Ectodermal dysplasia syndromes are genetically heterogeneous group of disorders involving one or more of the classical ectodermal
appendages (hair, nail, teeth, sweat glands) in association with anomalies of other organs or systems. In the present study
a novel form of ectodermal dysplasia syndrome, ectodermal dysplasia cutaneous syndactyly (EDCS), segregating in an autosomal
recessive pattern in a Pakistani family was investigated. The clinical features of the affected individuals included large
prominent ear pinnae, tooth enamel hypoplasia, hypoplastic nails, bilateral partial cutaneous syndactyly, hypotrichosis, palmoplantar
keratoderma and hyperhidrosis. Through genetic linkage study, EDCS syndrome was mapped on human chromosome 7p21.1-p14.3 flanked
by markers D7S488 and D7S817. A maximum two-point LOD score of 2.94 (θ = 0.00) was obtained at marker D7S2496 while a maximum
multipoint LOD score of 3.07 was obtained with several markers along the disease-interval. This interval spans 19.80-cM, which
corresponds to 13.74-Mbp according to the sequence-based physical map (Build 36.1). Sequence analysis of 27 candidate genes,
located in the candidate interval, did not reveal any functional sequence variant. 相似文献
Recent behavioral and neural evidence has suggested that ethologically relevant sub-movements (movement primitives) are used by primates for more complex motor skill learning. These primitives include extending the hand, grasping an object, and holding food while moving it toward the mouth. In prior experiments with rats performing a reach-to-grasp-food task, we observed that especially during early task learning, rats appeared to have movement primitives similar to those seen in primates. Unlike primates, however, during task learning the rats performed these sub-movements in a disordered manner not seen in humans or macaques, e.g. with the rat chewing before placing the food pellet in its mouth. Here, in two experiments, we tested the hypothesis that for rats, learning this ecologically relevant skill involved learning to concatenate the sub-movements in the correct order. The results confirmed our initial observations, and suggested that several aspects of forepaw/hand use, taken for granted in primate studies, must be learned by rats to perform a logically connected and seemingly ecologically important series of sub-movements. We discuss our results from a comparative and evolutionary perspective. 相似文献
While diabetic patients often present with comorbid depression, the underlying mechanisms linking diabetes and depression
are unknown. The Wistar Kyoto (WKY) rat is a well-known animal model of depression and stress hyperreactivity. In addition,
the WKY rat is glucose intolerant and likely harbors diabetes susceptibility alleles. We conducted a quantitative trait loci
(QTL) analysis in the segregating F2 population of a WKY × Fischer 344 (F344) intercross. We previously published QTL analyses for depressive behavior and hypothalamic-pituitary-adrenal
(HPA) activity in this cross. In this study we report results from the QTL analysis for multiple metabolic phenotypes, including
fasting glucose, post-restraint stress glucose, postprandial glucose and insulin, and body weight. We identified multiple
QTLs for each trait and many of the QTLs overlap with those previously identified using inbred models of type 2 diabetes (T2D).
Significant correlations were found between metabolic traits and HPA axis measures, as well as forced swim test behavior.
Several metabolic loci overlap with loci previously identified for HPA activity and forced swim behavior in this F2 intercross, suggesting that the genetic mechanisms underlying these traits may be similar. These results indicate that WKY
rats harbor diabetes susceptibility alleles and suggest that this strain may be useful for dissecting the underlying genetic
mechanisms linking diabetes, HPA activity, and depression. 相似文献
Jawed vertebrates generate their immune-receptor repertoire by a recombinatorial mechanism that has the potential to produce harmful autoreactive lymphocytes. In mammals, peripheral tolerance to self-antigens is enforced by Foxp3+ regulatory T cells. Recombinatorial mechanisms also operate in teleosts, but active immunoregulation is thought to be a late incorporation to the vertebrate lineage.
Methods/Principal Findings
Here we report the characterization of adaptive autoimmunity and Foxp3-based immunoregulation in the zebrafish. We found that zebrafish immunization with an homogenate of zebrafish central nervous system (zCNS) triggered CNS inflammation and specific antibodies. We cloned the zebrafish ortholog for mammalian Foxp3 (zFoxp3) which induced a regulatory phenotype on mouse T cells and controlled IL-17 production in zebrafish embryos.
Conclusions/Significance
Our findings demonstrate the acquisition of active mechanisms of self-tolerance early in vertebrate evolution, suggesting that active regulatory mechanisms accompany the development of the molecular potential for adaptive autoimmunity. Moreover, they identify the zebrafish as a tool to study the molecular pathways controlling adaptive immunity. 相似文献
Sclerotinia stem rot (SSR) caused by Sclerotinia sclerotiorum is one of the major fungal diseases of canola. To develop resistance against this fungal disease, the chit42 from Trichoderma atroviride with chitin-binding domain and polygalacturonase-inhibiting protein 2 (PG1P2) of Phaseolus vulgaris were co-expressed in canola via Agrobacterium-mediated transformation.
Results
Stable integration and expression of transgenes in T0 and T2 plants was confirmed by PCR, Southern blot and RT-PCR analyses. Chitinase activity and PGIP2 inhibition were detected by colorimetric and agarose diffusion assay in transgenic lines but not in untransformed plants. The crude proteins from single copy transformant leaves having high chitinase and PGIP2 activity (T16, T8 and T3), showed up to 44 % inhibition of S. sclerotiorum hyphal growth. The homozygous T2 plants, showing inheritance in Mendelian fashion (3:1), were further evaluated under greenhouse conditions for resistance to S. sclerotiorum. Intact plants contaminated with mycelia showed resistance through delayed onset of the disease and restricted size and expansion of lesions as compared to wild type plants.
Conclusions
Combined expression of chimeric chit42 and pgip2 in Brassica napus L. provide subsequent protection against SSR disease and can be helpful in increasing the canola production in Iran.
Inappropriate left ventricular remodeling following myocardial infarction (MI) can result in subsequent severe dysfunction. In this study, we tested the hypothesis that decellularized pericardium (DP) or seeded pericardial patch with autologous adipose-derived mesenchymal stem cells (ADMSCs) could be safely used in a MI scar and could improve heart function. Twelve rabbits were randomly divided into three equal groups. Four weeks after MI induction by ligation of the left anterior descending artery in 12 rabbits, animals of G1 (n = 4) received DP patch with labeled ADMSCs. DP patch was implanted in animals of G2 (n = 4). Rabbits of G3 (n = 4) remained without any intervention after MI induction (control group). Serial examinations including echocardiography, electrocardiography (ECG), scanning electron microscopy, histology and immunohistochemistry (IHC) were performed to evaluate the efficacy of the implanted scaffolds on recovery of the infracted myocardium. The results demonstrated that left ventricular contractile function and myocardial pathological changes were significantly improved in rabbits implanted with either DP or ADMSC-seeded pericardium. However, the seeded pericardium was more effective in scar repairing 2 months after the operation, IHC staining with Desmin and CD34 and positive immunofluorescence staining verified the differentiation of ADMSCs to functional cardiomyocytes. This approach may involve the application of autologous ADMSCs seeded on pericardial patch in an attempt to regenerate a contractible myocardium in an animal model of MI. 相似文献
Summary Cells of wild-type Schizosacharomyces pombe exposed to UV radiation in either G1 or G2 phase show enhanced inactivation of colony-forming ability if plated in the presence of caffeine. This UV-sensitization by caffeine is abolished in both G1 and G2 phase cells by the rad1 mutation; since both caffeine and the rad1 mutation markedly reduce recombinational events, this suggests that a recombinational repair process is active in cells irradiated either in G1 or G2 phase. A prereplicative or sister chromatid exchange recombinational process appears to account for caffeine-sensitive repair of UV-damage in G2 cells (which possess at the time of radiation exposure the duplicated genome necessary for recombination), since caffeine-sensitive repair begins immediately and is completed before resumption of DNA synthesis. In contrast, since caffeine-sensitive repair of UV-damage in G1 cells displays a considerable lag and then occurs concomitantly with DNA synthesis, it appears that G1 cells must acquire a second genome in order to accomplish a caffeine-sensitive recovery process. Since a duplicated genome is required for caffeinesensitive repair, all such repair would seem to involve a recombinational mechanism. In G1 cells the process may be a post-replication recombinational mechanism. Since G2 phase cells are considerably more UV-resistant than G1 phase cells, the prereplicative recombinational process appears to be a much more efficient process for dealing with UV-induced damage than the post-replication mechanism.UV-induced mutagenesis was examined in wildtype and rad mutants using a forward mutation system. Rad mutants which show higher UV-induced mutation rates than wild-type retain UV-sensitization by caffeine (and thus presumably retain the recombinational mechanism). In contrast, rad strains which are relatively UV-immutable compared to wild-type do not possess the caffeine-sensitive UV-repair process. The recombinational process therefore may be the major pathway responsible for UV-induced mutation.AECL Reference No. 6251; NRC Publication No. 16999 相似文献
Ergosterol as a primary metabolite and precursor of vitamin D2, is the most plentiful mycosterols in fungal cell membrane. Process optimization to increase the yield and productivity of biological products is a topic of interest. Ultrasonic waves have many applications in biotechnology, like cell disruption, and enhancement of primary and secondary metabolites production. This study disclosed an optimal condition for ultrasound-assisted production (UAP) of ergosterol from Penicillium brevicompactum MUCL 19,011 using L9 Taguchi statistical method. The intensity (IS), time of sonication (TS), treatment frequency (TF), and number of days of treatment (DT) were allocated to study the effects of ultrasound on ergosterol production. The results were analyzed using Minitab version 19. The maximum ergosterol, 11 mg/g cell dry weight (CDW), was produced on the tenth day while all factors were at a low level. The days of treatment with a contribution of 45.48% was the most significant factor for ergosterol production. For the first time, this study revealed the positive effect of ultrasound on the production of ergosterol. Ergosterol production increased 73% (4.63 mg/g CDW) after process optimization. Finally, a mathematical model of ultrasound factors with a regression coefficient of R2?=?0.978 was obtained for the ergosterol production during ultrasound treatment.