莲幼胚子叶细胞造淀粉体DNA的动态变化

莲(Nelumbo nucifera Gaertn.)幼胚子叶细胞造淀粉体和分离的造粉质体上均呈现强烈的 Feulgen 反应物质。经 DNA 酶处理后,在子叶细胞造淀粉体上呈 Feulgen 负反应。将分离的造粉质体用特异性的 DNA 荧光染料 DAPI 染色,造粉质体显示蓝色的荧光。实验证明,莲幼胚子叶细胞随着发育时期的增长,造粉质体 DNA 的含量逐渐增加,显示出有规律的动态变化过程。在电镜下观察,造粉质体 DNA 区域外无膜结构存在,故具有原核生物的特征。这种质体 DNA 的纤维丝直径大约为25。     

用显微分光光度术测定不同发育时期蚕豆子叶淀粉质体DNA含量

叙述了用显微光度术在亚细胞水平上测量蚕豆子叶细胞中淀粉质体Ｆｅｕｌｇｅｎ－ＤＮＡ含量,显示了在不同发育时期蚕豆子叶细胞中的淀粉体ＤＮＡ含量的动态变化。随着发育时期的递增,淀粉体ＤＮＡ拷贝数不断地增长。生长中期的淀粉体ＤＮＡ含量平均数为２．１４（任意单位）,到了成熟期淀粉体ＤＮＡ平均含量增长到１０．１２（任意单位）。在成熟期,子叶细胞中的淀粉体ＤＮＡ含量比生长中期增长了９．６倍。通过生物统计分析,在     

莲种子萌发和幼苗生长时期营养物质的代谢变化

莲子叶细胞中储存了丰富的营养物质,主要为蛋白质、淀粉和淀粉质体DNA.这些贮藏物质为种子萌发和幼苗的生长提供必需的能量和养料.通过组织化学和显微镜观察,研究莲从种子萌发到植株生长至具有4个节时,子叶中贮藏物质消耗的全过程.在此过程中,子叶中的贮藏物质不断降解,营养物质发生转运.蛋白体首先发生降解,其大量降解主要发生在幼苗三叶期.淀粉质体降解时会聚集成团,之后体积逐渐减小,最后完全降解.种子萌发后65天是子叶贮藏物质消耗末期,淀粉质体DNA的含量比萌发后20天的三叶期明显减少.细胞壁的形态结构发生多种形式的变化,细胞壁发生的这些变化与子叶细胞间物质的运输有关.含多糖的球形颗粒通过维管束在子叶中运输.     

莲种子萌发和幼苗生长时期营养物质的代谢变化

莲子叶细胞中储存了丰富的营养物质, 主要为蛋白质、淀粉和淀粉质体DNA。这些贮藏物质为种子萌发和幼苗的生长提供必需的能量和养料。通过组织化学和显微镜观察, 研究莲从种子萌发到植株生长至具有4个节时, 子叶中贮藏物质消耗的全过程。在此过程中, 子叶中的贮藏物质不断降解,营养物质发生转运。蛋白体首先发生降解, 其大量降解主要发生在幼苗三叶期。淀粉质体降解时会聚 集成团, 之后体积逐渐减小, 最后完全降解。种子萌发后65天是子叶贮藏物质消耗末期, 淀粉质体DNA的含量比萌发后20天的三叶期明显减少。细胞壁的形态结构发生多种形式的变化, 细胞壁发生的这些变化与子叶细胞间物质的运输有关。含多糖的球形颗粒通过维管束在子叶中运输。     

Protein Electrophoretic Analysis of Amyloplast and Cytoplasm Ribosomes from Lotus Cotyledon

Amyloplasts and cytoplasmic ribosomes in cotyledon cells of lotus (Nelvmbo nucifeva Gaertn. ) have been observed on the basis of morphology. Isolation of these ribosomes by centrifugation through 30% to 55% (W/V) sucrose density gradient resulted in three bands of amyloplasts ribosomes and four bands of cytoplasmic ribosomes. The authors used these ribosomes bands for SDS-PAGE electrophoresis to analyse ribosomes of proteins. The patterns of SDS-PAGE between cytoplasmic ribosomes of proteins and amyloplasts ribosomes of proteins were different. The amyloplasts ribosomes of proteins showed 26 kD and 23 kD bands, and the cytoplasmic ribosomes of proteins showed 65 kD band. The analysis of electrophoretic patterns of the cytoplasmic ribosomes of proteins showed that there was a newly synthesized ribosomes protein with 19 kD molecular weight in 18 to 20 days after fertilization.     

Changes in Ultrastructure of Phaseolus Vulgaris L. Cotyledons Associated with their Modulated Life Span

French bean (Phaseolus vulgaris L.) cotyledons lost most of their reserve substances during several early days of germination and turned green. In cotyledon mesophyll cells of one-week-old seedlings, plastids were represented predominantly by amyloplasts (starch grains) and chloroamyloplasts, and the cells appeared to be metabolically highly active. Cell heterogeneity associated with distance of the cells from cotyledon vascular bundles was evident. Only mesophyll cells near to the bundles were rich in plastids. In two-weeks-old intact bean plants, the cotyledons were yellow and shrunken, and their cells were nearly "empty". The plastids in them were represented by senescent plastids (gerontoplasts) only. In the gerontoplasts as well as freely in cytosol, fluorescent lipoid inclusions were accumulated. This cotyledon development was more or less independent of irradiance. In "decapitated" bean plants, senescence of mesophyll cells and plastids was slowed down considerably, and the life span of the cotyledons was prolonged.     

DNA cytofluorometry in micro-dissected paraffin embedded breast tissue: description of a method

DNA microfluorometry on smears obtained from paraffin embedded tissue has been shown to be a distinctive possibility. In this paper a simple method for the detachment of cells from mammary ducts and ductules is described. Areas of interest were selected in conventional slides stained with Haematoxylin and Eosin. The corresponding paraffin embedded block was then dewaxed. The areas under study were retraced with a stereomicroscope and the cells within ducts and ductules were scraped out with a 0.4 mm diameter fine needle. Cells were isolated with mechanical and enzymatic procedures and stained with the Feulgen reaction. The DNA content of single cells was then measured using a microfluorometer.     

Development-specific association of amyloplasts with microtubules in scale cells of Narcissus tazetta

Summary. Narcissus tazetta is one of the major geophyte crops worldwide, but little is known about its cell biology. The narcissus storage organ was studied by monitoring scale cell biology during the growth stage and dormancy, and it was found that amyloplasts gradually increased in size and reached a maximum at dormancy. In parallel, microtubules changed their organisation: during the growth phase (February to March) they were oblique; during April and May, microtubules formed a network with round “holes”; by late June and the beginning of July, when dormancy started, they were organised in parallel arrays. The holes formed in the microtubule array corresponded to amyloplasts. A closer look showed that during a short time window, while the plants were preparing for dormancy, the microtubules surrounded the amyloplasts. In vitro reconfirmation of this phenomenon was obtained when fluorescent bovine brain microtubules enwrapped isolated amyloplasts that had been purified between April and July but not those purified between January and March. Interestingly, protease treatment of amyloplasts did not completely prevent binding of microtubules, which suggests the existence of a protease-resistant factor that docks microtubules to the outer membrane of amyloplasts. Correspondence and reprints: Department of Ornamental Horticulture, Volcani Center, Bet Dagan 50250, Israel.     

Protein Phosphorylation in Amyloplasts Isolated from Suspension-Cultured Cells of Sycamore (Acer pseudoplatanus L.)

Highly purified amyloplasts were isolated from cultured cells of sycamore (Acer pseudoplatanus L.). Incubation of amyloplasts with [γ-³²P]-ATP resulted in the labeling of more than ten polypeptides. Pulsechase experiments showed the reversibility of the process with some but not all of the polypeptides. The phosphorylation reaction of one polypeptide, M_r 100, was shown to be calcium dependent. Although exogenously added pig brain calmodulin had no effect, the calmodulin antagonist W-7 strongly inhibited phosphorylation of the 100 kilodaltons polypeptide. The presence of endogenous calmodulin, about 1 to 3 micrograms per milligram protein, in the amyloplast preparation was estimated by activation of phosphodiesterase in vitro.     

An Arabidopsis cell cycle -dependent kinase-related gene, CDC2b, plays a role in regulating seedling growth in darkness.

The Arabidopsis CDC2b gene has been defined as a plant-specific cell cycle-dependent kinase-related gene, although it lacks the conserved cyclin binding motif, and its exact function is not known. Here, we report that in etiolated seedlings, the expression of the CDC2b gene is correlated with elongation rate of the hypocotyl. Inhibition of CDC2b gene expression by using an inducible antisense construct resulted in short-hypocotyl and open-cotyledon phenotypes when transgenic seedlings were grown in the dark. The severity of these phenotypes in dark-grown seedlings could be correlated with the level of the antisense gene expression. The short hypocotyl of seedlings underexpressing CDC2b was a result of inhibition of cell elongation rather than a reduction in cell number, whereas in cotyledons, inhibition of CDC2b expression resulted in large, open cotyledons with amyloplasts rather than etioplasts. Although the nuclear DNA was less compact in the antisense hypocotyl cells, DNA content and endoreduplication were not affected. Cell division of the shoot apical meristem also was not affected by antisense expression. The short-hypocotyl phenotype of these transgenic plants was partially rescued by the addition of brassinolide. Brassinolide can only induce CDC2b expression in darkness. These results suggest a role for the CDC2b gene in seedling growth via regulation of hypocotyl cell elongation and cotyledon cell development.     

Metabolic pathways of the wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis>) endosperm amyloplast revealed by proteomics

Background  

By definition, amyloplasts are plastids specialized for starch production. However, a proteomic study of amyloplasts isolated from wheat (Triticum aestivum Butte 86) endosperm at 10 days after anthesis (DPA) detected enzymes from many other metabolic and biosynthetic pathways. To better understand the role of amyloplasts in food production, the data from that study were evaluated in detail and an amyloplast metabolic map was outlined.     

In Vitro Biosynthesis of Phosphorylated Starch in Intact Potato Amyloplasts

Intact amyloplasts from potato (Solanum tuberosum L.) were used to study starch biosynthesis and phosphorylation. Assessed by the degree of intactness and by the level of cytosolic and vacuolar contamination, the best preparations were selected by searching for amyloplasts containing small starch grains. The isolated, small amyloplasts were 80% intact and were free from cytosolic and vacuolar contamination. Biosynthetic studies of the amyloplasts showed that [1-¹⁴C]glucose-6-phosphate (Glc-6-P) was an efficient precursor for starch synthesis in a manner highly dependent on amyloplast integrity. Starch biosynthesis from [1-¹⁴C]Glc-1-P in small, intact amyloplasts was 5-fold lower and largely independent of amyloplast intactness. When [³³P]Glc-6-P was administered to the amyloplasts, radiophosphorylated starch was produced. Isoamylase treatment of the starch followed by high-performance anion-exchange chromatography with pulsed amperometric detection revealed the separated phosphorylated α-glucans. Acid hydrolysis of the phosphorylated α-glucans and high-performance anion-exchange chromatography analyses showed that the incorporated phosphate was preferentially positioned at C-6 of the Glc moiety. The incorporation of radiolabel from Glc-1-P into starch in preparations of amyloplasts containing large grains was independent of intactness and most likely catalyzed by starch phosphorylase bound to naked starch grains.     

The chemical composition of nuclei and chromosomes isolated by the Langmuir trough technique

The pattern of staining for DNA, histone, and nonhistone protein has been studied in whole cells and in nuclei and chromosomes isolated by surface spreading. In whole interphase cells from bovine kidney tissue culture, nuclear staining for DNA and histones reveals numerous small, intensely stained clumps, surrounded by more diffusely stained material. Nuclei in whole cells stained for nonhistone proteins also contain intensely stained regions surrounded by diffuse stain. These intensely stained regions also stain for RNA, indicating that the regions contain nucleolar material. Electron microscopy of kidney cells confirms that multiple nucleoli are present. Kidney nuclei isolated by surface spreading show an even distribution of stain for DNA, histones, and nonhistone proteins, indicating that the surface forces disperse both condensed chromatin and nucleoli. DNA and protein staining was also studied in metaphase chromosomes from testes of the milkweed bug, Oncopeltus fasciatus. Staining for DNA and histones in metaphase chromosomes is essentially the same in sections of fixed and embedded testes as in preparations isolated by surface spreading. However, striking differences are noted in the distribution of nonhistone proteins. In sections, nonhistone stain is concentrated in extrachromosomal areas; metaphase chromosomes do not stain for nonhistone proteins. Chromosomes isolated by surface spreading, however, stain intensely for nonhistone proteins. This suggests that nonhistone proteins are bound to the chromosomes as a contaminant during the isolation procedure. The relationship of these findings to current work with chromosomes isolated for electron microscopy is discussed.     

Characteristics of cytosine methylation status and methyltransferase genes in the early development stage of cauliflower (Brassica oleracea L. var. botrytis)

DNA methylation is one of the most important epigenetic modifications involved in the development and differentiation in plants. Hypocotyl and cotyledon are the two major tissues of cauliflower (Brassica oleracea L. var. botrytis) seedlings. Both tissues show significantly different tissue specificity and regenerative abilities in vitro. However, the characteristics of DNA methylation modification and its roles in regulating the organ development in cauliflower remain largely unknown. In the present study, the DNA methylation status between the hypocotyl and cotyledon of cauliflower seedlings were analyzed. The results indicated that although the hypocotyl and cotyledon of cauliflower seedlings share the same genome, the genomic DNA methylation levels and patterns at CCGG sites were different. Compared with the cotyledon, the hypocotyl showed higher DNA methylation level, and more loci showing methylation pattern adjustments were also discovered. Twelve loci with changes of DNA methylation patterns were further explored. The quantitative expression analysis indicated that eight out of twelve sequenced fragments showed differential expression between the hypocotyl and cotyledon, of which the expression of six sequences was identified to be negative correlation with their DNA methylation status. In addition, three main DNA methyltransferase genes MET1, CMT3 and DRM were first explored in cauliflower. The results indicated that the expression of these three genes was closely associated with the different DNA methylation status in the hypocotyl and cotyledon. These findings provided more information to further explore the roles of DNA methylation modification in tissue differentiation and development of cauliflower.     

Nuclear DNA content variation in seeds from 22 half-sib families of jack pine (Pinus banksiana,Pinaceae)

In order to understand the amount of DNA content variation and its potential roles, both absolute DNA amount and cell cycle phases in 22 half-sib families of jack pine were examined using flow cytometry. When the variability due to differences in speed of germination was taken into account, embryos from superior families (classified on the basis of height growth during field trials) had significantly higher levels of all nuclei classes greater than 4C. Mean DNA contents per nucleus were significantly lower in embryos from superior families compared to inferior ones. Analysis of megagametophyte tissue showed that the mother trees of these embryos expressed a similar pattern. Absolute DNA values were also established on the emerging radicle and the hypocotyl + cotyledons region (HC) separately in five of the families. Nuclei isolated from the emerging radicles had significantly lower levels of DNA than those isolated from the HC region. For three of these families, absolute DNA values from nuclei of the hypocotyl + cotyledons region were established on individual embryos with varying cotyledon numbers. In all three families total DNA amount per nucleus decreased with increasing cotyledon number. A better understanding of differences observed in DNA content during germination, as well as in total DNA content per nuclei among different half-sib families of jack pine, may help in the identification of factors that influence growth and adaptation of this species.     

A comparison of four quantitative cytochemical methods directed toward demonstration of DNA.

Populations of nuclei isolated from mouse brain tissue were stained by the following cytochemical methods considered stoichiometric for DNA: (1) the Feulgen reaction; (2) gallocyanin-chromalum after RNase; (3) pH 4.0 methylene blue after RNase; and (4) methyl green used in the presence of 2M magnesium chloride. Replicate preparations to be stained with gallocyanin-chromalum, methylene blue, and methyl green were acetylated prior to staining. All of these groups were examined by high-resolution scanning microspectrophotometry. The results indicated that of the methods examined, the Feulgen reaction, gallocyanin-chromalum used without prior acetylation, and methylene blue used with prior acetylation were the most useful in revealing differences attributable to variability in chromatin organization. The greatest variability in total extinction measurements was observed in acetylated, methylene blue-stained nuclei, while the least variability was observed in nuclei stained with methyl green in the presence of 2 M magnesium chloride. Acetylation produced different effects on dye-binding in different groups. It greatly increased binding in nuclei stained with methylene blue; it reduced binding in the methyl green-2 M magnesium chloride series.     

Immunochemical Analysis Shows That an ATP/ADP-Translocator Is Associated with the Inner-Envelope Membranes of Amyloplasts from Acer pseudoplatanus L

Pure preparations of intact amyloplasts and chloroplasts, free from mitochondrial contamination, were isolated from cultured cells of the white-wild and green-mutant lines of sycamore (Acer pseudoplatanus L.), respectively. A specific rabbit antiserum against yeast mitochondrial cytochrome c₁ only cross-reacted with mitochondrial membranes from the white-wild sycamore cells. The outer and inner envelope-membranes of the two plastid-types were isolated and subsequently analyzed by sodium dodecylsulfate-polyacrylamide gel electrophoresis to characterize polypeptide patterns in each fraction. Analysis by immunoblotting clearly showed that antiserum against the 29-kilodalton inorganic orthophosphate translocator isolated from pea chloroplasts cross-reacted with a 31-kilodalton polypeptide residing in the inner-envelope membranes from both sycamore chloroplasts and amyloplasts. In contrast, antiserum against the ADP/ATP-translocator isolated from mitochondria of Neurospora crassa yielded a positive signal with a 32-kilodalton polypeptide in the inner-membranes isolated from amyloplasts, but not green-mutant chloroplasts. We propose that this 32-kilodalton polypeptide in the amyloplast envelope is a putative ATP/ADP-translocator and its possible functional significance is discussed.     

The chemical composition of nuclei and chromosomes isolated by the Langmuir trough technique

The pattern of staining for DNA, histone, and nonhistone protein has been studied in whole cells and in nuclei and chromosomes isolated by surface spreading. In whole interphase cells from bovine kidney tissue culture, nuclear staining for DNA and histones reveals numerous small, intensely stained clumps, surrounded by more diffusely stained material. Nuclei in whole cells stained for nonhistone proteins also contain intensely stained regions surrounded by diffuse stain. These intensely stained regions also stain for RNA, indicating that the regions contain nucleolar material. Electron microscopy of kidney cells confirms that multiple nucleoli are present. Kidney nuclei isolated by surface spreading show an even distribution of stain for DNA, histones, and nonhistone proteins, indicating that the surface forces disperse both condensed chromatin and nucleoli. DNA and protein staining was also studied in metaphase chromosomes from testes of the milkweed bug, Oncopeltus fasciatus. Staining for DNA and histones in metaphase chromosomes is essentially the same in sections of fixed and embedded testes as in preparations isolated by surface spreading. However, striking differences are noted in the distribution of nonhistone proteins. In sections, nonhistone stain is concentrated in extrachromosomal areas; metaphase chromosomes do not stain for nonhistone proteins. Chromosomes isolated by surface spreading, however, stain intensely for nonhistone proteins. This suggests that nonhistone proteins are bound to the chromosomes as a contaminant during the isolation procedure. The relationship of these findings to current work with chromosomes isolated for electron microscopy is discussed.     

Starch biosynthesis from triose-phosphate in transgenic potato tubers expressing plastidic fructose-1,6-bisphosphatase

A full length cDNA clone encoding plastidic fructose-1,6-bisphosphatase (cp-FBPase), together with a transit peptide, was isolated from a potato (Solanum tuberosum L.) leaf cDNA library. Potato plants were transformed with the isolated cp-FBPase sequence behind a patatin class I promoter to ensure tuber-specific expression of the enzyme. Plant lines were selected which expressed up to 250 mU (g FW)-1 in the developing tubers, which is 10- to 20-fold the activity found in wild-type tubers. Intact amyloplasts were isolated from in vitro-grown minitubers developed in darkness. Comparison with marker enzymes showed that cp-FBPase activity in transgenic tubers, as well as the low FBPase activity in the wild-type tubers, was localised inside the amyloplasts. The intact amyloplasts isolated from both wild-type and transgenic tubers synthesised starch from [U-14C] glucose-6-phosphate. Conversely, only the transgenic tubers expressing cp-FBPase showed appreciable synthesis of starch from [U-14C] dihydroxyacetone phosphate, and this synthesis rate was correlated to the activity of cp-FBPase. Thus, the expression of cp-FBPase in tubers allows for a new route of starch biosynthesis from triose-phosphates imported from the cytosol. The transgenic tubers did not differ from wild-type tubers with respect to starch content, or the levels of neutral sugars and phosphorylated hexoses.