Chloroplast Protein Synthesis in the Chromophytic Alga Olisthodiscus luteus: Cell Cycle Analysis

This study represents the first report on chloroplast protein synthesis during the synchronous cell growth of a chromophytic (chlorophyll a,c) plant. When the unicellular alga Olisthodiscus luteus is maintained on a 12-hour light:12-hour dark cycle, cell and chloroplast number double every 24 hours. A temporal separation between these two events occurs. Measurements of chloroplast and total cellular protein values suggest that polypeptide synthesis occurs mainly in the light portion of the cell cycle, and pulse chase studies demonstrate that chloroplast proteins made in the light are not degraded in the dark. Data support the following conclusions: (a) a similar complement of chloroplast DNA coded proteins is made at all phases of the light portion of the cell cycle, and (b) chloroplast protein synthesis is a light rather than a cell cycle mediated response.     

Variation in Plastid Number: Effect on Chloroplast and Nuclear Deoxyribonucleic Acid Complement in the Unicellular Alga Olisthodiscus luteus

Changes in the physiological state of the multiplastidic alga Olisthodiscus luteus result in a shift in chloroplast complement from 33 to 21 plastids. The effect of this induced change in organelle complement on nuclear and chloroplast DNA levels has been analyzed. Data suggest that the absolute amount of chloroplast and nuclear DNA found within a cell remains constant but that the amount of chloroplast DNA per plastid is inversely proportional to the number of chloroplasts to which that DNA must be distributed.     

Isolation and Characterization of Chloroplast DNA from the Marine Chromophyte, Olisthodiscus luteus: Electron Microscopic Visualization of Isomeric Molecular Forms

Chloroplast DNA (ctDNA) from the marine chromophytic alga, Olisthodiscus luteus, has been isolated using a whole cell lysis method followed by CsCl-Hoechst 33258 dye gradient centrifugation. This DNA, which has a buoyant density of 1.691 grams per cubic centimeter was identified as plastidic in origin by enrichment experiments. Inclusion of the nuclease inhibitor aurintricarboxylic acid in all lysis buffers was mandatory for isolation of high molecular weight DNA. Long linear molecules (40 to 48 micrometers) with considerable internal organization comprised the majority of the ctDNA isolated, whereas supertwisted ctDNA and open circular molecules averaging 46 micrometers were occasionally present. Also observed in this study were folded ctDNA molecules with electron dense centers (“rosettes”) and plastid DNA molecules which have a tightly wound “key-ring” center. The ctDNA of Olisthodiscus has a contour length that is median to the size range reported for chlorophytic plants.     

Structural, Functional, and Evolutionary Analysis of Ribulose-1,5-Bisphosphate Carboxylase from the Chromophytic Alga Olisthodiscus luteus

Ribulose-1,5-bisphosphate carboxylase (RuBPCase) was purified from the marine chromophyte Olisthodiscus luteus. This study represents the first extensive analysis of RuBPCase from a chromophytic plant species as well as from an organism where both subunits of the enzyme are encoded on the chloroplast genome. The size of the purified holoenzyme (17.9 Svedberg units, 588 kilodaltons) was determined by sedimentation analysis and the size of the subunits (55 kilodaltons, 15 kilodaltons) ascertained by analytical sodium dodecyl sulfate gel electrophoresis. This data predicts either an 8:9 or 8:8 ratio of the large to small subunits in the holoenzyme. Amino acid analyses demonstrate that the O. luteus RuBPCase large subunit is highly conserved and the small subunit much less so when compared with the chlorophytic plant peptides. The catalytic optima of pH and Mg²⁺ have been determined as well as the response of enzyme catalysis to temperature. The requirements of NaHCO₃ and Mg²⁺ for enzyme activation have also been analyzed. The Michaelis constants for the substrates of the carboxylation reaction (CO₂ and ribulose bisphosphate) were shown to be 45 and 48 micromolar, respectively. Competitive inhibition by oxygen of RuBPCase-catalyzed CO₂ fixation was also demonstrated. These data demonstrate that a high degree of RuBPCase conservation occurs among widely divergent photoautotrophs regardless of small subunit coding site.     

Synchronous Growth and Plastid Replication in the Naturally Wall-less Alga Olisthodiscus luteus

Olisthodiscus luteus is a unicellular biflagellate alga which contains many small discoidal chloroplasts. This naturally wall-less organism can be axenically maintained on a defined nonprecipitating artificial seawater medium. Sufficient light, the presence of bicarbonate, minimum mechanical turbulence, and the addition of vitamin B₁₂ to the culture medium are important factors in the maintenance of a good growth response. Cells can be induced to divide synchronously when subject to a 12-hour light/12-hour dark cycle. The chronology of cell division, DNA synthesis, and plastid replication has been studied during this synchronous growth cycle. Cell division begins at hour 4 in the dark and terminates at hour 3 in the light, whereas DNA synthesis initiates 3 hours prior to cell division and terminates at hour 10 in the dark. Synchronous replication of the cell's numerous chloroplasts begins at hour 10 in the light and terminates almost 8 hours before cell division is completed. The average number of chloroplasts found in an exponentially growing synchronous culture is rather stringently maintained at 20 to 21 plastids per cell, although a large variability in plastid complement (4-50) is observed within individual cells of the population. A change in the physiological condition of an Olisthodiscus cell may cause an alteration of this chloroplast complement. For example, during the linear growth period, chloroplast number is reduced to 14 plastids per cell. In addition, when Olisthodiscus cells are grown in medium lacking vitamin B₁₂, plastid replication continues in the absence of cell division thereby increasing the cell's plastid complement significantly.     

Chromatin structure in the unicellular algae Olisthodiscus luteus,Crypthecodinium cohnii and Peridinium balticum

Isolated nuclei of the unicellular alga Olisthodiscus luteus, the uninucleate dinoflagellate Crypthecodinium cohnii and the binucleate dinoflagellate Peridinium balticum were lysed and deposited on grids by the microcentrifugation technique. The ultrastructure of the released chromatin fibers was compared to that of mouse liver nuclei. Chromatin from nuclei of Olisthodiscus luteus and the eukaryotic¹ nuclei of Peridinium balticum, appeared as linear arrays of regularly repeating subunits which were identical in size and morphology to mouse nucleosomes. In contrast, the chromatin fibers from Crypthecodinium cohnii nuclei appeared as smoothe threads with a diameter of about 6.5 nm. Nuclear preparations containing mixtures of dinokaryotic and eukaryotic nuclei of Peridinium balticum also contained smooth fibers which most likely originated from the dinokaryotic nuclei. These and other results demonstrating the presence of nucleosomes in lower eukaryotes suggest that the subunit structure of chromatin arose very early in the evolution of the eukaryotic cell.     

Biased Gene Conversion, Copy Number, and Apparent Mutation Rate Differences within Chloroplast and Bacterial Genomes

We investigate the possibility that differences between synonymous substitution rates of organelle and bacterial genes differing only in copy number may be due to conversion bias. We find that the rather large observed difference in the synonymous rates between genes in the single copy and inverted-repeat regions of chloroplasts can be accounted for by a very small bias against new mutants. More generally, differences in the within-organelle fixation probability result in different apparent mutation rates as measured by the expected rate of appearance of cells homoplasmic for new mutants. Thus, differences in intracellular population parameters rather than molecular mechanisms can account for some variation in the apparent mutation rates of organelle genes, and possibly in other systems with variable numbers of gene copies. On the other hand, our analysis suggests that conversion bias is not a likely explanation for relatively low mutation rates observed near the replication origin of bacterial chromosomes.     

Action Spectrum for Light-induced Chloroplast Accumulation in a Marine Coenocytic Green Alga, Bryopsis plumosa

A marine coenocytic green alga, Bryopsis plumosa exhibited multistriatetype protoplasmic streaming of a velocity less than 100 µm.min^–1.When the alga was illuminated locally, chloroplasts and othercell organelles accumulated in the illuminated zone. The actionspectrum for this reaction showed that blue light between 380and 500 nm was most effective. The velocity of chloroplast movement decreased when the cellwas totally illuminated with blue light, but no comparable changewas observed under red light illumination. Therefore, chloroplastaccumulation probably was caused by the reduced streaming ratein the illuminated zone. Electron microscopy showed cytoplasmic microtubules arrangedparallel to the cell axis in the vicinity of the chloroplasts.Chloroplast movement was inhibited heavily by treatment withantimicrotubule agents, but was little affected by cytochalasinB at a concentration of 10 µg/ml. (Received May 30, 1981; Accepted August 24, 1981)     

mtDNA拷贝数的生物学意义及其调控

线粒体是细胞能量和自由基代谢中心,并在细胞凋亡、钙调控、细胞周期和信号转导中发挥重要作用,维持线粒体功能正常对于细胞正常行使职能意义重大。线粒体的功能与线粒体DNA（mitochondrial DNA,mtDNA）的数量和质量紧密相关,mtDNA的数量即mtDNA拷贝数又受到mtDNA质量的影响,因此mtDNA拷贝数可作为线粒体功能的重要表征。mtDNA拷贝数变异引起线粒体功能紊乱,进而导致疾病发生。本文综述了mtDNA拷贝数变异与神经退行性疾病、心血管疾病、肿瘤等疾病的发生发展和个体衰老之间的关系,以及mtDNA复制转录相关因子、氧化应激、细胞自噬等因素介导mtDNA拷贝数变异的调控机制。以期为进一步深入探究mtDNA拷贝数调控的分子机制,以及未来治疗神经退行性疾病、肿瘤及延缓衰老等提供一定的理论基础。     

Global Genetic Determinants of Mitochondrial DNA Copy Number

Many human diseases including development of cancer is associated with depletion of mitochondrial DNA (mtDNA) content. These diseases are collectively described as mitochondrial DNA depletion syndrome (MDS). High similarity between yeast and human mitochondria allows genomic study of the budding yeast to be used to identify human disease genes. In this study, we systematically screened the pre-existing respiratory-deficient Saccharomyces cerevisiae yeast strains using fluorescent microscopy and identified 102 nuclear genes whose deletions result in a complete mtDNA loss, of which 52 are not reported previously. Strikingly, these genes mainly encode protein products involved in mitochondrial protein biosynthesis process (54.9%). The rest of these genes either encode protein products associated with nucleic acid metabolism (14.7%), oxidative phosphorylation (3.9%), or other protein products (13.7%) responsible for bud-site selection, mitochondrial intermembrane space protein import, assembly of cytochrome-c oxidase, vacuolar protein sorting, protein-nucleus import, calcium-mediated signaling, heme biosynthesis and iron homeostasis. Thirteen (12.7%) of the genes encode proteins of unknown function. We identified human orthologs of these genes, conducted the interaction between the gene products and linked them to human mitochondrial disorders and other pathologies. In addition, we screened for genes whose defects affect the nuclear genome integrity. Our data provide a systematic view of the nuclear genes involved in maintenance of mitochondrial DNA. Together, our studies i) provide a global view of the genes regulating mtDNA content; ii) provide compelling new evidence toward understanding novel mechanism involved in mitochondrial genome maintenance and iii) provide useful clues in understanding human diseases in which mitochondrial defect and in particular depletion of mitochondrial genome plays a critical role.     

Effects of Olisthodiscus luteus on the feeding and reproduction of the marine rotifer Synchaeta cecilia

The chrysophyte Olisthodiscus luteus is not ingested by Synchaetacecilia. It inhibits the feeding on other, acceptable food atO. luteus densities as low as 50 cells ml^–1 and reducessurvival and reproduction at O. luteus densities > 10³ cellsml^–1. The possible mechanisms and implications of thisphenomenon for the distribution and abundance of S. ceciliaare discussed.     

Mitochondrial DNA Copy Number in Peripheral Blood and Melanoma Risk

Mitochondrial DNA (mtDNA) copy number in peripheral blood has been suggested as risk modifier in various types of cancer. However, its influence on melanoma risk is unclear. We evaluated the association between mtDNA copy number in peripheral blood and melanoma risk in 500 melanoma cases and 500 healthy controls from an ongoing melanoma study. The mtDNA copy number was measured using real-time polymerase chain reaction. Overall, mean mtDNA copy number was significantly higher in cases than in controls (1.15 vs 0.99, P<0.001). Increased mtDNA copy number was associated with a 1.45-fold increased risk of melanoma (95% confidence interval: 1.12-1.97). Significant joint effects between mtDNA copy number and variables related to pigmentation and history of sunlight exposure were observed. This study supports an association between increased mtDNA copy number and melanoma risk that is independent on the known melanoma risk factors (pigmentation and history of sunlight exposure).     

Benzyladenine-Induced Increase in DNA Content per Cell, Chloroplast Size, and Chloroplast Number per Cell in Intact Bean Leaves

Primary leaves of intact bean plants (Phaseolus vulgaris L.)were treated with benzyladenine (BA) at different stages oftheir growth. BA induced a marked increase in DNA content percell in growing leaves where no cell division occurred. BA stimulatedthe chloroplast replication compared with untreated leaves.After the replication period, chloroplast size continued toincrease in BA- treated leaves, but not in untreated controls.     

基于数字PCR的不同品种鸭组织中线粒体与核DNA拷贝数差异研究

肉和肉制品是人类生活的重要营养来源,但近年来肉制品中发生的掺假使假事件屡见不鲜,使得肉品的质量安全问题已经成为全世界关注的热点话题。以核酸为目标的动物源鉴定是当前普遍使用的方法。在核酸检测中,常用线粒体基因或核基因作为靶标,缺乏统一标准。以绍兴鸭和北京鸭等不同品种及生鲜组织(鸭血、鸭胸肉、鸭肝、鸭皮、鸭心和鸭腿肉)为实验材料,提取DNA后利用微滴式数字PCR开展线粒体和核DNA拷贝数的比较研究,以两者拷贝数及其比值的变异系数为判定依据。结果显示,核DNA的拷贝数在不同品种鸭组织间相对稳定,且变异系数小于线粒体DNA,表明核DNA是开展鸭肉制品掺假定量检测的最适DNA来源。鸭腿肉中线粒体/核DNA拷贝数比值的变异系数最小,表明线粒体DNA作为靶基因的鸭肉掺假比例定量检测时,鸭腿肉来源的肉制品是最佳选择。     

Mitochondrial DNA Copy Number and Risk of Oral Cancer: A Report from Northeast India

Background

Oral squamous cell carcinoma (OSCC) is the sixth most common cancer globally. Tobacco consumption and HPV infection, both are the major risk factor for the development of oral cancer and causes mitochondrial dysfunction. Genetic polymorphisms in xenobiotic-metabolizing enzymes modify the effect of environmental exposures, thereby playing a significant role in gene–environment interactions and hence contributing to the individual susceptibility to cancer. Here, we have investigated the association of tobacco - betel quid chewing, HPV infection, GSTM1-GSTT1 null genotypes, and tumour stages with mitochondrial DNA (mtDNA) content variation in oral cancer patients.

Methodology/Principal Findings

The study comprised of 124 cases of OSCC and 140 control subjects to PCR based detection was done for high-risk HPV using a consensus primer and multiplex PCR was done for detection of GSTM1-GSTT1 polymorphism. A comparative ΔCt method was used for determination of mtDNA content. The risk of OSCC increased with the ceased mtDNA copy number (P_trend = 0.003). The association between mtDNA copy number and OSCC risk was evident among tobacco – betel quid chewers rather than tobacco – betel quid non chewers; the interaction between mtDNA copy number and tobacco – betel quid was significant (P = 0.0005). Significant difference was observed between GSTM1 - GSTT1 null genotypes (P = 0.04, P = 0.001 respectively) and HPV infection (P<0.001) with mtDNA content variation in cases and controls. Positive correlation was found with decrease in mtDNA content with the increase in tumour stages (P<0.001). We are reporting for the first time the association of HPV infection and GSTM1-GSTT1 null genotypes with mtDNA content in OSCC.

Conclusion

Our results indicate that the mtDNA content in tumour tissues changes with tumour stage and tobacco-betel quid chewing habits while low levels of mtDNA content suggests invasive thereby serving as a biomarker in detection of OSCC.     

Discovering Subgroups of Patients from DNA Copy Number Data Using NMF on Compacted Matrices

In the study of complex genetic diseases, the identification of subgroups of patients sharing similar genetic characteristics represents a challenging task, for example, to improve treatment decision. One type of genetic lesion, frequently investigated in such disorders, is the change of the DNA copy number (CN) at specific genomic traits. Non-negative Matrix Factorization (NMF) is a standard technique to reduce the dimensionality of a data set and to cluster data samples, while keeping its most relevant information in meaningful components. Thus, it can be used to discover subgroups of patients from CN profiles. It is however computationally impractical for very high dimensional data, such as CN microarray data. Deciding the most suitable number of subgroups is also a challenging problem. The aim of this work is to derive a procedure to compact high dimensional data, in order to improve NMF applicability without compromising the quality of the clustering. This is particularly important for analyzing high-resolution microarray data. Many commonly used quality measures, as well as our own measures, are employed to decide the number of subgroups and to assess the quality of the results. Our measures are based on the idea of identifying robust subgroups, inspired by biologically/clinically relevance instead of simply aiming at well-separated clusters. We evaluate our procedure using four real independent data sets. In these data sets, our method was able to find accurate subgroups with individual molecular and clinical features and outperformed the standard NMF in terms of accuracy in the factorization fitness function. Hence, it can be useful for the discovery of subgroups of patients with similar CN profiles in the study of heterogeneous diseases.     

Induction of Callus from the Marine Brown Alga Dictyosiphon foeniculaceus

A method for callus induction from an alga was established forthe first time. Callus tissues from the microthallus of themarine brown alga Dictyosiphon foeniculaceus were induced onASP 12-NTA medium of Provasoli (1963) supplemented with 3% mannitol,0.1% yeast extract and 1.5% agar. The addition of auxins andkinetin to the medium did not show any effect on the formationand growth of the callus. (Received November 24, 1981; Accepted March 30, 1982)