The Biological Activity of Organoboron Compounds in the Promotion of Root Growth

The growth of the bean (Vicia faba var. minor) radicle in nutrientsolution requires the presence of borate. Optimum extensiongrowth, over 41 h, was obtained in the presence of 0.5 µMboric acid. This requirement of borate for root growth couldalso be satisfied by PhB(OH)₂, 2-OCH₃PhB(OH)₂, and 4-OCH₃PhB(OH)₂.These three compounds also complex in vitro with catechol-3,5-disulphonic acid. NaPh₄B and 2, 6-OCH₃)₂PhB(OH)₂ did not formsuch complexes in vitro, but were biologically active as sourcesof boron for radicle growth. This activity of NaPh₄B was absentif roots were grown in solutions which were changed every 8h. The activity of both NaPh₄B and 2,6-(OCH₃)₂PhB(OH)₂ was increasedby using stock aqueous solutions which were not freshly prepared.Theresults are considered to provide support for the hypothesisthat the activity of borate, as an essential plant nutrient,depends upon its ability to form a biologically active complexwith an in vivo cis-diol compound.     

Effect of Nitrate, Ammonium and Some Amino Acids on Growth and Nitrate Reductase Activity in Suspension Cultures of Atropa belladonna

Growth and nitrate reductase activity (NRA) of Atropa belladonnacells were studied in medium supplemented with NaNO₃, NH₄NO₃,and amino acid precursors to tropane alkaloids. Growth and NRAwere stimulated by NH₄⁺ and by proline, by proline plus ornithine,but not by glutamate, in NO₃^–-containing medium. Testedamino acids inhibited neither utilization of inorganic nitrogennor growth. (Received September 30, 1988; Accepted August 28, 1989)     

The nature of gibberellin-induced dormancy in aerial tubers of Begonia evansiana

Four kinds of GA, GA₁, GA₂, GA₃, and GA₄, all inhibited sproutingin aerial tubers of Begonia evansiana. The sprout-inhibiting action of GA increased with incubationin a high O₂ concentration, and decreased in a low O₂ Concentration. Inhibition of sprouting by GA was reduced by incubation in thepresence of p-nitrophenol, resorcinol, salicylaldoxime, 2, 4-dinitrophenol,sodium azide and cycloheximide. The higher activity of polyphenol oxydase was observed in ahomogenate of GA treated tubers. Existence of counteracting two systems which were activatedby GA was considered. (Received January 13, 1972; )     

Effects of Gibberellins on Seed Germination of Phytochrome-Deficient Mutants of Arabidopsis thaliana

Experiments were carried out to explore the involvement of gibberellins(GAs) in the light-induced germination of Arabidopsis thaliana(L.) Heynh, using wild type (WT) and phytochrome-deficient mutants(phyA, phyB and phyAphyB deficient in phytochrome A, B and Aplus B, respectively). Seed germination of WT and phytochrome-deficientmutants was inhibited by uniconazole (an inhibitor of an earlystep in biosynthesis of GA, the oxidation of ent-kaurene) andprohexadione (an inhibitor of late steps, namely, 2rß-and 3rß-hydroxylation). This inhibition was overcomeby simultaneous application of 10^-5 M GA₄. The relative activityof GAs for promoting germination of uniconazole-treated seedswas GA₄>GA₁=GA₉>GA₂₀. The wild type and the phyA and phyBmutants had an increased response to a red light pulse in thepresence of GA₁, GA₄, GA₉, GA₂₀ and GA₂₄ but there were no significantdifferences in activity of each GA between the mutants. Therefore,neither phytochrome A nor hytochrome B appears to regulate GAbiosynthesis from GA₁₂ to GA₄ during seed germination, sincethe conversion of GA₁₂ to GA₉ is regulated by one enzyme (GA20-oxidase). However, GA responsiveness appears to be regulatedby phytochromes other than phytochromes A and B, since the phyAphyBdouble mutant retains the photoreversible increased responseto GAs after a red light pulse. (Received February 13, 1995; Accepted July 11, 1995)     

Changes in levels of Proteases and Their Inhibitors during Development of the Seeds of Job's Tears (Coix lacryma-jobi L. var. Ma-yuen Stapf) and Their Localization and Interactions

Changes in levels and localization of proteases and a trypsininhibitor (JBTI) in the developing seeds of Job's tears (Coixlacryma-jobi L. var. Ma-yuen Stapf) were followed, and theirinteractions were examined. The JBTI was induced from the middlestage of development (12 DAF, i.e., 12 days after flowering)and increased until the late stage of development (24 DAF),and was localized in the germ. Two groups of proteases (A, thosewith molecular weights of 55–70 kDa; and B, those withmolecular weights greater than 94 kDa) were detected by activestaining of substrate-containing SDS-polyacrylamide gels. Thegroup of larger proteases seems to consist of three members(B₁, B₂₎ B₃, with increasing molecular weights). Band A wasobserved only in the early stage of development (until DAF 9),band B₂ persisted during all stages, while bands B, and B₃ werepresent only during early and late stages, respectively. Thegroup A proteases and one of the group B proteases (probablyB₁) were inhibited by diisopropyl-fluorophosphate (DFP), bytrypsin inhibitors from soybean and rice, and by JBTI. The proteasesthat were present in the seeds of Job's tears at a late stageseemed to be localized in the germ. (Received September 9, 1988; Accepted April 19, 1989)     

Pyruvate dehydrogenase complex and acetyl-CoA carboxylase in pea root plastids: their characterization and role in modulating glycolytic carbon flow to fatty acid biosynthesis

The pyruvate dehydrogenase complex (PDC) and acetyl-CoA carboxylase(ACC, EC 6.4.1.2 [EC] ) have been characterized in pea root plastids.PDC activity was optimum in the presence of 1.0 mM pyruvate,1.5 mM NAD⁺ 0.1 mM CoA, 0.1 mM TPP, 5 mM MgCl₂, 3.0 mM cysteine-HCl,and 0.1 M Tricine (pH 8.0) and represents approximately 47%of the total cellular activity. ACC activity was greatest inthe presence of 1.0 mM acetyl-CoA, 4 mM NaHCO₃ mM ATP, 10 mMMgCl₂, 2.5 mM dithiothreitol, and 100 mM Tricine (pH 8.0). Bothenzymes were stimulated by reduced sulphydryl reagents and inhibitedby sulphydryl inhibitors. ACC was also inhibited by malonyl-CoAwhile PDC was inhibited by both malonyl-CoA and NADH. Both enzymeswere stimulated by DHAP and UDP-galactose while ACC was alsostimulated by PEP and F₁,6P. Palmitic acid and oleic acid bothinhibited ACC, but had essentially no effect on PDC. Palmitoyl-CoAinhibited both enzymes while PA and Lyso-PA inhibited PDC, butstimulated ACC. The results presented support the hypothesisthat PDC and ACC function in a co-ordinated fashion to promoteglycolytic carbon flow to fatty acid biosynthesis in pea rootplastids. Key words: Pisum sativum L., pyruvate dehydrogenase complex, acetyl-CoA carboxylase, roots, non-photosynthetic plastids     

Effects of a New Plant Growth Regulator Prohexadione Calcium (BX-112) on Shoot Elongation Caused by Exogenously Applied Gibberellins in Rice (Oryza sativa L.) Seedlings

The effects of a novel plant growth regulator (PGR) prohexadionecalcium (BX-112; calcium 3,5-dioxo-4-propionylcyclohexanecarboxylate)on shoot elongation caused by exogenously applied GA₁, GA₃,GA₄₎ GA₁₉ and GA₂₀ were investigated in rice (Oryza sativa L.cv. Nihonbare and cv. Tan-ginbozu) seedling test. Dependingon the dose, BX-112 reduced shoot elongation in both cultivarscaused by GA₁₉ and GA₂₀, but not by GA₁. When a high dose ofBX-112 (e.g. 250 ng/plant and over) was applied with GA₁, orGA₄, shoot elongation was even promoted. This promotive effect,however, was not observed with GA₃. These results suggest thatBX-112 inhibits gibberellin (GA) biosynthesis in the rice plantat the 3ß- and 2ß-hydroxylation of GAs,namely steps of activation and inactivation, respectively. (Received September 6, 1989; Accepted November 27, 1989)     

Effects of a Plant-Growth Regulator, Prohexadione, on the Biosynthesis of Gibberellins in Cell-Free Systems Derived from Immature Seeds

Inhibition of the biosynthesis of gibberellins by prohexadione,3,5-dioxo-4-propionylcyclo-hexanecarboxylic acid, was studiedwith cell-free systems derived from immature seeds of Cucur-bitamaxima, Phaseolus vulgaris and Pisum sativum. Prohexadione,at a concentration of 10–⁴ M, inhibited C-7 oxidationof GA₁₂-aldehyde, C-20 oxidation of GA₁₅, conversion of C₂₀-gib-berellinsto C₁₉-gibberellins, 3ß-hydroxylation, 2,3-dehydrogenationof GA²⁰, 2,3-epoxidation of GA₅ and 2ß-hydroxylationof GA₉ and GA₂₀. The 3ß-hydroxylase activity appearedto be more sensitive to prohexadione than were the C-20 oxygenaseand the 2ß-hydroxylase activities. The conversionof mevalonic acid to GA₁₂-aldehyde and the 13-hydroxylationof GA₁₂ were not affected by prohexadione at a concentrationof 3 ? 10^–4 M. All of the steps inhibited by prohexadioneare oxidation steps catalyzed by soluble enzymes that require2-oxoglutarate, Fe²⁺ and oxygen, and all of them occur distalto the synthesis of GA₁₂-aldehyde in the biosynthesis of gibberellins. (Received April 4, 1990; Accepted September 14, 1990)     

Inhibition of Sterol Biosynthesis and Stem Elongation of Tobacco Seedlings Induced by Some Hypocholesterolemic Agents

Incorporation of DL-[2-¹⁴C]mevalonic acid ([2-¹⁴C]MVA) into4-desmethylsterols in Nicotiana tabacum cv. Turkish Samson seedlingswas inhibited by SK&F 7997-A₃,¹ SK&F 7732-A₃, AY 9944,and the plant growth retardant, Amo 1618. Reductions in 4-desmethylsterol levels resulted from treatmentwith AY 9944 and Amo 1618, but not the SK&F compounds. Amo1618 and SK&F 7997-A₃ both significantly reduced the specificactivity of each of the four major 4-desmethylsterols examined.Although SK&F 7732-A₃ reduced the specific activity of campesterol,and AY 9944 reduced the specific activity of stigmasterol, neitherhad an effect on the specific activity of ß-sitosterol. Stem elongation of tobacco seedlings was retarded by SK&F7997-A₃, AY 9944, and SK&F 7732-A₃, particularly the former,and the retarded plants thus produced were morphologically indistinguishablefrom the Amo 1618-treated plants. Application of exogenous stigmasterol,or GA₃, to the chemically-retarded plants resulted in a reversalof stem growth retardation.     

Involvement of Cyclic AMP in Adventitious Bud Initiation of Torenia Stem Segments

Adventitous bud initiation in epidermis of Torenia stem segmentscultured in vitro, which is usually induced by cytokinin, couldbe induced by application of dibutyryl cyclic AMP in the absenceof cytokinin. Similar stimulatory effects on bud initiationwere observed when various promoting reagents to accumulateendogenous cyclic AMP were added, such as activators for adenylatecyclase, forskolin and prostaglandin E₁, and inhibitors of cyclicnucleotide phospho-diesterase, theophylline and isobutyl methylxanthine. Endogenous content of cyclic AMP in Torenia stem segmentswere increased by the application of the above chemicals, calciumionophore or cytokinin. These results suggested that endogenousconcentrations of cyclic AMP were involved in adventitious budinitiation of Torenia stem segments. Furthermore, some inhibitorsof protein kinases inhibited bud initiation induced by cyclicAMP-accumulating reagents. (Received August 15, 1989; Accepted November 4, 1989)     

Glyoxylate Inhibition of Ribulosebisphosphate Carboxylase/Oxygenase Activation State in vivo

Photosynthetic CO₂ exchange in photorespiration mutants of Arabidopsisthaliana showed a time-dependent inhibition at 350 µl/literCO₂ in 50% O₂ but not in 2% O₂. In a glycolate-P phos-phatasedeficient mutant, inhibition of photosynthesis was due to adepletion of ribulosebisphosphate. In the remaining mutants,which have defects in photorespiratory enzymes which metabolizeamino acids, reduced photosynthesis was accompanied by a declinein the activation level of ribulosebisphosphate carboxylase/oxygenase(Chastain and Ogren 1985), a decline in ribulosebisphosphateconcentration, and an accumulation of glyoxylate. Addition ofglyoxylate at submillimolar concentrations to intact spinach(Spinacea oleracea L.) chloroplasts inhibited light activationof ribulosebisphosphate carboxylase/oxygenase (rubisco) andCO₂ fixation. Similar concentrations of glyoxylate had no effecton A. thaliana rubisco activity in vitro. These results suggestthat glyoxylate accumulation indirectly inhibited rubisco activationstate in vivo. The inhibition of photosynthesis in mutants whichaccumulate glyoxylate may be attributed to a decline in ribulosebisphosphateconcentration, a reduction in rubisco activation state, or acombination of both phenomena. ³Present address: CSIRO, Division of Plant Industry, GPO Box1600, Canberra, ACT 2601, Australia. (Received May 12, 1989; Accepted July 8, 1989)     

Photosynthesis in Panicum milioides, a Species with Reduced Photorespiration

The capacity for C₄ photosynthesis in Panicum milioides, a specieshaving reduced levels of photorespiration, was investigatedby examining the activity of certain key enzymes of the C₄ pathwayand by pulse-chase experiments with ¹⁴CO₂. The ATP$P₁ dependentactivity of pyruvate,P₁ dikinase in the species was extremelylow (0.14–0.18 µmol mg chlorophyll^–1 min^–1).Low activity of the enzyme was also found in Panicum decipiensand Panicum hians (related species with reduced photorespiration)and in Panicum laxum (a C₃ species). The antibody to pyruvate,P₁dikinase caused about 70% inhibition of the ATP$P₁ dependentactivity of the enzyme in P. milioides. The activity of NAD-malicenzyme and NADP-malic enzyme in ^P. ^milioides was equally low(approximately 0.1–0.2 µmol mg chlorophyll^–1min^–1) and similar to the activity in P. decipiens, P.hians and P. laxum. Photosynthetic pulse-chase experiments underatmospheric conditions showed a typical C₃-like pattern of carbonassimilation including the labelling of glycine and serine asexpected during photorespiration. During the pulse with ¹⁴CO₂only about 1% of the labelled products appeared in malate and2–3% in aspartate. During a chase in atmospheric levelsof CO₂ for up to 6 min there was a slight increase in labellingin the C₄ acids. The amount of label in carbon 4 of aspartatedid not change during the chase, indicating little or no turnoverof the C₄ acid via decarboxylation. The results indicate thatunder atmospheric conditions P. milioides assimilates carbondirectly through the C₃ pathway. Photorespiration as indicatedby the CO₂ compensation point may be repressed in the speciesby a more efficient recycling of photorespired CO₂. (Received June 8, 1982; Accepted July 22, 1982)     

Effects of Gibberellins and Prohexadione on the Activities of Oryzain and {alpha}-Amylase in Rice Seeds

Oryzains, cysteine proteinases of rice seeds, are induced byGA₃ in germinating rice seeds [Abe et al. (1987) Agric. Biol.Chem. 51: 1509]. The effects of GA₁, GA₃, GA₄, GA₉, and GA₂₀on the production of oryzain and -amylase were investigatedin embryoless half- and whole-seeds of rice (cv. Nipponbare).When gibberellins (GAs) were incubated with embryoless half-seeds,GA₁, GA₃ and GA₄ induced oryzain and -amylase, but GA₉, andGA₂₀ did not. GA₉ and GAM induced oryzain and -amylase productionin whole seeds, but this production was inhibited by the simultaneousapplication of prohexadione, an inhibitor of 2ß- and3ß-hydroxylation of GAs. Prohexadione did not inhibitthe activities of oryzain and -amylase induced by GA₁. Theseresults suggest that GAs possessing the 3ß-hydroxylgroup induce activities of oryzain and -amylase in rice seedsand that GA₉ and GA₂₀ have activity only after they are convertedmetabolically to active GAs, probably GA₄ and GA₁, respectively.GA₁, was more active than GA₄ in both half seeds and wholeseeds incubation. Oryzain and -amylase activities induced byGA₄ were significantly inhibited in the presence of 10^–4M prohexadione. This suggests that the conversion of GA₁, toGA₄ (13-hydroxylation) might be inhibited at a high dose ofprohexadione in whole seeds. ⁴Present address: Institute of Food Development, Kyung Hee University,Suwon 449-701, Korea     

Distribution of enzymes related to C3 and C4 pathway of photosynthesis between mesophyll and bundle sheath cells of Panicum hians and Panicum milioides

Enzymes of the C₄, C₃ pathway and photorespiration have beenanalyzed for P. hians and P. milioides, which have chlorenchymatousbundle sheath cells in the leaves. On whole leaf extracts thelevels of PEP carboxylase are relatively low compared to C₄species, RuDP carboxylase is typical of C₃ species, and enzymesof photorespiratory metabolism appear somewhat intermediatebetween C₃ and C₄. Substantial levels of PEP carboxylase, RuDPcarboxylase, and photorespiratory enzymes were found in bothmesophyll and bundle sheath cells. Low levels of C₄-acid decarboxylatingenzymes may limit the capacity for C₄ photosynthesis in P. hiansand P. milioides. The results on enzyme activity and distributionbetween mesophyll and bundle sheath cells are consistent withCO₂ fixation via C₃ pathway in these two species. ¹ This research was supported by the College of Agriculturaland Life Sciences, University of Wisconsin, Madison; and bythe University of Wisconsin Research Committee with funds fromthe Wisconsin Alumni Research Foundation; and by the NationalScience Foundation Grant BMS 74-09611. (Received September 16, 1975; )     

Quantity and Kinetic Properties of Ribulose 1,5-Bisphosphate Carboxylase in C3, C4, and C3-C4 Intermediate Species of Flaveria (Asteraceae)

The kinetic properties of ribulose 1,5-bisphosphate carboxylase(RuBPC) appear to have been modified during evolution of photosynthesisto adjust to changes in substrate availability. C₄ plants areconsidered to have a higher concentration of CO₂ available toRuBPC than C₃plants. In this study, the K_m(CO₂ and catalyticcapacity (k_cat) of RuBPC and the ratio of RuBPC protein to totalsoluble protein from several Flaveria species, including C₃,C₃-C₄ intermediate, and C₄ species, were determined. The C₃and intermediate species had similar K_m(CO₂) values while theC₄ species on average had higher K_m(CO₂) values. The mean ratioof K_cat/K_m for species of each group was similar, supportingthe hypothesis that changes in K_m and K_cat, are linked. Theallocation of total soluble protein to RuBPC was lowest in theC₄ Flaveria species, intermediate in the C₃-C₄ species, andhighest in the C₃ species. The results suggest that during evolutionof C₄ photosynthesis adjustments may occur in the quantity ofRuBPC prior to changes in its kinetic properties. (Received January 4, 1989; Accepted April 11, 1989)     

A Comparative Study of the Cold-Sensitivity of Pyruvate,Pi Dikinase in Flaveria Species

Pyruvate,P_i dikinase (PPDK) was isolated and purified from theleaf tissue of a number of Flaveria species and the cold labilityof the purified enzymes studied. The PPDK from F. brownii (aC₃/C₄ intermediate species) showed a high level of stabilitycompared to other Flaveria species. (Received September 7, 1989; Accepted November 22, 1989)     

The Potential of Two Perennial C4 Grasses and a Perennial C4 Sedge as Ligno-cellulosic Fuel Crops in N.W. Europe. Crop Establishment and Yields in E. England

Three perennial C₄ rhizomatous species, Cyperus longus L., Spartinacynosuroides and Spartina pectinata Link, were examined as potentialrenewable energy crops. These species are unusual among C₄ plantsin showing natural distributions which extend into cool temperateregions. This study examined whether these species could beestablished in the cool temperate climate of eastern Englandand whether they could consistently attain the relatively highdry matter yields associated with C₄ plants of warmer regions.Clonally produced material was planted in 1986, on two siteswith contrasting soil types in Essex, eastern England. Plantingwas within a randomized-block design incorporating replicatedplots of each species, both with and without fertilizer. Survivorshipand stem demography were monitored at monthly intervals from1986 to Jun. 1989 for stem recruitment and to Dec. 1991 forstem density. Yields were determined from 1987 (the year followingestablishment) to 1993. Survivorship of the planted propagules over the first 12 monthswas 92% for S. pectinata , 96% for S. cynosuroides and 100%for C. longus. Recruitment of new stems peaked in Apr. of mostyears, although a significant number of new stems appeared asearly as Feb. Stem death peaked in Sep. or early Oct. and allabove-ground stems had died by mid-Nov. Stem density trendsindicated that 2-4 years were required to reach a steady-statedensity, depending upon species. The stem density of the twoSpartina species had reached more than 1000 m^-2 in 1989 althoughthat of S. pectinata fluctuated considerably in the subsequentyears. C. longus stem density rose to approx. 600 m^-2 by 1988and did not change significantly in the subsequent years. In the 6 years following establishment, annual yields averagedacross all fertilizer treatments and both sites were 1·0,1·1 and 1·3 kg m^-2 for C. longus, S. cynosuroidesand S. pectinata, respectively. The average annual yield ofall three species at the site with the heavier soil was 1·3kg m^-2. This was significantly greater than the 1·0 kgm^-2 on the lighter soil. Nitrogen addition did not significantlyincrease yield. Even in the absence of any nitrogen addition,the annual yield of S. pectinata averaged 1·2 kg m^-2over the 6 years, with no evidence of any decline with the increasingage of the stands.Copyright 1995, 1999 Academic Press Cyperus longus, Spartina cynosuroides, Spartina pectinata, energy crop, dry matter yield     

Comparative Studies of NAD-Malic Enzyme from Leaves of Various C4 Plants

Using butyl-TSK-gel chromatography, we purified NAD-malic enzyme(ME) (EC 1.1.1.39 [EC] ), which is involved in C₄ photosynthesis,to electrophoretic homogeneity, from leaves of Amaran-thus tricolor.Molecular weights of the native and SDS-denatured enzyme fromA. tricolor were 490 kDa and 61 kDa, respectively. During assayof the enzyme there was a slow reaction transient in the formof a lag before a steady-state rate was reached. The durationof this lag was inversely proportional to the concentrationof each substrate and the activator, fructose- 1,6-bis-phosphate(FBP). The optimal pH of the reaction fell with decreasing concentrationsof either malate or FBP. High pH prolonged the lag in reaction. Double reciprocal plots of the enzymatic activity as a functionof the concentration of malate yielded straight lines and didnot show any cooperativity for binding of malate. The enzymefrom A. tricolor was not inhibited by either HCO^–₃ orCO₂. At different concentrations of malate, the nature of theactivating effect of FBP was compared among the purified enzymesfrom A. tricolor and the C₄ monocots Eleusine coracana and Panicumdichotomiflorum. At low levels of malate, FBP markedly stimulatedthe enzyme from each species. In contrast, at saturating levelsof malate, the response of enzymes to increasing concentrationsof FBP was different and depended on the source of enzyme. The immunochemical properties of the enzymes from the threespecies were compared using an enzyme-linked immunoadsorbentassay with antisera raised against the purified enzymes fromthe three species. Different cross-reactivities were observedamong the enzymes from different sources. The N-terminal aminoacid sequences of NAD-MEs from the three species were determinedand some differences were found among the three enzymes. ²Permanent address; Tohoku National Agricultural ExperimentStation, Morioka, 020-01 Japan. ³Permanent address; National Grassland Research Institute, Nishinasuno,Tochigi, 329-27 Japan. (Received December 12, 1988; Accepted February 17, 1989)     

虫酰肼及其衍生物0593对家蚕的毒性及作用机理

为明确虫酰肼衍生物0593对家蚕Bombyx mori的毒性,本研究采用食下毒叶法测定了虫酰肼及其衍生物0593对家蚕的毒性,观察了亚致死浓度下对家蚕生长发育的影响,并测定了虫酰肼及其衍生物0593对家蚕幼虫体内保护酶的影响,对虫酰肼0593的作用机理进行了初步探索。结果表明：虫酰肼及其衍生物0593对2龄家蚕96 h的LC₅₀值分别为1.2863和0.3364 mg·L^-1,属高毒级药剂;虫酰肼及其衍生物0593在亚致死剂量下对家蚕的生长发育有明显的不利性,可使幼虫历期缩短0.5～2 d;处理组眠期体重、全茧量、蛹重和化蛹率与对照相比均显著降低;对4龄幼虫体内多酚氧化酶和几丁质酶也有较明显影响,虫酰肼及其衍生物0593处理家蚕,处理后6 h对体内多酚氧化酶有明显激活作用,12 h后表现出显著的抑制作用;虫酰肼及其衍生物0593对家蚕体内几丁质酶均有激活作用。0593对保护酶的影响较虫酰肼明显。结果提示虫酰肼及其衍生物0593对家蚕毒性高,对其生长发育和保护酶类均有不利性,不适合在桑园及其周边农田使用。     

A Mutant of Arabidopsis thaliana That Defines a New Locus for Glycine Decarboxylation

A novel photorespiratory mutant of Arabidopsis thaliana, designatedgld2, was isolated based on a growth requirement for abnormallyhigh levels of atmospheric CO₂. Photosynthetic CO₂ fixationwas inhibited in the mutant following illumination in air butnot in atmosphere containing 2% O₂. Photosynthetic assimilationof ¹⁴CO₂ in an atmosphere containing 50% O₂ resulted in accumulationof 48% of the soluble label in glycine in the mutant comparedto 9% in the wild type. The rate of glycine decarboxylationby isolated mitochondria from the mutant was reduced to 6% ofthe wild type rate. In genetic crosses, the mutant complementedtwo previously described photorespiratory mutants of A. thalianathat accumulate glycine during photosynthesis in air due todefects in glycine decarboxylase (glyD, now designated gld1)and serine transhydroxymethylase (stm). Because glycine decarboxylaseis a complex of four enzymes, these results are consistent witha mutation in a glycine decarboxylase subunit other than thataffected in the gld1 mutant. The two gld loci were mapped tochromosomes 2 and 5, respectively. ³Present address: Department of Crop and Soil Sciences, MichiganState University, East Lansing, MI 48824, U.S.A. ⁴Present address: Department of Applied Bioscience, Facultyof Agriculture, Hokkaido University, Kita-Ku, Sapporo, 060 Japan ⁵Present address: Department of Biology, Carnegie Institutionof Washington, 290 Panama Street, Standford, CA 94305, U.S.A.