Preliminary results from a microscopic examination on the effects of aluminium on the root tips of wheat

Root tips from aluminium (Al) tolerant (Waalt) and Al sensitive (Warigal) wheat (Triticum aestivum (L). Thell.) cultivars exposed to low concentrations of Al (10 M) for 10, 24 and 72 hours were examined under the light and electron microscope. After fixing and embedding, longitudinal and transverse thin and ultrathin sections were cut. There was no evidence of Al damage to the root tips of the Al tolerant cultivar under both the light and electron microscope. For the Al sensitive cultivar, Al had no observable effect on the root tips 10 hours after Al addition when examined under the light microscope. When examined under an electron microscope, electron dense globular deposits were observed between the cell wall and cell membrane of the epidermal cells. There was not obvious damage to the cell cytoplasm. Two or 3 days after Al addition, light microscopy showed that the cells in the root tips had become swollen and extensively vacuolated. The tissues appeared disorganised and degenerate, particularly in the epidermis and outer cortical cells. The electron microscope also revealed a thickening of the cell wall. The cell wall was broken down, particularly in the epidermis in the region 4–6 mm from the root tip. The tissue in the meristematic area was largely intact.     

Swelling and Contraction of Mitochondria from Cold-hardened and Nonhardened Wheat and Rye Seedlings

A comparison of mitochondria isolated from 2 and 24 C grown winter wheat (Triticum aestivum L.) and winter rye (Secale cereale L.) seedlings revealed no correlation between changes in swelling and contraction characteristics and extent of cold hardiness. The swelling response changed markedly due to growth at low temperature, but the change was similar for the four cultivars examined. The swelling response was also observed to change rapidly during aging of isolated mitochondria, either at 2 or 24 C. Spontaneously swollen mitochondria, isolated from 24 C grown seedlings, contracted abruptly upon addition of certain oxidizable substrates, but this response was lost when seedlings were transferred from 24 to 2 C. Studies on the effect of various substrates and respiratory inhibitors on the swelling and contraction responses indicate that inhibitors which reduce or stop electron flow through the electron transport chain also inhibit substrate induced mitochondrial contraction.     

Protein Body Inclusions in Developing Wheat Endosperm

Endosperm tissue of two wheat cultivars, Maris Freeman and Mardlerwas examined by light and electron microscopy from early stagesof development until maturity. Spherical electron-dense inclusionswere first seen embedded in the periphery of endosperm proteinbodies of both cultivars 11 days after anthesis. The inclusions,which gave a positive histochemical reaction for both proteinand lipid, persisted throughout endosperm development and werepresent in the protein matrix of mature grain. Two types ofmembranous inclusions were found. In Maris Freeman and Mardler,vesicles and myelin whorls were associated with the surfaceof the protein mass during development and maturation. In MarisFreeman, membrane lattices of branched tubules with a basiccubic repeat unit of 44.8 nm were found in close contact withthe protein mass, but these were not present in mature grain. Triticum aestivum L., wheat, endosperm, protein body inclusions, ultrastructure     

Deletion commonly found in Waxy gene of Japanese and Korean cultivars of Job’s tears (Coix lacryma-jobi L.)

We isolated the entire sequence of the coding region of Waxy gene of a non-waxy accession of Job??s tears (Coix lacryma-jobi) by PCR-based methods. We also compared the entire sequences of the gene between two non-waxy accessions and three waxy cultivars and found a 275-bp deletion in the coding region (exons 10?C11) of this gene specific to waxy cultivars. We showed by PCR genotyping that this deletion is commonly found in Japanese and Korean cultivars and confirmed that this deletion resulted in lack of Wx protein. We also confirmed that this polymorphism of the gene co-segregates with phenotypes in endosperm and pollen. These results suggest that this PCR-based marker will be useful in breeding of Job??s tears and that genetic information obtained in other grass species will be also useful in genetics and breeding of Job??s tears.     

Culture-independent analysis of an endophytic core microbiome in two species of wheat: Triticum aestivum L. (cv. ‘Hondia’) and the first report of microbiota in Triticum spelta L. (cv. ‘Rokosz’)

The main goal of the study was to determine the structure of endophytic bacteria inhabiting different parts (endosperm, germ, roots, coleoptiles, and leaves) of two wheat species, Triticum aestivum L. (cv. ‘Hondia’) and Triticum spelta L. (cv. ‘Rokosz’), in order to provide new knowledge about the stability and/or changeability of the core microbiome in different plant organs. The endophytic core microbiome is associated with plants throughout their whole life cycle; however, plant organs can determine the actual endophytic community. Therefore, next generation sequencing with MiSeq Illumina technology was applied to identify the endophytic microbiome of T. aestivum and T. spelta. Bioinformatic analyses were performed with the use of the DADA2(1.8) package and R software (3.5.1).It was demonstrated that wheat, which is an important crop plant, was associated with beneficial endophytic bacteria inside the endosperms, germs, roots, leaves, and coleoptiles. Importantly, for the first time, biodiversity was recognized in the coleoptiles of the investigated wheat species. Flavobacterium, Pseudomonas and Janthinobacterium were shown to be common genera for both tested wheat cultivars. Among them, Pseudomonas was found to be the only endophytic genus accompanying both wheat species from the endosperm stage to the development of the leaf. Paenibacillus was recognized as a core genus for the ‘Hondia’ cv., whereas Pedobacter and Duganella constituted the core microbiome in the ‘Rokosz’ cv. In addition, the first insight into the unique and yet unrecognized endophytic microbiome of T. spelta is presented.     

The pattern of amyloplast DNA accumulation during wheat endosperm development

The accumulation of amyloplast DNA during endosperm development was studied in two cultivars of spring wheat, Triticum aestivum L. Chinese Spring (CS) and Spica, small and relatively larger-grained cultivars, respectively. Endosperms were isolated between 9 and 45 days post anthesis (dpa) and the amyloplast DNA content of endosperm nucleic-acid extracts was measured by quantitative hybridisation with a homologous chloroplast-DNA probe. The endosperm cells of CS and Spica accumulated amyloplast DNA during development in a similar way. In both cultivars there was a large increase in the amount of plastid DNA (ptDNA) per endosperm between 9 and about 15 dpa, after which there was no further increase. Because nuclear DNA continued to accumulate until 24 dpa, the percentage contribution of amyloplast DNA to total DNA fluctuated in both cultivars during development, reaching maxima at 12 dpa of about 1.00% and 0.85%, and dropping to apparently constant levels of 0.60% and 0.52% in CS and Spica, respectively, by 24 dpa. In both cultivars, the average number of ptDNA copies per amyloplast was calculated to increase from about 10 copies at 9 dpa to about 50 copies in the mature amyloplasts at 31 dpa. However, the heavier endosperms of Spica contain more cells than those of CS and the varieties therefore differed in the amount of ptDNA that accumulated per endosperm: Spica endosperms accumulated 110 ng of ptDNA by 15 dpa, compared with only 85 ng in CS. The apparent accumulation of ptDNA copies in wheat amyloplasts during endosperm development contrasts with the decline in chloroplast-DNA copies in wheat chloroplasts during leaf development.Abbreviations CS Chinese Spring - ctDNA chloroplast DNA - dpa days post anthesis - kbp 10³ base pairs - nDNA nuclear DNA - ptDNA plastid DNA - mtDNA mitochondrial DNA     

Discopersicus n. gen., a New Member of the Family Tylenchidae ?rley, 1880 with Detailed SEM Study on Two Known Species of the Genus Discotylenchus Siddiqi, 1980 (Nematoda; Tylenchidae) from Iran

Discopersicus iranicus n. gen., n. comb., previously described from Iran as a new species under the genus Discotylenchus, is illustrated using light microscope and scanning electron microscope (SEM) observations and further studied using molecular characters. SEM studies revealed the newly proposed genus has oblique amphidial apertures on the lateral sides of the lip region. SEM images are also provided for two species of Discotylenchus, namely D. discretus and D. brevicaudatus, as the first SEM study of the genus. These results confirmed longitudinal amphidial aperture type on lateral sides of the lip region in genus Discotylenchus, as noted by Siddiqi while erecting the genus with D. discretus as the type species. Molecular phylogenetic analyses using partial small subunit (SSU) and large subunit (LSU) rDNA sequences revealed the affinity of the genus Discopersicus n. gen. with members of the subfamily Boleodorinae, as supported by morphological characters (mainly, the oblique amphidial opening).     

Oxidative protein folding: Selective pressure for prolamin evolution in rice

During seed development, endosperm cells of highly productive cereals, including rice, synthesize disulfide-rich proteins in large amounts and deposit them into storage organelles. Disulfide bond formation involves electron transfer and generates H₂O₂ as a by-product. To ensure proper development and maturation of seeds, the endosperm cells must supply large amounts of oxidizing equivalents to dithiols in nascent proteins in a controlled manner. This review compares multiple oxidative protein folding systems in yeast, cultured human cells, and rice endosperm. We discuss possible roles of ERO1, other sulfhydryl oxidases, and the protein disulfide isomerase family in the formation of disulfide bonds in storage proteins and the development of protein bodies. Rice prolamins, encoded by a multigene family, are divided into Cys-rich and Cys-depleted subgroups. We discuss the potential importance of disulfide bond formation in the evolution of the prolamin family in japonica rice.     

Scanning electron microscopy of Entomophthora virulenta and Conidiobolus coronatus (Entomophthorales: Entomophthoraceae)

The scanning electron microscope was used to delineate the morphological differences between Entomophthora virulenta and Conidiobolus coronatus isolated from field-infected cabbage and seedcorn maggots, Hylemya brassicae and H. platura. This SEM study supports the removal of C. coronatus from the genus Entomophthora on the basis of microconidial development and resting spores with villose appendages.     

FTIR imaging of wheat endosperm cell walls in situ reveals compositional and architectural heterogeneity related to grain hardness.

Endosperm cell walls of cultivars of wheat (Triticum aestivum L.) selected for their endosperm texture (two soft and two hard) were analysed in situ by Fourier transform infrared (FTIR) microspectroscopy. FTIR imaging coupled with statistical analysis was used to map the compositional and structural heterogeneity within transverse sections from which cell contents had been removed by sonication. In the majority of grains analysed, two distinct populations of endosperm cells could be identified by spectral features that were related to cell morphology and age, regardless of cultivar. The main cell-wall component responsible for these differences was the polysaccharide arabinoxylan. In a few samples, this heterogeneity was absent, for reasons that are not understood, but this was not correlated to endosperm texture or growth conditions. Within the same population of endosperm cells, cell walls of hard endosperm could be distinguished from those of soft endosperm by their spectral features. Compared to hard cultivars, the peripheral endosperm of soft cultivars was characterised by a higher amount of polymer, whose spectral feature was similar to water-extractable arabinoxylan. In contrast, no specific compound has been identified in the central endosperm: structural differences within the polysaccharides probably contribute to the distinction between hard and soft cultivars. In developing grain, a clear difference in the composition of the endosperm cell walls of hard and soft wheat cultivars was observed as early as 15 days after anthesis.     

Exogenous abscisic acid impacts the development of isolated immature endosperm in bread wheat

Endosperm in cereals such as wheat, is a part of the mature seeds and a valuable source of key substances for humans and animals. For this reason, the development of immature endosperm tissues in planta was the focus of this research. However, it is commonly known that tissue culture conditions can alter the developmental pathway of plant cells and can expose their potency. There is scarce information about research on isolated endosperm in wheat. The development of isolated immature endosperm in the winter bread wheat variety ‘Kobra’, depending on the media composition, is presented in this study. Abscisic acid (ABA) is a key plant growth regulator for proper seed development. The addition of exogenous ABA had a positive impact on the size and ultrastructural features in isolated endosperm, especially of the outer aleurone-like cells. Furthermore, the content of starch in the endosperm cultured on a medium with ABA did not significantly differ from that of caryopsis at the same age, in contrast to soluble carbohydrates. Fluorescein diacetate (FDA) staining and confocal microscopy observation confirmed the viability of the cells from the outer layers. The analysis of internucleosomal fragmentation of DNA in the explants suggests the induction of programmed cell death (PCD) and DNA degradation typical of necrosis. We concluded that the development of isolated immature endosperm in bread wheat depends on the composition of the media. Thus, it could be a model for in vitro studies of this specific storage tissue and its response to culture conditions in bread wheat.

     

Scanning electron microscope observations of the spores of some species of Polystichum

Five species of Polystichum are studied under the scanning electron microscope and a comparison made with the light microscope studies of the same species published earlier. The SEM studies present a clear picture of the surface topography, supplying additional information.     

Efficient Agrobacterium transformation of elite wheat germplasm without selection

A previously reported Agrobacterium tumefaciens transformation system that transformed wheat cultivar Fielder at high efficiency was shown to also transform eight out of nine Triticum aestivum (hexaploid wheat) cultivars tested and two Triticum turgidum (durum wheat) cultivars. Transformation efficiencies of these wheat lines ranged from 1.5 to 51 %. Included amongst this germplasm were elite Australian hexaploid wheat cultivars that are currently in commercial cultivation and two of these cultivars, Gladius and Westonia, were transformed at 32 and 45 % efficiency, respectively. Similar high transformation efficiencies were observed for durum wheat cultivars Kronos (51 %) and Stewart (26 %). This highly efficient transformation system was used to generate transgenic plants in the absence of selection and high heritability of unselected transgenes was observed. Selectable marker free transgenic wheat plants were produced at 3 % efficiency. These data demonstrate highly efficient Agrobacterium transformation of diverse wheat germplasm, including elite cultivars, which enables routine production of selectable marker free transgenics.     

The effect of dissolved carbon dioxide on penicillin production: Mycelial morphology

The effect of carbon dioxide on the morphology of Penicillium chrysogenum was examined. The scanning electron microscopic (SEM) study indicated that the morphology of P. chrysogenum was subject to change when exposed to various dissolved CO₂ concentrations in the medium. At low influent carbon dioxide partial pressures between 0% and 8%, the predominant morphological form of P. chrysogenum was filamentous. At higher influent carbon dioxide partial pressures of 15% and 20%, the appearance of swollen and stunted hyphae predominated, and a significant quantity of spherical or yeast-like cells were observed. It was evident that for production subject to high dissolved CO₂ concentrations the inhibition of cell growth and penicillin production related strongly to the concomitant morphological changes of P. chrysogenum.     

Isolation and characterization of two outer membrane preparations from Escherichia coli

A method was developed for releasing specifically a part of outer membrane during spheroplast formation. A highly purified outer membrane (outer membrane I) was obtained from the spheroplast medium by isopycnic sucrose gradient centrifugation. The remaining outer membrane (outer membrane II) and cytoplasmic membrane was also isolated from the spheroplasts by the isopycnic centrifugation.Two outer membrane preparations were different from the cytoplasmic membrane in protein composition, enzyme localization, phospholipid composition, lipopolysaccharide content and electron micrographs. Although outer membranes I and II were almost the same in various respects, they seemed to be different from each other under electron microscope and in cardiolipin content. It is suggested that the outer membrane I and the outer membrane II, at least a part of the outer membrane II, are integrated in a different fashion in the outer-most layer of Escherichia coli cell surface.     

Changes in the Endosperm Cell Walls of Two Datura Species before Radicle Protrusion

The possibility of an association between changes in cell walls of the micropylar portion of the endosperm and the induction of germination was explored in seeds of Datura ferox and Datura stramonium. The structure of the inner surface of the endosperm was studied by scanning electron microscopy and the composition of cell wall polysaccharides analyzed by gas chromatography and gas chromatography-mass spectrometry. Both scanning electron microscope images and chemical analysis showed changes in the micropylar portion of the endosperm in induced seeds before radicle protrusion. The inner surface of the endosperm appeared eroded, and in some areas, wall material seemed to be missing. The content of the main component of the cell wall polysaccharides, containing predominantly 4-linked mannose, decreased well before the emergence of the radicle through the endosperm. We propose that the degradation of a mannan type polysaccharide is an important factor in the reduction in mechanical strength of the endosperm, thus facilitating germination.     

银杏胚乳淀粉体的积累规律和发生特性

以银杏（Ginkgo biloba L.）核用品种‘七星果’、‘马铃’和‘龙眼’不同发育天数的胚乳为材料,采用透射电镜和扫描电镜技术,对其胚乳细胞内淀粉体的积累规律和发生特性进行研究。结果显示：3种银杏胚乳形态差异显著,‘七星果’呈梭形、‘马铃’呈椭圆形、‘龙眼’呈卵圆形;3种银杏胚乳早期均为嫩绿色,后期为黄色;授粉后65~125 d是胚乳体积快速增长时期。淀粉体的积累规律为：在胚乳组织内,淀粉体由糊粉层-外胚乳-内胚乳逐渐积累;在单个胚乳细胞内,淀粉体由细胞壁边缘向内部逐渐充实。银杏淀粉质体起源于类叶绿体质体,淀粉粒最初在类叶绿体质体的内膜上发生。淀粉体通过出芽、缢缩以及出芽和缢缩同时进行的增殖方式产生新淀粉体,成熟淀粉体形态有圆形、椭圆形和不规则形,属于单粒淀粉。研究结果表明银杏淀粉体在胚乳组织内具有由外向内的空间积累规律,淀粉质体起源于类叶绿体质体并通过出芽、缢缩、出芽和缢缩同时存在的方式增殖。