Tubulin is one superfamily of proteins, α- and β-tubulins are the major proteins of microtubules, while γ-tubulin plays a critical role in the nucleation of microtubules. Western blotting and immunofluorescent confocal microscopy were used to study the assembly and transformation of γ-tubulin during meiotic maturation, fertilization and parthenogenetic activation of pig oocytes. γ-Tubulin exists in the porcine oocytes and its quantity remains stable during meiotic maturation. It is located in the region where there is microtubule assembly, especially on the spindle poles at metaphase and middle plate or mibody of elongating spindle at anaphase and telophase. After its vitro fertilization and parthenogenetic activation, γ-tubulin concentrated around the male and female chromatin and pronuclei. It is also found to be localized in sperm acrosomal cap and the neck. During early cleavage, γ-tubulin distributes around the blastomere nuclei. The results suggest that T-tubulin is a major regulator of microtubule assembly in porcine eggs and that both oocyte and sperm contribute centrosome materials to fertilized eggs.
HLA-B associated transcript (BAT) 2, 3, and 5 polymorphisms and haplotypes are associated with Kawasaki disease (KD) and coronary artery aneurysm (CAA) formations.KD, an acute vasculitis with unknown etiology, involves a complex interaction of immuno-inflammatory process, cytokines activation, and genetic factors. We aimed to investigate if genetic variants of human lymphocyte antigen (HLA)-BAT2, 3, and 5 (BAT2, 3, and 5) could be used as markers of susceptibility in KD and CAA.Individuals were divided into three groups: (1) normal controls; (2) KD with CAA; and (3) KD without CAA. Polymorphisms for BAT2 (-8671, 16483), BAT3 (8854, 2-24), and BAT5 (22655, 9569) were genotyped by PCR system with TaqMan allelic discrimination assay. Genotype/allelic frequencies and haplotypes (BAT2(-8671)-BAT2(16483)-BAT3(8854)-BAT3(2-24)-BAT5(22655)-BAT5(9569)) in each group were compared.Genotype distribution and allele frequency of BAT2 -8671, BAT3 8854, and BAT5 22655, 9569 polymorphisms in each group were significantly different. BAT2 -8671*G, BAT3 8854*C, BAT5 22655*C, and 9569*A-related genotypes and alleles are correlated with the developments of KD and CAA. BAT haplotypes of ATTGTG and ATCATG are associated with higher susceptibilities of KD with CAA susceptibility.BAT2 -8671, BAT3 8854, and BAT5 22655, 9569 polymorphisms as well as BAT haplotypes (ATTGTG and ATCATG) might be associated with higher KD susceptibility and CAA formation. HLA-B region polymorphisms might contribute to the pathogenesis of KD and CAA.
This paper reports on the activation of p90 rsk during meiotic maturation and the inactivation of p90 rsk after electrical parthenogenetic activation of rat oocytes. In addition, the correlation between p90 rsk and MAP kinases after different treatments was studied. We assessed p90 rsk activity by examining its electrophoretic mobility shift on SDS-PAGE and evaluated ERK1+2 activity by both mobility shift and a specific antibody against phospho-MAP kinase. The phosphorylation of p90 rsk during rat oocyte maturation was a sequential process that may be divided into two stages: the first stage was partial phosphorylation, which was irrelevant with MAP kinases because p90 rsk phosphorylation took place prior to activation of MAP kinases. The second stage inferred full activation occurred at the time when MAP kinases began to be activated (3 h after germinal visicle breakdown). Evidence for the involvement of MAP kinases in the p90 rsk phosphorylation was further obtained by the following approaches: (1) okadaic acid (OA) accelerated the phosphorylation of both MAP kinases and p90 rsk ; (2) OA induced phosphorylation of both MAP kinases and p90 rsk in the presence of IBMX; (3) when activation of MAP kinases was inhibited by cycloheximide, p90 rsk phosphorylation was also abolished; (4) dephosphorylation of p90 rsk began to take place at 3 h post-activation, temporally correlated with the completion of MAP kinase inactivation; (5) phosphorylation of both kinases was maintained in oocytes that failed to form pronuclei after stimulation; (6) OA abolished the dephosphorylation of both kinases after parthenogenetic activation. Our data suggest that MAP kinases are not required for early partial activation of p90 rsk but are required for full activation of p90 rsk during rat oocyte maturation, and that p90 rsk dephosphorylation occurs following MAP kinase inactivation after parthenogenetic activation of rat oocytes.
In the past 20 years, some new approaches have been used. These include sperm-mediated DNA transfer, retroviral mediated DNA transfer into oocytes, somatic cell carrying exogenous genes nuclear transfer, the use of embryonic stem (ES) cell. But these ways can not solve existing problems thoroughly. In recent papers, the existing techniques have been improved and significant progress has been made in developing transgenic techniques.
T cell-mediated immunity may play a critical role in controlling and establishing protective immunity against SARS-CoV-2 infection; yet the repertoire of viral epitopes responsible for T cell response activation remains mostly unknown. Identification of viral peptides presented on class I human leukocyte antigen (HLA-I) can reveal epitopes for recognition by cytotoxic T cells and potential incorporation into vaccines. Here, we report the first HLA-I immunopeptidome of SARS-CoV-2 in two human cell lines at different times post-infection using mass spectrometry. We found HLA-I peptides derived not only from canonical ORFs, but also from internal out-of-frame ORFs in Spike and Nucleoprotein not captured by current vaccines. Proteomics analyses of infected cells revealed that SARS-CoV-2 may interfere with antigen processing and immune signaling pathways. Based on the endogenously processed and presented viral peptides that we identified, we estimate that a pool of 24 peptides would provide one or more peptides for presentation by at least one HLA allele in 99% of the human population. These biological insights and the list of naturally presented SARS-CoV-2 peptides will facilitate data-driven selection of peptides for immune monitoring and vaccine development.
Tumour necrosis factor-α (TNF-α), an important proinflammatory cytokine, exerts a variety of physiological and pathogenic effects that lead to tissue destruction. Studies on the association of TNF-α genetic polymorphisms with systemic lupus erythematosus (SLE) have yielded inconclusive results. We investigated the association of TNF-α genetic polymorphisms (−1031T/C, −863C/A, −857T/C, −308A/G and +489A/G) with SLE in Taiwanese patients and controls. Our results indicate that 1) the frequency of the A-allele at −863 position was significantly higher in SLE patients (odds ratio = 1.46; 95% CI = 1.02–2.08); 2) the frequency of the A-allele at +489 position was significantly higher in SLE patients (odds ratio = 1.79; 95% CI = 1.21–2.65); 3) the AA or GA genotype frequencies at +489 position were significantly increased in SLE patients (AA genotype: odds ratio = 11.20; 95% CI = 1.36–92.55; GA genotype: odds ratio = 1.63; 95% CI = 1.03–2.58); 4) no significant association of TNF-α haplotypic distributions was observed, except for the haplotypes TCCGA, CACGA and CCCGG; and 5) the genotype frequency of the polymorphisms at −1031 was significantly different in patients with antinuclear antibodies ( P = 0.022). The allele and genotype frequencies of the polymorphisms at −863 were not significantly different. The genotype frequency of the polymorphisms at −857 was significantly different in patients with haematological disorder ( P = 0.025). The frequency of A allele of the polymorphisms at −308 was significantly increased in patients with malar rash ( P = 0.033), discoid rash ( P = 0.023), photosensitivity ( P = 0.037), oral ulcers ( P = 0.002) and serositis ( P = 0.029). The genotype frequency of the polymorphisms at +489 was significantly different in patients with discoid rash and photosensitivity (data not shown; discoid rash, P = 0.031; photosensitivity, P = 0.044). These results suggest that TNF-α genetic polymorphisms contribute to SLE susceptibility in the Taiwanese population.
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