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71.
72.
Ahari SE Houshmand M Panahi MS Kasraie S Moin M Bahar MA 《Cellular and molecular neurobiology》2007,27(6):695-700
As with chromosomal DNA, the mitochondrial DNA (mtDNA) can contain mutations that are highly pathogenic .In fact, many diseases
of the central nervous system are known to be caused by mutations in mtDNA. Dysfunction of the mitochondrial Respiratory Chain
(RC) has been shown in patients with neurological disease including Alzheimer’s disease (AD), Parkinson’s disease (PD) and
Multiple sclerosis (MS). MS is a demyelinating disease of central nervous system characterized by morphological hallmarks
of inflammation, demyelination and axonal loss. Considering this importance, we decided to investigate several highly mutative
parts of mtDNA for point mutations as MT-LTI (tRNALeucine1(UUA/G)), MT-NDI (NADH Dehydrogenase subunit 1), MT-COII (Cytochrome c oxidase subunit II), MT-TK (tRNALysine), MT-ATP8 (ATP synthase subunit F0 8) and MT-ATP6 (ATP synthase subunit F0 6) in 20 Iranian MS patients and 80 age-matched
control subjects by PCR and automated DNA sequencing to evaluate any probable point mutations. Our results revealed that 15
(75%) out of 20 MS patients had point mutations. Some of point mutations were newly found in this study. This study suggested
that point mutation occurred in mtDNA might be involved in pathogenesis of MS. 相似文献
73.
Proteomic analysis of spinal cord of presymptomatic amyotrophic lateral sclerosis G93A SOD1 mouse 总被引:1,自引:0,他引:1
Massignan T Casoni F Basso M Stefanazzi P Biasini E Tortarolo M Salmona M Gianazza E Bendotti C Bonetto V 《Biochemical and biophysical research communications》2007,353(3):719-725
Amyotrophic lateral sclerosis (ALS) is a fatal motor neuron disease, whose primary mechanisms or causes are still not defined and for which no effective treatment is available. We have recently reported that before disease onset the level of tyrosine nitrated proteins is increased in the G93A SOD1 transgenic mouse model of ALS. In the present investigation, we carried out a proteomic analysis of spinal cord extracts from G93A SOD1 mice at the presymptomatic stage of the disease to further unravel primary events in the pathogenesis and tentatively screen for potential pharmacological targets. Using a robust two-dimensional gel electrophoresis-based proteomic approach, we detected a number of proteins differentially represented in presymptomatic mice in comparison with controls. Alterations of these proteins correlate with mitochondrial dysfunction, aggregation, and stress response. Moreover, we found a variation in the isoform pattern of cyclophilin A, a molecular chaperone that protects cells from the oxidative stress. 相似文献
74.
Based on direct field measurement, this study quantitatively estimated the litter dynamics on the forest floor for a 1-year-period
and then investigated its influence on the seedling dynamics of Castanopsis sieboldii, as well as interactions with adults in a subtropical forest in southern Japan. Litter dynamics is composed of three major
components: falling litter, transport, and decomposition on the forest floor. Litterfall was measured by litter traps and
did not exhibit clear spatial tendency. Lateral input was assessed by newly accumulated litter beneath the traps and showed
no spatial variation, either. In contrast, lateral output of litter, which was quantified from disappearance of artificial
litter, was correlated with local topography. Consequently, we found considerable spatial variations and seasonal changes
in litter dynamics on the forest floor. In addition, we constructed survival models of C. sieboldii seedlings at the individual level. The lateral movement of accumulated litter had an influence on the survival of seedlings,
which mostly occurred in periods of typhoons with heavy rain. Meanwhile, the distance from canopy trees, which is assumed
to be a spacing mechanism due to seedling/adult interactions, played a lesser role in this subtropical forest. Our results
suggest that the stability of accumulated litter on the forest floor was a predominant factor in the spatial dynamics of the
early life stage of C. sieboldii. 相似文献
75.
Ke Zhu Jianxun Yi Yajuan Xiao Yumei Lai Pingping Song Wei Zheng Hongli Jiao Jie Fan Chuanyue Wu Di Chen Jingsong Zhou Guozhi Xiao 《The Journal of biological chemistry》2015,290(13):8081-8094
There is an intimate relationship between muscle and bone throughout life. However, how alterations in muscle functions in disease impact bone homeostasis is poorly understood. Amyotrophic lateral sclerosis (ALS) is a neuromuscular disease characterized by progressive muscle atrophy. In this study we analyzed the effects of ALS on bone using the well established G93A transgenic mouse model, which harbors an ALS-causing mutation in the gene encoding superoxide dismutase 1. We found that 4-month-old G93A mice with severe muscle atrophy had dramatically reduced trabecular and cortical bone mass compared with their sex-matched wild type (WT) control littermates. Mechanically, we found that multiple osteoblast properties, such as the formation of osteoprogenitors, activation of Akt and Erk1/2 pathways, and osteoblast differentiation capacity, were severely impaired in primary cultures and bones from G93A relative to WT mice; this could contribute to reduced bone formation in the mutant mice. Conversely, osteoclast formation and bone resorption were strikingly enhanced in primary bone marrow cultures and bones of G93A mice compared with WT mice. Furthermore, sclerostin and RANKL expression in osteocytes embedded in the bone matrix were greatly up-regulated, and β-catenin was down-regulated in osteoblasts from G93A mice when compared with those of WT mice. Interestingly, calvarial bone that does not load and long bones from 2-month-old G93A mice without muscle atrophy displayed no detectable changes in parameters for osteoblast and osteoclast functions. Thus, for the first time to our knowledge, we have demonstrated that ALS causes abnormal bone remodeling and defined the underlying molecular and cellular mechanisms. 相似文献
76.
Evidence for parent-of-origin effects in complex diseases such as Multiple Sclerosis (MS) strongly suggests a role for epigenetic mechanisms in their pathogenesis. In this review, we describe the importance of accounting for parent-of-origin when identifying new risk variants for complex diseases and discuss how genomic imprinting, one of the best-characterized epigenetic mechanisms causing parent-of-origin effects, may impact etiology of complex diseases. While the role of imprinted genes in growth and development is well established, the contribution and molecular mechanisms underlying the impact of genomic imprinting in immune functions and inflammatory diseases are still largely unknown. Here we discuss emerging roles of imprinted genes in the regulation of inflammatory responses with a particular focus on the Dlk1 cluster that has been implicated in etiology of experimental MS-like disease and Type 1 Diabetes. Moreover, we speculate on the potential wider impact of imprinting via the action of imprinted microRNAs, which are abundantly present in the Dlk1 locus and predicted to fine-tune important immune functions. Finally, we reflect on how unrelated imprinted genes or imprinted genes together with non-imprinted genes can interact in so-called imprinted gene networks (IGN) and suggest that IGNs could partly explain observed parent-of-origin effects in complex diseases. Unveiling the mechanisms of parent-of-origin effects is therefore likely to teach us not only about the etiology of complex diseases but also about the unknown roles of this fascinating phenomenon underlying uneven genetic contribution from our parents.This article is part of a Directed Issue entitled: Epigenetics dynamics in development and disease. 相似文献
77.
Background
Lateral gene transfer (LGT) is an important evolutionary process in microbial evolution. In sewage treatment plants, LGT of antibiotic resistance and xenobiotic degradation-related proteins has been suggested, but the role of LGT outside these processes is unknown. Microbial communities involved in Enhanced Biological Phosphorus Removal (EBPR) have been used to treat wastewater in the last 50 years and may provide insights into adaptation to an engineered environment. We introduce two different types of analysis to identify LGT in EBPR sewage communities, based on identifying assembled sequences with more than one strong taxonomic match, and on unusual phylogenetic patterns. We applied these methods to investigate the role of LGT in six energy-related metabolic pathways.Results
The analyses identified overlapping but non-identical sets of transferred enzymes. All of these were homologous with sequences from known mobile genetic elements, and many were also in close proximity to transposases and integrases in the EBPR data set. The taxonomic method had higher sensitivity than the phylogenetic method, identifying more potential LGTs. Both analyses identified the putative transfer of five enzymes within an Australian community, two in a Danish community, and none in a US-derived culture.Conclusions
Our methods were able to identify sequences with unusual phylogenetic or compositional properties as candidate LGT events. The association of these candidates with known mobile elements supports the hypothesis of transfer. The results of our analysis strongly suggest that LGT has influenced the development of functionally important energy-related pathways in EBPR systems, but transfers may be unique to each community due to different operating conditions or taxonomic composition.Electronic supplementary material
The online version of this article (doi:10.1186/s12864-015-1752-5) contains supplementary material, which is available to authorized users. 相似文献78.
Evidence for a role of vitamin D insufficiency in determining risk in Multiple Sclerosis (MS) is supported by studies in both pediatric- and adult-onset patients. The potential role of vitamin D in modulating MS disease activity is an area of active clinical trials research, and the possibility of primary disease prevention with vitamin D supplementation in early life is an emerging concept. With Sir Austin Bradford Hill's criteria as a framework, the present review assesses the evidence for a causal relationship between vitamin D insufficiency and the pathobiology of MS, and discusses rationale for future clinical trials with vitamin D. 相似文献
79.
Habib Bokhari Maryam Anwar Hasan Bilal Mirza Patrick Martin Gillevet 《Bioinformation》2011,6(8):293-296
Acquisition of new genetic material through horizontal gene transfer has been shown to be an important feature in the evolution of many pathogenic bacteria.
Changes in the genetic repertoire, occurring through gene acquisition and deletion, are the major events underlying the emergence and evolution of bacterial
pathogens. However, horizontal gene transfer across the domains i.e. archaea and bacteria is not so common. In this context, we explore events of horizontal gene
transfer between archaea and bacteria. In order to determine whether the acquisition of archaeal genes by lateral gene transfer is an important feature in the
evolutionary history of the pathogenic bacteria, we have developed a scheme of stepwise eliminations that identifies archaeal-like genes in various bacterial
genomes. We report the presence of 9 genes of archaeal origin in the genomes of various bacteria, a subset of which is also unique to the pathogenic members and
are not found in respective non-pathogenic counterparts. We believe that these genes, having been retained in the respective genomes through selective advantage,
have key functions in the organism’s biology and may play a role in pathogenesis. 相似文献
80.