Expression and genomic imprinting of the porcine Rasgrf1 gene

Imprinted genes play important roles in mammalian growth, development and behavior. The Rasgrf1 (Ras protein-specific guanine nucleotide exchange factor 1) gene has been identified as an imprinted gene in mouse and rat. In the present study, we detected its sequence, imprinting status and expression pattern in the domestic pigs. A 228 bp partial sequence located in exon 14 and a 193 bp partial sequence located in exon 1 of the Rasgrf1 gene in domestic pigs were obtained. A G/A transition, was identified in Rasgrf1 exon 14, and then, the reciprocal Berkshire × Wannan black F₁ hybrid model and the RT-PCR-RFLP method were used to detect the imprinting status of porcine Rasgrf1 gene at the developmental stage of 1-day-old. The expression profile results indicated that the porcine Rasgrf1 mRNA was highly expressed in brain, pituitary and pancreas, followed by kidney, stomach, lung, testis, small intestine, ovary, spleen and liver, and at low levels of expression in longissimus dorsi, heart, and backfat. The expression levels of Rasgrf1 gene in brain, pituitary and pancreas tissues were significantly different between the two reciprocal F₁ hybrids. Imprinting analysis showed that porcine Rasgrf1 gene was maternally expressed in the liver, small intestine, paternally expressed in the lung, but biallelically expressed in brain, heart, spleen, kidney, stomach, pancreas, backfat, testis, ovary, longissimus dorsi and pituitary tissues.     

Haplotype distribution in the GLI3 gene and their associations with growth traits in cattle

The glioma-associated oncogene family zinc finger 3 gene (GLI3) mediates in all vertebrates hedgehog (Hh) signaling that plays an essential role in the induction and patterning of numerous cell types during invertebrate and vertebrate development. In this study, a total of 6 single nucleotide polymorphisms (SNPs: 1–6) were identified by polymerase chain reaction–single stranded conformational polymorphism (PCR–SSCP) and DNA pool sequencing, including all 13 exons and 12 exon–intron boundaries within the bovine GLI3 gene. 16 haplotypes and 13 combined genotypes were revealed and the linkage disequilibrium was assessed in 708 individuals representing three main cattle breeds from China. The statistical analyses indicated that the SNP2, 3 and 4 are associated with the body weight at birth and 6 months in Nanyang cattle population (P < 0.05). No significant association was detected between 11 combined genotypes and body weight at five different ages. Our results provide evidence that polymorphisms in the GLI3 gene are associated with growth traits, and may be used for marker-assisted selection in beef cattle breeding program.     

A novel mutation of the SLC25A13 gene in a Chinese patient with citrin deficiency detected by target next-generation sequencing

Type II citrullinaemia, also known as citrin deficiency, is an autosomal recessive metabolic disorder, which is caused by pathogenic mutations in the SLC25A13 gene on chromosome 7q21.3. One of the clinical manifestations of type II citrullinaemia is neonatal intrahepatic cholestatic hepatitis caused by citrin deficiency (NICCD, OMIM# 605814). In this study, a 5-month-old female Chinese neonate diagnosed with type II citrullinaemia was examined. The diagnosis was based on biochemical and clinical findings, including organic acid profiling using a gas chromatography mass spectrometry (GC/MS), and the patient's parents were unaffected. Approximately 14 kb of the exon sequences of the SLC25A13 and two relative genes (ASS1 and FAH) from the proband and 100 case-unrelated controls were captured by array-based capture method followed by high-throughput next-generation sequencing. Two single-nucleotide mutations were detected in the proband, including the previous reported c.1177+1G>A mutation and a novel c.754G>A mutation in the SLC25A13 gene. Sanger sequence results showed that the patient was a compound heterozygote for the two mutations. The novel mutation (c.754G>A), which is predicted to affect the normal structure and function of citrin, is a candidate pathogenic mutation. Target sequence capture combined with high-throughput next-generation sequencing technologies is proven to be an effective method for molecular genetic testing of type II citrullinaemia.     

Peroxisome deficiency-induced ER stress and SREBP-2 pathway activation in the liver of newborn PEX2 knock-out mice

Disruption of the Pex2 gene leads to peroxisome deficiency and widespread metabolic dysfunction. We previously demonstrated that peroxisomes are critical for maintaining cholesterol homeostasis, using peroxisome-deficient Pex2^−/− mice on a hybrid Swiss Webster × 129S6/SvEv (SW/129) genetic background. Peroxisome deficiency activates hepatic endoplasmic reticulum (ER) stress pathways, leading to dysregulation of the endogenous sterol response mechanism. Herein, we demonstrate a more profound dysregulation of cholesterol homeostasis in newborn Pex2^−/− mice congenic on a 129S6/SvEv (129) genetic background, and substantial differences between newborn versus postnatal Pex2^−/− mice in factors that activate ER stress. These differences extend to relationships between activation of genes regulated by SREBP-2 versus PPARα. The SREBP-2 pathway is induced in neonatal Pex2^−/− livers from 129 and SW/129 strains, despite normal hepatic cholesterol levels. ER stress markers are increased in newborn 129 Pex2^−/− livers, which occurs in the absence of hepatic steatosis or accumulation of peroxins in the ER. Moreover, the induction of SREBP-2 and ER stress pathways is independent of PPARα activation in livers of newborn 129 and SW/129 Pex2^−/− mice. Two-week-old wild-type mice treated with the peroxisome proliferator WY-14,643 show strong induction of PPARα-regulated genes and decreased expression of SREBP-2 and its target genes, further demonstrating that SREBP-2 pathway induction is not dependent on PPARα activation. Lastly, there is no activation of either SREBP-2 or ER stress pathways in kidney and lung of newborn Pex2^−/− mice, suggesting a parallel induction of these pathways in peroxisome-deficient mice. These findings establish novel associations between SREBP-2, ER stress and PPARα pathway inductions.     

Expression,SNV identification,linkage disequilibrium,and combined genotype association analysis of the muscle-specific gene CSRP3 in Chinese cattle

The cysteine and glycine-rich protein 3 (CSRP3) plays an important role in the myofiber differentiation. Here, we identified five SNVs in all exon and intron regions of the CSRP3 gene using DNA sequencing, PCR-RFLP and forced-PCR-RFLP methods in 554 cattle. Four of the five SNVs were significantly associated with growth performance and carcass traits of the cattle. In addition, we evaluated haplotype frequency and linkage disequilibrium coefficient of five sequence variants. The result of haplotype analysis demonstrated 28 haplotypes present in Qinchuan and two haplotypes in Chinese Holstein. Only haplotypes 1 and 8 were being shared by two populations, haplotype 14 had the highest haplotype frequency in Qinchuan (17.4%) and haplotype 8 had the highest haplotype frequency in Chinese Holstein (94.4%). Statistical analyses of combined genotypes indicated that some combined genotypes were significantly or highly significantly associated with growth and carcass traits in the Qinchuan cattle population. qPCR analyses also showed that bovine CSRP3 gene was exclusively expressed in longissimus dorsi muscle and heart tissues. The data support the high potential of the CSRP3 as a marker gene for the improvement of growth performance and carcass traits in selection programs.     

Genetic structure,polymorphism identification of LGP2 gene and their relationship with the resistance/susceptibility to GCRV in grass carp, Ctenopharyngodon idella

Laboratory of genetics and physiology 2 (LGP2) is an actual detector and regulator during RNA viral infection in innate immunity. In this study, 5′-flanking region and all introns of LGP2 in grass carp (Ctenopharyngodon idella) were excavated. The genomic CiLGP2 (C. idella LGP2) was 8062 bp in length, with a 364 bp 5′-flanking region, twelve exons and eleven introns. Besides, the promoter activity of the upstream region before initiator codon was identified. By sequencing, six single nucleotide polymorphisms (SNPs) and one 20-bp insertion/deletion polymorphism were detected in CiLGP2. With a challenge experiment, the genotype and allele distributions of these seven polymorphisms were examined. Analytic result revealed only the − 1392 C/G, 494 A/T and 4403 C/T loci were significantly associated with the resistance/susceptibility to grass carp reovirus (GCRV) (P < 0.05). To further identify these correlations, another independent challenge test was performed. The analytic result based on the cumulative mortality demonstrated that the stock in − 1392 GG genotype was more susceptible to GCRV than that in CC genotype, while the stocks in 494 TT genotype and 4403 TT genotype were more resistant to GCRV than that in AA and CC genotype stocks, respectively (P < 0.05). Those significant SNPs might be potential gene markers for the future molecular selection of C. idella strains that are resistant to GCRV.     

Association of adiponectin (AdipoQ) and sulphonylurea receptor (ABCC8) gene polymorphisms with Type 2 Diabetes in North Indian population of Punjab

In Type 2 Diabetes (T2D), adiponectin (AdipoQ) and sulphonylurea receptor genes (ABCC8) are important targets for candidate gene association studies. The single nucleotide polymorphisms (SNPs) in these genes have been associated with features of the metabolic syndrome across various populations. The present case–control study undertaken in the population of Punjab, evaluates the association of + 45T>G polymorphism in AdipoQ gene; and Exon16-3C>T as well as Exon18C>T polymorphisms in ABCC8 gene with T2D. These SNPs were genotyped in 200 T2D cases and 200 non-diabetic healthy controls using the PCR-RFLP method. The frequency of the minor G-allele for AdipoQ+ 45(T>G) polymorphism was significantly higher in T2D cases (29.0%) than in controls (21.5%) [P = 0.02, OR = 1.49 (1.07–2.04)]. The genetic model analysis revealed that the G-allele cumulatively provides nearly 1.59–1.78 fold increased risk to T2D under the additive (P = 0.009; OR = 1.59, 1.12–2.25 at 95% CI), dominant (TG/GG vs. TT) (P = 0.034, OR = 1.64, 1.04–2.56 at 95% CI) and codominant model (TG vs. TT/GG) (P = 0.014; OR = 1.78, 1.12–2.82 at 95% CI) after adjusting for confounding factors. However, no difference in the distribution of genotype and allele frequencies was observed for both the ABCC8 polymorphisms. The distribution of obesity profiles (BMI, WC and WHR) was also significantly different between cases and controls (P < 0.05). Higher BMI and central obesity were observed to increase the risk of T2D. G-allele of + 45(T>G) polymorphism in the adiponectin gene appears to be associated with increased risk of T2D, but the polymorphisms in sulphonylurea receptor gene do not seem to be associated with T2D in the population of Punjab.     

Disruption of the novel gene fad104 causes rapid postnatal death and attenuation of cell proliferation, adhesion, spreading and migration

The molecular mechanisms at the beginning of adipogenesis remain unknown. Previously, we identified a novel gene, fad104 (factor for adipocyte differentiation 104), transiently expressed at the early stage of adipocyte differentiation. Since the knockdown of the expression of fad104 dramatically repressed adipogenesis, it is clear that fad104 plays important roles in adipocyte differentiation. However, the physiological roles of fad104 are still unknown. In this study, we generated fad104-deficient mice by gene targeting. Although the mice were born in the expected Mendelian ratios, all died within 1 day of birth, suggesting fad104 to be crucial for survival after birth. Furthermore, analyses of mouse embryonic fibroblasts (MEFs) prepared from fad104-deficient mice provided new insights into the functions of fad104. Disruption of fad104 inhibited adipocyte differentiation and cell proliferation. In addition, cell adhesion and wound healing assays using fad104-deficient MEFs revealed that loss of fad104 expression caused a reduction in stress fiber formation, and notably delayed cell adhesion, spreading and migration. These results indicate that fad104 is essential for the survival of newborns just after birth and important for cell proliferation, adhesion, spreading and migration.     

Loss of surface antigens is a conserved feature of apoptotic lymphocytes from several mammalian species

Human lymphocytes lose the expression of lineage antigens (LAgs) along apoptosis. Our aim was to extent our previous studies of LAg loss to rodent species, quantifying LAg expression on apoptotic murine lymphocytes using flow cytometry to measure alterations in cell permeability, phosphatidylserine exposure and caspase activation of CD3, CD5, CD4, CD8, CD19 and CD28 LAgs in highly purified lymphocyte populations. We found loss of expression by apoptotic cells of all LAgs studied in the three species analyzed except for CD3 antigen in mouse. We also found an early, rapid and dramatic reduction in the expression of CD28 by early apoptotic cells. We found several homologies across the three species in the kinetic of loss of several LAgs such as CD5, CD4 and CD28. These data suggest that the loss of expression of LAgs by apoptotic lymphocytes is a common and conserved feature of lymphocytes undergoing apoptosis in several mammalian species.