Thiophene production by crown galls and callus tissues of tagetes patula

Thiophene concentrations were measured in crown gall tissues produced by Agrobacterium tumefaciens infections (strains A208, A277) of Tagetes patula plants and compared with those of normal and transformed callus tissues. The results showed that it is not possible to predict the amounts of secondary motabolites produced as a result of transfers of genetic material from infected plants to crown galls and then to transformed callus tissues. There appears to be an accumulation of intermediates in some of the biosynthetic routes.     

Cytokinin biosynthesis in crown gall tissue of Vinca rosea: Metabolism of isopentenyladenine

When isopentenyl[8-¹⁴C]adenine was incubated with crown gall tumour tissue of Vinca rosea, it was stereospecifically hydroxylated to trans-zeatin and its derivatives, which are the endogenous free cytokinins in this tissue. Adenine, adenosine and adenine nucleotides were the major degradation products.     

Occurrence of crown gall disease on Ficus benjamina in Fars and Isfahan provinces of Iran

Ficus benjamina, commonly known as weeping fig, Benjamin’s fig or Ficus tree is a species of flowering plant in the family of Moraceae. It is native to south and south-east Asia and Australia. Crown gall tumours were collected from branches of one-year-old weeping fig (F. benjamina L.) trees. A total of 50 strains of Agrobacterium tumefaciens were isolated from diseased Ficus plants and their morphological, molecular and biochemical characteristics were studied; pathogenicity tests on tomato, F. benjamina and Bryophyllum daigremontianum were also conducted. Based on the biochemical characteristics, pathogenicity test and PCR amplification of 730?bp fragment using VCR\VCF primers, the tested bacterial strains were identified as A. tumefaciens. This is the first report of crown gall on F. benjamina in Isfahan and Fars provinces of Iran.     

Inhibition of protein synthesis by products of lipid peroxidation

Effects of lipid peroxidation products on in vivo and in vitro protein synthesis have been studied. Malondialdehyde (MDA), a product, and a routinely used index of lipid peroxidation, inhibits in vivo protein synthesis in the two mosses, Tortula ruralis and Cratoneuron filicinum, and in pea (Pisum sativum) leaf discs. When wheat germ supernatant or poly(A)-rich mRNA of T. ruralis was incubated with MDA its subsequent activity in a cell-free protein-synthesizing system was reduced. When MDA was added directly to the in vitro protein-synthesizing mixture containing moss polyribosomes, the inhibition of amino acid incorporation was small. However, when simultaneous lipid peroxidation was allowed to occur along with in vitro protein synthesis there was a strong inhibition of amino acid incorporation and MDA accumulated in the reaction mixture indicating that products of lipid peroxidation other than, and apparently more toxic than, MDA were involved. It was concluded that lipid peroxidation inhibits protein synthesis probably by releasing toxic products which may react with and inactivate some components of the protein-synthesizing complex.     

Inhibition of chloroplast protein synthesis by lincomycin and 2-(4-methyl-2,6- dinitroanilino)-N-methylpropionamide

Selective effects of lincomysin and cycloheximide in detached shoots of Pisum sativum on the synthesis of photosystem I and II proteins, and a chloroplast membrane protein of molecular weight 32000, confirm results obtained from studies of protein synthesis by isolated chloroplasts. A model is proposed in which one role of chloroplast ribosomes is to synthesize membrane proteins required for the immobilization of chloroplast components, such as photosystem I protein, which are synthesized by cytoplasmic ribosomes. 2-(4-Methyl-2,6-dinitroanilino)-N-methylpropionamide rapidly inhibits the synthesis of both the large and small subunits of Fraction I protein in greening detached pea shoots. This observation can be reconciled with the site of synthesis of the large subunit being in the chloroplast by a model which proposes that the small subunit is a positive initiation factor for the synthesis or translation of the messenger RNA for the large subunit.     

Expression of nopaline synthesis in tumorous and regenerant tobacco crown galls

Summary Tissues formed in liquid cultures of tobacco (Nicotiana tabacum cv. Wisconsin 38) crown galls incited byAgrobacterium tumefaciens C58 were of three types: unorganized callus, organized teratoma, and organized normal appearing. These tissues contained 400±12, 410±17, and 614±53 μg nopaline/g fresh weight, respectively. Using [¹⁴C]arginine, methods were developed for measuring in vivo nopaline biosynthetic rates. Tissues were incubated in a low concentration (i.e., 3 μM) of [¹⁴C]arginine to minimize disruption of the internal pool (approximately 140 μM free arginine). Radioactivity in the tissue was assayed and the specific radioactivity of free arginine, the precursor of nopaline, was determined. The linear rate of incorporation of radioactivity into nopaline was used to calculate the following biosynthetic rates (expressed as microgram nopaline per gram fresh weight per 24 h): callus, 14; teratoma, 21; normal appearing, 24. These results show conclusively that normal appearing tissues obtained from crown gall tumors can synthesize nopaline. Abnormal growth and opine biosynthesis, therfore, can be expressed independently.     

Biosynthesis of N2-(1,3-dicarboxypropyl) ornithine [nopalinic acid] in crown gall tumour tissue

Protein extract from crown gall tumour tissue, induced on Nicotiana tabacum by Agrobacterium tumefaciens strain T37, synthesized nopalinic acid [N²-(1,3-dicarboxypropyl)ornithine] from l-ornithine and α-ketoglutarate in the presence of NADPH. Label was incorporated into nopalinic acid from both l-ornithine-[¹⁴C] and α-ketoglutarate-[¹⁴C] in vivo. Nopaline [N²-(1,3-dicarboxypropyl)arginine] did not appear to be metabolized to nopalinic acid in vivo.     

Biosynthesis and bioactivity of trichosanthin in cultured crown gall tissues of Trichosanthes kirilowii Maximowicz

Trichosanthin (TCS) from Trichosanthes kirilowii Maximowicz (T. kirilowii) can be used to treat choriocarcinoma. In this work, we established a novel system to produce TCS in crown gall tissues of T. kirilowii infected by Agrobacterium tumefaciens C58 (A. tumefaciens). In the crown gall tissues, a nopaline synthase (NOS) gene of A. tumefaciens was identified by polymerase chain reaction (PCR), and nopaline accumulation was confirmed by a high-voltage filter paper electrophoresis. Furthermore, we optimized conditions to culture the crown gall tissues able to grow fast and produce TCS in an auxin-free medium, and found that a fungal elicitor of Armillaria mellea was capable of stimulation of TCS secretion into the medium. Moreover, we identified that the TCS purified from the crown gall tissues could induce gastric cancer cell death. These data underscore the usefulness of our system as an inexpensive and virtually unlimited source of TCS.     

The expression of tumour markers in intraspecific somatic hybrids of normal and crown gall cells from Nicotiana tabacum

Summary Following fusion of protoplasts from crown gall tumour calli, characterized by hormone independent growth, and protoplasts from normal tissues of a streptomycin-resistant mutant, SR1, we selected hormone independent streptomycin-resistant calli in Nicotiana tabacum. The tumour line, B6S3, lost the ability to form shoots. Some of the selected lines, similar to SR1, however, are morphogenic. Both calli and shoots contained the tumour specific enzyme lysopinedehydrogenase. The hybrid shoots are resistant to Agrobacterium infection and do not root. These tumorous properties are dominantly expressed in the somatic hybrids.     

Effects of different tannin-rich extracts and rapeseed tannin monomers on methane formation and microbial protein synthesis in vitro

Tannins, polyphenolic compounds found in plants, are known to complex with proteins of feed and rumen bacteria. This group of substances has the potential to reduce methane production either with or without negative effects on digestibility and microbial yield. In the first step of this study, 10 tannin-rich extracts from chestnut, mimosa, myrabolan, quebracho, sumach, tara, valonea, oak, cocoa and grape seed, and four rapeseed tannin monomers (pelargonidin, catechin, cyanidin and sinapinic acid) were used in a series of in vitro trials using the Hohenheim gas test, with grass silage as substrate. The objective was to screen the potential of various tannin-rich extracts to reduce methane production without a significant effect on total gas production (GP). Supplementation with pelargonidin and cyanidin did not reduce methane production; however, catechin and sinapinic acid reduced methane production without altering GP. All tannin-rich extracts, except for tara extract, significantly reduced methane production by 8% to 28% without altering GP. On the basis of these results, five tannin-rich extracts were selected and further investigated in a second step using a Rusitec system. Each tannin-rich extract (1.5 g) was supplemented to grass silage (15 g). In this experiment, nutrient degradation, microbial protein synthesis and volatile fatty acid production were used as additional response criteria. Chestnut extract caused the greatest reduction in methane production followed by valonea, grape seed and sumach, whereas myrabolan extract did not reduce methane production. Whereas chestnut extract reduced acetate production by 19%, supplementation with grape seed or myrabolan extract increased acetate production. However, degradation of fibre fractions was reduced in all tannin treatments. Degradation of dry matter and organic matter was also reduced by tannin supplementation, and no differences were found between the tannin-rich extracts. CP degradation and ammonia-N accumulation in the Rusitec were reduced by tannin treatment. The amount and efficiency of microbial protein synthesis were not significantly affected by tannin supplementation. The results of this study indicated that some tannin-rich extracts are able to reduce methane production without altering microbial protein synthesis. We hypothesized that chestnut and valonea extract have the greatest potential to reduce methane production without negative side effects.     

Early biochemical events during adventitious root initiation in the hypocotyl of Phaseolus vulgaris

Indole butyric acid (IBA) initiates roots in the hypocotyl tissue of Phaseolus vulgaris (French bean). The response is dependent on the concentration of IBA and the duration of exposure to the hormone. IBA enhances the rate of total protein synthesis in ca 30 min after exposure of the hypocotyl segments to the hormone. There is no detectable change in total or poly(A)-containing RNA synthesis in this period although significant increases are seen 2 hr after hormone pre-treatment. The early IBA-mediated increase in protein synthesis (30 min) is not sensitive to Actinomycin D but the antibiotic blocks the increase manifested 2 hr after hormone pre-treatment. Inhibition of early protein synthesis by cycloheximide depresses and delays root initiation. Cytosol prepared from IBA-treated hypocotyl tissue stimulates protein synthesis in vitro to a greater extent than that of the control.     

紫外线-B辐射对植物DNA及蛋白质的影响

大气平流层中的臭氧衰减,导致太阳辐射中的紫外辐射量有明显的增加,其中UV-B辐射对植物会产生不同程度的影响。分子生态学理论认为,UV-B辐射对植物造成的损伤,首先伤害植物的生物大分子,即进行光化学修饰。本文就臭氧衰减对生态环境和植物的影响途径进行了讨论,重点论述了UV-B辐射对植物蛋白质合成的抑制和DNA的损伤修复途径。并应用分子生物学技术研究植物对UV-B辐射的抗性机理和DNA修复技术的前景进行了展望。     

Clones from a shooty tobacco crown gall tumor II: irregular T-DNA structures and organization,T-DNA methylation and conditional expression of opine genes

Summary Transformed clones from a shooty tobacco crown gall tumor, induced byAgrobacterium tumefaciens strain LBA1501, having the auxin locus of the TL-region inactivated by a Tn1831 insertion, were investigated for their T-DNA structure and expression. It has been described previously (28) that in addition to clones with an expected phenotype (phytohormone independent growth in tissue culture (Aut⁺), shoot regeneration (Reg⁺) and octopine synthesis (Ocs⁺)), clones were obtained with an aberrant phenotype. One of these clones, TSO38, is Aut⁺Reg⁺ but shows little or no octopine synthesis activity (Ocs^-). Subclones of TSO38, however, are either Ocs^- or Ocs⁺. Ocs^- shoots become Ocs⁺ under certain states of differentiation, indicating that the octopine synthase gene is present. The fact that in the Ocs^- subclones the octopine synthase gene is not expressed, is probably due to DNA methylation (29). The present paper describes that shoots derived from both an Ocs⁺ and an Ocs^- subclone of TSO38, which were negative for the presence of mannopine (Mas^-) and agropine (Ags^-), became Mas⁺Ags⁺ after culturing on medium containing the hypomethylating agent 5-azacytidine. This means that both in the Ocs^- line and in the Ocs⁺ line expression of TR-DNA opine genes most likely was hampered by DNA methylation. The T-DNA structures of an Ocs^- and an Ocs⁺ TSO38 subclone proved to be identical and surprisingly complex. No intact copy of Tn1831 was present. TL-DNA and TR-DNA segments, present in high copy numbers, were truncated; several T-DNA segments existed in tandem arrangements. When DNA from an Ocs⁺ and an Ocs^- subclone of TSO38 were compared for cleavability by the methylation sensitive restriction enzymes HpaII and MspII, differences were detected, but it became also clear that both lines contained methylated T-DNA segments. This indicates that the Ocs^- and the Ocs⁺ TSO38 subclones differ only quantitatively in respect to degree of T-DNA methylation.     

Arabinogalactan protein in the extracellular space of Phaseolus vulgaris hypocotyls

Most hydroxyproline in the soluble fraction (cytosol, extracellular fluid and the contents of ruptured organelles) of homogenized bean hypocotyls originated from arabinogalactan protein. Using a vacuum infiltration-centrifugation technique, we extracted hydroxyproline-containing compounds from the extracellular space, accounting for about 25% of hydroxyproline in the soluble fraction. The bulk of this material was soluble in 5% trichloroacetic acid and could be precipitated with β-Gal-Yariv reagent. Isoelectrofocusing of the extracellular solution showed a major hydroxyproline peak at low pH, and minor peaks at pH 5 and 9, respectively. We conclude that arabinogalactan protein accounts for most of the salt-soluble, extracellular hydroxyproline-containing compounds.     

DNA polymerase activity and DNA synthesis in roots of pea (Pisum sativum) seedlings

Soluble DNA polymerase (DNA polymerase-α) and chromatin-bound DNA polymerase (DNA polymerase-β) have been assayed in serial sections cut from the roots of 5-day-old pea seedlings. The activity of DNA polymerase-α is high in regions of the root which exhibit high rates of DNA replication, and declines during cell differentiation and maturation. The activity of DNA polyrnerase-β is low in cells which show high rates of DNA replication, and increases during differentiation and maturation.     

Ethanol-induced inhibition of ventricular protein synthesis in vivo and the possible role of acetaldehyde

We have determined the extent to which acute ethanol administration perturbs the synthesis of ventricular contractile and non-contractile proteins in vivo. Male Wistar rats were treated with a standard dose of ethanol (75 mmol kg^?1 body weight; i.p.). Controls were treated with isovolumetric amounts of saline (0·15 mol 1^?1 NaCl). Two metabolic inhibitors of ethanol metabolism were also used namely 4-methylpyrazole (alcohol dehydrogenase inhibitor) and cyanamide (acetaldehyde dehydrogenase inhibitor) which in ethanol-dosed rats have been shown to either decrease or increase acetaldehyde formation, respectively. After 2·5 h, fractional rates of protein synthesis (i.e. the percentage of tissue protein renewed each day) were measured with a large (i.e. ‘flooding’) dose of L -[4-³H]phenylalanine (150 μmol (100 g)^?1 body weight into a lateral vein). This dose of phenylalanine effectively floods all endogenous free amino acid pools so that the specific radioactivity of the free amino acid at the site of protein synthesis (i.e. the amino acyl tRNA) is reflected by the specific radioactivity of the free amino acid in acid-soluble portions of cardiac homogenates. The results showed that ethanol alone and ethanol plus 4-methylpyrazole decreased the fractional rates of mixed, myofibrillar (contractile) and sarcoplasmic (non-contractile) protein synthesis to the same extent (by approx. 25 per cent). Profound inhibition (i.e. 80 per cent) in the fractional rates of mixed, myofibrillar and sarcoplasmic protein synthesis occurred when cyanamide was used to increase acetaldehyde formation. There was also a significant decrease in cardiac DNA content. The results suggest that acute ethanol-induced cardiac injury in the rat may be mediated by both acetaldehyde and ethanol.     

Effect of benzyladenine on RNA and protein synthesis in intact bean leaves at various stages of ageing

Primary leaves of intact bean plants ( Phaseolus vulgaris L.) were treated with benzyladenine (BA) at different stages of ageing, BA promoted the synthesis of RNA, and soluble and insoluble proteins. The effects of BA stimulation differed depending on the age at which the leaf received the hormone treatment. In leaves attached to the plant, BA appeared to stimulate the rate of synthesis more than the rate of decomposition of RNA and protein, resulting in a net increase in RNA and protein. Both chloroplast and cytoplasmic ribosomes were still observed in intact yellowish green leaves. Polysomes in the cytoplasm increased remarkably when BA treatment was begun at late stages.     

Growth, peroxidase activity, and protein content in stem pith and callus tissues from haploid and diploid Nicotiana tabacum plants

Pith segments isolated from haploid and diploid Nicotiana tabacum cv. IAC-70 plants from five different heights in the stem, were cultured in vitro on MS-62 medium supplied with 0.5 mg/l IAA and 0.02 mg/l kinetin. Pith tissues of haploid plants showed greater growth potential than those of diploids; peroxidase activity was higher in the calluses of diploid tissues whereas protein content was higher in those of haploids. After three subcultures the growth pattern was inversed, as were the results for peroxidase activity and protein content. After the onset of culture, peroxidase activity in haploid explants dropped sharply, reaching values lower than in diploid tissues 40 d later, but after three subcultures these values were higher than those for diploid calluses. The results are discussed from the viewpoint of a possible relationship between greater polyploidization in haploid tissues on the one hand and growth decrease and peroxidase activity increase on the other.