Sigang Fan

Highly expressed EGFR in pearl sac may facilitate the pearl formation in the pearl oyster, Pinctada fucata.

Epidermal growth factor receptor (EGFR) plays an important role in cell growth, proliferation, differentiation and migration. Yet whether it functions in pearl formation or not is not reported. In this study, EGFR was cloned from the pearl oyster Pinctada fucata (named as Pf-EGFR) and its expression profiles were investigated. The cDNA was 2156bp long with an ORF of 1017bp encoding 338 amino acid residues. The deduced polypeptide contained an L domain and a cysteine-rich domain, consistent with the characteristics of ErbB family. The sequence of Pf-EGFR shared 22.78-56.71% identity with other EGFRs. The genomic sequence of Pf-EGFR consisted of six exons and five introns, being 5190bp in total length, and expressed in all the tested tissues with a higher expression level in the pearl sac (P<0.05). In situ hybridization showed that Pf-EGFR was specifically expressed on both the inner side of the outer fold and the outer side of the inner fold of the mantle, as well as on the whole pearl sac including the connective tissues. In addition, Pf-EGFR was markedly increased at larval metamorphosis, significantly higher than other development periods (P<0.05). These results indicated that the Pf-EGFR may facilitate pearl formation as well as larval metamorphosis.

Expression profiles and interaction suggest TBK1 can be regulated by Nrdp1 in response to immune stimulation in large yellow croaker Larimichthys crocea

TBK1 has been extensively studied in mammals because of its important roles as a molecular bridge, linking the TLRs (TLR3 and TLR4) and RLRs signals to activate transcriptional factors IRF3 and IRF7 for IFN-I production. However, the information on molecular and functional characteristics of TBK1 in teleosts is limited. In this study, the molecular characterization and immune response of TBK1 in Larimichthys crocea (named as LcTBK1) as well as its interaction with Nrdp1 were investigated. Sequence analysis demonstrated that LcTBK1 included four functional motifs, the N-terminal protein kinase domain and ATP-binding site, middle ULD and C-terminal coiled-coil domain. The tissue expression profiles indicated that LcTBK1 gene was constitutively expressed in the twelve tissues examined, with high expression in brain. Temporal expression analysis showed that LcTBK1 mRNA was obviously increased in the liver after injection of LPS, Poly I:C and inactive Vibrio parahaemolyticus, however, declined at some time points in spleen and head-kidney. Furthermore, we found that LcTBK1 can interact with LcNrdp1, an E3 ubiquitin ligase that involved in immune response to Cryptocaryon irritans infection in L. crocea. The qPCR showed that LcNrdp1 was also significantly up-regulated in liver, down-regualted at some time points in spleen and head-kidney after LPS, Poly I:C and inactive V. parahaemolyticus injection, although the expression patterns of the two genes after the three treatments were different in change magnitude and up-regulation timespan. These results suggested that LcTBK1 was involved in L. crocea defense against the pathogen infection and can be regulated by Nrdp1 in PPRs signaling pathway of fishes.

Differentially expressed immune-related genes in hemocytes of the pearl oyster Pinctada fucata against allograft identified by transcriptome analysis

ABSTRACT The pearl oyster Pinctada fucata is commonly cultured for marine pearls in China. To culture pearls, a mantle piece from a donor pearl oyster is grafted with a nucleus into a receptor. This transplanted mantle piece may be rejected by the immune system of the recipient oyster, thus reducing the success of transplantation. However, there have been limited studies about the oysters immune defense against allograft. In this study, hemocyte transcriptome analysis was performed to detect the immune responses to allograft in P. fucata at 0 h and 48 h after a transplant. The sequencing reaction produced 92.5 million reads that were mapped against the reference genome sequences of P. fucata. The Gene Ontology (GO) annotation and the Kyoto Encyclopedia of Genes and Genomes (KEGG) were used to identify all immune‐related differentially expressed genes (DEGs). Compared with patterns at 0 h, a total of 798 DEGs were identified, including 410 up‐regulated and 388 down‐regulated genes at 48 h. The expression levels of interleukin receptor and toll‐like receptor in hemocytes were increased significantly 48 h post‐transplant, indicating that the oyster immune response was induced. Finally, altered levels of 18 randomly selected immune‐related DEGs were confirmed by quantitative real‐time PCR (qRT‐PCR). Our results provide the basis for further analysis of the immune rejection of allotransplantation. HighlightsImmune molecules was identified in pearl oyster Pinctada fucata after transplantation.Compared with patterns at 0 h, a total of 798 DEGs were identified, at 48 h post transplantation.Acute Phase Proteins, like HSPs and Mts were expressed in the 0 h‐48 h after transplantation.Toll‐like receptor, Endocytosis and Apoptosis signal pathway play significant roles in the allograft immune mechanism.

Serum immune response of pearl oyster Pinctada fucata to xenografts and allografts

ABSTRACT The mantle piece from the donor pearl oyster would be rejected by the immune system of recipient oyster in pearl culture practice, especially in the case that the donor and receptor are different species. Thus, investigation of the immune response of recipient oyster to grafted mantle pieces, particularly to xenografts, is of importance in creating xenograft transplantation technology for pearl culture industry. The humoral immune responses of P. fucata to allograft (mantle piece of P. fucata) and xenografts (mantle pieces of P. maxima and P. margaritifera, respectively) were studied in this paper. The oysters receiving no transplantations were served as the control group. The serum was collected from recipient P. fucata at 1 d, 2 d, 3 d, 4 d, 5 d, 7 d, 9 d, 11 d, 13 d, and 15 d, respectively after transplantation, and the serum antibacterial activity, lysozyme activity (LZM), alkaline phosphatase (AKP), acid phosphatase (ACP), total antioxidant capacity (TAC), and agglutination to rabbit red blood cells were investigated. The result indicated that serum of both the experimental groups and the control group can agglutinate rabbit red blood cells, with variation between groups and between time points, respectively. The antibacterial activity in the experimental group was significantly higher than that in the control group at 2–4 d, but lower at 5–11 d and returned back to normal at 15 d, with significant differences among experimental groups (P < 0.05). The LZM in the experimental group was significantly higher than that in the control group at 3–7 d, with significant differences in bacteriolytic activity among various groups (P < 0.05). Both the ACP and AKP activity levels in the experimental groups were higher than those in the control group at 2–9 d, with significant differences among various groups at 3–9 d (P < 0.05). The TAC level in the experimental groups was higher than that in the control group at 1–7 d, with significant differences among various groups at 4–7 d (P < 0.05). The above results indicated that all of the humoral immune factors investigated showed immune responses to both allografts and xenografts, with no specific to any of them. Thus, it is necessary to further screen immune rejection factors specific to xenografts, including cellular immune components. HighlightsFew research studys on the xenotransplantation mechanism of pearl culture up to now.Enzymes activities and aggregation effect of the recipient oyster serum were studied.P. fucata have immune response to both xenografts and allografts in varying degree.

Differential Gene Expression during Larval Metamorphic Development in the Pearl Oyster, Pinctada fucata, Based on Transcriptome Analysis

P. fucata experiences a series of transformations in appearance, from swimming larvae to sessile juveniles, during which significant changes in gene expression likely occur. Thus, P. fucata could be an ideal model in which to study the molecular mechanisms of larval metamorphosis during development in invertebrates. To study the molecular driving force behind metamorphic development in larvae of P. fucata, transcriptomes of five larval stages (trochophore, D-shape, umbonal, eyespots, and spats) were sequenced using an Illumina HiSeq™ 2000 system and assembled and characterized with the transcripts of six tissues. As a result, a total of 174,126 unique transcripts were assembled and 60,999 were annotated. The number of unigenes varied among the five larval stages. Expression profiles were distinctly different between trochophore, D-shape, umbonal, eyespots, and spats larvae. As a result, 29 expression trends were sorted, of which eight were significant. Among others, 80 development-related, differentially expressed unigenes (DEGs) were identified, of which the majority were homeobox-containing genes. Most DEGs occurred among trochophore, D-shaped, and UES (umbonal, eyespots, and spats) larvae as verified by qPCR. Principal component analysis (PCA) also revealed significant differences in expression among trochophore, D-shaped, and UES larvae with ten transcripts identified but no matching annotations.

TLR3 gene in Japanese sea perch (Lateolabrax japonicus): Molecular cloning, characterization and expression analysis after bacterial infection

&NA; Toll‐like receptors (TLRs) play important roles in fish innate immune and are involved in the defense process of bacteria invasion. In the present study, the full‐length cDNA of TLR3 from the sea perch, Lateolabrax japonicus, was cloned and characterized. The full length of LjTLR3 cDNA was 3265 bp including an open reading frame of 2679 bp encoding a peptide of 922 amino acids. Tissues distribution analysis indicated that LjTLR3 showed a tissue‐specific variation with high expression in spleen, head‐kidney and liver. In order to investigate LjTLR3 functions against bacteria infection, the expression patterns of LjTLR3 after Vibrio harveyi and Streptococcus agalactiae challenge were detected by qRT‐PCR, and the results showed that LjTLR3 was significant up‐regulated after both bacteria stimulation in head‐kidney, spleen and liver in a time‐depended manner. Furthermore, the results by in situ hybridization experiments showed that positive signals of LjTLR3 mRNA in infected spleen and head‐kidney were more numerous than that in the control group. In addition, intracellular localization revealed that LjTLR3 is distributed in the cytoplasm. In summary, these findings suggest that LjTLR3 was involved in the immune process under bacteria infection. This study would benefit to further clarify the roles of fish TLRs in the immune process and contribute to further study on enhancing disease resistance of L. japonicus. HighlightsTLR3 was cloned and characterized from the sea perch, Lateolabrax japonicus.LjTLR3 protein is located in the cytoplasm.TLR3 was highly expressed in the spleen, head‐kidney and liver.TLR3 was up‐regulated after V. harveyi and S. agalactiae infection by qRT‐PCR.The both bacterial infection enhanced the expression of TLR3 by in situ hybridization.

Transcriptome analysis of the immune reaction of the pearl oyster Pinctada fucata to xenograft from Pinctada maxima

Abstract The pearl oyster Pinctada maxima exhibits great difficulty to culture pearls through nuclear insertion with an allograft, but it is easy for P. fucata to culture pearls after allografting. If P. fucata could be used as a surrogate mother to culture P. maxima pearls, it would benefit the pearl culture industry of P. maxima. However, this is blocked by the immune rejection of P. fucata against P. maxima mantle grafts. In this study, the immune responses of P. fucata hemocyte to allograft and xenograft were investigated after transplantation by transcriptome analysis. In total, 107.93 Gb clean reads were produced and assembled using the reference genome of P. fucata. Gene Ontology Term enrichment and KEGG enrichment analyses indicated that apoptosis, hippo signaling pathway, oxidation‐reduction, MAPK signaling pathway, ribosome, protein processing in endoplasmic reticulum, purine metabolism, NF‐kappa B signaling pathway, oxidative phosphorylation, Ras signaling pathway, and ubiquitin mediated proteolysis were involved in response to transplantation. Many genes related to oxidation‐reduction reactions, the MAPK signaling pathway, and apoptosis were identified by comparison of the allograft group and the xenograft group at 0 h, 6 h, 12 h, 24 h, 48 h, 72 h, and 96 h post‐transplantation. Among them, the expression levels of NADH dehydrogenase, succinate dehydrogenase and other dehydrogenases were increased significantly in the xenograft groups compared with allograft groups at 0 h post transplantation, indicating that a respiratory burst of neutrophils occurred immediately after xenograft transplantation. Additionally, HSP70 was highly expressed from 0 h to 96 h in the xenograft groups, indicating an oyster immune response to the xenograft. The genes enriched in the ribosome and hippo‐signaling pathways were also identified, and expression patterns of these DEGs were different as compared between transplantation and control groups. Finally, altered expression levels of 10 randomly selected immune‐related DEGs were confirmed by quantitative real‐time PCR. These results indicated that oxidation‐reduction is likely the key factor responsible for immune rejection to transplantation. The findings should provide some new insight into the molecular mechanism of immune rejection of the host against xenograft, and thus benefit to development of immunosuppressive reagents to facilitate effective xenograft pearling. HighlightsImmune molecules were identified in P. fucata after transplanting xenograft from P. maxima.Oxidation‐reduction, MAPK and apoptosis were the key terms in comparing allografting and xenografting.Some factors like NADH dehydrogenase showed altered expression in comparison of allograft with xenograft.

Identification of MicroRNAs and Their Target Genes Associated with Ovarian Development in Black Tiger Shrimp (Penaeus monodon) Using High-Throughput Sequencing

Plenty of evidence showing that microRNAs (miRNAs) post-transcriptionally regulate gene expression and are involved in a wide range of biological processes. However, the roles of miRNAs in ovarian development process remain largely unknown in shrimp. In the present study, high-throughput sequencing of small RNAs was performed to find specific miRNAs that are involved in ovarian development process in Penaeus monodon. Two small RNA libraries were constructed from undeveloped (UNDEV group) and developed (DEV group) ovarian tissues in P. monodon. In total, 43 differentially expressed miRNAs were identified between the two groups (P ≤ 0.05, |log2 ratio| ≥1), and their expression profiles were validated by qRT-PCR. In order to further clarify the functional roles of these differentially expressed miRNAs during ovarian development process, target gene prediction was performed. In total, 4,102 target genes of 43 miRNAs were predicted, then clustered by the Kyoto Encyclopedia of Genes and Genomes (KEGG) database; only four specific pathways related to ovarian development were obtained (P < 0.05). Dual-luciferase reporter assays and integrated expression analysis were also conducted to further clarify the interaction between the miRNAs and their target mRNAs. This study provides important information about the function of miRNAs involved in ovarian developmental stages in P. monodon.

Identification and Differential Expression of Biomineralization Genes in the Mantle of Pearl Oyster Pinctada fucata

A series of proteins are involved in shell formation of the pearl oyster Pinctada fucata, but the involved mechanisms and the relative expression levels of these proteins have not been elucidated. In this study, we sequenced and characterized the transcriptome of P. fucata mantle tissue. A total of 100,679 unique transcripts were assembled, 43687 Unigenes were annotated, and 48654 CDSs were determined. Of these, GO annotated 16353 Unigenes, COG defined 11585 unigenes into 25 categories, and KEGG sorted 25053 unigenes into 258 pathways. In total, 67 biomineralization-related genes were identified, of which 23 genes were newly described in P. fucata. These genes included ones that expressed shell matrix proteins, regulatory factors, and uncharacterized genes. Differential expression of these 67 genes and 9 other biomineralization-related genes was confirmed using qPCR. Of the 8 nacreous layer-related genes, MSI60 (774.00) was expressed at a much higher level than the others. KRMP2-4 and MSI31 were the most highly expressed of the 13 prismatic layer-related genes and KRMP2 was expressed at nearly 10000 times of the level of the 18S gene. For genes related to both layers, shematrin 2 (3977.84), nacrein (2404.75), PFMG 10 (2113.93), and PFMG 4 (1015.89) were highly expressed, and ferritin-like protein (877.54) and PFMG 8 (516.48) were highly expressed among the 16 undefined genes. The expression levels of regulation factors were generally low, and the highest level was 324.09 (EF-hand) and the lowest occurred in the BMP and wnt families. The expression levels of the prismatic matrix proteins were much higher than those of nacreous ones, consistent with a thicker prismatic layer. MSI60 and nacrein are likely the main components of the nacreous layer, and KRMP2-4, MSI31, shematrin 2, and PFMG 10 gene products are the main components of the prismatic layer. This is the first report of transient expression levels of a large number of biomineralization-related genes at the same time in mantle tissue of P. fucata. These findings provide a novel perspective to understand the molecular mechanisms of shell formation and will be beneficial to genetic improvement of P. fucata for the production of high-quality pearls as well.

Characterization of transcriptome and identification of biomineralization genes in winged pearl oyster (Pteria penguin) mantle tissue

The winged pearl oyster Pteria penguin is a commercially important marine pearl oyster species, with pearls that are quite different from those of other pearl oysters. Among such species, mantle tissue is the main organ responsible for shell and pearl formation, a biomineralization process that is regulated by a series of genes, most of which remain unknown. In this study, we sequenced and characterized the transcriptome of P. penguin mantle tissue using the HiSeq 2000 sequencing platform. A total of 93,204 unique transcripts were assembled from 51,580,076 quality reads, with a mean length of 608bp, and 40,974 unigenes were annotated. The sequence data enabled the identification of 79,702 potential single nucleotide polymorphism loci and 4345 putative simple sequence repeat loci. A total of 71 unique transcripts were identified homologous to known biomineralization genes, including mantle gene, nacrein, pearlin, pif, chitinase, and shematrin, of which only 3 were previously reported in P. penguin. qPCR analysis indicated that 10 randomly selected biomineralization genes were much more highly expressed in mantle tissue than in the other tissues. In addition, 30 unique sequences were identified as highly expressed, with FPKM values of >3000, and most of these were biomineralization-related genes, including shematrin family genes, a jacalin-related lectin synthesis gene, calponin-2, and paramyosin. These findings will be useful for future studies of biomineralization in P. penguin, as well as in other Pteria species.