Content of low-molecular-weight thiols during the imbibition of Pea seeds

The metabolism of low-molecular-weight thiols was investigated in seeds of Pisum sativum L. cv. Kleine Rheinländerin during imbibition in water for 14 h. The amount of oxidized glutathione (GSSG) decreased from 319 nmol (g dry weight)⁻¹ in dry seeds to 38 nmol (g dry weight)⁻¹ within the first 14 h of imbibition. The decrease may have been due to the reduction of GSSG to reduced glutathione (GSH), catalyzed by the enzyme glutathione reductase (GR; EC 1.6.4.2). The enzyme activity was high in dry seeds [25 nkat (g dry weight)⁻¹] and decreased to 20 nkat (g dry weight)⁻¹ within 14 h of imbibition. The activity of glucose-6-phosphate dehydrogenase (EC 1.1.1.49) decreased from 100 nkat (g dry weight)⁻¹ in dry seeds to 67 nkat (g dry weight)⁻¹ after 14 h of imbibition. Within 14 h the amount of γ-glutamyl-cysteine (γ-GC) decreased from 135 to 38 nmol (g dry weight)⁻¹, whereas the cysteine content rose from 81 nmol (g dry weight)⁻¹ in dry seeds to a maximum of 170 nmol (g dry weight)⁻¹ after 12 h of imbibition, which may be due to the degradation of γ-GC into cysteine.     

Purified outer membranes of Serpulina hyodysenteriae contain cholesterol.

We have isolated outer and inner membranes of Serpulina hyodysenteriae by using discontinuous sucrose density gradients. The outer and inner membrane fractions contained less than 1 and 2%, respectively, of the total NADH oxidase activity (soluble marker) in the cell lysate. Various membrane markers including lipooligosaccharide (LOS), the 16-kDa outer membrane lipoprotein (SmpA), and the C subunit of the F1F0 ATPase indicated that the lowest-density membrane fraction contained outer membranes while the high-density membrane fraction contained inner membranes and that both are essentially free of contamination by the periplasmic flagella, a major contaminant of membranes isolated by other techniques. The outer membrane fractions (rho = 1.10 g/cm3) contained 0.25 mg of protein/mg (dry weight), while the inner membrane samples (rho = 1.16 g/cm3) contained significantly more protein (0.55 mg of protein/mg [dry weight]). Lipid analysis revealed that the purified outer membranes contained cholesterol as a major component of the membrane lipids. Treatment of intact S. hyodysenteriae with different concentrations of digitonin, a steroid glycoside that interacts with cholesterol, indicated that the outer membrane could be selectively removed at concentrations as low as 0.125%.     

Carnitine stimulation of glucose oxidation in the fatty acid perfused isolated working rat heart.

The effects of L-carnitine on myocardial glycolysis, glucose oxidation, and palmitate oxidation were determined in isolated working rat hearts. Hearts were perfused under aerobic conditions with perfusate containing either 11 mM [2-3H/U-14C]glucose in the presence or absence of 1.2 mM palmitate or 11 mM glucose and 1.2 mM [1-14C]palmitate. Myocardial carnitine levels were elevated by perfusing hearts with 10 mM L-carnitine. A 60-min perfusion period resulted in significant increases in total myocardial carnitine from 4376 +/- 211 to 9496 +/- 473 nmol/g dry weight. Glycolysis (measured as 3H2O production) was unchanged in carnitine-treated hearts perfused in the absence of fatty acids (4418 +/- 300 versus 4547 +/- 600 nmol glucose/g dry weight.min). If 1.2 mM palmitate was present in the perfusate, glycolysis decreased almost 2-fold compared with hearts perfused in the absence of fatty acids. In carnitine-treated hearts this drop in glycolysis did not occur (glycolytic rates were 2911 +/- 231 to 4629 +/- 460 nmol glucose/g dry weight.min, in control and carnitine-treated hearts, respectively. Compared with control hearts, glucose oxidation rates (measured as 14CO2 production from [U-14C]glucose) were unaltered in carnitine-treated hearts perfused in the absence of fatty acids (1819 +/- 169 versus 2026 +/- 171 nmol glucose/g dry weight.min, respectively). In the presence of 1.2 mM palmitate, glucose oxidation decreased dramatically in control hearts (11-fold). In carnitine-treated hearts, however, glucose oxidation was significantly greater than control hearts under these conditions (158 +/- 21 to 454 +/- 85 nmol glucose/g dry weight.min, in control and carnitine-treated hearts, respectively). Palmitate oxidation rates (measured as 14CO2 production from [1-14C]palmitate) decreased in the carnitine-treated hearts from 728 +/- 61 to 572 +/- 111 nmol palmitate/g dry weight.min. This probably occurred secondary to an increase in overall ATP production from glucose oxidation (from 5.4 to 14.5% of steady state myocardial ATP production). The results reported in this study provide direct evidence that carnitine can stimulate glucose oxidation in the intact fatty acid perfused heart. This probably occurs secondary to facilitating the intramitochondrial transfer of acetyl groups from acetyl-CoA to acetylcarnitine, thereby relieving inhibition of the pyruvate dehydrogenase complex.     

Isolation and characterization of outer membranes of Bacteroides thetaiotaomicron grown on different carbohydrates.

To determine whether certain outer membrane proteins are associated with growth of Bacteroides thetaiotaomicron on polysaccharides, we developed a procedure for separating outer membranes from inner membranes by sucrose density centrifugation. Cell extracts in 10% (wt/vol) sucrose-10 mM HEPES buffer (N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid) (pH 7.4) were separated into two fractions on a two-step (37 and 70% [wt/vol]) sucrose gradient. These fractions were further resolved into outer membranes (p = 1.21 g/cm3) and inner membranes (p = 1.14 g/cm3) on sucrose gradients. About 20 to 26% of the total 3-hydroxy fatty acids from lipopolysaccharide and 2 to 3% of the total cellular succinate dehydrogenase activity were recovered in the outer membrane preparation. The inner membrane preparation contained 22 to 49% of the total succinate dehydrogenase activity and 2 to 3% of the total 3-hydroxy fatty acids from lipopolysaccharide. Outer membranes contained a lower concentration of protein (0.34 mg/mg [dry weight]) than did the inner membranes (0.68 mg/mg [dry weight]). Molecular weights of inner membrane polypeptides ranged from 11,000 to 133,000. The most prominent polypeptides had molecular weights ranging from 11,000 to 26,000. In contrast, the molecular weights of outer membrane polypeptides ranged from 17,000 to 117,000. The most prominent polypeptides had molecular weights ranging from 42,000 to 117,000. There were several polypeptides in the outer membranes of bacteria grown on polysaccharides (chondroitin sulfate, arabinogalactan, or polygalacturonic acid) which were not detected or were not as prominent in outer membranes of bacteria grown on monosaccharide components of these polysaccharides.     

Analysis and characterization of the folates in the nonmethanogenic archaebacteria.

A detailed analysis of the folate coenzymes in the nonmethanogenic archaebacteria has been performed. By using the Lactobacillus casei microbiological assay for folates, the levels of folates in Sulfolobus solfataricus and Sulfolobus acidocaldarius were found to be 3.7 and 8.3 ng/g (dry weight) of cells, respectively, compared with 88,000 and 28,000 ng/g (dry weight) of cells in Halobacterium halobium and Halobacterium strain GN-1, respectively. The levels of folates found in the Sulfolobus spp. were approximately 100 times less than those found in the typical eubacterium, whereas the levels in the halobacteria were approximately 10 times higher. The folate in Sulfolobus solfataricus was shown to consist of only 5-formyltetrahydropteroylglutamate, and the folate in Halobacterium strain GN-1 was shown to consist of only pteroyldiglutamate. The low folate levels in the Sulfolobus spp. are the same as those found in the methanogenic bacteria, suggesting that another C1 carrier may function in these cells.     

Nonradioactive assay for cellular dimethylallyl diphosphate

A sensitive, nonradioactive method was developed to measure cellular levels of dimethylallyl diphosphate (DMAPP), a central intermediate of isoprenoid metabolism in nature. The assay is based on the hydrolysis of DMAPP in acid to the volatile hydrocarbon isoprene (2-methyl-1,3-butadiene), with subsequent analysis of isoprene by headspace gas chromatography with reduction gas detection. In the assay, cell samples are directly acidified with 4 M H(2)SO(4) in sealed reaction vials. Therefore, there is no need to extract metabolites, purify them, and keep them stable prior to analysis, and degradative enzymatic activities are destroyed. DMAPP levels of 23 +/- 4 nmol (g fresh weight)(-1) [ca. 85 nmol (g dry weight)(-1)] and 80 +/- 14 nmol (g fresh weight)(-1) [ca. 296 nmol (g dry weight)(-1)] were measured in dark- and light-adapted leaves of Populus deltoides (Eastern cottonwood), respectively. Evidence is presented to show that DMAPP is the major leaf metabolite giving rise to isoprene following acid hydrolysis. DMAPP levels in Bacillus subtilis and Saccharomyces cerevisiae were determined to be 40.8 +/- 16.7 pmol (OD(600))(-1) [ca. 638 pmol (mg dry weight)(-1)] and 6.3 +/- 3.7 pmol (OD(600))(-1) [ca. 139 pmol (mg dry weight)(-1)], respectively. The method should be suitable for any cell or tissue type and isolated cellular organelles.     

Cellulase Activity, Endogenous Abscisic Acid, and Ethylene in Four Citrus Cultivars during Maturation

At maturity, the fruit of two early maturing orange cultivars, Hamlin and Pineapple (Citrus sinensis [L.] Osbeck), contained more ethylene and abscisic acid than the late maturing Valencia and Lamb Summer (C. sinensis [L.] Osbeck) cultivars. Ethylene (up to 95 nl/l in internal atmosphere) and abscisic (50 μg/kg dry weight flavedo) increased most rapidly in Pineapple, leading to increased cellulase activity and loosening of the fruit. Fruit of the two late maturing cultivars contained less than 25 nl/1 ethylene and 40 μg abscisic acid/kg dry weight of flavedo at peak maturity. Cellulase activity and loosening of the fruit of these late maturing cultivars was slight.     

Antihypertensive effect of an extract of Passiflora edulis rind in spontaneously hypertensive rats

Orally administered methanol extract of Passiflora edulis rind (10 mg/kg or 50 mg/kg) or luteolin (50 mg/kg), which is one of consistent polyphenols of the extract, significantly lowered systolic blood pressure in spontaneously hypertensive rats (SHRs). Quantitative analysis by liquid chromatography tandem mass spectrometry (LC-MS/MS) showed that the extract contained 20 microg/g dry weight of luteolin and 41 microg/g dry weight of luteolin-6-C-glucoside. It also contained gamma-aminobutyric acid (GABA, 2.4 mg/g dry weight by LC-MS/MS or 4.4 mg/g dry weight by amino acid analysis) which has been reported to be an antihypertensive material. Since the extract contained a relatively high concentration of GABA, the antihypertensive effect of the extract in SHRs might be due mostly to the GABA-induced antihypertensive effect and partially to the vasodilatory effect of polyphenols including luteolin.     

Calcium stores in differentiated Dictyostelium discoideum: prespore cells sequester calcium more efficiently than prestalk cells

Dictyostelium discoideum pseudoplasmodia exhibit a gradient of the cytosolic free Ca2+-concentration ([Ca2+]i) along their anterior-posterior axis involved in cell-type specific differentiation. [Ca2+]i is high in prestalk and low in prespore cells. We determined the content and localization of calcium and other elements in cryosectioned cells of pseudoplasmodia and fruiting bodies by X-ray microanalysis. Granular stores rich in Ca, Mg and P were identified. Average Ca was higher in prespore than prestalk granules (225vs 111 mmol/kg dry weight). Total Ca stored in granules was also higher in prespore than prestalk cells. The amount of P and S in granules differed between the two cell types indicating different store composition. In spores mean granular Ca was 120 mmol/kg dry weight. Stalk cells had smaller granules with 360 mmol Ca/kg dry weight. Complementary to microanalysis, vesicular Ca2+-fluxes were studied in fractionated cell homogenates. The rate of Ca2+-uptake was higher in pellet fractions of prespore than prestalk amoebae (4.7 vs 3.4 nmol/min x mg). Ca2+-release was greater in supernatant fractions from prestalk than prespore cells (16.5vs 7.7 nmol/10(8)cells). In summary, prestalk and prespore cells possess qualitatively different, high-capacity stores containing distinct amounts of Ca and probably being involved in regulation of the anterior-posterior [Ca2+]i-gradient.     

Ethylene production by loblolly pine seedlings associated with water stress

Effects of water stress on production of ethylene and its precursor, 1-aminocyclopropane-1-carboxylic acid (ACC), by loblolly pine ( Pinus taeda L.) seedlings from a Texas drought-hardy and a Virginia Coastal Plain source were investigated. Ethylene production rates in needles from the Virgnia source increased slightly with initial stress (-1.3 MPa), declined until water potential reached -1.6 MPa and then increased sharply at -2.5 MPa. The ethylene production rates in needles from the Texas also increased slightly with initial stress, then decreased with decreasing water potential. Ethylene production by root tissue was two to three times higher than needle tissue and decreased with decreasing water potential. ACC concentrations in needles of both seed sources decreased as water potential began decreasing. Below -1.4 MPa, ACC levels started increasing (Texas source) or remained constant until -2.8 MPa (Virginia source) at which time its level increased three-fold. Mean ACC levels in root tissue [122 nmol (g dry weight)⁻¹] were slightly higher than the mean levels in the needle tissue [92 nmol (g dry weight) ⁻¹]; roots apparently were more efficient in converting it to ethylene since ethylene production was two to three times higher than needle tissue. The modulation of ethylene synthesis by ACC synthase and ethyleneforming enzyme appeared to be influenced by stress level, organ and seed source.     

Antihypertensive Effect of an Extract of Passiflora edulis Rind in Spontaneously Hypertensive Rats

Orally administered methanol extract of Passiflora edulis rind (10 mg/kg or 50 mg/kg) or luteolin (50 mg/kg), which is one of consistent polyphenols of the extract, significantly lowered systolic blood pressure in spontaneously hypertensive rats (SHRs). Quantitative analysis by liquid chromatography tandem mass spectrometry (LC-MS/MS) showed that the extract contained 20 μg/g dry weight of luteolin and 41 μg/g dry weight of luteolin-6-C-glucoside. It also contained γ-aminobutyric acid (GABA, 2.4 mg/g dry weight by LC-MS/MS or 4.4 mg/g dry weight by amino acid analysis) which has been reported to be an antihypertensive material. Since the extract contained a relatively high concentration of GABA, the antihypertensive effect of the extract in SHRs might be due mostly to the GABA-induced antihypertensive effect and partially to the vasodilatory effect of polyphenols including luteolin.     

Bacteriorhodopsin production by cell recycle culture of Halobacterium halobium

When Halobacterium halobium R1 was cultured with cell recycle in a bioreactor equipped with an external hollow fiber membrane unit, the cell and bacteriorhodopsin concentrations reached in 10 days were 30.3 g cell dry weight/l and 282 mg/l, respectively. The productivity of bacteriorhodopsin (1.15 mg/l·h) was much higher than that (0.16 mg/l·h) obtained by typical batch fermentation. © Rapid Science Ltd. 1998     

Fatty acid composition and microbial activity of benthic marine sediment from McMurdo Sound, Antarctica

Abstract Signature lipids from the phospholipid esterlinked fatty acids (PELFA) of cell membranes were used to describe benthic microbial communities of 4 Antarctic sediments. Metabolic activities of the communities were determined by incorporation of [³H]thymidine into bacterial DNA and sodium [¹⁴C]acetate into membrane lipids. Biomass measurements from extractable phospholipid fatty acids per g dry wt. ranged between 6 to 76 nmol, or when converted to number of bacteria, 3.7 × 10⁸ to 4.5 × 10⁹ cells per g dry wt. The West Sound site at New Harbor contained the lowest biomass, while Cape Evans on the East Sound contained the greatest. A marked difference was also noted between sites in their sediment microbial community structure. The East Sound sites at Cape Armitage and Cape Evans contained a greater abundance of diatom marker lipids, whilst both sides of the Sound contained approximately the same relative amounts of bacterial groups distinguished using PELFA. Activity of sediment microorganisms measured by radiolabel incorporation under ambient conditions followed the trends of the biomass measurements. The East Sound sites were more active by an average of 45–73% for [³H]thymidine and possibly also for sodium [¹⁴C]acetate.     

Evidence for a super-reduced cobamide as the major corrinoid fraction in vivo and a histidine residue as a cobalt ligand of the p-cresolyl cobamide in the acetogenic bacterium Sporomusa ovata

The redox state of cobalt in p-cresolyl cobamide and one of its axial ligands were determined by EPR spectroscopy of Sporomusa ovata as harvested. The analyses revealed that less than 2% (less than 30 nmol/g dry cells) of the total corrinoids (greater than 2400 nmol/g dry cells) were in a low-spin Co(II) complex. The amount increased to about 15% (190-450 nmol/g dry cells) upon partial oxidation by air, indicating that the original valence state of cobalt was a Co(I) prior to this treatment. The cob(I)amide was quantified as Co(III)-CH3 after methylation by iodomethane. More than 45% (1100 nmol/g dry cells) of the extractable corrinoids were in the methylated form, whereas non-treated cells revealed less than 1% (less than 15 nmol g dry cells) of light-sensitive corrinoids. EPR spectra of the Co(II) complex exhibited a threefold N-hyperfine splitting in the gz region, which was similar to vitamin B12. Cells grown with [1.3-15N2]histidine showed a twofold N-hyperfine splitting, demonstrating that the axial N ligand of the corrinoid was derived from the imidazole group of histidine. It is concluded that the super-nucleophilic p-cresolyl cob(I)amide is the major corrinoid complex in vivo and that it is stabilized by its protein(s). The Co(II) ion of the prosthetic group was coordinated by one histidine residue of the apoprotein(s).     

Myocardial triglyceride turnover and contribution to energy substrate utilization in isolated working rat hearts

The objective of this study was to determine the contribution of myocardial triglycerides to overall ATP production in isolated working rat hearts. Endogenous lipid pools were initially prelabeled (pulsed) by perfusing hearts for 60 min with Krebs-Henseleit buffer containing 1.2 mM [1-14C]palmitate. During a subsequent 60-min period (chase), hearts were perfused with either no fat, low fat (0.4 mM [9,10-3H] palmitate), or high fat (1.2 mM [9,10-3H]palmitate). All buffers contained 11 mM glucose. During the "chase," 14CO2 production (a measure of endogenous fatty acid oxidation) and 3H2O production (a measure of exogenous fatty acid oxidation) were determined. Oxidative rates of endogenous fatty acids during the chase were 279 +/- 50, 88 +/- 14, and 88 +/- 8 nmol of [14C]palmitate oxidized per g dry weight.min in the no fat, low fat, and high fat groups, respectively, compared to exogenous palmitate oxidation rates of 0, 361 +/- 68, and 633 +/- 60 nmol of [3H]palmitate/g dry weight.min, in the no fat, low fat, and high fat groups, respectively. Endogenous [14C]palmitate oxidation rates were matched by loss of [14C]palmitate from endogenous myocardial triglycerides. Overall triglyceride content decreased during the no fat and low fat chase perfusion but did not change during the high fat chase. Loss of triglyceride [14C]palmitate during the high fat chase was matched by incorporation of exogenous [3H]palmitate in triglycerides. In a second series of perfusions, three groups of hearts were perfused under similar conditions, except that unlabeled palmitate was used during the "pulse" and that 11 mM [2-3H/U-14C]glucose and unlabeled palmitate was present during the chase. During the chase, both glycolysis (3H2O production) and glucose oxidation (14CO2 production) rates were measured. Rates of glucose oxidation were inversely related to the fatty acid concentration in the perfusate (1257 +/- 158, 366 +/- 40, and 124 +/- 26 nmol of glucose oxidized per min.g dry weight in the no fat, low fat, and high fat groups, respectively), while rates of glycolysis were not significantly different between these groups. Calculation of overall ATP production from both oxidative and glycolytic sources determined that even in the presence of high concentrations of fatty acids, myocardial triglyceride turnover can provide over 11% of steady state ATP production in the aerobically perfused heart. In the absence of fatty acids, myocardial triglyceride fatty acids can become the major energy substrate of the heart.(ABSTRACT TRUNCATED AT 400 WORDS)     

Physiological adaptation during cell dehydration and rewetting of a newly-isolated Chlorella species

A new terrestrial species of green alga ( Chlorella sp. strain DT) that survives under extremely dry conditions was isolated from an arid mountainous area of Taiwan. The water content of the cells dropped to less than 3% after 3 h dehydration at 42°C. The dried cells could regrow if they were rewetted. The photosynthetic activity of the cells ceased following 2 h of dehydration, but respiratory activity was still detectable after 3 h desiccation. During the rewetting process, respiration increased immediately and then decreased to a steady level after 5 days of rewetting, matching the net photosynthetic oxygen evolution. The cells had 38% neoxanthin (1520 nmol g⁻¹ dry weight), 39% lutein (1580 nmol g⁻¹ dry weight), and 14% violaxanthin (570 nmol g⁻¹ dry weight) of total carotenoids, but only 5.1%β-carotene (210 nmol g⁻¹ dry weight), 3.8%α-carotene (150 nmol⁻¹ g dry weight) and a trace of antheraxanthin and zeaxanthin. Upon dehydration, zeaxanthin and carotene contents increased and recovered to normal levels after 8 days of rewetting. The photoprotective xanthophyll cycle was found in these cells. It appears that the energy dissipation process for preventing photodamage is perhaps one of the tolerance mechanisms in this Chlorella strain.     

Nitrogen fixation (acetylene reduction) associated with roots of winter wheat and sorghum in Nebraska

Root segments and root-soil cores (6.5-cm diameter) from fields and nurseries of winter wheat and sorghum were tested for N2 fixation by using the acetylene reduction assay. Wheat samples (approximately 1,200) from 109 sites generally had low or no activity (0 to 3.1 nmol of C2H4 produced per h per g [dry weight] of root segments), even after 24 h of incubation. However, a commercial field of Scout 66, located in western Nebraska, exhibited appreciable activity (290 nmol of C2H4 produced per h per g [dry weight] of root segments). Of 400 sorghum lines and crosses, grain sorghums (i.e., CK-60A, Wheatland A, B517, and NP-16) generally exhibited higher nitrogenase activity than forage sorghums or winter wheats. CK-60A, a male sterile grain sorghum, was sampled at four locations and had the most consistent activity of 24 to 1,100 nmol of C2H4 produced per h per core. The maximum rate extrapolated to 2.5 g of N per hectare per day. Numerous N2-fixing bacterial isolates were obtained from wheat and sorghum roots that exhibited high nitrogenase activity. Most isolates were members of the Enterobacteriacae, i.e., Klebsiella pneumoniae, Enterobacter cloacae, and Erwinia herbicola.     

Nitrogen fixation (acetylene reduction) associated with roots of winter wheat and sorghum in Nebraska.

Root segments and root-soil cores (6.5-cm diameter) from fields and nurseries of winter wheat and sorghum were tested for N2 fixation by using the acetylene reduction assay. Wheat samples (approximately 1,200) from 109 sites generally had low or no activity (0 to 3.1 nmol of C2H4 produced per h per g [dry weight] of root segments), even after 24 h of incubation. However, a commercial field of Scout 66, located in western Nebraska, exhibited appreciable activity (290 nmol of C2H4 produced per h per g [dry weight] of root segments). Of 400 sorghum lines and crosses, grain sorghums (i.e., CK-60A, Wheatland A, B517, and NP-16) generally exhibited higher nitrogenase activity than forage sorghums or winter wheats. CK-60A, a male sterile grain sorghum, was sampled at four locations and had the most consistent activity of 24 to 1,100 nmol of C2H4 produced per h per core. The maximum rate extrapolated to 2.5 g of N per hectare per day. Numerous N2-fixing bacterial isolates were obtained from wheat and sorghum roots that exhibited high nitrogenase activity. Most isolates were members of the Enterobacteriacae, i.e., Klebsiella pneumoniae, Enterobacter cloacae, and Erwinia herbicola.     

l-Tryptophan metabolism in wound-activated and Agrobacterium tumefaciens-transformed potato tuber cells

The in vivo metabolism of L-tryptophan in wound-activated and Agrobacterium tumefaciens , strain C 58, transformed tissues of white potato tubers ( Solanum tuberosum L. cv. Saskia) was investigated. The following metabolites of L-tryptophan were identified in both tissues by co-chromatography with authentic standards in several thinlayer chromotography (TLC) and high pressure liquid chromatographic (HPLC) systems: indole-3-acetic acid (IAA), indole-3-acetaldehyde, indole-3-ethanol, indole-3-acetamide and tryptamine. Labelled indole-3-acetaldoxime was only found in transformed tissue. Crown gall tissue generally incorporated [¹⁴C]-L-tryptophan into precursors of IAA at a distinctly higher rate than did wound tissue. Tryptamine and indole-3-ethanol accumulated about ten-fold more label in crown gall cells than in cells from wounded tissue. The incorporation of radioactivity into indole-3-acetamide as determined by 2 consecutive TLC systems followed by HPLC analysis was rather low, though consistently observed in both tissues. An indole-3-acetamide hydrolyzing enzyme, the putative product of gene 2 on the T-DNA, could be extracted from the transformed tissue only. The indole-3-ethanol level was 4.3 nmol (g dry weight)⁻¹ and 41 nmol (g dry weight)⁻¹ for wounded tissue and primary crown gall tissue, respectively, as determined by HPLC with a [¹⁴C]-labelled internal standard. The experiments are critically discussed in relation to recent reports on a T-DNA encoded enzyme of IAA biosynthesis in crown gall tumors.     

Virus Particles from Conidia of Penicillium Species

Virus particles and their component double-stranded ribonucleic acid (dsRNA) have been isolated from conidia and mycelia of certain Penicillium species. The conidia and mycelia of P. stoloniferum NRRL 5267 contained 75 and 85 mug of dsRNA/g (dry weight), respectively. Of the total dsRNA released from NRRL 5267 conidia, 10% was nonencapsulated. Conidia of P. brevi-compactum NRRL 5260 and P. chrysogenum Q-176 contained 2 and 120 mug of dsRNA/g (dry weight), respectively, whereas mycelium from the two species contained 3 and 95 mug of dsRNA/g (dry weight), respectively. No viruses were isolated from conidia or mycelia of P. stoloniferum NRRL 859. A method is described for disruption of both conidia and mycelia. The technique facilitates the isolation and characterization of fungal viruses and their component dsRNA and also potentiates surveying of fungal isolates for the presence of virus.