UNIPROT:P39060 - FACTA Search

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Query: UNIPROT:P39060 (endostatin)
2,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel protein with ATPase activity was purified from the cytoplasmic extracts of maize pollen by acetone precipitation, ammonium sulfate fractionation, followed by DEAE-Sephadex A(50) and Mono S ion-exchange chromatography. The molecular weight was about 28 kD as determined by SDS-PAGE and the isoelectric point was pH 8.3 by IEF-PAGE. Western blotting analysis showed the 28 kD protein had no specific immuno-reactions with the anti-kinesin monoclonal or the anti-dynamin polyclonal antibodies. The maximum ultraviolet absorbance was at 278 nm, CD spectrum analysis showed the that 28 kD protein with the feature of a globulin. Pharmacological studies indicated that the enzyme activity was strongly inhibited by Na(3)VO(4) but insensitive to NEM. It was inhibited about 50% by NaF. Oligomycin, KNO(3) and ouabain had no effects on its ATPase activity.
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PMID:Purification of the 28 kD Protein from Maize Pollen and Studies on Its Properties. 1223 28

A high-performance liquid chromatographic (HPLC) assay with UV detection has been developed for the quantitative determination of the antiangiogenic agent SU5416 in human plasma. Sample pretreatment involved a single protein-precipitation step with acetonitrile containing the internal standard, chrysin. Separation of the compounds of interest was achieved on a column packed with HP Zorbax C(8) material (5microm particle size; length: 150mm; i.d.: 4.6mm) using a dual solvent system of 0.01M aqueous ammonium acetate and acetonitrile delivered as a nonlinear gradient at a flow-rate of 1.00ml/min. Simultaneous UV detection was performed at 440nm (SU5416) and 268nm (chrysin). The calibration graph was fit to log-transformed response-concentration data over a range of 10-5000ng/ml. Values for accuracy and precision, obtained from six quality controls analyzed on different days in replicates of 3 or 6, ranged 92.9-109 and 0.8-6.2%, respectively. The developed method was successfully applied to study the pharmacokinetics of SU5416 in a cancer patient receiving the drug as a 1h infusion.
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PMID:Determination of SU5416, a novel angiogenesis inhibitor, in human plasma by liquid chromatography. 1511 49

The activities of antioxidant enzymes viz. glutathione reductase, GR; superoxide dismutase, SOD; peroxidase, POD; catalase, CAT and glutathione-S-transferase, GST and alkaloid accumulation were investigated in leaf pairs (apical, middle, basal) and in roots of Catharanthus roseus seedlings under the conditions of different nitrogen sources (20 mM KNO(3) and 2 mM NH(4)Cl) and salinity, in the absence (non-saline control) and in the presence of 100 mM NaCl in the nutrient solution. Salinity caused a reduction in plant biomass. The biomass production of ammonium-fed plants was lower than that of nitrate-fed plants. The antioxidant enzymes exhibited higher activity in saline-treated plants. Changes in antioxidant enzyme activity caused by different nitrogen sources differed in all leaf pairs, as well as in roots of C. roseus. Ammonium-fed plants showed higher CAT, GR and GST activity in leaf pairs as well as in roots, while POD and SOD activity were higher in nitrate-fed plants. Higher peroxidase activity concomitant with the increased accumulation of alkaloid was found in all leaf pairs, as well as in roots of C. roseus of NO(3)(-) fed plants as compared to NH(4)(+) fed plants.
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PMID:Effect of salinity and different nitrogen sources on the activity of antioxidant enzymes and indole alkaloid content in Catharanthus roseus seedlings. 1636 Jul 99

Glutamine synthetase is the key enzyme in the assimilation by plants of reduced nitrogen provided from either the soil or fixed symbiotically in association with Rhizobium. We have isolated a number of cDNA clones for soybean glutamine synthetase (GS) from a nodule-cDNA library, using RNA from polysomes immunoprecipitated by GS antibodies. Transcripts corresponding to two clones differing in their 3' non-translated sequences were present in both root and nodule tissue; however, the concentration in the nodules was several times higher. The relative concentrations of these sequences in both tissues is about 9:1. Availability of ammonium ions [provided as NH(4)NO(3) or (NH(4))(2)SO(4)] enhanced the expression of both sequences in root tissue within 2 h, reaching a level similar to that in nodules by 8 h, while KNO(3) had no effect during this period. When nitrogen fixation was prevented by replacing nitrogen with argon in the root environment or when the nodules were formed by a Fix mutant of Bradyrhizobium japonicum, the amounts of GS mRNA did not increase over that in roots. These experiments, together with the time course of increase in GS mRNA transcripts, suggest that the genes encoding cytosolic GS are directly induced by the available ammonia.
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PMID:Glutamine synthetase genes are regulated by ammonia provided externally or by symbiotic nitrogen fixation. 1645 62

Nutritional and light requirements for growth and synthesis of RNA, DNA, and protein by cotyledons excised from 5-day-old seedlings of Raphanus sativus L. were investigated, and the course of synthesis was followed through the cell cycle. The minimum requirements for a net increase in nucleic acid and protein were sugar, nitrate, and light. The cotyledons used nitrite at low concentration, but not ammonium ion. Light was required for preliminary steps in synthesis of RNA, DNA, and protein, but the actual polymerization reactions occurred in the dark. The cotyledons contained sufficient endogenous growth factors for about half of the cells to complete 1 cycle on a medium of 1% sucrose, 80 mm KNO(3). The increase in DNA was limited to about 50% and was accompanied by a comparable increase in cell number. Fresh weight, RNA, and protein tended to increase in proportion to DNA. Growth of the isolated cotyledons commenced with cell enlargement. RNA began to increase after about 4 hours, DNA after about 12. The major increase in protein also began at about 12 hours. The maximum rate of increase for all 3 occurred between 12 and 16 hours. Cell counts indicated that by 28 hours most of the cells which had replicated DNA had also completed cell division.
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PMID:Growth and synthesis of nucleic Acid and protein by excised radish cotyledons. 1665 1

Root nodule senescence induced by nitrate and ammonium in Pisum sativum L. was defined by determining nitrogenase activity and leghemoglobin content with the acetylene reduction and pyridine hemochrome assays. Root systems supplied with 100 mm KNO(3) or 100 mm NH(4)Cl exhibited a decrease in nitrogenase activity followed by a decline in leghemoglobin content. Increasing the CO(2) concentration from 0.000320 atm to 0.00120 atm had no effect on the time course of root nodule senescence when 20 mm KNO(3) was supplied to the roots; in vitro nitrate reductase activity was detected in leaves and roots, but not bacteroids. Nitrate appeared in leaves, roots, and the nodule cytosol fraction but not bacteroids when 20 mm KNO(3) was supplied to roots. When nitrate entered through the shoots, however, no root nodule senescence was observed, and no nitrate was detected in root or nodule cytosol fractions although nitrate and nitrate reductase were found in leaves. The results suggest that nitrate does not induce root nodule senescence through competition between nitrate reductase and nitrogenase for products of photosynthesis.
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PMID:Induction of Root Nodule Senescence by Combined Nitrogen in Pisum sativum L. 1665 69

A NADH-nitrate reductase inhibitor has been isolated from young soybean (Glycine max L. Merr. Var. Amsoy) leaves that had been in the dark for 54 hours. The presence of the inhibitor was first suggested by the absence of nitrate reductase activity in the homogenate until the inhibitor was removed by diethylaminoethyl (DEAE)-cellulose chromatography. The inhibitor inactivated the enzyme in homogenates of leaves harvested in the light. Nitrate reductases in single whole cells isolated through a sucrose gradient were equally active from leaves grown in light or darkness, but were inhibited by addition of the active inhibitor.The NADH-nitrate reductase inhibitor was purified 2,500-fold to an electrophoretic homogeneous protein by a procedure involving DEAE- cellulose chromatography, Sephadex G-100 filtration, and ammonium sulfate precipitation followed by dialysis. The assay was based on nitrate reductase inhibition. A rapid partial isolation procedure was also developed to separate nitrate reductase from the inhibitor by DEAE-cellulose chromatography and elution with KNO(3). The inhibitor was a heat-labile protein of about 31,000 molecular weight with two identical subunits. After electrophoresis on polyacrylamide gel two adjacent bands of protein were present; an active form and an inactive form that developed on standing. The active factor inhibited leaf NADH-nitrate reductase but not NADPH-nitrate reductase, the bacterial nitrate reductase or other enzymes tested. The site of inhibition was probably at the reduced flavin adenine dinucleotide-NR reaction, since it did not block the partial reaction of NADH-cytochrome c reductase. The inhibitor did not appear to be a protease. Some form of association of the active inhibitor with nitrate reductase was indicated by a change of inhibitor mobility through Sephadex G-75 in the presence of the enzyme. The inhibition of nitrate reductase was noncompetitive with nitrate but caused a decrease in V(max).The isolated inhibitor was inactivated in the light, but after 24 hours in the dark full inhibitory activity returned. Equal amounts of inhibitor were present in leaves harvested from light or darkness, except that the inhibitor was at first inactive when rapidly isolated from leaves in light. Photoinactivation of yellow impure inhibitor required no additional components, but inactivation of the purified colorless inhibitor required the addition of flavin.Preliminary evidence and a procedure are given for partial isolation of a component by DEAE-cellulose chromatography that stimulated nitrate reductase. The data suggest that light-dark changes in nitrate reductase activity are regulated by specific protein inhibitors and stimulators.
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PMID:NADH-Nitrate Reductase Inhibitor from Soybean Leaves. 1666 Apr 85

Experiments were conducted to characterize the distribution of N compounds in the xylem sap of nodulated and nonnodulated soybean plants through development and to determine the effects of exogenous N on the distribution of N compounds in the xylem. Xylem sap was collected from nodulated and nonnodulated greenhouse-grown soybean plants (Glycine max [L.] Merr. "Ransom") from the vegetative phase to the pod-filling phase. The sum of the nitrogen in the amino acid, nitrate, ureide (allantoic acid and allantoin), and ammonium fractions of the sap from both types of plants agreed closely with total N as assayed by a Kjeldahl technique. Sap from nodulated plants supplied with N-free nutrient solution contained seasonal averages of 78 and 20% of the total N as ureide-N and amino acid-N, respectively. Sap from nonnodulated plants supplied with a 20 millimolar KNO(3) nutrient solution contained seasonal averages of 6, 36, and 58% of total N as ureide-N, amino acid-N, and nitrate-N, respectively. Allantoic acid was the predominant ureide in the xylem sap and asparagine was the predominant amino acid. When well nodulated plants were supplied with 20 millimolar KNO(3), beginning at 65 days, C(2)H(2) reduction (N(2) fixation) decreased relative to nontreated plants and there was a concomitant decrease in the ureide content of the sap. A positive correlation (r = 0.89) was found between the ureide levels in xylem sap and nodule dry weights when either exogenous nitrate-N or urea-N was supplied at 10 and 20 millimolar concentrations to inoculated plants. The results demonstrate that ureides play a dominant role in N transport in nodulated soybeans and that the synthesis of ureides is largely dependent upon nodulation and N(2) fixation.
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PMID:Transport of nitrogen in the xylem of soybean plants. 1666 Sep 77

Excised 7-day-old oat (Avena sativa L. cv. Jaycee) leaves were incubated in media containing 7.1 millimolar KNO(3) and 0.15 millimolar tabtoxin or 1 millimolar methionine sulfoximine (MSO) to investigate the sources of the observed ammonium accumulated. Tabtoxin and MSO are known inhibitors of glutamine synthetase, the first enzyme in the primary pathway of ammonium assimilation. During a 4- to 6-hour incubation, there was little net change in protein or total amino acid concentration. Alanine, aspartate/asparagine, and glutamate/glutamine decreased markedly under these treatments, whereas several other amino acids increased. Exogenous (15)N from K(15)NO(3) was taken up and incorporated into the nitrate and ammonium fractions of leaves treated with tabtoxin or MSO. This result and the high in vitro activities of nitrate reductase indicated that reduction of nitrate was one source of the accumulated ammonium. Leaves incubated under 2% O(2) to reduce photorespiration accumulated only about 13% as much ammonium as did those under normal atmospheres. We conclude that most of the tabtoxin- or MSO-induced ammonium came from photo-respiration, and the remainder was from nitrate reduction.
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PMID:Sources of ammonium in oat leaves treated with tabtoxin or methionine sulfoximine. 1666 6

Two methods were developed for the detection of altered ureide metabolism in legume nodules. Both techniques are based on the positive correlation between the presence of high xanthine dehydrogenase (EC 1.2.1.37) specific activity in nodules and the ability of those nodules to produce the ureides, allantoin and allantoic acid. In the first method, nodulated legumes are treated for 2 weeks with a soil drench of allopurinol. After allopurinol treatment, leaves of N(2)-fed, ureide-producing legumes, soybean, cowpea, and lima bean, became very chlorotic. Leaves of KNO(3) (-) or NH(4)Cl-fed ureide-producing legumes were unaffected by the allopurinol treatment. Leaves of the amide-producing legumes, alfalfa, clover, peak, and lupin, were unaffected by the allopurinol treatment with N(2), KNO(3), or NH(4)Cl as nitrogen source. These experiments showed that long-term allopurinol treatments are useful in differentiating between ureide- and amide-producing legumes when effectively nodulated. A second method was developed for the rapid, qualitative estimation of xanthine dehydrogenase activity in legume nodules. This method utilizes pterin, an alternate substrate for xanthine dehydrogenase. Xanthine dehydrogenase hydroxylates pterin in the presence of NAD(+) to produce isoxanthopterin. When exposed to long wave ultraviolet light (365 nanometers), isoxanthopterin emits blue fluorescence. When nodules of ureide-producing legumes were sliced in half and placed in microtiter plate wells containing NAD(+) and pterin, isoxanthopterin was observed after 6 hours of incubation at room temperature. Allopurinol prevented isoxanthopterin production. When slices of amide-producing legume nodules were placed in wells with pterin and NAD(+), no blue fluorescence was observed. The production of NADH by xanthine dehydrogenase does not interfere with the fluorescence of isoxanthopterin. These observations agree with the high specific activity of xanthine dehydrogenase in nodules of ureide-producing legumes and the low activity measured in amide-producing nodules. The wild soybean, Glycine soja Sieb. and Zucc., was examined for ureide synthesis. Stems of wild soybean plants had a high ureide abundance with N(2) as sole nitrogen source when nodulated with either Rhizobium fredii or Bradyrhizobium japonicum. Ureide abundance declined when nitrate or ammonium was added to the nutrient solution. Nodule slices of these plants produced isoxanthopterin when incubated with pterin. Nodule crude extracts of G. soja had high levels of xanthine dehydrogenase activity. Both Glycine max and G. soja plants were found to produce ureides when plants were inoculated with fast-growing R. fredii. The two methods described here can be used to discriminate ureide producers from amide producers as well as detect nitrogen-fixing legumes which have altered ureide metabolism. A nodulated legume that lacks xanthine dehydrogenase activity as demonstrated by the pterin assay cannot produce ureides since ureide synthesis has been shown to require xanthine dehydrogenase activity both in vivo and in vitro. A nodulated legume that remains green during allopurinol treatment also lacks ureide synthesis since the leaves of ureide-producing legumes are very chlorotic following allopurinol treatment.
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PMID:Two indirect methods for detecting ureide synthesis by nodulated legumes. 1666 57

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