Characterization of the complete chloroplast genome of Chasmanthium latifolium (Michx.) H.O.Yates, 1966 (Poaceae)
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Chasmanthium latifolium (Michx.) H.O.Yates is a popular ornamental plant native to southeastern North America. Genomic data and genetic studies related to Chasmanthium latifolium are limited. Therefore, the complete chloroplast genome of Chasmanthium latifolium was sequenced, assembled, and characterized in this study. The complete chloroplast genome was 138,934 bp in length and contained 105 unique genes (77 protein-coding genes, 24 tRNA genes, and 4 rRNA genes). Phylogenetic analyses showed that Chasmanthium latifolium and Chasmanthium laxum clustered into a separate clade with the closest affinity to the clade comprising Zeugites pittieri Hack and Lophatherum gracile Brongn. In conclusion, our study describes the complete chloroplast genome of Chasmanthium latifolium for the first time, contributing to a better understanding of its taxonomy and evolution.Chloroplasts are plant-specific organelles that perform photosynthesis and responsible for the world's primary productivity. Using light energy, chloroplasts produce many important products, including starch, amino acids, lipids, pigments and various secondary products. Therefore, chloroplasts are essential to the lives of all plants and animals alike. Chloroplast transformation is a unique technology to produce huge amount of valuable materials in chloroplasts using photosynthetic energy. In order to control chloroplasts at will, we need more information on molecular basis of chloroplast gene expression and communication between the chloroplast and nucleus. Chloroplast sigma factors are key regulators of the chloroplast gene expression and chloroplast differentiation. This review summarized recent findings on roles of chloroplast sigma factors in the chloroplast differentiation and environmental responses.
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The comparative analysis of the anatomical study, chloroplast ultrastructure and pigments content of submerged leaves of Potamogeton perfoliatus, P. pectinatus and Myriophyllum spіcatum at budding-flowering stage with light microscopy, transmission electron microscopic and biochemical methods were realized. The absent of stomata, the presence of undifferentiated mesophyll was shown with anatomical study of hydrophytes leaves. The common and distinctions signs of chloroplast ultrastructure in leaf photosynthesizing parenchyma were revealed in dependent from species. The structural changes of leaf phonotypical plasticity are examined as adaptative device of submerged leaves under influence of altered environment.
Potamogeton
Parenchyma
Budding
Plant anatomy
Potamogetonaceae
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Comparision of chloroplast from plants with one of four plastome types (I, II, III, IV) in the nuclear background of Oenothera elata strain Johansen addressed the effects of plastome-genome incompatibility with respect to leaf pigmentation, plastid ultrastructure, chlorophyll a/chlorophyll b ratio, and photosynthetic electron transport. Previous observations of plastomes I, II, and IV in this nuclear background have revealed no indications of incompatibility, but the studies reported here demonstrate that chloroplasts of plastome IV have subtle alterations in their photosynthetic abilities, in particular, deficiencies in photosystem II. The well-characterized "hybrid bleaching" of plants with the AA genotype and plastome III involves leaves that become bleached in the center while remaining green at the tips, edges, and veins. Electron transport assays performed on fractionated bleached and green tissue from the same plants show photosynthetic defects in both the green and bleached regions, although defects in the latter are more severe. Ultrastructural studies show that chloroplasts in the bleached areas enlarge, thylakoid membranes become swollen and vesiculated, and production of new thylakoids is blocked, with chloroplasts appearing to undergo a programmed senescence. A time course revealed that the senescence is actually a reversible dedifferentiation. Alterations in the composition of medium to which AA/III seedlings were transferred showed that the presence of auxin can prevent the development of the typical incompatibility response, with leaf tissue remaining green rather than bleaching. It is proposed that differences in concentrations of plant growth regulators may be responsible for the persistence of normal chloroplasts near the vascular tissue and leaf blade edges and that seasonal fluctuations in auxin levels could explain the periodic bleaching that occurs in older plants.
Oenothera
Nuclear gene
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Acetabularia
Restriction fragment
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The chloroplast numbers,morphologies and ultra-structures in the leaves of a xantha wheat mutants etiolating naturally and its parent(Xinong1718) were comparatively examined by transmission electron microscopy.It was shown that the mutant plants with three etiolating degrees did not obviously differ in chloroplast distribution,number,shape and size from the mutant parent;(2) Yellowish-green plants whose chlorophyll content was 58% of the wild type did not obviously differed in chloroplast ultra-structure from the parent,but their stroma-thylakoids and granum-thylakoids were highly differentiated and their granum and grana lamellae were relatively plentiful;(3) The chlorophyll contents of the golden and greenish-yellow plants were separately 17% and 24% of that of the wild type and their chloroplast ultra-structures obviously differed from that of the parent and the chloroplasts of the mutant plants had clear developmental defect,the chloroplasts of golden plants containing no grana,obviously visible stroma lamellae,starch grains and plentiful osmiophilic granules and those of greenish-yellow mutant plants containing grana whose number was obviously lower than that in the chloroplasts of the parent and that had a fewer layers of stroma lamellae,and highly developed granum-thylakoids.The results indicted that the change in the chloroplast ultra-structure of the xantha wheat mutant resulted from lowered chlorophyll content and it was supposed that the etiolating mutation resulted from chlorophyll synthesis blockade.
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Chloroplasts and mitochondria of the brown alga Egregia menziesii were studied with the electron microscope. In both organelles, 15-25-A fibrils with DNA characteristics are found within areas of electron transparency. In each chloroplast there are two DNA-containing areas, one at each tip of the chloroplast. This localization, the shape and size of each DNA-containing area, and its close association with lamellae in a nondividing chloroplast are noted. One or occasionally two DNA-containing areas are found within the mitochondrion and they are compared with a similar structure in the chloroplast.
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Epidermis (zoology)
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엽록체 형질전환된 식물체를 얻으려면 먼저 세포수준에서 모든 엽록체가 형질전환되어야 하는데, 세포내에는 많은 수의 엽록체가 존재하므로, 엽록체 형질전환 벡터가 전이되어 형질전환된 엽록체는 선발배지에서 선택적으로 분열을 계속하고 형질전환되지 않은 엽록체들은 분열을 하지 못하게 되어, 결국 해당 세포내의 모든 엽록체가 형질전환된 상태에 이르게 된다. 따라서 만일 해당 세포내에 엽록체의 수가 적으면 그만큼 효율적으로 엽록체 형질전환을 할 수 있을 것이다. 본 연구에서는 담배의 FtsZ 유전자를 핵형질전환법으로 과잉 발현시킴으로써 엽록체의 분열이 저해되어 엽육세포내에 거대한 엽록체 3-5개를 가진 담배식물체의 엽육조직을 이용하여, 엽록체 형질전환을 한 결과, 엽록체 형질전환 빈도가 약 40% 증가되었다. In the chloroplast transformation process, a chloroplast containing transformed chloroplast genome copies should be selected over wild-type chloroplasts on selection medium. It is more effective for a cell to become homoplasmic if the cell contains smaller number of chloroplasts. Therefore, to reduce the number of chloroplasts in mesophyll cells in tobacco, we overexpressed FtsZ to generate transgenic plants, of which mesophyll cell contained a few enlarged chloroplasts contrast to a wild-type mesophyll cell containing approximately 100 chloroplasts. It was demonstrated that transgenic leaf tissues comprising cells with a few enlarged chloroplasts gave rise to approximately 40% higher frequency of chloroplast-transformed adventitious shoots.
FtsZ
Nuclear gene
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Cell-free homogenates containing intact chloroplasts and nuclei were allowed to settle for up to 1 h before the top 2 ml of the 5-ml homogenate was withdrawn. Whereas less than 18% of the chloroplasts moved from the top to the bottom portions, the ratio of nuclei to chloroplasts in the top portion changed from approximately 1/200 to 1/900. The total numbers of chloroplasts and nuclei were counted in the homogenate before settling and in the top 2 ml and bottom 3 m1 after settling. The total DNA content of the homogenate and the top and bottom portions after settling was determined by the diphenylamine colorimetric assay. By simultaneous equations, the absolute amount of DNA in chloroplasts and nuclei was determined. The results are consistent with previous observations of chloroplast DNA by fluorescence microscopy which indicated that the amount of chloroplast DNA per chloroplast is a function of chloroplast size. In addition, the results show that the amount of chloroplast DNA per average chloroplast in large leaves is 0.14 times 10(-12) g, a magnitude higher than previous reports in the literature, and that large leaves contain about twice as much chloroplast DNA as nuclear DNA.
Nuclear DNA
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Non-Mendelian inheritance
Extranuclear inheritance
Restriction fragment
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