PLC) and CaM all significantly upregulated, and nuclear transcription factor NF-кB was significantly downregulated, suggesting that 5-HT can act on AC-PKA, PLC - PKC and PLC - CaM pathways through 5-HT7R, and subsequently function on NF-кB together with ACh through ACh7R pathway to affects downstream effector proteins expression. Toll3 pathway is also activated to participate in signal transduction process simultaneously. Furthermore, the expressions of BGBP, PPO3, C-lectin, ALF, LYC and AIF3 were significantly increased, while Syntaxin and Cubilin were significantly decreased. The corresponding immune defense parameters including the THC, PO activity, haemocytes phagocytosis rate, antibacterial and bacteriolytic activities were significantly decreased. All results indicate that after ammonia-N stress, 5-HT, ACh and Toll3 can transfer signal into haemocytes to affect effector proteins and finally reduce immune defense parameters of L. vannamei. This study contributes to better exploration the immune defense mechanism of crustaceans under ammonia-N stress." @default.
W3127301336 created "2021-02-15" @default.
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W3127301336 date "2021-04-01" @default.
W3127301336 modified "2023-10-02" @default.
W3127301336 title "PacBio full length transcript sequencing and Illumina transcriptome insight into immune defense mechanism of Litopenaeus vannamei under ammonia-N stress" @default.
W3127301336 cites W1862629528 @default.
W3127301336 cites W1968408513 @default.
W3127301336 cites W1969154392 @default.
W3127301336 cites W1971961846 @default.
W3127301336 cites W1974882189 @default.
W3127301336 cites W1978378281 @default.
W3127301336 cites W1986902688 @default.
W3127301336 cites W1987874053 @default.
W3127301336 cites W2010817624 @default.
W3127301336 cites W2026932288 @default.
W3127301336 cites W2028629759 @default.
W3127301336 cites W2043439655 @default.
W3127301336 cites W2056214579 @default.
W3127301336 cites W2061736292 @default.
W3127301336 cites W2069001768 @default.
W3127301336 cites W2073762380 @default.
W3127301336 cites W2084874565 @default.
W3127301336 cites W2096465161 @default.
W3127301336 cites W2102278945 @default.
W3127301336 cites W2106678197 @default.
W3127301336 cites W2107277218 @default.
W3127301336 cites W2109473745 @default.
W3127301336 cites W2117787165 @default.
W3127301336 cites W2127635406 @default.
W3127301336 cites W2130854614 @default.
W3127301336 cites W2134526812 @default.
W3127301336 cites W2160177274 @default.
W3127301336 cites W2187814038 @default.
W3127301336 cites W2246328033 @default.
W3127301336 cites W2277070918 @default.
W3127301336 cites W2298531208 @default.
W3127301336 cites W2337011385 @default.
W3127301336 cites W2400443732 @default.
W3127301336 cites W2533912062 @default.
W3127301336 cites W2534442133 @default.
W3127301336 cites W25506647 @default.
W3127301336 cites W2569269606 @default.
W3127301336 cites W2583377988 @default.
W3127301336 cites W2601346929 @default.
W3127301336 cites W2742707283 @default.
W3127301336 cites W2754421429 @default.
W3127301336 cites W2766696982 @default.
W3127301336 cites W2789459992 @default.
W3127301336 cites W2807551948 @default.
W3127301336 cites W2890986672 @default.
W3127301336 cites W2904076949 @default.
W3127301336 cites W2910191320 @default.
W3127301336 cites W2913984475 @default.
W3127301336 cites W2923300075 @default.
W3127301336 cites W2940238018 @default.
W3127301336 cites W2942370397 @default.
W3127301336 cites W2945980687 @default.
W3127301336 cites W2949540526 @default.
W3127301336 cites W2953428358 @default.
W3127301336 cites W2956646275 @default.
W3127301336 cites W2967457781 @default.
W3127301336 cites W2969068664 @default.
W3127301336 cites W2971925939 @default.
W3127301336 cites W2974721927 @default.
W3127301336 cites W3005459671 @default.
W3127301336 cites W3012258319 @default.
W3127301336 cites W3012535278 @default.
W3127301336 cites W3017156617 @default.
W3127301336 cites W3028095071 @default.
W3127301336 cites W3035914341 @default.
W3127301336 cites W3047211125 @default.
W3127301336 cites W3082916833 @default.
W3127301336 doi "https://doi.org/10.1016/j.aquaculture.2021.736457" @default.
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