Correlated responses in development and distribution of fat depots in mice selected for body composition traits

Summary Development of adipose tissue in five depots was investigated in mice selected for high or low 12-week epididymal fat pad weight as a percentage of body weight (HF and LF lines), or high or low 12-week hind carcass weight as a percentage of body weight (HL and LL lines). An unselected control line (RC) was maintained. Hind carcass (HC) and fat pads from subcutaneous hindlimb, subcutaneous forelimb, gonads, kidneys and mesentery were dissected and weighed at 4, 6, 9, 12 or 15 weeks of age. Generally, body weight (BW), daily gain (DG), feed intake (FI), feed efficiency (FE) and feed intake/metabolic body weight (FC) were higher (P0.05) in HF than in LF, and in LL than in HL. HF had more fat (as a percentage of BW) than LF in all depots (P-0.01), and asymmetry (P0.01) was detected for gonadal fat. LL consistently had a higher (P0.01) fat percentage than HL, and asymmetry (P0.01) was observed for perirenal fat. At age of selection, ranking of fat depot weights as a percentage of total fat depot weight was not changed by selection; however, gonadal fat accounted for more of the total fat in HF and LL compared with RC, while the opposite was found in LF and HL. HC percentage was higher (P0.01) in HL than LL, and higher (P0.01) in LF than HF. Growth rate of each fat depot relative to BW was not affected by selection. These results demonstrated that selection for proportion of fat in one depot or for HC percentage changed fat percentage in other depots. However, the rate of fat deposition in each depot relative to body weight gain was not altered.     

A vapor pressure deficit effect on crop canopy photosynthesis

Canopy CO₂-exchange rates (CER), air temperatures, and dew points were measured throughout ten days during the 1987 growing season for cotton (Gossypium hirsutum L.), grain sorghum [Sorghum bicolor (L) Moench], and five soybean [Glycine max (L) Merr.] cultivars, and throughout seven days in 1988, on maize (Zea maize L.). The objective was to determine if the decline in CER per unit light during the afternoon is associated with a vapor pressure deficit (VPD) increase. Some of the soybean and maize plots were kept as dry as possible. A VPD term significantly contributed (P0.05) to a canopy CER regression model in 54 of 80 data sets in 1987. Grain sorghum was less sensitive than the well-watered soybean genotypes to an increasing VPD (P0.05) on three of the ten measurement days and less sensitive than cotton (P0.05) on only one day. Cotton demonstrated less VPD sensitivity than soybean (P0.05) on one day. The moisture stressed soybean plots showed a greater CER sensitivity to VPD (P0.05) than the well-watered soybean plots. In 1988, the frequently irrigated maize plots were less sensitive to VPD (P0.05) than the rain-fed plots early in the season, before the rain-fed plots were excessively damaged by moisture stress. These results indicate that the afternoon declines in canopy CER found in a number of different species are associated with increases in the VPD; recent work of others suggests that this may be due to partial stomatal closure.Abbreviations CER carbon dioxide exchange rate - VPD vapor pressure deficit - PPFD photosynthetic photon flux density - DAP days after planning     

Optimization of culture conditions for growth of the green alga Haematococcus pluvialis

The effects of light intensity, inoculum volume, sodium nitrate and carbon dioxide concentrations on the growth of Haematococcus pluvialis were investigated using response surface methodology (RSM). All the four variables exhibited significant effects on growth and can be related (r 0.926, P 0.01) by a second-order polynomial consisting of linear, quadratic and interaction terms. The total quadratic effect (P 0.01) dominates over the total linear effect (P 0.01) but the role of interaction terms (P 0.10) is marginal. The optimum values of these variables were: carbon dioxide 1.54%, sodium nitrate 1.06 g/l, inoculum volume 24.97% and light intensity 2.42 klux; the predicted maximum value for the yield of biomass was 0.51 g/l (dry weight).     

Age and growth,reproduction and diet of a sublittoral population of the rock goby Gobius paganellus (Teleostei,Gobiidae)

Colonisation of extremely acidic waters (pH 3) by aquatic angiosperms occurs widely, but is poorly documented. Unlike acid rain affected and other naturally acidic aquatic ecosystems, waters with pH 3 usually have a high conductivity, with high concentrations of SO₄ ^2- and often high concentrations of Fe³⁺, other heavy metal ions and Al³⁺. Where Fe³⁺ concentration is high, as in many mine waters, it provides a strong buffering system. In such waters, the biogeochemical Fe cycle exerts over water chemistry and the availability of nutrients and carbon for organisms. Biological activity is limited by low concentrations of phosphorus and inorganic carbon (DIC), which in this pH range is essentially all in the form of dissolved CO₂. A number of angiosperms grow in such waters including Phragmites australis, Typha spp. and Juncus bulbosus, though the last is the only one reported to grow totally submerged in waters with pH 3 . J. bulbosus occurs in many lignite mining lakes in Lusatia (north eastern Germany) with pH 3. The characteristics and possible survival strategies for this and other species are discussed.     

Flight of the honey bee

Summary Using manometric and gas analytical methods oxygen consumption , carbon dioxide production , respiratory quotientRQ, (Fig. 1A-C) and thorax surface temperature difference T _ts (Fig. 3) were determined in single bees. The animals were either sitting in respiratory chambers or were suspended by the scutum, in which case they were resting, walking (turning a small polystyrene ball) or flying in a closed miniature wind tunnel.During resting (sitting in Warburg vessels) at an ambient temperatureT _a=10°C,RQ was 1.01±0.2 (n=905) with variations due to method (Fig. 1D, E).RQ values during walking were determined in single cases. In no case were they significantly different from 1.00. After the first 10 min of flight meanRQ was 1.00±0.04. It was significantly smaller than 1.00 (RQ=0.97) only during the last 5% of long-time flights (mean flight duration 58.8±28.8 min). With the exception of near-exhaustion conditions no signs of fuels other than carbohydrates were found.Metabolic rateP _m was 19.71±21.38 mW g^–1 during resting at 20°CT _a30°C indicating that many resting bees actively thermoregulate at higherT _a. After excluding bees which were actively thermoregulating, by an approximationP _m was 5.65±2.44 mW g^–1 at 20°CT _a30°C. True resting metabolic rate for sitting bees atT _a=10°C was 1.31±0.53 mW g^–1 (Fig. 2A, B).A significant negative correlation was found between relative (specific) oxygen consumption rel and body massM _b at 85 mgM _b150 mg.At 0°CT _ts16.5°C a significant (-0.01) positive correlation was found between and T _ts in single resting bees: T _Ts+0.099, or betweenP _m and T _ts:P _m=1.343 T _ts+0.581 (Fig. 3D) in ml h^–1,P _m in mW,T in °C).During walking (duration 13.15±5.71 min,n=13) at 12.5°CT _a21°C a stable T _ts of 11.41±3.37°C, corresponding to 167 mW g^–1, was reached for 80 to 90% of the walking time (Fig. 4B).During wind tunnel flights of tethered animals the minimal metabolic power measured in exhaustion experiments was 240 mW g^–1. Calculation of factors of increase inP _m is of limited value in poikilotherms, in which true resting conditions are not exactly defined.     

A diallel cross for mating speeds inDrosophila melanogaster

A diallel cross inDrosophila melanogaster for the mating speeds of previously unmated pairs aged 6 days was carried out for 6 inbred lines and their hybrids. Pairs were observed for 40 minutes.There was extreme hybrid vigour especially in mating frequency for 10 minutes but the degree of hybrid vigour was relatively smaller for 40 minutes.Considerable variability occurred between the inbred lines indicating the genotypic control of mating speed.An analysis of variance on the hybrids revealed significant general and specific combining abilities, and reciprocal effects. The mating frequency for 10 minutes gave heritability in the narrow sense, h²=0.605, 20 minutes gave h²=0.510 and 40 minutes gave h²=0.342.The progressive reduction in h² is due to a decrease in additive genetic variance and an increase in dominance variance with time. Thus either the dominance relations of genes controlling mating speeds change with time. or different loci control this character at different times.     

Foliar free polyamine and inorganic ion content in relation to soil and soil solution chemistry in two fertilized forest stands at the Harvard Forest,Massachusetts

Polyamines (putrescine, spermidine, and spermine) are low molecular weight, open-chained, organic polycations which are found in all organisms and have been linked with stress responses in plants. The objectives of our study were to investigate the effects of chronic N additions to pine and hardwood stands at Harvard Forest, Petersham, MA on foliar polyamine and inorganic ion contents as well as soil and soil solution chemistry. Four treatment plots were established within each stand in 1988: control, low N (50 kg N ha^-1 yr^-1 as NH₄NO₃), low N + sulfur (74 kg S ha^-1 yr^-1 as Na₂SO₄), and high N (150 kg N ha^-1 yr^-1 as NH₄NO₃). All samples were analyzed for inorganic elements; foliage samples were also analyzed for polyamines and total N. In the pine stand putrescine and total N levels in the foliage were significantly higher for all N treatments as compared to the control plot. Total N content was positively correlated with polyamines in the needles (P 0.05). Both putrescine and N contents were also negatively correlated with most exchangeable cations and total elements in organic soil horizons and positively correlated with Ca and Mg in the soil solution (P 0.05). In the hardwood stand, putrescine and total N levels in the foliage were significantly higher for the high N treatment only as compared to the control plot. Here also, total foliar N content was positively correlated with polyamines (P 0.05). Unlike the case with the pine stand, in the hardwood stand foliar polyamines and N were significantly and negatively correlated with foliar total Ca, Mg, and Mn (P 0.05). Additional significant (P 0.05) relationships in hardwoods included: negative correlations between foliar polyamines and N content to exchangeable K and P and total P in the organic soil horizon; and positive correlations between foliar polyamines and N content to Mg in soil solution. With few exceptions, low N + S treatment had effects similar to the ones observed with low N alone for both stands. The changes observed in the pine stand for polyamine metabolism, N uptake, and element leaching from the soil into the soil solution in all treatment plots provide additional evidence that the pine stand is more nitrogen saturated than the hardwood stand. These results also indicate that the long-term addition of N to these stands has species specific and/or site specific effects that may in part be explained by the different land use histories of the two stands.     

Agrobacterium-mediated transformation of Citrus stem segments and regeneration of transgenic plants

Summary A method for Agrobacterium-mediated transformation of Citrus and organogenic regeneration of transgenic plants is reported. Internodal stem segments were co-cultured with Agrobacterium harboring binary vectors that contained the genes for the scorable marker ß-glucuronidase (GUS) and the selectable marker NPT-II. A low but significant percentage ( 5%) of the shoots regenerated in the presence of 100 g/ml kanamycin were GUS⁺. Polymerase chain reaction (PCR) analysis confirmed that GUS⁺ shoots contained T-DNA. Two plants established in soil were shown to be transgenic by Southern analysis.     

In vitro comparison of ceftazidime,aztreonam, cefpirome,gentamicin, imipenem,enoxacin, and ticarcillin plus clavulanic acid against 108 strains ofPseudomonas maltophilia

Pseudomonas maltophilia is an uncommon cause of hospital-acquired infection and is resistant to most of the antimicrobial agents used in the treatment of gram-negative infections. Susceptibility of 108 isolates ofP. maltophilia to ceftazidime, aztreonam, defpirome, gentamicin, imipenem, enoxacin, and ticarcillin plus clavulanic acid was determined by an agar dilution method. The isolates were in general resistant to the antibiotics. Imipenem and cefpirome were not active at clinically achievable levels. Of the isolates, 20% were susceptible to 16 g/ml ceftazidime, 53% were susceptible to 4 g/ml enoxacin, 10% were susceptible to 4 g/ml gentamicin, and 25% were susceptible to 64 g/ml ticarcillin plus 2 g/ml clavulanic acid.     

Reversibility of damages to forest floor plants by episodes of elevated hydrogen- and aluminium-ion concentrations in the soil solution

Herbs and grasses may episodically be exposed to elevated concentrations of potentially toxic elements as H⁺ and Al³⁺ due to considerable temporal variability in the chemical composition of soil solutions in the uppermost layer of the soil profile. Greenhouse experiments were performed to test the effect of episodes of different length (1 and 2 weeks) and concentrations of H⁺ and Al³⁺ (pH 3.8, 4.0, 4.2 and 4.5; 0, 20 and 70 M Al) on root and shoot growth, designed to elucidiate the reversibility of growth inhibition. Three forest floor species were studied-Galium odoratum and Lamium galeobdolon, having similar pH distribution ranges in the field and Poa nemoralis which also occurs at slightly lower pH. The plants were grown for 5 weeks (episode and recovering time) in a synthetic soil solution in a flowing solution system without recirculation. The species reacted in three different ways. Galium odoratum was the most sensitive species and seemed to be irreversibly damaged (ceased growth) by 2 week episodes of pH4.0 and Al20 M at pH4.2. Lamium galeobdolon was about equally sensitive during the episodes but it had a much greater ability to recover. Poa nemoralis was rather insensitive to the episode treatments tested. It is concluded that episodes of elevated H⁺ and Al³⁺ concentrations may be decisive for plant performance. It is therefore important to consider the extreme environmental conditions which plants may be exposed to in the field, in addition to long-term averages of e.g. soil solution concentration of potentially toxic elements, when studying species distribution and performance in relation to soil chemical properties.     

Use of indirect conductimetry for predicting growth of food spoilage yeasts under various environmental conditions

Summary Four variables (temperature,a _w, pH and potassium sorbate concentration) at three levels were studied to determine their effects on the growth of six yeasts (Candida glabrata, Candida parapsilosis, Debaryomyces hansenii, Pichia membranaefaciens, Saccharomyces cerevisiae andZygosaccharomyces bailii) isolated from spoiled food products. The detection time (DT) and the maximum change in conductance (MRC) were measured by indirect conductimetry using a Malthus instrument. Temperature,a _w and potassium sorbate concentration were the most important variables individually and in combination that affected yeast growth. Shelf life of fruit juice ata _w0.96, pH3.8 and containing0.03% potassium sorbate, when stored at 10°C, would be predicted to be greatly extended.Z. bailii was the most resistant of the yeasts in terms of ability to tolerate stress conditions and is proposed as a test species to develop a predictive model for spoilage.Mention of brand or firm names does not constitute an endorsement by the US Department of Agriculture over others of a similar nature not mentioned.     

Optimization of cell density and dilution rate in <Emphasis Type="Italic">Pichia pastoris</Emphasis> continuous fermentations for production of recombinant proteins

This paper provides an approach for optimizing the cell density (X_c) and dilution rate (D) in a chemostat for a Pichia pastoris continuous fermentation for the extracellular production of a recombinant protein, interferon (INF-). The objective was to maximize the volumetric productivity (Q, mg INF- l^–1 h^–1), which was accomplished using response surface methodology (RSM) to model the response of Q as a function of X_c and D within the ranges 150 X_c 450 g cells (wet weight) l^–1 and 0.1 _mD0.9 _m (_m=0.0678 h^–1, the maximum specific growth rate obtained from a fed-batch phase controlled with a methanol sensor). The methanol and medium feed rates that resulted in the desired X_c and D were determined based on the mass balance. From the RSM model, the optimal X_c and D were 328.9 g l^–1 and 0.0333 h^–1 for a maximum Q of 2.73 mg l^–1 h^–1. The model of specific production rate (, mg INF- g^–1 cells h^–1) was also established and showed the optimal X_c=287.7 g l^–1 and D=0.0361 h^–1 for the maximum (predicted to be 8.92×10^–3 mg^–1 g^–1 h^–1). The methanol specific consumption rate (, g methanol g^–1 cells h^–1) was calculated and shown to be independent of the cell density. The relationship between and (specific growth rate) was the same as that discovered from fed-batch fermentations of the same strain. The approach developed in this study is expected to be applicable to the optimization of continuous fermentations by other microorganisms.     

Changes in carp myosin ATPase induced by temperature acclimation

Summary Myosins were isolated from dorsal ordinary muscles of carp acclimated to 10°C and 30°C for a minimum of 5 weeks and examined for their ATPase activities. Ca²⁺-ATPase activity was different between myosins from cold-and warm-acclimated carp, especially at KCl concentrations ranging from 0.1 to 0.2 M, when measured at pH 7.0. The highest activity was 0.32 mol P_i·min^-1·mg^-1 at 0.2 M KCl for cold-acclimated carp and 0.47 mol P_i·min^-1·mg^-1 at 0.1 M KCl for warm-acclimated fish. The pH-dependency of Ca²⁺-ATPase activity at 0.5 M KCl for both carp was, however, similar exhibiting two maxima around 0.3 mol P_i·min^-1·mg^-1 at pH 6 and 0.4 mol P_i·min^-1·mg^-1 at pH 9. K⁺(EDTA)-ATPase activity at pH 7.0 neither exhibited differences between both myosins. It increased with increasing KCl concentration showing the highest value of about 0.4 mol P_i·min^-1·mg^-1 at 0.6–0.7 M KCl. Actin-activated myosin Mg²⁺-ATPase activity was markedly different between cold-and warm-acclimated carp. The maximum initial velocity was 0.53 mol P_i·min^-1·mg^-1 myosin at pH 7.0 and 0.05 M KCl for cold-acclimated carp, which was 1.6 times as high as that for warm-acclimated carp. These differences were in good agreement with those obtained with myofibrillar Mg²⁺-ATPase activity between both carp. No differences were, however, observed in myosin affinity to actin. Differences in myosin properties between cold- and warm-acclimated carp were further evidenced by its thermal stability. The inactivation rate constant of myosin Ca²⁺-ATPase was 25·10^-4·s^-1 at 30°C and pH 7.0 for cold-acclimated carp, which was about 4 times as high as that for warm-acclimated carp. Light chain composition did not differ between both carp myosins. The differences in a primary structure of the heavy chain subunit was, however, clearly demonstrated between both myosins by peptide mapping.Abbreviations ATPase adenosine 5-triphosphatase - DTNB 5,5 dithio-bis-2-nitrobenzoic acid - DTT dithiothreitol - EGTA ethyleneglycol bis (-aminoethylether)-N,N,N,N-tetraacetic acid - K _D inactivation rate constant - SDS sodium dodecyl sulfate - SDS-PAGE SDS-polyacrylamide gel electrophoresis     

Plankton community respiration: relationships with size distribution and lake trophy

Allometric interpretations of community size structure often assume that laboratory relations between physiological rates and body size apply in the field, but this assumption is rarely examined critically. We therefore tested the hypothesis that limnoplankton community respiration rates are predictable functions of mean body size, and compared these functions to laboratory relations. Over a broad range of trophic conditions (6.5 [TP] 130 g I^–1; 1.2 [chl-a] 29 g 1^–1 ), the mean respiration rate per organism for picoplankton, nannoplankton, and net plankton assemblages was a power function of mean organism size, with an exponent of 0.73. When respiration (R) and biovolume (B) are standardized to equivalent carbon units, the R/B ratio was a power function of mean organism size, with an exponent of –0.30. These results provide empirical support for the contention that size distributions may be used to construct comprehensive models of community physiology. The total epilimnetic phosphorus concentration was correlated with both the biovolume and respiration rate of the plankton community, as well as with the respiration rates of the three plankton size classes; so these aspects of community function may also be predictable functions of lake trophic state.     

Determination and evaluation of the sequence and textural effects of the puroindoline a and puroindoline b genes in a population of synthetic hexaploid wheat

Aegilops tauschii (2n=2 x=14, DD) is a rich source of genetic variability for hexaploid wheat (Triticum aestivum, 2n=6 x=42, AABBDD) improvement. This variability can be accessed through utilizing synthetic hexaploid wheat lines, which contain genomes from Ae. tauschii and T. turgidum (2n=4 x=28, AABB). Numerous desirable characteristics can and have been introgressed into common hexaploid wheat with this germplasm. In this work, the genetic variability in the two puroindoline genes (a and b) contained on the D genome, and the relationship that sequence polymorphisms in these genes have on endosperm texture among a population of 75 CIMMYT synthetic hexaploid accessions is described. Kernel texture was evaluated using the single kernel characterization system (SKCS). Kernel texture differed significantly (P0.0001) among the synthetic hexaploid accessions (range 2.6–40.9) and the parent types, durum or Ae. tauschii. The interaction term between parent types was also a significant effect (P0.0001). In addition to the wild-type protein sequences of the puroindoline genes (those present in Chinese Spring and all other soft wheats), three other translated sequences were identified in puroindoline a and two others in puroindoline b. These protein sequences were associated with significantly (P0.0001) softer endosperm textures than the wild-type protein sequences. As the softer alleles are expressed in a hexaploid background, they are immediately available to wheat breeding programs.     

State of water in extremely halophilic bacteria: Freezing transitions ofHalobacterium halobium observed by differential scanning calorimetry

Summary The apparent latent heat of fusion (H) of thick pastes ofHalobacterium halobium was determined by differential scanning calorimetry and compared with values obtained for a control paste of identical composition but containing bacteria already lysed by freezing and thawing. The rationale of the experiment was that, if there were any physico-chemical abnormality in the state of intracellular water or K⁺, it might be reflected in the freezing behavior of the two types of preparation. Differences were observed, the paste of whole cells consistently giving higher values of H than the lysed bacteria. Furthermore, the differences between the two types of preparation increased with the age of the culture. Scans of whole-cell pastes apparently distinguished between intra- and extracellular water and enabled H to be calculated for those two aqueous compartments. Supplementary measurements were also made on solutions of NaCl, KCl, and mixtures of the two salts. Sodium chloride lowered H whereas KCl raised it. Differences in H between internal and external solutions and between whole and lysed bacteria could be attributed to the different effects of the two salts on freezing behavior. Changing values of H with the age of a culture correlated with changing ratios of K⁺/Na⁺ in the bacteria. It is concluded that there is no evidence at this level of any physicochemical abnormality in the halobacterial cytoplasm and no reason for supposing that retention of KCl by these bacteria is achieved by any agency other than the plasma membrane.     

Zinc-phosphorus interactions in two cultivars of tomato (Lycopersicon esculentum L.) grown in chelator-buffered nutrient solutions

Zinc-phosphorus interactions have been frequently studied using a diverse number of crop species, but attainment of reproducible Zn deficiencies, especially severe ones, has been hampered by the use of conventional hydroponic solutions wherein contaminating levels of Zn are often near-adequate for normal growth. We utilized novel, chelator-buffered nutrient solutions for precise imposition of Zn deficiencies. Tomato (Lycopersicon esculentum L. cv. Jackpot or Celebrity) seedlings were grown for 15 to 18 d in nutrient solutions containing 200, 600, or 1200 M P, and 0 to 91 M total Zn. Computed free Zn²⁺ activities were buffered at 10^-10.3 M by inclusion of a 100-M excess (above the sum of the micronutrient metal concentrations) of the chelator DTPA. At total added Zn=0, acute Zn deficiency resulted in zero growth after seedling transfer, and plant death prior to termination. Free Zn²⁺ activities 10^-10.6 M resulted in Zn deficiencies ranging from mild to severe, but activities 10^-11.2 were required to cause hyperaccumulation of shoot P to potentially toxic levels. Despite severe Zn deficiency (i.e. ca. 20% of control growth), tissue Zn levels were usually much higher than the widely reported critical value of 20 mg kg^-1, which may be an artifact of the selection of DTPA for buffering free Zn²⁺. Across Zn treatments, increasing solution P depressed growth slightly, especially in Celebrity, but corresponding increases in tissue P (indicative of enhanced P toxicity) or decreases in tissue Zn (P-induced Zn deficiency) were not observed. The depressive effect of P was also not explained by reductions in the water-soluble Zn fraction. Within 40 h, restoration of Zn supply did not ameliorate high leakage rates (as measured by K⁺ efflux) of Zn-deficient roots. Similarly, transfer of Zn-sufficient plants to deficient solutions did not induce leakiness within 40 h. Foliar sprays of ZnSO₄ almost completely corrected both Zn deficiency and membrane leakiness of plants grown in low-Zn solutions. Hence, maintenance of root membrane integrity appears to depend on the overall Zn nutritional status of the plant, and not on the presence of certain free Zn²⁺ levels in the root apoplasm.     

Cytokine production in whole blood cell cultures of patients undergoing therapy with biological response modifiers or 5-fluorouracil

We have measured the levels of interferon (IFN), tumor necrosis factor (TNF), interleukin-1 (IL-1), IL-1, and IL-2 in the whole blood cell culture supernatants of 43 tumor patients undergoing a treatment with biological response modifiers or a conventional therapy with 5-fluorouracil and leucovorin. In the blood cell cultures of the 16 patients who received 5-fluorouracil and leucovorin IFN levels decreased (P0.01) and TNF levels rose (P0.05) during each therapy cycle. However, in the blood samples a declining number of total leukocytes and lymphocytes was measured (P0.05). Progressive disease could be correlated to a tendency towards lower IFN levels in the pretherapeutic cultures of these patients. The second group analyzed consisted of 8 patients receiving a low-dose IL-1 therapy. In this group we found either an unchanged or an augmented IFN production of the blood cells during treatment. In the group of 13 patients receiving low-dose recombinant IL-2 (4.5×10⁶IU m^–2 day^–1) significantly increasing IFN levels were seen in the blood cell cultures during the therapy (P0.05), although total leukocyte counts decreased. In this group, 4 had stable disease for at least 2 months and 9 patients had tumor progression under therapy. In the cultures of the latter a tendency towards lower IFN values was found. Finally, the cytokine production in the blood cell cultures of 6 patients receiving a combination therapy of IFN and high-dose IL-2 was studied. During this therapy a dramatically reduced production not only of IFN but also of all other measured cytokines was found. In this group all patients had tumor progression under therapy. It is concluded that the measurements of cytokine production in a reproducible whole blood culture system may be useful for monitoring immunological therapies and may help us to find out which doses of biological response modifiers have enhancing or suppressive effects on the functions of the immune cells.     

Exploration and exploitation of soil by apple,kiwifruit, peach,Asian pear and grape roots

Measurements of root-length density (RLD) in a range of 31 apple, kiwifruit, peach, Asian pear and grape orchards were used to derive indices to describe the exploration and exploitation of rooting volumes. Orchards were of various ages and located on a range of soil types, geographic regions, management systems etc. Data were obtained from core samples of volume 1.66×10^-4 m³ randomly taken within a standard volume, determined by average planting grids, of 2 m radius centred on tree stems, and 1 m depth. Root systems were described using an exploitation index, E(), and an exploration index, E(0). E() is defined as the proportion of the soil volume which contains roots at RLD greater than or equal to some specified value, . E(0) is defined as the proportion of the soil volume which contains roots at any RLD greater than zero. These indices are dependent on sample size, as are all volumetric or soil-coring data.Estimates of E(0) for each orchard were obtained as the proportions of cores containing any RLD>O and assessed for dependence on species. Peach trees had a significantly higher value of E(0), equal to almost 1.0, compared to the other four species where E(0) was approximately 0.8 (p0.01) or less. There was also some variation with age. E(0) was lower for very young plants which had not fully occupied the sampled soil volume. Exploration indices for woody roots increased with rootstock age but otherwise did not explain large differences in E() between species for given values.For example at =0.05×10⁴ m.m^-3, E() was approximately 0.45 for peach and kiwifruit, and 0.05 for apple, Asian pear and grape, whereas at =0.5×10⁴ m.m^-3 the corresponding values were 0.1 and almost zero. Negative exponential curves relating E(), scaled by dividing by E(0), to were fitted for each of the 31 orchards. Exponents for these curves, k, were significantly smaller for kiwifruit and peaches than apples, grapes and Asian pears (p0.05), and smaller for apples than grapes and Asian pears (p0.05). A larger k implies a rapid fall-off in E() as increases. Although all five species contained zero and low RLD samples, only kiwifruit and peaches contained higher RLD values and consequently have higher mean RLD. This trend was consistent across all soils, regions, sampling dates, and plant ages.The analyses demonstrate that core sampling can give useful insights into macro-scale root-system distribution, such as the proportion of a soil volume explored and how it is exploited. If positions of core samples are noted during sampling using angular direction, depth and radial distance as spatial coordinates the method can be used to describe root-system structures.     

Energy conservation in the extreme thermophile Thermus thermophilus HB8

Whole cells of the extreme thermophile Thermus thermophilus HB8 contained a membrane-bound respiratory chain (comprised of nicotinamide nucleotide transhydrogenase, NADH dehydrogenase, menaquinone, and cytochromes b, c, aa₃, o), which exhibited a maximumH⁺/O quotient of approximately 8 g-ion H⁺·g-atom O^-1 for the oxidation of endogenous substrates. Whole cell respiration at 70° at the expense of endogenous substrates or ascorbate-TMPD generated a transmembrane protonmotive force (p) of up to 197 mV and an intracellular phosphorylation poteintial (Gp), measured under similar conditions, of approximately 43.9 kJ·mol^-1.The measured Gp/p ratio thus indicated anH⁺/ATP quotient of approximately 2.3 g-ion H⁺·mole ATP^-1. Glucose-limited continuous cultures of T. thermophilus at 60°, 70° and 78.5° exhibited extremely low moler growth yields (Y _O2 ^max 27.6 g cells·mol O ₂ ^-1 ; Y _glucose ^max 64.4 g cells ·mol glucose^-1) compared with mesophilic bacteria of similar respiratory chain composition and proton translocation efficiency. These low yields are probably at least partly explained by the extremely high permeability of the cytoplasmic membrane to H⁺, which thus causes the cells to respire rapidly in order to maintain the protonmotive force at a level commensurate with cell growth.Abbreviations TPMP⁺ triphenylmethylphosphonium cation - FCCP carbonylcyanide p-trifluoromethoxy phenythydrazone - TMPD N,N,N,N-tetramethyl-p-phenylene diamine