三株新城疫病毒强毒株的生物学特性及全基因组序列分析

2009～2011年从北方发病鸡群和鸭群中分离出3株新城疫病毒（Newcastle disease virus,NDV）。通过致病性指数测定及交叉血凝抑制试验初步分析了3个毒株的毒力和相互之间的同源性。选取鸡源分离株SDLY01与新城疫疫苗株（LaSota）进行了交叉保护试验,选取鸭源毒株SD03对樱桃谷鸭进行攻毒实验,同时设计引物对3个毒株进行了全基因组测序,并与36株NDV参考株进行了分子进化分析。结果表明3个分离株F蛋白裂解位点的氨基酸序列均为112R-R-Q-K-R-F117符合强毒株的序列特征,并与致病性指数测定结果相符。交叉血凝抑制试验发现3个分离株与疫苗株LaSota 的抗原同源性较低为82.5%～89.4%,两个鸡源分离株间的抗原同源性为90%,而鸭源毒株SD03与鸡源毒株SDSG01同源性为100%。交叉保护试验和攻毒实验结果显示传统的LaSota疫苗能对SDLY01流行株提供100%免疫保护,但第5天仍检测到排毒;鸭源毒株SD03对樱桃谷鸭不致病,但能检出排毒,排毒期最长为5d。全基因组测序与分析表明3个毒株基因组长度均为15192bp,属于基因Ⅶd型毒株,与同期流行的鹅源及鸭源NDV毒株之间全基因组核苷酸序列具有高度的同源性,揭示鸭源、鹅源NDV与鸡源NDV在遗传学和流行病学上密切相关。     

黄毛纺蚋线粒体基因组全序列测定与分析

利用PCR步移法对黄毛纺蚋的线粒体基因组全序列进行了测定和分析。黄毛纺蚋线粒体基因组全长15904 bp(Gen Bank序列号KP793690),包括13个蛋白编码基因、22个tRNA基因、2个rRNA基因以及长度为939 bp的非编码区。A、T、C、G碱基含量分别为39.1%、35.8%、10.4%、14.7%。9个蛋白编码基因和14个tRNA基因在J链编码,其余4个蛋白编码基因和8个tRNA基因在N链编码,基因排列顺序与其它已知双翅目昆虫相同。13个蛋白编码基因中除COI以TTG作为起始密码外,其余蛋白质基因均以ATN作为起始密码子,终止密码子多数为典型的TAA、TAG,只有COI和ND4L以单独的T作为终止密码子。在所测得的22个tRNA基因中,除tRNASer(AGN)缺少DHU臂外,其余tRNA均能形成典型的三叶草结构。     

Dysfunction of mitochondrial complex I and the proteasome: interactions between two biochemical deficits in a cellular model of Parkinson's disease

Two biochemical deficits have been described in the substantia nigra in Parkinson's disease, decreased activity of mitochondrial complex I and reduced proteasomal activity. We analysed interactions between these deficits in primary mesencephalic cultures. Proteasome inhibitors (epoxomicin, MG132) exacerbated the toxicity of complex I inhibitors [rotenone, 1-methyl-4-phenylpyridinium (MPP+)] and of the toxic dopamine analogue 6-hydroxydopamine, but not of inhibitors of mitochondrial complex II-V or excitotoxins [N-methyl-d-aspartate (NMDA), kainate]. Rotenone and MPP+ increased free radicals and reduced proteasomal activity via adenosine triphosphate (ATP) depletion. 6-hydroxydopamine also increased free radicals, but did not affect ATP levels and increased proteasomal activity, presumably in response to oxidative damage. Proteasome inhibition potentiated the toxicity of rotenone, MPP+ and 6-hydroxydopamine at concentrations at which they increased free radical levels >/= 40% above baseline, exceeding the cellular capacity to detoxify oxidized proteins reduced by proteasome inhibition, and also exacerbated ATP depletion caused by complex I inhibition. Consistently, both free radical scavenging and stimulation of ATP production by glucose supplementation protected against the synergistic toxicity. In summary, proteasome inhibition increases neuronal vulnerability to normally subtoxic levels of free radicals and amplifies energy depletion following complex I inhibition.     

瓦氏黄颡鱼线粒体全基因组序列分析及系统进化

鲿科鱼类种类繁多, 外形相似, 形态学分类较为困难。为了给鲿科鱼类乃至鲇形目鱼类的系统进化研究积累基础资料, 文章采用参照近缘物种线粒体基因组设计覆盖全基因组引物的方法, 利用16对引物对瓦氏黄颡鱼(Pelteobagrus vachelli)线粒体全基因组进行扩增, PCR产物转化到质粒后测序, 最终获得线粒体基因组全序列, 其全长为16 527 bp, 包括2个rRNA基因、22个tRNA基因、13个编码蛋白质基因和一个非编码控制区。瓦氏黄颡鱼(P. vachelli)线粒体基因组结构和基因排列顺序与现已公布的鲇形目鱼类完全一致, 序列分析表明, 与鲇形目其他种属间具有较高的同源性, 与拟鲿属的同源性最高(91%)。利用鲇形目共4科6属9种及3个外群的线粒体全基因组序列, 从线粒体基因组水平探讨了鲿科鱼类及其在鲇形目的系统进化地位, 结果表明: 鲿科鱼类的瓦氏黄颡鱼(P. vachelli)、黄颡鱼(Pelteobagrus fulvidraco)、光泽黄颡鱼(Pelteobagrus nitidus)及越南拟鲿(Pseudobagrus tokiensis)构成一单系群; 拟鲿属与黄颡鱼属的关系较近; 黄颡鱼属中瓦氏黄颡鱼(P. vachelli)与光泽黄颡鱼(P.nitidus)的关系近于黄颡鱼(P. fulvidraco)。     

Revisiting the Neurospora crassa mitochondrial genome

The mitochondrial genome of Neurospora crassa has been less studied than its nuclear counterpart, yet it holds great potential for understanding the diversity and evolution of this important fungus. Here we describe a new mitochondrial DNA (mtDNA) complete sequence of a N. crassa wild type strain. The genome with 64 839 bp revealed 21 protein-coding genes and several hypothetical open reading frames with no significant homology to any described gene. Five large repetitive regions were identified across the genome, including partial or complete genes. The largest repeated region holds a partial nd2 section that was also detected in Neurospora intermedia, suggesting a rearrangement that occurred before the N. crassa speciation. Interestingly, N. crassa has a palindrome adjacent to the partial nd2 repeated region possibly related to the genomic rearrangement, which is absent in N. intermedia. Finally, we compared the sequences of the three available N. crassa complete mtDNAs and found low levels of intraspecific variability. Most differences among strains were due to small indels in noncoding regions. The revisiting of the N. crassa mtDNA forms the basis for future studies on mitochondrial genome organization and variability.     

Nucleotide sequence of the soybean mitochondrial 18S rRNA gene: evidence for a slow rate of divergence in the plant mitochondrial genome

Summary The nucleotide sequence of the 18S rRNA gene from soybean mitochondria was determined and is presented here in comparison to the 18S rRNA genes from wheat and maize mitochondria. All three genes exhibit remarkable sequence similarity supporting the proposal that there is a slower rate of nucleotide divergence in plant mitochondrial DNA (mtDNA) as compared to the mtDNA of animals. A lower degree of sequence similarity is observed between the dicotyledenous plant soybean and either wheat (84%) or maize (85%) than between the two monocots (96%). A possible secondary structure for the soybean 18S rRNA is presented that is analogous to the proposed structure for the E. coli 16S rRNA.     

帕金森病相关蛋白PINK1和Parkin通过降解Miro影响线粒体运动

帕金森病是一种常见的神经退行性疾病,发病机制尚不清楚,线粒体功能障碍是可能的原因之一。帕金森病相关蛋白PINK1和Parkin均被证明影响线粒体功能和形态,并参与线粒体质量监控。2011年11月《细胞》杂志 （Cell）147期 发表了题为《PINK1和Parkin导致Miro磷酸化降解和线粒体运动阻滞》的文章,发现PINK1 / Parkin 通路可以作用于定位在线粒体外膜的线粒体移动相关蛋白Miro,PINK1直接磷酸化Miro,Parkin参与Miro降解,使受损线粒体脱离微管,从而阻滞线粒体运动。作者猜测这一过程能够隔离受损线粒体,避免了受损线粒体在细胞中的扩散。该研究深入探讨了PINK1和Parkin相互作用机制,揭示了线粒体质量控制系统如何直接调控线粒体运输,提出了受损线粒体的不正常运输可能是PD的致病原因。     

Parkinson's disease transgenic mitochondrial cybrids generate Lewy inclusion bodies

Many models of Parkinson's disease (PD) have succeeded in replicating dopaminergic neuron loss or alpha-synuclein aggregation but not the formation of classical Lewy bodies, the pathological hallmark of PD. Our cybrid model of sporadic PD was created by introducing the mitochondrial genes from PD patients into neuroblastoma cells that lack mitochondrial DNA. Previous studies using cybrids have shown that information encoded by mitochondrial DNA in patients contributes to many pathogenic features of sporadic PD. In this paper, we report the generation of fibrillar and vesicular inclusions in a long-term cybrid cell culture model that replicates the essential antigenic and structural features of Lewy bodies in PD brain without the need for exogenous protein expression or inhibition of mitochondrial or proteasomal function. The inclusions generated by PD cybrid cells stained with eosin, thioflavin S, and antibodies to alpha-synuclein, ubiquitin, parkin, synphilin-1, neurofilament, beta-tubulin, the proteasome, nitrotyrosine, and cytochrome c. Future studies of these cybrids will enable us to better understand how Lewy bodies form and what role they play in the pathogenesis of PD.     

Keshan disease and mitochondrial cardiomyopathy

Keshan disease (KD) is a potentially fatal form of cardiomyopathy (disease of the heart muscle) endemic in certain areas of China. From 1984 to 1986, a national comprehensive scientific investigation on KD in Chuxiong region of Yunnan Province in the southwest China was conducted. The investigation team was composed of epidemiologists, clinic doctors, pathologists, biochemists, biophysicists and specialists in ecological environment. Results of pathological, biochemical and biophysical as well as clinical studies showed: an obvious increase of enlarged and swollen mitochondria with distended crista membranes in myocardium from patients with KD; significant reductions in the activity of oxidative phosphorylation (succinate dehydrogenase, cytochrome oxidase, succinate oxidase, H⁺-ATPase) of affected mitochondria; decrease in CoQ, cardiolipin, Se and GSHPx activity, while obvious increase in the Ca²⁺ content. So, it was suggested that mitochondria are the predominant target of the pathogenic factors of KD. Before Chuxiong KD survey only a few cases of mitochondrial cardiomyopathy were studied. During the multidisciplinary scientific investigation on KD in Chuxiong a large amount of samples from KD cases and the positive controls were examined. On the basis of the results obtained it was suggested that KD might be classified as a “Mitochondrial Cardiomyopathy” endemic in China. This is one of the achievements in the three years’ survey in Chuxiong and is valuable not only to the deeper understanding of pathogenic mechanism of KD but also to the study of mitochondrial cardiomyopathy in general. Keshan disease is not a genetic disease, but is closely related to the malnutrition (especially microelement Se deficiency). KD occurs along a low Se belt, and Se supplementation has been effective in prevention of such disease. The incidence of KD has sharply decreased along with the steady raise of living standard and realization of preventive measures. At present, patients of KD are very sparse. In recent years the research on the non-KD mitochondrial cardiomyopathy has progressed rapidly. Given the advances in this aspect a minireview is written to evaluate the classification of KD as a kind of mitochondrial cardiomyopathy.     

PPAR: a therapeutic target in Parkinson's disease

Parkinson's disease (PD) is a progressive and chronic neurodegenerative disorder, characterized by progressive loss of dopaminergic neurons in substantia nigra. The etiology and pathogenesis of PD is still elusive, however, a large body of evidence suggests a prominent role of oxidative stress, inflammation, apoptosis, mitochondrial dysfunction and proteosomal dysfunction in the pathogenesis of PD. Due to multifactorial nature of the disease, currently available drug therapy cannot halt / slow down the disease progression, and only provides symptomatic relief. Peroxisome proliferator-activated receptor (PPAR), a member of nuclear receptor superfamily, regulates development, tissue differentiation, inflammation, mitochondrial function, wound healing, lipid metabolism and glucose metabolism. Recently, several PPAR agonists were shown to exert neuroprotective activity against oxidative damage, inflammation and apoptosis in several neurodegenerative disorders including Alzheimer's, Parkinson's, Huntington's, amyotrophic lateral sclerosis and multiple sclerosis. Similarly, regular intake of PPAR activating non-steroidal anti-inflammatory drugs such as indomethacin and ibuprofen was associated with reduced incidence and progression of neurodegenerative disorders in several epidemiological studies. In this article, we review studies relating to the neuroprotective effect of PPAR agonists in in vitro and in vivo models of PD. Similarly, the pharmacological mechanism in neuroprotective actions of PPAR agonists is also reviewed. In conclusion, PPAR agonists exert neuroprotective actions by regulating the expression of a set of genes involved in cell survival processes, and could be a therapeutic target in debilitating neurodegenerative illnesses such as PD.     

Keshan disease and mitochondrial cardiomyopathy

Keshan disease (KD) is a potentially fatal form of cardiomyopathy (disease of the heart muscle) endemic in certain areas of China. From 1984 to 1986, a national comprehensive scientific investigation on KD in Chuxiong region of Yunnan Province in the southwest China was conducted. The investigation team was composed of epidemiologists, clinic doctors, pathologists, biochemists, biophysicists and specialists in ecological environment. Results of pathological, biochemical and biophysical as well as clinical studies showed: an obvious increase of enlarged and swollen mito- chondria with distended crista membranes in myocardium from patients with KD; significant reduc- tions in the activity of oxidative phosphorylation (succinate dehydrogenase, cytochrome oxidase, succinate oxidase, H -ATPase) of affected mitochondria; decrease in CoQ, cardiolipin, Se and GSHPx activity, while obvious increase in the Ca2 content. So, it was suggested that mitochondria are the predominant target of the pathogenic factors of KD. Before Chuxiong KD survey only a few cases of mitochondrial cardiomyopathy were studied. During the multidisciplinary scientific investiga- tion on KD in Chuxiong a large amount of samples from KD cases and the positive controls were examined. On the basis of the results obtained it was suggested that KD might be classified as a “Mitochondrial Cardiomyopathy” endemic in China. This is one of the achievements in the three years’ survey in Chuxiong and is valuable not only to the deeper understanding of pathogenic mechanism of KD but also to the study of mitochondrial cardiomyopathy in general. Keshan disease is not a genetic disease, but is closely related to the malnutrition (especially mi- croelement Se deficiency). KD occurs along a low Se belt, and Se supplementation has been effective in prevention of such disease. The incidence of KD has sharply decreased along with the steady raise of living standard and realization of preventive measures. At present, patients of KD are very sparse. In recent years the research on the non-KD mitochondrial cardiomyopathy has progressed rapidly. Given the advances in this aspect a minireview is written to evaluate the classification of KD as a kind of mitochondrial cardiomyopathy.     

小麂线粒体基因组全序列的测定和分析

通过建立麂属动物小麂线粒体DNA文库、鸟枪法测序,获得了小麂线粒体基因组全序列并对其基因组成、蛋白质的编码序列、tRNA基因等结构作了详细分析,这也是国内有关哺乳动物线粒体基因组全序列的首次报道。与其他哺乳动物线粒体基因组全序列的比较研究发现：全长为16 354bp的小麂线粒体基因组同样编码13种蛋白质、2种rRNA和22种tRNA,除了用于调控线粒体DNA复制和转录的D-Loop区以外,小麂线粒体基因组各基因长度、位置与其他哺乳动物相似,其编码蛋白质区域和rRNA基因与其他哺乳动物具有很高的同源性。     

The complete sequence of the mitochondrial genome of Saccharomyces cerevisiae

The currently available yeast mitochondrial DNA (mtDNA) sequence is incomplete, contains many errors and is derived from several polymorphic strains. Here, we report that the mtDNA sequence of the strain used for nuclear genome sequencing assembles into a circular map of 85 779 bp which includes 10 kb of new sequence. We give a list of seven small hypothetical open reading frames (ORFs). Hot spots of point mutations are found in exons near the insertion sites of optional mobile group I intron-related sequences. Our data suggest that shuffling of mobile elements plays an important role in the remodelling of the yeast mitochondrial genome.     

Age-associated mitochondrial DNA deletions in mouse skeletal muscle: Comparison of different regions of the mitochondrial genome

The abundance of mitochondrial DNA (mtDNA) deletions has been shown to increase with age in a number of species and may contribute to the aging process. Estimating the total mtDNA deletion load of an individual is essential in evaluating the potential physiological impact. In this study, we compared three 5-kb regions of the mitochondrial genome: one in the major arc, one in the minor arc, and a third containing the light strand origin of replication. Through PCR analysis of mouse skeletal muscle, we have determined that not all regions produce equal numbers of age-associated deletions. There are, on average, twofold more detectable deletions in the major arc region than in the minor arc region. Deletions that result in the loss of the light strand origin of replication are rarely detected. Furthermore, the mechanism of deletion formation seems to be similar in both the major and minor arcs, with direct repeats playing an important, although not essential, role. © 1996 Wiley-Liss, Inc.     

Neither cardiac mitochondrial DNA variation nor copy number contribute to congenital heart disease risk

The well-established manifestation of mitochondrial mutations in functional cardiac disease (e.g., mitochondrial cardiomyopathy) prompted the hypothesis that mitochondrial DNA (mtDNA) sequence and/or copy number (mtDNAcn) variation contribute to cardiac defects in congenital heart disease (CHD). MtDNAcns were calculated and rare, non-synonymous mtDNA mutations were identified in 1,837 CHD-affected proband-parent trios, 116 CHD-affected singletons, and 114 paired cardiovascular tissue/blood samples. The variant allele fraction (VAF) of heteroplasmic variants in mitochondrial RNA from 257 CHD cardiovascular tissue samples was also calculated. On average, mtDNA from blood had 0.14 rare variants and 52.9 mtDNA copies per nuclear genome per proband. No variation with parental age at proband birth or CHD-affected proband age was seen. mtDNAcns in valve/vessel tissue (320 ± 70) were lower than in atrial tissue (1,080 ± 320, p = 6.8E?21), which were lower than in ventricle tissue (1,340 ± 280, p = 1.4E?4). The frequency of rare variants in CHD-affected individual DNA was indistinguishable from the frequency in an unaffected cohort, and proband mtDNAcns did not vary from those of CHD cohort parents. In both the CHD and the comparison cohorts, mtDNAcns were significantly correlated between mother-child, father-child, and mother-father. mtDNAcns among people with European (mean = 52.0), African (53.0), and Asian haplogroups (53.5) were calculated and were significantly different for European and Asian haplogroups (p = 2.6E?3). Variant heteroplasmic fraction (HF) in blood correlated well with paired cardiovascular tissue HF (r = 0.975) and RNA VAF (r = 0.953), which suggests blood HF is a reasonable proxy for HF in heart tissue. We conclude that mtDNA mutations and mtDNAcns are unlikely to contribute significantly to CHD risk.     

Autoantibodies to alpha-synuclein in inherited Parkinson's disease

Neurodegeneration in Parkinson's disease (PD) is accompanied by a local immune reaction in the affected brain regions. It is well established that alpha-synuclein is directly implicated in the pathogenesis of PD. Development of the disease is often associated with changes of expression and cellular compartmentalisation of this protein; moreover, its oligomers or protofibrils are often released to the CSF and plasma of patients. Aggregated alpha-synuclein can trigger the activation of microglia; however, its capacity to induce production of specific autoantibodies (AAb) has not been assessed. In this study, we examined the presence of AAb against synuclein family members in the peripheral blood serum of PD patients and control individuals. Presence of AAb against beta-synuclein or gamma-synuclein showed no association with PD. Multi-epitopic AAb against alpha-synuclein were detected in 65% of all patients tested and their presence strongly correlated with an inherited mode of the disease but not with other disease-related factors. The frequency of the presence of AAb in the studied group of patients with sporadic form of PD was not significantly different from the frequency in the control group but very high proportion (90%) of patients with familial form of the disease were positive for AAb against alpha-synuclein. We hypothesise that these AAb could be involved in pathogenesis of the inherited form of PD.     

The mitochondrial genome of the brown alga Laminaria digitata: a comparative analysis

We report here the complete sequence of the mitochondrial genome of the brown alga Laminaria digitata (Hudson) J.V. Lamouroux. L. digitata mtDNA is a circular molecule of 38,007?bp (64.9% A?+?T), encoding 63 genes and 3 ORFs and with only 6.7% of non-coding sequences. Based on gene content and order, its overall organization is very similar to that of the mitochondrial genome of Pylaiella littoralis, another brown alga belonging to a different sublineage of the Phaeophyceae. In particular, the two genomes share unusual features, which hence could be unique to brown algae among the heterokont lineage, namely the presence of a rn5 gene, a short nad11 gene, a cox2 gene with a large in-frame insertion and α-proteobacterial-like promoter sequences. On the other hand, L. digitata lacks the sequences which are thought to have been transmitted horizontally to the P. littoralis genome, that is, the group-II introns in the rnl and cox1 genes, and it features only traces of an ancestral T7-like RNA polymerase. Distance phylogenetic trees inferred from concatenated mitochondrial genes confirm that speciation of brown algae occurred recently compared to other heterokonts.     

Identification of the entire set of transferred chloroplast DNA sequences in the mitochondrial genome of rice

Summary The entire set of transferred chloroplast DNA sequences in the mitochondrial genome of rice (Oryza sativa cv. Nipponbare) was identified using clone banks that cover the chloroplast and mitochondrial genomes. The mitochondrial fragments that were homologous to chloroplast DNA were mapped and sequenced. The nucleotide sequences around the termini of integrated chloroplast sequences in the rice mtDNA revealed no common sequences or structures that might enhance the transfer of DNA. Sixteen chloroplast sequences, ranging from 32 bases to 6.8 kb in length, were found to be dispersed throughout the rice mitochondrial genome. The total length of these sequences is equal to approximately 6% (22 kb) of the rice mitochondrial genome and to 19% of the chloroplast genome. The transfer of segments of chloroplast DNA seems to have occurred at different times, both before and after the divergence of rice and maize. The mitochondrial genome appears to have been rearranged after the transfer of chloroplast sequences as a result of recombination at these sequences. The rice mitochondrial DNA contains nine intact tRNA genes and three tRNA pseudogenes derived from the chloroplast genome.