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81.
Niba Emma Tabe Eko; Naka Yoshiaki; Nagase Megumi; Mori Hirotada; Kitakawa Madoka 《DNA research》2007,14(6):237-246
Biofilm forming cells are distinctive from the well-investigatedplanktonic cells and exhibit a different type of gene expression.Several new Escherichia coli genes related to biofilm formationhave recently been identified through genomic approaches suchas DNA microarray analysis. However, many others involved inthis process might have escaped detection due to poor expression,regulatory mechanism, or genetic backgrounds. Here, we screeneda collection of single-gene deletion mutants of E. coli namedKeio collection to identify genes required forbiofilm formation. Of the 3985 mutants of non-essential genesin the collection thus examined, 110 showed a reduction in biofilmformation nine of which have not been well characterized yet.Systematic and quantitative analysis revealed the involvementof genes of various functions and reinforced the importancein biofilm formation of the genes for cell surface structuresand cell membrane. Characterization of the nine mutants of function-unknowngenes indicated that some of them, such as yfgA that geneticallyinteracts with a periplasmic chaperone gene surA together withyciB and yciM, might be required for the integrity of outermembrane. 相似文献
82.
The cpDNA trnT-trnF region, a molecular marker widely used in the phylogenetic reconstruction at lower taxonomic levels, is relatively conserved
in size and structure. In this region single length variation over 100 bp is much less common than small deletion for congeneric
species of angiosperms. Here we examined evolutionary patterns of the trnT-trnF region in 43 species of Pedicularis, a species-rich genus with adaptive radiation. Four independent large deletions, varying from 203 to 297 bp in length, were
detected from nine species of the genus, which might result from slipped-strand mispairing. These deletions occurred in different
locations of the cpDNA region and in different clades of the phylogenetic tree, indicating that the deletion of large cpDNA
fragments may be very frequent in the hemiparasitic lineage of the family Orobanchaceae. Parsimony analyses showed that section
Cyathophora of Pedicularis, endemic to the Sino-Himalayan region, was a strongly supported monophyletic group. This section could have a recent origin
followed by rapid radiation, considering that it is characterized by a large deletion in the trnT-trnF region and a relatively low interspecific sequence divergence. 相似文献
83.
We devised a bioinformatics method for systematic identification of putative human-specific exon-deletion mutations that occurred after the divergence of human and chimpanzee and experimentally verified 2 of the predicted mutations in MOXD2 and S100A15A genes. MOXD2 gene encodes a monooxygenase that is highly conserved in mammals and is mostly expressed in the olfactory epithelium in mouse. The presence of a deletion of the last 2 exons and a polymorphic nonsense mutation in exon 6 suggests that MOXD2 gene is inactive in humans. S100A15A is a member of the S100 family of calcium-binding proteins, the mouse ortholog of which is expressed during epidermal maturation. Human S100A15A gene is likely to be inactive because the start codon-bearing exon is deleted in human. We propose that modification or inactivation of MOXD2 and S100A15A genes have contributed to the loss of certain smell sense in humans and to the development of human skin. 相似文献
84.
85.
Jian Liu Jingtao Qu Cong Yang Dengguo Tang Jingwei Li Hai Lan Tingzhao Rong 《BMC genomics》2015,16(1)
Background
Insertions and deletions (indels) are the most abundant form of structural variation in all genomes. Indels have been increasingly recognized as an important source of molecular markers due to high-density occurrence, cost-effectiveness, and ease of genotyping. Coupled with developments in bioinformatics, next-generation sequencing (NGS) platforms enable the discovery of millions of indel polymorphisms by comparing the whole genome sequences of individuals within a species.Results
A total of 1,973,746 unique indels were identified in 345 maize genomes, with an overall density of 958.79 indels/Mbp, and an average allele number of 2.76, ranging from 2 to 107. There were 264,214 indels with polymorphism information content (PIC) values greater than or equal to 0.5, accounting for 13.39 % of overall indels. Of these highly polymorphic indels, we designed primer pairs for 83,481 and 29,403 indels with major allele differences (i.e. the size difference between the most and second most frequent alleles) greater than or equal to 3 and 8 bp, respectively, based on the differing resolution capabilities of gel electrophoresis. The accuracy of our indel markers was experimentally validated, and among 100 indel markers, average accuracy was approximately 90 %. In addition, we also validated the polymorphism of the indel markers. Of 100 highly polymorphic indel markers, all had polymorphisms with average PIC values of 0.54.Conclusions
The maize genome is rich in indel polymorphisms. Intriguingly, the level of polymorphism in genic regions of the maize genome was higher than that in intergenic regions. The polymorphic indel markers developed from this study may enhance the efficiency of genetic research and marker-assisted breeding in maize.Electronic supplementary material
The online version of this article (doi:10.1186/s12864-015-1797-5) contains supplementary material, which is available to authorized users. 相似文献86.
猪细小病毒(PPV)VP2蛋白N端连续9个甘氨酸富集的编码区是VP3蛋白的切割位点,常规PCR扩增容易导致该区段的缺失,为研究该缺失对PPV病毒样颗粒(VLPs)的影响,探索VP2病毒样颗粒上适合外源基因插入的位点,构建了该区段缺失的VP2的真核表达载体pCI-△VP2,并以完整VP2作为对照,采用脂质体介导法转染Vero细胞,通过生物信息学技术、SDS-PAGE、Western blotting、间接免疫荧光以及正染和免疫电镜对表达产物进行分析观察;进一步将重组质粒以核酸疫苗的方式直接肌注免疫小鼠,采用间接ELISA试验、淋巴细胞增殖试验和T细胞亚群流式细胞技术,分析免疫小鼠的体液和细胞免疫应答.结果显示,缺失△VP2和完整VP2在Vero细胞中均能自我装配成VLPs,并具有与完整病毒粒子类似血凝性,pCI-△VP2和pCI-VP2均可诱导小鼠产生较强的特异性体液免疫应答和良好的细胞免疫应答.结果表明,甘氨酸富集区的缺失不影响VP2病毒样颗粒的装配和免疫原性,△VP2同样可进行PPV VLPs疫苗和抗原转运载体的研制,为VLPs载体改造和修饰位点的探索提供了新方向,为VP2基因结构与蛋白质功能的关系提供了新的理论依据. 相似文献
87.
目的研究SHIV-XJ02170在中国恒河猴感染后期传代过程中病毒和宿主的变化特点,并分析env基因的序列变异。方法将感染中国恒河猴G0401V后期(5年)的SHIV-XJ02170病毒垂直传代2只猴(G0401V→G0402V→0403V),同时,剔除G0401V猴CD8+T细胞使潜伏的病毒大量复制后传代1只猴(G0401V→G0404V),应用流式细胞术、病毒载量测定、序列分析等方法研究该病毒在猴体内长期适应后的病毒和免疫学指标及序列变异特点。结果 G0401V在感染后期仍能稳定传代,且表现出毒力增强的特点。其传代猴G0402V在传代后41 d死亡,外周血CD4+T淋巴细胞衰竭,仅为43个/mL,符合艾滋病感染猴快速进展型的特征。剔除体内CD8+T细胞之后的传代猴G0404V的表现类似G0401V,即长期低水平的病毒血症水平。env基因序列分析发现SHIV-XJ02170在G0401V体内长期适应后发生了可遗传的序列变异,并引起糖基化位点的改变。结论 SHIV-XJ02170在猴体长期适应后的传代过程中表现出向强毒株过渡的特征,为进行SHIV-XJ02170感染性克隆的构建奠定了良好的实验基础。 相似文献
88.
Minimal CK2 activity required for yeast growth 总被引:3,自引:0,他引:3
Protein kinase CK2 is essential for the growth of Saccharomyces cerevisiae. Yeast cells that lack the functional genes coding for both the catalytic subunits of protein kinase CK2 can grow only if they are complemented by exogenous cDNAs coding for this subunit. A series of deletion mutants of CK2α from Xenopus laevis was constructed. These mutants that have carboxyl end deletions yield a CK2α product that varies over four orders of magnitude in its capacity to phosphorylate casein in vitro. Complementation of yeast RPG41-1a, a mutant defective in CKA1 and CKA2 genes, with wild-type X. laevis CK2α and with cDNAs coding for truncated CK2α having amino acids 1–328 and 1–327 resulted in cells that grew in gal-minimal media at 30 ∘C as well as the cells harboring the yeast CKA2 gene. However, the growth was significantly diminished when cells were complemented with X. laevis CK2α containing 1–326 amido acids. This mutant has 0.6% of the catalytic activity of the wild-type enzyme. Yeast cells that expressed CK2α 1–324 and 1–323 which have 10-and 100-fold less activity, respectively, were not able to grow. The growth of cells containing the CK2α 1–326 mutant was very sensitive to temperature, and minimal growth was observed at 37 ∘C. This mutant was also more sensitive to UV radiation but was not significantly affected by 0.4 M NaCl.Both authors contributed equally to this work 相似文献
89.
Folate is essential for the synthesis, repair and methylation of DNA. Folate depletion causes nuclear genetic and epigenetic aberrations in cell culture, rodents and humans. We hypothesized that folate depletion may also damage mitochondrial (Mt) DNA and induce large-scale deletions due to DNA breakage. MtDNA deletions and mutations accumulate during aging and tumorogenesis and may play causative roles in these processes. Weanling and adult (12 months) Sprague Dawley rats consumed folate deplete, replete and supplemented diets (0, 2 and 8 mg/kg folate, respectively) for 20 weeks. The presence of random and common (4.8 kb) MtDNA deletions was measured in colonic mucosa and liver. Six Mt genomes (<16 kb) harboring random deletions were detected in the liver (3.5-7.0 kb) and three in the colon (3.8-8 kb). Older rats had significantly more random hepatic MtDNA deletions than young rats (64 and 3.2% of samples, respectively, P < 0.0001), while age had no effect on these deletions in the colon (3.1 and 7.7% in young and old, respectively). Folate intake had no effect on the frequency of random deletions in either tissue. There was no discrete effect of aging on the common 4.8 kb deletion in the liver or colon. However, in the liver of old rats, increasing amounts of dietary folate reduced the deletion frequency, with replete and supplemented rats having 2.2- and 3.2-fold less deletions than the depleted rats. Our results confirm that random MtDNA deletions accumulate with age in a tissue-specific fashion. Furthermore, in contrast to previous work, we report that the common 4.8 kb deletion was not modulated by age, but is reduced by folate supplementation in the liver of rats. 相似文献
90.