Regulation of Functional Activity of Adenylyl Cyclase Signal System by Synthetic Coil-Forming Peptides in Mouse Fibroblast Culture of Line L (ISM Subline)

The signal transduction process via adenylyl cyclase system (ACS) requires coordinated functioning of signal proteins—components of ACS. It is suggested that functional coupling between them, together with other molecular mechanisms, is based on coiled-coil interactions. To study role of these interactions in functioning of ACS, we synthesized cationic coiled-forming peptides with a regular structure Ac–Ala–His– (Ala)₂–His–Ala–NH₂ (I), Ac–Ala–His–(Ala)₃–His– (Ala)₂–His–Ala–NH₂ (II), and Ac–(Pro(₂–His– (Ala)₂–His– (Ala)₂–His– (Ala)₂–His–Ala–NH₂ (III). Using circular dichroism (CD) spectroscopy, a portion of -helix conformation in their secondary structure was determined, and effects of these peptides on basal adenylyl cyclase (AC) activity as well as on the activity stimulated by non-hormonal (NaF and Gpp[NH]p) and hormonal (serotonin) agents was studied in homogenate of mouse fibroblasts, line L (subline LSM). The synthetic peptides were shown to inhibit in a dose-dependent manner both basal and induced AC activity, which indicates their uncoupling action on ACS. The biological effect of these peptides correlated with their length (I < II < III), but not with coiled-coil structure, which was 20, 7, and 21%, respectively, according to data of circular dichroism spectroscopy in 3-fluoroethanol. However, there are reasons to believe that the coiled-coil structure of peptides, first place extended ones, increases at interaction with plasma membrane and signal proteins, which affects the degree of their effect on functional ACS activity. At micromolar concentrations, peptides II and III were established to markedly stimulate the basal AC activity, thereby mimicking G-protein-binding sites of cytoplasmic receptor loops. The data obtained indicate participation of the coiled-coil interactions in functional coupling of ACS components, and the methodology itself of the use of model peptides with different coiled-coil structure and distribution of charged amino acids is an efficient approach for studying molecular bases for functioning of signal systems.     

Glycolate photoproduction by free and alginate-entrapped cells of Chlamydomonas reinhardtii

Summary Chlamydomonas reinhardtii cells provide an effective system for glycolate photoproduction, operative during 30 h when they are growing under low CO₂, in the presence of 1 mM aminooxyacetate and 50 M acetazolamide. Glycolate excretion by the cells can proceed for about 4 days if every other 12 h a high CO₂ level is restored in the culture in the absence of inhibitors. The immobilized system in alginate beads has about a twofold higher glycolate photoproduction rate (23 mol·mg chlorophyll (Chl)^–1·h^–1) than free-living cells (12 mol · mg Chl^–1 · h^–1). Offprint requests to: C. Vílchez     

pH Modulation of the kinetics of rabbit jejunal,brush-border folate transport

Summary In jejunal brush-border membrane vesicles, an out-wardly directed OH^– gradient (in>out) stimulates DIDS-sensitive, saturable folate (F) uptake (Schron, C.M., 1985).J. Clin. Invest. 76:2030–2033), suggesting carrier-mediated folate: OH^– exchange (or phenomenologically indistiguishable H⁺: folate cotransport). In the present study, the precise role of pH in the transport process was elucidated by examinin F uptake at varying pH. For pH gradients of identical magnitude, F uptake (0.1 M) was geater at lower (pH_int/pH_ext:5.5/4.5) compared with higher (6.5/5.5) pH ranges. In the absence of a pH gradient, internal Ftrans stimulated DIDS-sensitive³H-folate uptake only at pH6.0. Since setepwise increments ininternal pH (4.57.5; pH_ext=4.5) stimulated F uptake, an inhibitory effect of higherinternal pH was excluded. In contrast, with increasing external pH(4.356.5; pH_int=7.8), a 50-fold decrement in F uptake was observed (H⁺ K _m =12.8±1.2m). Hill plots of these data suggest involvement of at least one H⁺ (OH^–) at high pH (divalent F^–2 predominates). Since an inside-negative electrical potential did not affect F uptake at either pH_ext 4.55 or 5.8, transport of F^– and F^–2 is electroneutral. Kinetic parameters for F^– and F^–2 were calculated from uptake data at pH_ext 4.55 and 5.0. Comparision of predictedvs. experimentally determined kinetic parameters at pH_ext 5.8 (K _m =1.33vs. 1.70 m;V _max=12.8vs. 58.0 pmol/mg prot min) suggest that increasing external pH lowers theV _max, but does not affect thatK _m, for carrier-mediated F transport. These data are consistent with similarK _i's for sulfasalazine (competitive inhibitor) at pH_ext 5.35 and 5.8 (64.7 and 58.5 m, respectively). In summary, the jejunal F carrier mediates electroneutral transport of mono- and divalen F and is sensitive to extermal pH with a H⁺ K _m (or OH^– IC₅₀) corresponding to pH 4.89. External pH affects theV _max, but not theK _m for carriermediated F uptake suggesting a reaction mechanism involving a ternary complex between the outward-facing conformation of the carrier and the transported ions (F and either OH^– or H⁺) rather than competitive binding that is mutually exclusive.     

Effects of light on nitrate-limited Oscillatoria agardhii in chemostat cultures

The effects of the average light irradiance (I) on growth and nitrate uptake kinetics of the cyanobacterium Oscillatoria agardhii, in nitrate-limited chemostat cultures, were studied. Light was nonsaturating for I <9.4 Wm^–2, for all growth rates () studied. However, was throughout limited by the availability of nitrate. Under light-saturating conditions the kinetics of nitrate-limited growth could be adequately described by both the Monod and Droop equations. Under light-non-saturating conditions the internal nitrogen content (Q) was a function of both and I, for which new formulas were derived. The high uptake capacity (V _max) of nitrate-limited cells was independent of , but was significantly increased for cells growing at I <9.4 Wm^–2. The half-saturation constant for nitrate uptake (K _s ^u ) increased with increasing , but was independent of the prevailing light conditions. The effects of light during nitrate-limited growth were associated with the regulation in the nitrogen-containing pigments.The results reported herein have important consequences for the use of Q, K _s ^u and V _max values as indicators of nutrient-deficiency of natural populations.     

Adenylyl Cyclase Signaling Mechanism of Relaxin Action

In connection with our discovery of the adenylyl cyclase signaling mechanism (ACSM) of action of some peptides belonging to the insulin superfamily, a possibility of its involvement in action of another insulin superfamily peptide, relaxin, was studied. It was shown for the first time that human relaxin-2 (10^–12–10^–8 M) activated adenylyl cyclase (AC) in a dose-dependent manner. The maximal peptide effect was revealed at a concentration of 10^–8 M. Under condition of the hormonal action the basal enzyme activity increased by +310% in human myometrium, by +117%, in rat skeletal muscles, and by +49%, in foot smooth muscles of the bivalve mollusc Anodonta cygnea. Insulin and mammalian insulin-like growth factor-I (IGF-I) also produced the AC activating effect in these muscles. The order of efficiency of these peptides, based on their ability to induce the maximal AC stimulating effect, was as follows: relaxin > IGF-I > insulin (human myometrium); IGF-I > relaxin > insulin (rat skeletal muscle); insulin-like peptide of Anodonta (ILPA) > IGF-I > insulin > relaxin (molluscan muscle). The relaxin activating effect on AC was potentiated by a guanine nucleotide, the non-hydrolyzed analog of GTP, guanylylimidodiphosphate (Gpp[NH]p), which indicates participation of G_s-protein in realization of this effect. This effect was inhibited by a tyrosine kinase selective blocker, tyrphostin 47, and a phosphatidylinositol-3-kinase (PI-3-K) selective blocker, wortmannin. Thus, for the first time, participation of ACSM in the relaxin action has been established. This mechanism, as suggested at the present time state of its study, includes the following signal pathway: receptor-tyrosine kinase PI-3-K G_s-protein AC.     

Synthetic model and bioactive peptides as potential substrates for enteropeptidase

Enteropeptidase (enterokinase EC 3.4.21.9), catalyzing trypsinogen activation, exhibits unique properties for high efficiency hydrolysis of the polypeptide chain after the N-terminal tetraaspartyl-lysyl sequence. This makes it a convenient tool for the processing of fusion proteins containing this sequence. We found the enteropeptidase-catalysing degradation of some bioactive peptides: cattle hemoglobin beta-chain fragments Hb (2–8) (LTAEEKA) and Hb (1–9) (MLTAEEKAA), human angiotensin II (DRVYIHPF) (AT). Model peptideswith truncated linker WDDRG and WDDKG also were shown to be susceptible to enteropeptidase action. Kinetic parameters ofenteropeptidase hydrolysis for these substrates were determined.K _m values for all substrates with truncated linker (10^-3 M) are an order of magnitude higher thancorresponding values for typical enteropeptidase artificial peptide or fusion protein substrates with full enteropeptidase linker –DDDDK– (K _m 10^-4 M). k _cat values for AT, Hb (2–8), WDDRG and WDDKG are 30–40 min^-1. But one additional amino acid residue at both N- and C-terminus of Hb (2–8) results in a drastic increase of hydrolysis efficiency: k _cat value for Hb (1–9) is 1510 min^-1. Recent study demonstrates the possibility of undesirable cleavage of target peptides or proteins containing the above-mentioned truncated linker sequences; further, the ability of enteropeptidase to hydrolyse specifically several biologically active peptides in vitro along with its unique natural substrate trypsinogen was demonstrated.     

The substrate specificity of phosphoinositide phospholipase C in rat heart sarcolemma

In rat cardiac sarcolemmal membranes a phosphoinositide-specific phospholipase C (PLC) was found to be present. The enzyme hydrolysed exogenous [³H-]phosphatidylinositol 4,5-biphosphate ([³H-]PtdIns(4,5)P ₂) in an optimized assay mixture containing 15 leg SL protein, 100 mM NaCl, 1 mM free Ca²⁺,14 mM Na-cholate and 20 AM [³H-]PtdIns (4,5)P ₂ (400–500 dpm/gm-l) in 30 mM HEPES-Tris buffer (pH 7.0). The average specific activity was 9.14±0.55 nmol-mg^–1·2.5 min^–1. The addition of Mg²⁺ to the assay mixture did not change PLC activity but increased the relative amounts of dephosphorylated inositol products. In the absence of Na⁺ and at a low Ca²⁺ concentration (0.3 M), Mg²⁺ also enhanced the intraSL levels of PtdIns4P and PtdIns, and, moreover, inhibited PLC activity (IC₅₀0.07 mM). PtdIns4P seemd to be a good substrate for the rat SL PLC (23.07 ± 1.57 nmol·mg^–1·2.5 min^–1) whereas PtdIns was hydrolysed at a very low rate (0.36 ± 0.08 nmol·mg^–1·2.5 min^–1). Unlike PtdIns(4,5)P ₂, PLC-dependent PtdIns4P and PtdIns hydrolysis was not inhibited by Ca²⁺ concentrations over 1 mM. The possibility of distinct isozymes being responsible for the different hydrolytic activities is discussed. (Mol Cell Biochem116: 27–31, 1992).Abbreviations DAG sn-1,2-diacylglycerol - EGTA ethyleneglycol-O,O-bis(aminoethyl)-N,N,N,N,-tetraacetic acid - Ins(1,4,5)P ₃ inositol 1,4,5-trisphosphate - InsP inositol monophosphate (unidentified isomer) - InsP ₂ inositol bisphosphate (unidentified isomer) - InsP ₃ inositol trisphosphate (unidentified isomer) - InsP _x any inositol phosphate - PLC phospholipase C - PtdIns phosphatidylinositol - PtdIns(4,5)P ₂ phosphatidylinositol 4,5-bisphosphate - PtdIns4P phosphatidylinositol 4-monophosphate - SL sarcolemma     

Skin graft rejection in mice repopulated with marrow of the skin donor type: A SKn gene in a congenic line

Genetically anemic W/W ^c mice and lethally irradiated wild-type mice were cured and populated by grafted marrow cells from donor mice of three congenic lines that differed at non-H-2 histocompatibility loci. Tail skin from mice of the same congenic lines was grafted 3–4 weeks later. In two cases, the recipients behaved as expected, no longer rejecting skin syngeneic with the marrow graft that had repopulated them. However, B6-H-24 ^c skin was rejected by WBB6F₁-W/W mice that were cured with B6-H-24 ^c marrow showing a mean survival time of 9.9 weeks. It was rejected somewhat faster, with a mean survival time of 5.9 weeks, by W/W mice cured with marrow from other types of donors. Results were more variable in lethally irradiated WBB6F₁-+/+ recipients of B6-H-24 ^c marrow, but they also rejected B6-H-24 ^c skin. Both types of recipients remained chimeras after the skin was rejected, showing more than 90% of the B6-H-24 ^c hemoglobin type. This is the first report of a Skn gene in a congenic line.     

Synthesis, conformational and pharmacological studies on dermorphin N-terminal tetrapeptide analogues

Dermorphin structure–activity relationships toward and opioid receptors were investigated using a series of synthetic peptides, in which the aromatic residues at positions 1 or/and 3 of the N-terminal tetrapeptide analogue H-Tyr-d-Arg-Phe--Ala-NH₂ were replaced by unnatural or constrained amino acids.     

Incorporation of 3H-oleic acid by the proximal convoluted tubule cells of the chick (Gallus domesticus)

Summary Lipid metabolism in the cells of the renal proximal convoluted tubules (PCT) was investigated in healthy fowls and in fowls with the Fatty Liver and Kidney Syndrome (FLKS). The tissue was fixed at 10–25 min intervals after intravenous injection of ³H-oleic acid. The distribution of autoradiographic grains was analysed by the circle method. In normal cells most of the silver grains were associated with the cytoplasmic organelles. Lipid droplets and Golgi elements had the highest specific activity relative to the nuclear activity, which was little above background level. Lysosome-like bodies and mitochondria had lower values. In the cells of the FLKS-affected birds a large proportion of the grains was located over the lipid droplets, which are abundant in this condition. The specific activity of the cytoplasmic organelles was barely 2-fold higher than the nuclear activity. The results suggest that there is a diminished incorporation of esterified fatty acids by the organelles of these cells and that the excess is transferred to the lipid droplets. The identity of low electron density particles observed in the PCT cells of severely affected birds is discussed.     

Cardiovascular and respiratory physiology of tuna: adaptations for support of exceptionally high metabolic rates

Synopsis Both physical and physiological modifications to the oxygen transport system promote high metabolic performance of tuna. The large surface area of the gills and thin blood-water barrier means that O₂ utilization is high (30–50%) even when ram ventilation approaches 101 min^–1kg^–1. The heart is extremely large and generates peak blood pressures in the range of 70–100 mmHg at frequencies of 1–5 Hz. The blood O₂ capacity approaches 16 ml dl^–1 and a large Bohr coefficient (–0.83 to –1.17) ensures adequate loading and unloading of O₂ from the well buffered blood (20.9 slykes). Tuna muscles have aerobic oxidation rates that are 3–5 times higher than in other teleosts and extremely high glycolytic capacity (150 mol g^–1 lactate generated) due to enhanced concentration of glycolytic enzymes. Gill resistance in tuna is high and may be more than 50% of total peripheral resistance so that dorsal aortic pressure is similar to that in other active fishes such as salmon or trout. An O₂ delivery/demand model predicts the maximum sustained swimming speed of small yellowfin and skipjack tuna is 5.6 BL s^–1 and 3.5 BL sec^–1, respectively. The surplus O₂ delivery capacity at lower swimming speeds allows tuna to repay large oxygen debts while swimming at 2–2.5 BL s^–1. Maximum oxygen consumption (7–9 × above the standard metabolic rate) at maximum exercise is provided by approximately 2 × increases in each of heart rate, stroke volume, and arterial-venous O₂ content difference.Paper from International Union of Biological Societies symposium The biology of tunas and billfishes: an examination of life on the knife edge, organized by Richard W. Brill and Kim N. Holland.     

Interspecific effects of grey squirrels (Sciurus carolinensis) on the space use and population demography of red squirrels (Sciurus vulgaris) in conifer plantations

Interspecific competition between red squirrels and grey squirrels was investigated by comparing the population demography, spacing behavior and habitat use of red squirrels in two large conifer plantations in northern England: one site had only red squirrels (the red-only site), in the other both red and grey squirrels occurred (the red–grey site). Despite more abundant food at the red–grey site, red squirrel densities (0.26 ha^–1 at the red–grey site, 0.29 ha^–1 at the red-only site), adult survival rates and the breeding rates of females were similar at both study sites. Grey squirrels at the red–grey site occurred at higher densities (0.92–1.1 ha^–1) than did the reds and tended to have higher breeding rates. In the presence of grey squirrels, the recruitment pattern of red squirrels changed and there was little recruitment of subadults. The juvenile recruitment rate in the red–grey site (13%) was much lower than in the red-only site (50%). Grey squirrels, in contrast, had higher juvenile recruitment rates at the red–grey site (41%). The core areas of the home ranges of red squirrels in the red–grey site were more strongly overlapped by grey squirrels than by conspecifics. Red squirrels did not select the habitat with the best tree seed crop (Scots pine) but preferred dense Sitka spruce plantations; they appeared to avoid the Scots pine area with its high grey squirrel density. Data on foot length and body condition indicated decreased body growth in young red squirrels when grey squirrels were present. Our data suggest that adult red squirrels suffered little from interspecific competition with grey squirrels and that the key factor is decreased juvenile recruitment in red squirrels.     

Studies on adenosine triphosphate transphosphorylases. XVIII. Synthesis and preparation of peptides and peptide fragments of rabbit muscle ATP-AMP transphosphorylase (adenylate kinase) and their nucleotide-binding properties

Two peptide fragments, derived from the head and tail of rabbit muscle myokinase, were found to possess remarkable and specific ligand-binding properties (Hamadaet al., 1979).By initiating systematic syntheses and measurements of equilibrium substrate-binding properties of these two sets of peptides, or portions thereof, which encompass the binding sites for (a) the magnesium complexes of the nucleotide substrates (MgATP^2– and MgADP^–) and (b) the uncomplexed nucleotide substrates (ADP^3– and AMP^2–) of rabbit muscle myokinase, some of the requirements for binding of the substrates to ATP-AMP transphosphorylase are being deduced and chemically outlined. One requirement for tight nucleotide binding appears to be a minimum peptide length of 15–25 residues. In addition, Lys-172 and/or Lys-194 may be involved in the binding of AMP.The syntheses are described as a set of peptides corresponding to residues 31–45, 20–45, 5–45, and 1–45, and a set of peptides corresponding to residues 178–192, 178–194, and 172–194 of rabbit muscle adenylate kinase. The ligand-binding properties of the first set of synthetic peptides to the fluorescent ligands: MgATP/ATP and MgADP/ADP are quantitatively presented in terms of their intrinsic dissociation constants (K_d) and values ofN (maximal number of moles bound per mole of peptide); and compared with the peptide fragment MT-I (1–44) obtained from rabbit muscle myokinase (Kubyet al., 1984) and with the native enzyme (Hamadaet al., 1979). In addition, the values ofN andK_d are given for the second set of synthetic peptides to the fluorescent ligands AMP and ADP as well as for the peptide fragments MT-XII(172–194) and CB-VI(126–194) (Kuby et al., 1984) and, in turn, compared with the native enzyme.A few miscellaneous dissociation constants which had been derived kinetically are also given for comparison (e.g., theK _i for AMP and the value of obtained for the native enzyme) (Hamada and Kuby, 1978), and theK'_d measured for Cr³⁺ and the synthetic peptide I_1–45 (Fryet al., 1985b).Paper XVII of this series is Kubyet al. (1983).     

Weitere Untersuchungen zur phytochrominduzierten Akkumulation von Ascorbinsäure beim Senfkeimling (Sinapis alba L.)

Summary The accumulation of ascorbic acid (AS) in the young mustard seedling is greatly increased by the action of the active form of phytochrome (P₇₃₀) (see Schopfer, 1966). There is no photosynthesis in continuous far-red light, which was used throughout the experiments. The phytochrome-mediated increase in AS approximately parallels the synthesis of anthocyanin in the seedling, although the onset of AS-accumulation precedes the anthocyanin synthesis by 2–3 hours (Fig. 4 and 5).—The action of P₇₃₀ increases the amount of AS in every part of the seedling (cotyledons, hypocotyl, radicula) (Fig. 1–3). This increase in AS parallels the formation of P₇₃₀ rather than the different growth responses of these organs (enlargement of the cotyledons, inhibition of hypocotyl and radicula lengthening). The lag in AS-accumulation after onset of far-red irradiation is the same in all 3 parts of the seedling (about 1 hour under the experimental conditions; Fig. 4).—Actinomycin D (10 g/ml), which strongly inhibits anthocyanin synthesis (Fig. 9 and 10), has no corresponding effect on P₇₃₀-dependent increase in AS-accumulation (Fig. 7 and 8). This result support the hypothesis that already active genes are only slightly influenced by actinomycin D (see Lange and Mohr, 1965). It also shows that, in contrast to its role in anthocyanin synthesis, P₇₃₀ probably does not act by initiating potentially active genes in the case of AS-accumulation. — A dark synthesis of anthocyanin in the cotyledons can be obtained by application of AS to the seedlings (Fig. 11). Glucose and sucrose are ineffective in this respect (Table 2). The effect of AS-feeding on anthocyanin synthesis can be inhibited by actinomycin D in very much the same way as light induced anthocyanin synthesis is inhibited (Table 3). — Also the RNA content of the cotyledons is increased by feeding AS in the dark (Table 4).These results are in line with the earlier suggested hypothesis (see Schopfer, 1966) that increase in AS-accumulation is a very early event in the mediation of some positive photoresponses, e.g. anthocyanin synthesis. According to the hypothesis of Mohr (1966 a, b) it has been concluded that AS functions as a part of the signal chain of phytochrome-mediated photomorphogenesis. This signal chain is thought to start differential gene activation to bring about positive photoresponses.     

Hydroxylation of 10-deoxoartemisinin to 15-hydroxy-10-deoxoartemisinin by Aspergillus niger

The microbial hydroxylation of 10-deoxoartemisinin was investigated with the aim of obtaining preparative yields of hydroxy derivatives. During 14 d at 28°C and pH 6.5 Aspergillus niger transformed 10-deoxoartemisinin (500 mg l^–1) to 15-hydroxy-10-deoxoartemisinin (26%) and 7-hydroxy-10-deoxoartemisinin (69%).     

Coxsackievirus B3 entry into the host cell interferes with G-protein-mediated transmembrane signalling

In the present work we used various cell lines in order to study the possible effect of coxsackievirus B3 (CVB3) entry on the adenylyl cyclase transmembrane signalling system. A significant decrease (by about 10–20%) was found in forskolin-augmented as well as in AlF ₄ ^– - and GTPS-sensitive adenylyl cyclase activity in plasma membranes isolated from HeLa, HEp-2, Vero and green monkey kidney cells shortly (up to 60 min) preincubated with CVB3 (5 PFU/cell). Moreover, the ability of G-proteins derived from plasma membranes of infected cells to reconstitute AC activity in the cyc^– mutant of S49 cells was also reduced. Content of G-protein subunits, however, remained unchanged after CVB3 attachment. Functional alterations in the G-protein-mediated adenylyl cyclase signalling system were accompanied by a marked decrease (by about 20–40%) of intracellular cAMP levels in virus-affected cells. These findings demonstrate clearly that CVB3 may affect functioning of the G-protein regulated adenylyl cyclase transmembrane signalling system in virus-sensitive cells as early as during the first period of its contact with the cellular plasma membrane.     

Recruitment preferences of blue mussel spat (Mytilus edulis) for different substrata and microhabitats in the White Sea (Russia)

We adapted the chloroform fumigation method to determine microbial nitrogen (N) and microbial incorporation of ¹⁵N on three common substrates [leaves, wood and fine benthic organic matter (FBOM)] in three forest streams. We compared microbial N and ¹⁵N content of samples collected during a 6-week ¹⁵N–NH₄ tracer addition in each stream. The ¹⁵N was added during late autumn to Upper Ball Creek, a second-order stream at the Coweeta Hydrologic Lab, North Carolina, U.S.A.; during spring to Walker Branch, a first-order stream on DOE's Oak Ridge National Environmental Research Park, Tennessee; and during summer to Bear Brook, a first-order stream in the Hubbard Brook Experimental Forest, New Hampshire. FBOM was the largest component of organic matter and N standing stock in all streams. Microbial N represented the highest proportion of total N in leaves and least in FBOM in Walker Branch and Bear Brook. In Upper Ball Creek, the proportion of microbial N was higher in FBOM than in used biofilm or on leaves. Standing stock of microbial N on leaves and in FBOM ranged from 37 mg N m^–2 in Bear Brook to 301 mg N m^–2 in Walker Branch. Percent of detrital N in living microbial cells was directly related to total microbial biomass (fungal and bacterial biomass) determined from microscopic counts. ¹⁵N values for microbes were generally higher than for bulk detritus, which would result in higher ¹⁵N values for animals preferentially consuming or assimilating microbial cells. The proportion of ¹⁵N taken up by detritus during the ¹⁵N experiments that remained in microbial cells by the end of the experiments was highest for wood biofilm in Upper Ball Creek (69%), leaves in Walker Branch (65%) and FBOM in Upper Ball Creek (31%). Lower retention proportions (<1–25%) were observed for other substrates. Our results suggest that microbial cells associated with leaves and wood biofilm were most active in ¹⁵N–NH₄ immobilization, whereas microbial cells associated with FBOM immobilized little ¹⁵N from stream water.     

Application of N-15 dilution for simultaneous estimation of nitrification and nitrate reduction in soil-water columns

Nitrification and denitrification rates were estimated simultaneously in soil-floodwater columns of a Crowley silt loam (Typic Albaqualfs) rice soil by an¹⁵N isotopic dilution technique. Labeled NO ₃ ^– was added to the floodwater of soil-water columns, half were treated with urea fertilizer. The (NO ₃ ^– +NO ₂ ^– )–N and (NO ₃ ^– +NO ₂ ^– )–N concentrations in the floodwater were measured over time and production and reduction rates for NO ₃ ^– calculated. Nitrate reduction in the urea amended columns averaged 515 mol N m^–2h^–1 and nitrification averaged 395 mol N m^–2h^–1 over the 35–153 d incubation. The nitrification rate for 4–19 d sampling period (1,560 mol N m^–2h^–1) in the urea amended columns was almost 9 times greater than the reduction rate (175 mol N m^–2h^–1) over the same period. Without the addition of urea the NO ₃ ^– production rate averaged 32 mol N m^–2h^–1 and reduction 101 mol N m^–2h^–1.     

A heme-nonapeptide tracer for electron microscopy

Summary A heme-nonapeptide (H-9-P)¹, applicable to electron microscopic cytochemistry via peroxidase-like activity, was prepared by passing horse heart cytochrome c through a column with Sepharose and covalently attached trypsin. After purification by column chromatography (Sephadex G50 Superfine, Biogel P-2) a maximal yield of 50% and purity of >99% was achieved. A concise schedule allows for inexpensive preparation of H-9-P with standard laboratory equipment. H-9-P has the following properties: Its structure is (14) Cys-Ala-Gln-Cys-His-Thr-Val-Glu-Lys (22) with heme attached to Cys (14) and (17). MW=1630, pI=4.95, _E(max) ^{pH 7} = 397.5 nm, _{22 °C, pH 7} ^{397.5 nm} = 1.11 × 10⁵ [Liter/Mole x cm]. With the use of a diaminobenzidine-H₂O₂-medium — as applied for cytochemistry — we determined spectrophotometrically a pH_opt=12.5 and an apparent K₅ = 3.14 × 10^{– 3} [M]. Glutardialdehyde leads to considerable de-activation and, according to SDS-polyacrylamide-gel-electrophoresis, to diffuse crosslinking accompanied by a shift of the active pH-region towards neutral pH values. An attempt was made to optimize the cytochemical assay. The peroxidase-like activity of H-9-P is well comparable to that of other heme-tracers; only horseradish peroxidase has a higher turnover number. When injected to mice or added to cell suspensions, even high concentrations of H-9-P did not entail any signs of toxicity.Abbreviations AAA amino acid analysis - AHC ammoniumhydrogencarbonate - BSA bovine serum albumin - Cyt c cytochrome c - DAB 5,3-diaminobenzidine - GA glutardialdehyde - H-8-P heme-octapeptide - H-9-P heme-nonapeptide - H-11-P heme-undecapeptide - HR-POX horseradish peroxidase - MW molecular weight - PAGE polyacrylamid-gel-electrophoresis - pI isoelectric point - SDS sodiumdodecylsulphate - SG-TLC silicagel-thin-layer-chromatography This work was supported by the Österreichische Forschungsfonds