Relationship of lipid metabolism to the respiration and growth of pea stem sections

Biologically active lipids increase the growth of pea stem sections within 3 hours at the same time their respiration is increased and their growth rate is more than that of the intact plant. The greater final length of the intact internode is due to a longer growth period.

Both active and inactive lipids are rapidly taken up and enter all major metabolic fractions: among centrifugal fractions methyl oleate tends to label those that contain metabolically active membranes. It is concluded that lipids active in the bioassay are probably the effective molecules at the subcellular site of action.

No direct effect of lipids on isolated mitochondria could be shown. The respiration of stem tissue was not influenced by dinitrophenol and carbonyl cyano m-chlorophenyl hydrazone although dinitrophenol inhibited growth. Lipid-induced respiration was sensitive to these agents as well as to cyanide, indicating cytochrome oxidase is probably involved.

The promotion of growth and respiration by lipids is not linked to protein synthesis, since actinomycin D, puromycin and cycloheximide failed to inhibit the respiratory increase even though strongly limiting amino acid incorporation into protein. It is most likely that the effect of lipids on growth is due to their promotion of respiration.

     

Effects of abscisic Acid on growth, RNA metabolism, and respiration in germinating bean axes

The effect of abscisic acid on growth, respiration, the ATP pool, and rate and amount of RNA synthesis in aseptically cultured axes of Phaseolus vulgaris during the first 24 hours of germination has been measured in experiments where the duration of abscisic acid application and its concentration have been varied. At concentrations from 10(-7) to 10(-4)m, abscisic acid inhibits synthesis of RNA with maximal inhibition (80%) at 10(-5)m. RNA synthesis is inhibited by abscisic acid at all times examined (12, 18, and 24 hours), but the extent of inhibition is maximal at 18 hours. In 18-hour axes RNA synthesis is inhibited 42%, ATP pool size is reduced 3%, and O(2) consumption is decreased by 6% after 75 minutes of abscisic acid treatment. Inhibition of RNA synthesis is complete by 2 hours of treatment with abscisic acid, and recovery to near control levels occurs by the 3rd hour after removal from abscisic acid.     

Effect of univalent cations and colchicine on growth,respiration and carbohydrate metabolism ofCunninghamella elegans

The results reported have a bearing on the necessity of sodium as a complementary ion for better growth ofCunninghamella. This element effected moderate sucrose absorption, polysaccharide accumulation and gain in dry weight accompanied by least galactosan building, maximum respiration rate and carbohydrate accumulation. Potassium gave the maximum gain in dry weight and least sugar absorption and polysaccharide accumulation. Although lithium exhibited a slightly higher rate of sugar absorption than potassium and showed the maximum polysaccharide formation, it about equalled potassium in having similar effects on carbon dioxide output and total carbohydrate content. Thallous ions were toxic as the fungus lost weight and showed the least carbohydrate content accompanied by very low respiration rate. Colchicine, under the above mentioned conditions, did not affect the dry weight of the fungus but increased or decreased the rate of absorption of sucrose, respiration and carbohydrate metabolism, depending on the concentration of the chemical and the type of prevalent univalent cation.     

Divergence of growth hormone actions on hepatic drug metabolism in the presence and absence of the pituitary gland.

Experiments were carried out to compare the effects of growth hormone on hepatic drug oxidation in normal and hypophysectomized rats. Administration of growth hormone to normal male rats lowered hepatic microsomal cytochrome P-450 content and decreased the rates of ethylmorphine n-demethylation and aniline hydroxylation. These effects were fully manifested in orchiectomized or adrenalectomized males, excluding a dependence upon endogenous steroids. Growth hormone was without effect on hepatic drug metabolism or cytochrome P-450 content in normal female rats. In contrast to its actions in animals with intact pituitary glands, administration of growth hormone to hypophysectomized rats of either sex increased the rate of ethylmorphine metabolism. Furthermore, in both males and females, aniline hydroxylation and microsomal cytochrome P-450 content were unaffected by growth hormone in the absence of the pituitary gland. Prolactin administration did not affect hypophysectomized or in normal rats of either sex. The results indicate that the nature of growth hormone actions on hepatic drug oxidation is pituitary-dependent and probably intertwined with the effects of other hormones. Furthermore, the direct physiological effects of growth hormone on hepatic mixed function oxidases seem to depend upon the substrate employed.     

External respiration and gas metabolism in orthostatic syncopes

Cardiorespiratory reactions to tilt tests were compared in 80 healthy male subjects with an adequate orthostatic tolerance and in 19 subjects who fainted during tilting. They showed significant differences in the gas exchange, hemodynamics, and external respiration. Variations in the heart rate, pulmonary ventilation and the alveolar CO2 tension were most demonstrative. The findings, particularly the lack of the expected decrease o= oxygen consumption in the presyncopal state contribute to the concepts of the pathogenesis of the orthostatic collapse.     

On the absence of correlation between cyanide-resistant respiration and cytochrome d content in bacteria

The regularity of appearance of cyanide-resistant respiration and cytochrome d in various bacteria as well as the relationship between the degree of resistance of respiration to cyanide and cytochrome d content was studied. Bacteria able to synthesize cyanide-resistant respiration were shown to appear during transition of culture to the stationary phase of growth caused by the exhaustion of carbon source. No regulatory of appearance of cytochrome d was observed. There is no correlation between the degree of resistance to cyanide and cytochrome d content. It was concluded that the cyanide-resistant respiration of bacteria and eukaryotic microorganisms may be associated with the functioning of a non-cytochrome nature oxidase.     

Contribution of the cytochrome and alternative pathways to growth respiration and maintenance respiration in Arabidopsis thaliana

The activities of the cytochrome and alternative respiratory pathways were measured during the growth cycle in Arabidopsis thaliana using a newly developed Isotope Ratio Mass Spectrometer (IRMS) dual-inlet system that allows very precise measurements of oxygen-isotope fractionation under low oxygen consumption rates. Under optimum growth conditions, the relative growth rate was highly dependent on the activity of the cytochrome pathway. The activity of the alternative pathway was almost constant irrespective of the growth rate and appeared mostly involved in the maintenance respiration component, although the alternative pathway also played a role under optimum growth conditions. This is the first time that the contribution of the two respiratory pathways to the two main respiratory components (growth and maintenance) has been analyzed with the use of the oxygen-isotope fractionation technique. The respiration efficiency of the specific costs for growth and maintenance (adenosine triphosphate/O₂ ratio) was determined by a modified regression model. The ability to measure oxygen-isotope fractionation during respiration in A. thaliana opens the door to a wider set of studies that are discussed.     

Plant growth and respiration re-visited: maintenance respiration defined - it is an emergent property of, not a separate process within, the system - and why the respiration : photosynthesis ratio is conservative

Background and Aims

Plant growth and respiration still has unresolved issues, examined here using a model. The aims of this work are to compare the model''s predictions with McCree''s observation-based respiration equation which led to the ‘growth respiration/maintenance respiration paradigm’ (GMRP) – this is required to give the model credibility; to clarify the nature of maintenance respiration (MR) using a model which does not represent MR explicitly; and to examine algebraic and numerical predictions for the respiration:photosynthesis ratio.

Methods

A two-state variable growth model is constructed, with structure and substrate, applicable on plant to ecosystem scales. Four processes are represented: photosynthesis, growth with growth respiration (GR), senescence giving a flux towards litter, and a recycling of some of this flux. There are four significant parameters: growth efficiency, rate constants for substrate utilization and structure senescence, and fraction of structure returned to the substrate pool.

Key Results

The model can simulate McCree''s data on respiration, providing an alternative interpretation to the GMRP. The model''s parameters are related to parameters used in this paradigm. MR is defined and calculated in terms of the model''s parameters in two ways: first during exponential growth at zero growth rate; and secondly at equilibrium. The approaches concur. The equilibrium respiration:photosynthesis ratio has the value of 0·4, depending only on growth efficiency and recycling fraction.

Conclusions

McCree''s equation is an approximation that the model can describe; it is mistaken to interpret his second coefficient as a maintenance requirement. An MR rate is defined and extracted algebraically from the model. MR as a specific process is not required and may be replaced with an approach from which an MR rate emerges. The model suggests that the respiration:photosynthesis ratio is conservative because it depends on two parameters only whose values are likely to be similar across ecosystems.     

Hormones andCuscuta development: IAA uptake transport and metabolism in relation to growth in the absence and presence of applied cytokinin

Transport of 1-¹⁴C-IAA in successive stem segments ofCuscuta was strictly basipetal in growing and non growing regions of the vine with a flux velocity of 10–12 mm/h (intercept method). This transport showed a distinct peaked profile, increasing from a low value at 10 mm from the apex to a maximum between 50 and 90 mm before declining to a low value again around 160 mm at which elongation growth ceased. The IAA transport profile paralleled the in vivo growth rate profile, though the latter peaked ahead of transport. A better correlation was observed between the profile of growth responsiveness of the vine to exogenous IAA application and the profile of IAA transport. Growth responsiveness was determined as the differential in growth rate of stem segments in vitro in the absence and presence of growth optimal concentration of IAA (10 m). Retention of exogenous IAA in the stem was maximal where transport decreased, and this coincided with the region of maximal conjugation of applied 1-¹⁴C-IAA to aspartic acid to form indoleacetylaspartate (IAAsp). In addition to aspartate, IAA was conjugated to a small extent to an unidentified compound. IAA destruction by decarboxylation was greatest where transport was low, particularly in the nongrowing region, where lignification occurred (i.e., beyond 180 mm). At concentrations up to 20 M, a pulse of 1-¹⁴C-IAA chased by cold IAA moved as a peak (with a peak displacement velocity of 12–18 mm/h) in the growth region of the vine, but became diffusionlike where growth either fell off steeply or ceased. At a higher (50 M) IAA concentration, though uptake was not saturated, transport in the growth region became diffusionlike, indicating saturation of the system. Reduced IAA flux in the region where growth responsiveness to IAA declined coincided with the region of increased IAA conjugation. However, it cannot be concluded whether increased IAA conjugation was the cause or effect of decreased IAA flux. Application of benzyladenine to the vines in vivo, a treatment that elicited haustoria formation by 72 h, resulted in the inhibition of both IAA transport and elongation growth rate in the subapical region. In vitro treatment of vine segments with BA similarly increased IAA retention and decreased IAA transport. IAA loss was suppressed, and conjugation to IAAsp was enhanced.     

Effect of organic acids on the growth,respiration, and nitrogen metabolism of mycelial felts of fusarium culmorum

Summary The rate of building up of proteins by Fusarium culmorum seems to be accelerated, to a marked extent, in presence of sodium salts of various organic acids, a fact which is most pronounced in case of sodium fumarate.The presence of sodium fumarate in the culture medium induced a slight increase, while the presence of sodium acetate led to a marked decrease, in the amounts of carbon dioxide given off by the mycelial mats when compared to the control samples.The presence of fumarate, succinate or citrate in the culture medium led to a significant increase in mycelial dry weights over the controls.     

The bifidogenic growth stimulator inhibits the growth and respiration of Helicobacter pylori

Background: Triple therapy with amoxicillin, clarithromycin, and a proton‐pump inhibitor is a common therapeutic strategy for the eradication of Helicobacter pylori (H. pylori). However, frequent appearance of clarithromycin‐resistant strains is a therapeutic challenge. While various quinones are known to specifically inhibit the growth of H. pylori, the quinone 1,4‐dihydroxy‐2‐naphthoic acid (DHNA) produced by Propionibacterium has strong stimulating effect on Bifidobacterium. We were interested to see whether DHNA could inhibit the growth of H. pylori in in vitro or in vivo experimental setting. Materials and Methods: The minimum inhibitory concentration (MIC) of DHNA was determined by the agar dilution method. The inhibitory action of DHNA on the respiratory activity was measured by using an oxygen electrode. Germ‐free mice infected with H. pylori were given DHNA in free drinking water containing 100 μg/mL for 7 days. Results: DHNA inhibited H. pylori growth at low MIC values, 1.6–3.2 μg/mL. Likewise, DHNA inhibited clinical isolates of H. pylori, resistant to clarithromycin. However, DHNA did not inhibit other Gram negative or anaerobic bacteria in the normal flora of the human intestine. Both H. pylori cellular respiration and adenosine 5′‐triphosphate (ATP) generation were dose‐dependently inhibited by DHNA. Similarly, the culture filtrates of propionibacterial strains inhibited the growth of H. pylori, and oral administration of DHNA could eradicate H. pylori in the infected germ‐free mice. Conclusions: The bifidogenic growth stimulator DHNA specifically inhibited the growth of H. pylori including clarithromycin‐resistant strains in vitro and its colonization activity in vivo. The bactericidal activity of DHNA was via inhibition of cellular respiration. These actions of DHNA may have clinical relevance in the eradication of H. pylori.     

Quantitative relationships between growth and respiration

Red bean seedlings were grown from germination in the dark under three constant temperature coinditions (20, 25 and 30 C). Measurements of biomass and respiratory activities of their axes and cotyledons were made at one or two-day intervals. Two components of the axis respiration (constructive and maintenance respiration) were assumed, and they were evaluated separately. The constructive respiration coefficient was little affected by temperature, and was about 0.10 in every temperature treatment. The maintenance coefficient was on the other hand great affected by temperature, and the values were 0.036, 0.048 and 0.074 (mg C·mg C^?1·day^?1) in 20 C, 25 C and 30 C, respectively. The cumulative respiratory loss of carbon from the cotyledon during the experimental period was least in 20 C from among the three temperature conditions, and it was 40% of the total respiratory loss from the whole seedling. In 25 C and 30 C the losses were 47 and 46%, respectively. On the basis of these data concerning the respiratory losses and biomass changes, the carbon balance during the experimental period was examined, and some concepts of growth efficiencies were discussed.     

Engineering the expression level of cytosolic nucleoside diphosphate kinase in transgenic Solanum tuberosum roots alters growth,respiration and carbon metabolism

Nucleoside diphosphate kinase (NDPK) is a ubiquitous enzyme that catalyzes the transfer of the γ‐phosphate from a donor nucleoside triphosphate to an acceptor nucleoside diphosphate. In this study we used a targeted metabolomic approach and measurement of physiological parameters to report the effects of the genetic manipulation of cytosolic NDPK (NDPK1) expression on physiology and carbon metabolism in potato (Solanum tuberosum) roots. Sense and antisense NDPK1 constructs were introduced in potato using Agrobacterium rhizogenes to generate a population of root clones displaying a 40‐fold difference in NDPK activity. Root growth, O₂ uptake, flux of carbon between sucrose and CO₂, levels of reactive oxygen species and some tricarboxylic acid cycle intermediates were positively correlated with levels of NDPK1 expression. In addition, NDPK1 levels positively affected UDP‐glucose and cellulose contents. The activation state of ADP‐glucose pyrophosphorylase, a key enzyme in starch synthesis, was higher in antisense roots than in roots overexpressing NDPK1. Further analyses demonstrated that ADP‐glucose pyrophosphorylase was more oxidized, and therefore less active, in sense clones than antisense clones. Consequently, antisense NDPK1 roots accumulated more starch and the starch to cellulose ratio was negatively affected by the level of NDPK1. These data support the idea that modulation of NDPK1 affects the distribution of carbon between starch and cellulose biosynthetic pathways.