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Methylation pattern polymorphism of cyp19a in Nile tilapia and hybrids

  • Xiaowu Chen , Yonghua Zhao , Yudong He and Jinliang Zhao EMAIL logo
Published/Copyright: September 22, 2018
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Open Life Sciences
From the journal Open Life Sciences Volume 13 Issue 1

Abstract

Skewed sex development is prevalent in fish hybrids. However, the histological observation and molecular mechanisms remain elusive. In this study, we showed that the interspecific hybrids of the two fish species, Oreochromis niloticus and Oreochromis aureus, had a male ratio of 98.02%. Microscopic examination revealed that the gonads of both male and female hybrids were developmentally retarded. Compared with the ovaries, the testes of both O. niloticus and hybrids showed higher DNA methylation level in two selected regions in the promoter of cyp19a, the gonadal aromatase gene that converts androgens into estrogens, cyp19a showed higher level gene expression in the ovary than in the testis in both O. niloticus and hybrid tilapia. Methylation and gene expression level of cyp19a were negative correlation between the testis and ovary. Gene transcription was suppressed by the methylation of the cyp19a promoter in vitro. While there is no obvious difference of the methylation level in testis or ovary between O. niloticus and hybrids. Thus, the DNA methylation of the promoter of cyp19a may be an essential component of the sex maintenance, but not a determinant of high male ratio and developmental retardation of gonads in tilapia hybrids.

Keywords: Oreochromis niloticus; Oreochromis aureus; hybridization; DNA Methylation; gonadal aromatase

1 Introduction

Tilapias are the second most-farmed fish group in world fisheries. Nile tilapia (Oreochromis niloticus) is an excellent animal model for teleost sex control [1], fish threpsology [2], or environmental adaption [3]. Many studies have explored the mechanisms of sex determination in Nile tilapia that confer commercial value, such as the high growth rates of all-male progenies [4, 5]. Hormone treatment, temperature control and interspecific hybridization are the main approaches to produce all male fish. Of the three methods, interspecific hybridization is the environmentally most sustainable one. Hybridization between some species of tilapias, such as Nile tilapia and blue tilapia (Oreochromis aureus), results in predominantly male offspring [6]. Nevertheless, the nature and complexity of hybrid incompatibility remain poorly understood.

DNA methylation is essential for normal development and is associated with various key processes, such as gene expression regulation, genomic imprinting, X-chromosome inactivation, transposable element repression, and aging. Cytosine methylation is widespread in both eukaryotes and prokaryotes [7, 8]. In our previous study, we utilized methylated DNA immunoprecipitation (Me-DIP) to generate the methylome of the Nile tilapia testis and ovary. We produced a candidate gene repository that provides options for exploring the relationship between DNA methylation and sex maintenance, the gene repository includes the cyp19a, estrogen receptor (esr) and other sex-associated genes [9]. DNA methylation is a potential regulatory mechanism for temperature induced sex change in Nile tilapia [10]. While the involvement of DNA methylation and abnormal expression of cyp19a in the sex development of tilapia hybrids remains unclear. We explored the possibility that the methylation state of cyp19a could lead to high male ratio and developmental retardation of gonads in tilapia hybrids.

2 Materials and Methods

2.1 Fish and histology examination

Nile tilapias and Blue tilapias were maintained at the Xinchang Aquafarm of Shanghai Ocean University. The natural fertilization of these two fish species (O. niloticus ♀× O. aureus ♂) was accomplished. Fertilized hybrid eggs were hatched in parallel to fertilized Nile tilapia eggs. Fish larvae were bred in an automatic recycled water cement pool. Water temperature was maintained at 26 ± 1°C. All experimental fishes were fed with formula feed three times a day.

The implemented procedures were approved by the Ethics and Animal Care Committee of China. All experimental procedures were conducted in conformity with institutional guidelines for the care and use of laboratory animals. On 60 days after hatching (DAH), male and female Nile tilapia or hybrids were sacrificed and gonadal samples were collected (n > 5 fish per group). A portion of the right gonad was processed for the histological identification of sex. The remaining portions were snap-frozen in liquid nitrogen and stored at −80°C until further analysis to determine methylation levels and gene expression. Mature gonads (from 120 DAH fish) were collected for histological observation.

For histological examination, the gonads of Nile tilapia and hybrid fish were fixed with Bouin solution, dehydrated in ethanol gradient series, and then embedded in paraffin. All samples were cut into 50 serial sections, followed by staining with hematoxylin and eosin for anatomical visualization. Immunohistochemical studies were conducted as our previous study [11]. Microscopic observations and photographs were taken using a Nikon Eclipse Ni-E microscope (Nikon, Japan).

Ethical approval: The research related to animals use has been complied with all the relevant national regulations and institutional policies for the care and use of animals.

2.2 cyp19a sequence analysis and qRT-PCR

Genomic DNA and Total RNA were extracted using a QIAamp DNA Mini Kit (Qiagen, Germany) and RNeasy Mini kit (Qiagen, Germany) in accordance with the manufacturer’s instructions. Three pairs of conserved primers (cyp19a1s/cyp19a1s, cyp19a2s/cyp19a2a and cyp19a3s/cyp19a3a) were designed based on the sequence of the Nile tilapia cyp19a. The genomic DNA of hybrid fish was used as a template to amplify and obtain the whole length of the hybrid tilapia cyp19a gene. Synteny comparisons across different vertebrate species were performed in silico via BLAST searches using the ENSEMBL database.

The cyp19a gene was amplified via qRT-PCR using the specific primers cyp19aqs and cyp19aqa (Table S1). qRT-PCR was performed on a Bio-Rad PCR system using iTaq Universal SYBR Green Supermix (BioRad, USA) in accordance with the manufacturer’s instructions. Relative cyp19a mRNA expression was evaluated using the 2−ΔΔCT method with an initial normalization of cyp19a against β actin. Each PCR trial was conducted with three samples and repeated at least three times in all experiments.

Table S1

Primers used in this study.

PrimerSequencesApplication
cyp19a1sCACTCTCTGTTGCACTAGCTTGcyp19a cloning
cyp19a1aAATGCAAAAGCCACAACACTGC
cyp19a2sGCAGTGTTGTGGCTTTTGCATTcyp19a cloning
cyp19a2aGATCACCATCTCCAGCACGCAC
cyp19a3sGTGCGTGCTGGAGATGGTGATCcyp19a cloning
cyp19a3aCATTTGTGACACAATAACTTAC
M40sTGTATTAGTTTGTAATGTGTAGTGGP1 methylation analysis
M465aTCTAAATCAATCTCTCTAAAAAAAA
M692sGGTTGATTATAATTTAGAGTTTAGAGAP2 methylation analysis
M913aACATAAAAAACCCTACAAACTCACC
cyp19aprosCAGTAAAGGCTACACTCTCTGPromoter TA cloning
cyp19aproaTCTGCCACCACGGCGTCTAA
cyp19alucLsGGCTCGAGTGCACTAGCTTGTAATGLuciferase assay vector construction
cyp19alucLaGGTTCGAATGAGAAGGGTGATGATGTA
cyp19alucSsGGCTCGAGCATGTACTAGTGATAAAGLuciferase assay vector construction
cyp19alucSaGGTTCGAATGAGAAGGGTGATGATGTA
cyp19aqsGGCAGATACGCTGGACAACAqRT-PCR of cyp19a
cyp19aqaTGGCAGGCGGAAAAGAAAT
NTactinsCAGCAGATGTGGATCAGCAAGCqRT-PCR reference gene
NTactinaTGAAGTTGTTGGGCGTTTGG

2.3 Bisulfite specific PCR

DNA bisulfite treatment of tilapia DNA were conducted with the EpiTect Bisulfite Kit (Qiagen, USA) in accordance with the manufacturer’s instructions. The product was diluted with 20 μL of elution buffer. Bisulfate-treated DNA was amplified by PCR using specific primers (M40s/M465a and M692s/M913a) (Table 1S). The PCR product was cloned and sequenced. The total number of methylated cytosine was calculated as the average of the total number of methylated cytosines across the sequenced clones. Five fish were tested in every group, the results were expressed as mean ± standard deviation. P<0.05 indicated statistically significant difference.

2.4 Plasmid construction, cell culture and luciferase assay

The fragment of the cyp19a promoter region was amplified by PCR using the primers cyp19apros/cyp19aproa. The cloned products were subcloned into a pMD 19-T vector (Takara, Japan). Then, the 2172- and 1357-bp fragments were amplified with a second PCR run using the primer pairs cyp19alucLs/cyp19alucLa and cyp19alucSs/cyp19alucSa (Table S1), and were then inserted into the Xhol and HindIII restriction enzyme cutting sites of the pGL3-Basic plasmid, respectively.

Recombinant pGL3-Basic plasmids were cytosine-methylated using SssI methylase (New England BioLabs, USA) in accordance with the manufacturer’s instructions. SssI methylates all cytosine residues within the double-stranded dinucleotide recognition sequence (5′-CpG-3′), by using 10 mM Tris, pH 7.9, 50 mM NaCl, 10 mM MgCl2, 1 mM DTT, and 160 μM S-adenosylmethionine at 37°C for 1 h. After methylation, reaction plasmids were purified by phenol extraction. Successful vector methylation was confirmed by gel electrophoresis after digesting with the McrBC enzyme (New England BioLabs), which digests only methylated DNA. Fully methylated plasmids were utilized for transient transfection assays.

Human embryonic kidney (HEK) 293 cells were cultured in Dulbecco’s modified Eagle’s medium (Gibco, USA) that was supplemented with 10% fetal bovine serum at 37°C in a 5% CO2 incubator. The luciferase activity assay was conducted as as mentioned by Gu et al. [12] HEK293 cells were seeded in 24-well plates overnight and co-transfected with 100 ng of the luciferase reporter plasmids lpCYP19a, lmCYP19a, spCYP19a, and smpCYP19a, and 10 ng of pRL-TK (Promega, USA). At 48 hours after transfection, the transfected cells were harvested and lysed in accordance with the Dual-Luciferase Reporter Assay System (Promega, USA). Luciferase activities were measured with a Junior LB9509 Luminometer (Berthold Detection System, Germany) and normalized to Renilla luciferase activities in accordance with standard protocol. The experiment was repeated three times. Each independent experiment was performed in triplicate.

Statistical analysis was dong by SPSS 17.0 (SPSS, Inc., Chicago, IL). Values were expressed as the mean±standard deviation. Student’s t-test was used to compare the difference in means between the two groups. P<0.05 was considered to be statistically significant.

3 Results

3.1 Culture of tilapia hybrids and histological observation

The male Nile tilapia and hybrid tilapia weighed 10.96±1.01 g and 8.91±1.57 g respectively, the female Nile tilapia and hybrid tilapia reached 7.99±1.64 g and 6.76±1.27 g at the end of the 2-month culture period. Therefore, the males were heavier than the females. Moreover, male Nile tilapia were heavier than male hybrid tilapia. Body length was also significantly different. More importantly, the male ratio of hybrids was 98.02% (Figure 1A).

Figure 1 Fish morphology and gonad histology of NT and NB. (A) Average body length and body weight of 2-month-old female NT, male NT, and NB. (B) and (C) indicate transverse sections of the testis and ovary of adult NT (4 months old). (D) and (E) indicate transverse sections of the testis and ovary of adult NB (4 months old). (F) and (G) indicate the immunological analysis of Cyp19a in the ovary of NT and NB. sl: seminiferous lobula; s1: spermatogonia; s2: spermatocytes; s3: spermatides; o: oocytes containing numerous vacuoles and deeply staining nucleus; so: small oocytes surrounded by still small oocytes; f: follicle cell; y: yolk; s: stroma of connective tissue; NT: Nile tilapia; BT: Blue tilapia; NB: tilapia hybrid.
Figure 1

Fish morphology and gonad histology of NT and NB. (A) Average body length and body weight of 2-month-old female NT, male NT, and NB. (B) and (C) indicate transverse sections of the testis and ovary of adult NT (4 months old). (D) and (E) indicate transverse sections of the testis and ovary of adult NB (4 months old). (F) and (G) indicate the immunological analysis of Cyp19a in the ovary of NT and NB. sl: seminiferous lobula; s1: spermatogonia; s2: spermatocytes; s3: spermatides; o: oocytes containing numerous vacuoles and deeply staining nucleus; so: small oocytes surrounded by still small oocytes; f: follicle cell; y: yolk; s: stroma of connective tissue; NT: Nile tilapia; BT: Blue tilapia; NB: tilapia hybrid.

Sections of testes from 4-month-old Nile tilapia exhibited normal tissue architecture and sperm cell distribution. Tissue architecture and cell development in male hybrid fish were not different from those in Nile tilapia. But fewer spermatozoids were observed in the seminiferous tubules of male hybrid fish. Spermatogonia, spermatocytes, and spermatids occupied the majority of the testes of male hybrid fish (Fig. 1B, D). Female Nile tilapia exhibited normal ovarian histology that was characterized by oocytes in advanced vitellogenesis (Fig. 1C). By contrast, the gonadal development of female hybrid fish was characterized by oocytes in initial, mid, and immature vitellogenesis (Fig. 1E). Immunohistochemical analysis showed that Cyp19a was distributed in the follicle and stroma cells in ovaries of both Nile tilapia and hybrid fish (Fig. 1F, G).

3.2 Structure analysis of the tilapia cyp19a gene

Cross-species comparison of the chromosomal location indicates the cyp19a gene is flanked by several genes, including gliomedin (gldn), tnf alpha induced protein 8 like 3 (tnfaip813), and secretogranin 3 (scg3) etc. They are located on different chromosomes of four organisms, which is indicated that the cyp19a-containing region in Nile tilapia chromosome LG1 is syntenic to medaka chromosome 3, zebrafish chromosome 18, and human chromosome 15. The tilapia shares complete similarity with medaka and minor differences with zebrafish and human (Fig. 2A). The full-length cyp19a gene, including promoter regions, from Nile and hybrid tilapia was cloned using three pairs (cyp19a1s/cyp19a1a, cyp19a2s/cyp19a2a, and cyp19a3s/cyp19a3a) of primers. Cloning and sequencing results confirmed that Nile tilapia and hybrid fish shared 100% identical. Similar to the cyp19a of zebrafish, Chinese softshell turtle, and chicken, the cyp19a gene of tilapia has nine exons. The cyp19a in medaka and humans has 10 exons. These homologous genes have significantly different intron lengths (Fig. 2B).

3.3 DNA methylation and gene expression of tilapia cyp19a

The 5191-bp DNA sequence that encompassed the promoter and transcription regions with the 103 CpG sites of cyp19a gene was analyzed (Fig. S1). The CpG sites methylation ratio of male to female from positions 1–35 and positions 60–80 were all greater than 0.3. The methylation ratio of the promoter was higher than that of the transcript region in total (Figure 3A). cyp19a expression was higher in the ovary than in the testis in both O. niloticus and hybrids (Figure 3B). Two DNA regions, P1 and P2, in the promoter were verified by BSP analysis. The methylation level of males was all higher than those of females in both Nile tilapia and hybrid fish (P<0.05). Methylation and gene expression level of cyp19a were negatively correlated in the testis and ovary in both species (Figure 3C–D). All the methylated CpG sites in P1 and P2 showed significant difference between the ovary and testis. In particular, two or six CpGs were differentially methylated in the testis or ovary between Nile tilapia and hybrid tilapia respectively (Figure 3E).

Figure 2 Gene structure analysis of tilapia cyp19a. (A) Chromosome synteny of tilapia cyp19a. (B) Comparison of cyp19a gene structures from different species. Exons are numbered with their sizes indicated in base pairs. Chr: chromosome; LG: linkage group.
Figure 2

Gene structure analysis of tilapia cyp19a. (A) Chromosome synteny of tilapia cyp19a. (B) Comparison of cyp19a gene structures from different species. Exons are numbered with their sizes indicated in base pairs. Chr: chromosome; LG: linkage group.

Figure 3 Analysis of DNA methylation and mRNA expression of cyp19a. (A) Methylation ratio of all CpG sites of NT cyp19a. The red box in E1-9 indicates nine exons, and the line indicates intron and promoter regions. The methylation ratio level of testis to ovary of 103 CpG sites is shown in the coordinate axis. (B) The relative mRNA expression of cyp19a in the testis and ovary of NT and BT. (C) and (D) shows the methylation level of P1 and P2 regions on the promoter of cyp19a. Columns with different colors indicate different organs of NT and BT as shown in figure (B). Values with different superscripts on the columns in (B), (C), and (D) are significantly different (P< 0.05). O: ovary; T: testis; NT: Nile tilapia; NB: tilapia hybrid.
Figure 3

Analysis of DNA methylation and mRNA expression of cyp19a. (A) Methylation ratio of all CpG sites of NT cyp19a. The red box in E1-9 indicates nine exons, and the line indicates intron and promoter regions. The methylation ratio level of testis to ovary of 103 CpG sites is shown in the coordinate axis. (B) The relative mRNA expression of cyp19a in the testis and ovary of NT and BT. (C) and (D) shows the methylation level of P1 and P2 regions on the promoter of cyp19a. Columns with different colors indicate different organs of NT and BT as shown in figure (B). Values with different superscripts on the columns in (B), (C), and (D) are significantly different (P< 0.05). O: ovary; T: testis; NT: Nile tilapia; NB: tilapia hybrid.

3.4 Methylation of tilapia cyp19a promoter blocks its expression in vitro

The luciferase reporter assay was used to determine the activation of the cyp19a promoter under methylated and unmethylated conditions. Promoter length was related to the reported gene transcription, the longer promoter showed higher transcriptional activity than the shorter one. Remarkably, the induced hypermethylation of the cyp19a promoter suppressed promoter transcription in both the experimental groups (Figure 4).

Figure 4 Luciferase reporter assay. (A) Plasmid construction. TK, human thymidine kinase promoter; fluc, firefly luciferase; rluc, renilla luciferase; lpCYP19a: long promoter of tilapia cyp19a; lmpCYP19a: long methylated promoter of tilapia cyp19a; spCYP19a: short promoter of tilapia cyp19a; smpCYP19a: short methylated of tilapia cyp19a; NP: no promoter. (B) Luciferase assay. Different groups of reporter plasmid of cyp19a promoter plus pRL-TK (internal control reporter) were co-transfected into HEK293 cells. At 24 h post-transfection, the cells were lysed for the luciferase assay. The asterisks indicates P<0.05 between two groups.
Figure 4

Luciferase reporter assay. (A) Plasmid construction. TK, human thymidine kinase promoter; fluc, firefly luciferase; rluc, renilla luciferase; lpCYP19a: long promoter of tilapia cyp19a; lmpCYP19a: long methylated promoter of tilapia cyp19a; spCYP19a: short promoter of tilapia cyp19a; smpCYP19a: short methylated of tilapia cyp19a; NP: no promoter. (B) Luciferase assay. Different groups of reporter plasmid of cyp19a promoter plus pRL-TK (internal control reporter) were co-transfected into HEK293 cells. At 24 h post-transfection, the cells were lysed for the luciferase assay. The asterisks indicates P<0.05 between two groups.

4 Discussion

In aquaculture, the preferred sex of tilapia is often produced via exogenous steroid treatment or temperature manipulations to artificially induce sex reversal. Hybrids of O. niloticus♀ ×O. aureus♂, which are commonly bred in aquaculture have growth rates that are significantly higher than those of their parent species [6, 13, 14]. The results of the current study are consistent with above reports. O. niloticus ♀×O. aureus♂ hybrids have significantly higher growth performance and male ratio than their parents. The male hybrids grow slower than male Nile tilapia but faster than female Nile tilapia. The growth improvement of hybrid fish results from the combination of the heterosis effect. These traits make the almost all-male hybrids more suitable for culture than either parental species. The available data on the growth traits of hybrids reported have minor difference [14, 15] because of different experimental fish strains and aquaculture environments, including temperature, density, and daily feeding dose. Here, we studied the “new GIFT” strain of Nile tilapia, which has been artificially selected for more than 20 years based on growth rate. This specific strain has excellent and stable disease resistance. Thus, the O. niloticus and O. aureus in this study are both perfect fundamental breeding materials.

Although tilapia hybrids were fertile in our aquafarm, we confirmed that the gonads of hybrids acquired developmental retardation compared with those of Nile tilapia. The ovaries of the hybrids remained in immature vitellogenesis. The nature and complexity of hybrid incompatibility remains poorly understood. Misexpression has been reported in many animal hybrids, including fruit flies [16, 17], mice [18, 19], African clawed frog [20], and whitefish [21]. Several known hybrid incompatibility genes affect the transcription of other genes, including a regulatory homeodomain protein [16] and the mouse sterility gene histone-lysine N-methyltransferase (ehmt1) [22]. Gene expression mapping showed that the X chromosome has a massive effect on testis gene expression in hybrid mice. The majority of the X chromosome is significantly enriched for quantitative trait loci that affect the expression of autosomal genes [23].

DNA methylation is essential for normal development including sex development. Numerous approaches exist to decipher whole-genome DNA methylation profile, such as methylated DNA immunoprecipitation (MeDIP-seq), which is more sensitive to highly methylated and high-CpG densities. BS-seq involving treating DNA with sodium bisulfite combined with subsequent high-throughput sequencing is the gold standard for whole genome DNA methylation analysis[24]. It has been reported that the methylation of various chromosome regions in both female and male tilapia increase after high-temperature induction [10]. We utilized MeDIP-seq to generate the methylome of the Nile tilapia testis and ovary. It produced a candidate gene repository to explore the relationship between DNA methylation and sex maintenance, we also performed a thorough analyses of whole genome DNA methylome data of testis and ovary from Nile tilapia [9]. And on this basis, cyp19a, an enzyme with clear function of the biosynthesis of estrogens, was selected to analyze in different fish individuals and species in this study. Comprehensive analysis of all CpG and transcription factor binding sites is very important in future research. Generally speaking, the majority of gene promoter regions are poorly methylated. Promoter DNA methylation results in a compact chromatin structure and acts as a repressive signal for gene transcription [25]. Maintenance of very low cyp19a mRNA levels is a prerequisite for testicular differentiation, whereas increased cyp19a mRNA levels are required for ovarian differentiation [262728]. We compared all CpG methylation sites and cyp19a gene expression in Nile tilapia. The results indicated that the average methylation ratio level of testis to ovary of the promoter region is higher than that of the transcription region. DNA methylation in the promoter regions of cyp19a are widely observed in fish [272829]. In protogynous rice-field eels (Monopterus albus), DNA methylation levels at cyp19a promoter regions are inversely correlated with cyp19a expression during natural sex change [30]. Abdominal implants that contain DNA methylation inhibitors could impede or even reverse gonadal transition towards males in this species. Similarly, in European sea bass (Dicentrarchus labrax), a gonochoristic species in which sex is determined by both genotype and temperature, high temperatures increase cyp19a promoter methylation and cause the masculinization of genetic females during early development [27]. In this study, cyp19a was expressed at low levels in the testis and at high levels in the ovary of both Nile tilapia and hybrid tilapia, but there are no obvious difference of the testis or ovary between Nile tilapia and hybrids. Therefore, the expression of cyp19a are not likely related to the ovary developmental retardation of hybrid fish. Our results confirmed the inverse correlation between gene expression level and DNA methylation in sex maintenance. However, the control mechanisms of hybrid sterility or inviability remain largely unknown. The epigenetic regulation of sex change will be a very active topic of research with crucial and promising applications.

Acknowledgments

China Agriculture Research System (CARS-49); Shanghai Collaborate Innovation Center for Aquatic Animal Genetics and Breeding (ZF1206).

  1. Conflict of interest: Authors state no conflict of interest.

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Received: 2018-04-08
Accepted: 2018-06-13
Published Online: 2018-09-22

© 2018 Xiaowu Chen et al., published by De Gruyter

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

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https://doi.org/10.1515/biol-2018-0040
Keywords for this article
Oreochromis niloticus; Oreochromis aureus; hybridization; DNA Methylation; gonadal aromatase
Creative Commons
BY-NC-ND 4.0

Articles in the same Issue

  1. Research Article
  2. Purification of Tea saponins and Evaluation of its Effect on Alcohol Dehydrogenase Activity
  3. Runt-related transcription factor 3 promoter hypermethylation and gastric cancer risk: A meta-analysis
  4. Risk Factors for Venous Thromboembolism in Hospitalized Patients in the Chinese Population
  5. Value of Dual-energy Lung Perfusion Imaging Using a Dual-source CT System for the Pulmonary Embolism
  6. A new combination of substrates: biogas production and diversity of the methanogenic microorganisms
  7. mTOR modulates CD8+ T cell differentiation in mice with invasive pulmonary aspergillosis
  8. Direct Effects on Seed Germination of 17 Tree Species under Elevated Temperature and CO2 Conditions
  9. Role of water soluble vitamins in the reduction diet of an amateur sportsman
  10. Aberrant DNA methylation involved in obese women with systemic insulin resistance
  11. 16S ribosomal RNA-based gut microbiome composition analysis in infants with breast milk jaundice
  12. Characterization of Haemophilus parasuis Serovar 2 CL120103, a Moderately Virulent Strain in China
  13. MiRNA-145 induces apoptosis in a gallbladder carcinoma cell line by targeting DFF45
  14. Telmisartan induces osteosarcoma cells growth inhibition and apoptosis via suppressing mTOR pathway
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  16. Determination of the In Vitro Gas Production and Potential Feed Value of Olive, Mulberry and Sour Orange Tree Leaves
  17. Factors Influencing the Successful Isolation and Expansion of Aging Human Mesenchymal Stem Cells
  18. The Value of Diffusion-Weighted Magnetic Resonance Imaging in Predicting the Efficacy of Radiation and Chemotherapy in Cervical Cancer
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  22. Antihyperglycemic and antihyperlipidemic effects of low-molecular-weight carrageenan in rats
  23. Microbial indicators and environmental relationships in the Umhlangane River, Durban, South Africa
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  25. Long non-coding RNA-2271 promotes osteogenic differentiation in human bone marrow stem cells
  26. The prediction of cardiac events in patients with acute ST segment elevation myocardial infarction: A meta–analysis of serum uric acid
  27. Risk expansion of Cr through amphibious clonal plant from polluted aquatic to terrestrial habitats
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  29. Sini decoction intervention on atherosclerosis via PPARγ-LXRα-ABCA1 pathway in rabbits
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  32. Hydrolytic Enzyme Production by Thermophilic Bacteria Isolated from Saudi Hot Springs
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  36. Inhibitory activities of ethanolic extracts of two macrofungi against eggs and miracidia of Fasciola spp.
  37. PAQR6 expression enhancement suggests a worse prognosis in prostate cancer patients
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  39. Expression of Angiopoietin and VEGF in cervical cancer and its clinical significance
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  41. Isolation and Characterization of a Phage to Control Vancomycin Resistant Enterococcus faecium
  42. Glycogen Phosphorylase Isoenzyme Bb, Myoglobin and BNP in ANT-Induced Cardiotoxicity
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  45. Review Articles
  46. Mechanisms of salt tolerance in halophytes: current understanding and recent advances
  47. Salivary protein roles in oral health and as predictors of caries risk
  48. Nanoparticles as carriers of proteins, peptides and other therapeutic molecules
  49. Survival mechanisms to selective pressures and implications
  50. Up-regulation of key glycolysis proteins in cancer development
  51. Communications
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  53. DNA barcoding of online herbal supplements: crowd-sourcing pharmacovigilance in high school
  54. Case Reports
  55. Management of myasthenia gravis during pregnancy: A report of eight cases
  56. Three Cases of Extranodal Rosai-Dorfman Disease and Literature Review
  57. Letters to the Editor
  58. First report of Chlamydia psittaci seroprevalence in black-headed gulls (Larus ridibundus) at Dianchi Lake, China
  59. Special Issue on Agricultural and Biological Sciences - Part II
  60. Chemical composition of essential oil in Mosla chinensis Maxim cv. Jiangxiangru and its inhibitory effect on Staphylococcus aureus biofilm formation
  61. Secondary metabolites of Antarctic fungi antagonistic to aquatic pathogenic bacteria
  62. Study of Seizure-Manifested Hartnup Disorder Case Induced by Novel Mutations in SLC6A19
  63. Transcriptome analysis of Pinus massoniana Lamb. microstrobili during sexual reversal
  64. Mechanism of oxymatrine-induced human esophageal cancer cell apoptosis by the endoplasmic reticulum stress pathway
  65. Methylation pattern polymorphism of cyp19a in Nile tilapia and hybrids
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  67. A novel TNNI3 gene mutation (c.235C>T/ p.Arg79Cys) found in a thirty-eight-year-old women with hypertrophic cardiomyopathy
  68. Remote Sensing-Based Extraction and Analysis of Temporal and Spatial Variations of Winter Wheat Planting Areas in the Henan Province of China
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  72. Efficacy of Danhong injection on serum concentration of TNF-α, IL-6 and NF-κB in rats with intracerebral hemorrhage
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  74. Evaluation of the quality of CT images acquired with smart metal artifact reduction software
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  76. Arterial infusion of rapamycin in the treatment of rabbit hepatocellular carcinoma to improve the effect of TACE
  77. New progress in understanding the cellular mechanisms of anti-arrhythmic drugs
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