Contents of Cytochromes, Quinones and Reaction Centers of Photosystems I and II in a Cyanobacterium Synechococcus sp.

The contents of photosystem I and photosystem II reaction centers,cytochrome c-553, cytochrome c-550, cytochrome f, cytochromeb-559, cytochrome b-563, plastoquinone and vitamin K₁ in thecyanobacterium Synechococcus sp. were determined. About threephotosystem I reaction centers were present for each photosystemII reaction center. The amounts of cytochromes functioning betweenthe two photosystems were approximately half those of the photosystemI reaction center. Plastocyanin was not detected, while plastoquinoneand vitamin K₁ were present in excess of other electron carriersand reaction centers. The results indicate the importance ofplastoquinone and cytochrome c-553 for cooperation of the tworeaction centers through electron transport. ¹Present address: Toray Basic Research Laboratory, 1111 Tebiro,Kamakura, Kanagawa 248, Japan. (Received June 17, 1982; Accepted January 17, 1983)     

Chromatic Regulation of Cytochrome Composition and Electron Transfer from Cytochrome b6-f Complex to Photosystem I in Anacystis nidulans (Tx 20)

Cytochrome composition of the cyanobacterial photosyntheticsystem was studied with Anacystis nidulans (Tx 20) in relationto the chromatic regulation of photosystem composition. Comparisonof cytochrome compositions in cells with a high PS I/II ratio(3.0, grown under weak orange light) and with a low ratio (1.6,grown under weak red light) indicated that cytochrome compositionwas also changed in the chromatic regulation of photosystemcomposition. Two types of cytochrome change were observed: 1)contents of cytochromes C₅₅₃ and c₅₄₈ were changed in parallelwith the changes in PS I content, and 2) cytochrome b₅₅₃ andcytochrome b₆-f complex were held at a constant molar ratioto PS II. The molar ratio, PS II : cytochrome b₅₅₉ : cytochromeb₆-f complex : cytochrome c₅₅₃ : PS I : cytochrome C₅₄₈, inthe red-grown cells was 1 : 2.5 : 1.3 : 0.17 : 1.6 : 0.67, andthe ratio in the orange-grown cells, 1:2.4:0.9:0.32:3.0:1.2.In both types of cells, almost all cytochrome f in the cytochromeb₆-f complex was rapidly oxidized after multiple flash activation,indicating that all cytochrome b₆-f complexes in cells of bothtypes are functionally connected to PS I, even when the molarratio to PS I is largely changed. The content of cytochromeC₅₅₃ was at most 0.14 of PS I, suggesting that the cytochrometurns over several times per one turnover of PS I. ¹Present address: Department of Biology, Faculty of Science,Tokyo Metropolitan University, Fukazawa 2-1-1, Setagaya, Tokyo158, Japan. (Received January 20, 1986; Accepted March 17, 1986)     

COMPONENTS OF THE ELECTRON-TRANSFERRING SYSTEM IN ACETOBACTER SUBOXYDANS AND RECONSTRUCTION OF THE LACTATE OXIDATION SYSTEM

1. Cytochromes a₁⁵⁹⁰, b⁵⁶⁰, c₁⁵⁵⁴ and c₁⁵⁵² were isolated andpurifiedfrom a strain of Acetobacter suboxydans. The proceduresusedwere described in detail.
2. The main cytochrome band at550-560 mµ in intact cellssplitted at liquid air temperatureinto two bands, 551 mµ(strong) and 559 mµ (weak).
3. Optical and physiological properties of the four cytochromeswere investigated. Lactic dehydrogenase activity was found tobe associated with cytochrome c₁⁵⁵⁴. The two c₁-type cytochromes,especially cytochrome c₁⁵⁵⁴, persisted in their reduced formafter the purification through many steps.
4. By some combinationsof isolated components reconstruction ofthe oxygen uptake systemcould be realized.
5. The oxygen-consuming activity of purifiedoxidase preparationswas accelerated by a-tocopherol but notby Emasoll 4130 andTween 80.
6. Some discussions were made onthe nature of terminal oxidase,the role of cytochrome c₁⁵⁵²in the electron-transport system,and persistence of reducedstate of c₁-type cytochromes.
7. A possible scheme of the electron-transferringsystem of Acetobactersuboxydans was presented.

(Received May 16, 1960; )     

A probable lack of function of c-type cytochrome in the photosynthetic system of the blue-green alga Anabaena variabilis

Quantitative study of the cytochrome c acting in the photosyntheticsystem of the blue-green alga Anabaena variabilis (M-2) wasdone with membrane fragments and intact cells. Membrane fragments highly active in the NADP⁺-Hill reaction(above 200 µmoles/mg chl.a;-hr) retained photoresponsivecytochrome c equal only one-tenth that of P700, while the plastocyanincontent was almost equal to that of P700. The cytochrome contentin intact cells was a little larger than that in membrane fragmentson the chlorophyll a basis. However, the values relative toP700 (1/9) and plastocyanin (1/10) were identical with thosein membrane fragments. The content was also far smaller thanthat of reaction center II's (1/6). If the cytochrome mediatesall electrons from reaction center II, the cytochrome oxidation-reductionshould have a rate constant of 2.4?102 sec^–1 which isone order above of the rate constant of the cytochrome reduction(2.3 to 3.5?10¹sec^–1). These quantitative relationshipsindicate that in Anabaena variabilis (M-2), c-type cytochrome,either cytochrome f or algal cytochrome c, cannot function inthe main electron flow between two reaction centers. (Received September 8, 1978; )     

Comparison between Electron Transfers through Plastocyanin in Spinach Chloroplasts and Cytocbrome C2 in Rhodopseudomonas sphaeroides

Photosynthetic electron transfers through the water-solubleperipheral membrane proteins of plastocyanin and cytochromec₂, were studied in spinach chloroplasts and the photosyntheticbacterium Rhodopseudomonas sphaeroides. In spinach chloroplasts,the rate of flash-induced oxidation of cytochrome f was highlydependent on the salt concentration in the suspending medium.The maximum rate with a half time of 200 µs was observedin the presence of 50 mas KCl or 5 mM MgCl₂. The salt effectwas similar to that on the reaction rate between P700 in thylakoidfragments and externally added plastocyanin. On the other hand,in intact cells of R. sphaeroides, in which cytochrome c₂ islocated in the periplasmic space exposed to the outer ionicenvironment, the rate of cytochrome c₁ oxidation via cytochromec₂ was almost independent of salt concentration. This independencewas a contrast to the strong dependence on salt concentrationof reactions between isolated reaction centers and cytochromec₂ These results suggest that plastocyanin reacts collisionallywith the photosystem I reaction center and cytochrome b₆f complexin a manner that is controlled by the surface electrostaticpotential. Cytochrome c₂, on the other hand, reacts with thebacterial reaction center and cytochrome bc₁ complex probablyby forming a complex prior to activation of the reaction center. ¹ Present address: Department of Biology, Faculty of Science,Tokyo Metropolitan University, Fukazawa 2-1-1, Setagaya, Tokyo158, Japan.     

COMPARATIVE STUDIES OF PHOTOCHEMICAL OXIDATION-REDUCTION REACTIONS IN LAMELLAR FRAGMENTS OF VARIOUS ALGAE AND SPINACH

The activity of various electron carriers, including DPIP, spinachplastocyanin, mammalian cytochrome c, and Anabaena cytochrome553, as donor in the reaction induced by the photochemical systemI was examined with lamellar fragments of various algae andspinach. Reduced DPIP was an effective electron donor irrespective ofthe organisms, when it was supplied at a high concentration(10^–3 M). Spinach plastocyanin was effective in the reactionswith the lamellae of green algae, Euglena, diatom Phaeodactyrumand red algae Porphyra yezoensis and Porphyra sp. Yamamoto II,whereas it was inactive in the lamellae of blue-green algae.Horse-heart cytochrome c and Anabaena cytochrome 553 were activein the reaction with the lamellae of bluegreen algae. The formercytochrome was also active in the reactions in Porphyridiumand Cyanidium. The cytochromes were less active in the reactionsin which spinach plastocyanin acted as effective electron donor. The data were interpreted as that the photochemical system Iin bluegreen algae differs from that of other photosyntheticorganisms with respect to the properties of the site of theelectron-input. ¹ Present address: Nomura Research Institute for Technologyand Economics, Kamakura, Kanagawa. ² Present address: Ocean Research Institute, University of Tokyo,Nakano, Tokyo.     

Nitrobacter agilis Cytochrome c-550: Isolation, Physicochemical and Enzymatic Properties, and Primary Structure

Nitrobacter agilis cytochrome c-550 was purified to an electrophoreticallyhomogeneous state, and some of its properties were determined.The cytochrome showed an absorption peak at 410 nm in the oxidizedform, and peaks at 416, 521 and 550 nm in the reduced form.Its isoelectric point was 8.1 at 5?C. Analysis of the aminoacid composition showed that the cytochrome molecule was composedof 108 amino acid residues, 16 of which were lysine residues. The cytochrome reacted rapidly with N. agilis cytochrome c oxidaseand yeast cytochrome c peroxidase and more slowly with Pseudomonasaeruginosa nitrite reductase and bovine cytochrome c oxidase.The reactivities with these redox enzymes suggested that thecytochrome might be an evolutionary stage between bacterialand eukaryotic cytochromes c. The primary structure of the cytochrome from the N-terminusto the 85th residue was determined. The N-terminal sequencewas homologous to the corresponding portion of the primary structureof horse cytochrome c. ¹ Present adress: Department of Chemistry, Faculty of Science,Tokyo Institute of Technology, O-okayama, Meguro-ku, Tokyo,152, Japan. (Received December 3, 1981; Accepted January 28, 1982)     

Mechanisms of the acido- and thermophily of Cyanidium caldarium Geitler VI. Some physicochemical properties of acid and heat stable cytochrome c-553

An acid and heat stable cytochrome of c-type was purified froman acidophilic and thermophilic unicellular alga, Cyanidiumcaldarium. Physicochemical properties and acid and heat stabilitiesof the cytochrome were examined and compared with those of mesophilicalgal cytochromes. ¹ Based on a dissertation submitted to the Tokyo MetropolitanUniversity in partial fulfillment of the requirements for thedegree of Doctor of Science. (Received October 24, 1977; )     

Dual roles of ubiquinone as primary and secondary electron acceptors in light-induced electron transfer in chromatophores of Chromatium D.

The effects of isooctane-extraction on the quantum yield ofphotooxidation of cytochromes in chromatophores of Chromatiumvinosum, strain D, were investigated. The initial rate of photooxidation of cytochrome c-555 in theisooctane-extracted chromatophores was decreased by repeatedor prolonged preillumination in the presence of 30 mM ascorbate.The minimum number of light quanta absorbed during preilluminationto cause the maximum decrease in the photooxidation of cytochromec-555 was about 2% of the number of bacteriochlorophyll moleculespresent. In the absence of ascorbate no lowering of the initial rateof cytochrome photooxidation was observed after prolonged orrepeated illumination. No decrease in the initial rate due topreillumination was observed in lyophilized or ubiquinone-readdedchromatophores. The initial rate of photooxidation of both the cytochromes c-555and c-552 in partially isooctane-extracted chromatophores (50–90%extraction of ubiquinone) was also decreased by repeated orprolonged illumination in the presence of 30 mM ascorbate. Our previous and present studies indicate that about 10% ofthe total ubiquinone- 7 functions as the primary electron acceptorfor the photooxidation of cytochrome c-552, and that the majorpart of the ubiquinone functions as the common secondary electronacceptor for the photooxidation of cytochromes c-555 and c-552in Chromalium chromatophores. Therefore, ubiquinone probablyhas dual roles in the light-induced electron transfer of Chromatiumchromatophores. (Received July 23, 1975; )     

Studies on the metabolism of a sulfur-oxidizing bacterium VII. Oxidation of sulfite by a cell-free extract of Thiobacillus thiooxidans

Properties of the cell-free extract, prepared from a strainof Thiobacillus thiooxidans by sonic disruption followed byfractionation with centrifugatiori, were investigated with referenceto its sulfite-oxidizing activity. Without the addition of cofactors the particulate fraction(F-P)catalyzed oxidation of sulfite with oxygen or bacterial cytochromec-552 obtained from Pseudomonas stutzeri as electron acceptor.TMPD reduced by ascorbic acid was also oxidized by F-P. Thesoluble fraction(F-S) showed no activity in oxidizing sulfiteand TMPD, but stimulated TMPD oxidation by F-P. Oxygen uptake with either sulfite or TMPD as substrate was inhibitedby KCN, NaN₃, CO and c-phenanthroline. CO-Inhibition was reversedby light. Reduction of cytochrome c-552 by sulfite was insensitiveto these agents. Antimycin A markedly inhibited sulfite oxidation with eitheroxygen or cytochrome c-552 as electron acceptor, but was withouteffect on TMPD oxidation. DDC and SAO, both strong inhibitors of sulfur oxidation, didnot affect sulfite and TMPD oxidations. Cytochromes of the a, b and c types were contained in F-P. Thesecytochromes were rapidly reduced when F-P was incubated withsulfite. Cytochrome(s) of the c type was present in F-S, too. ¹VI.=References (3) ²Partly supported by a grant from the Ministry of Education ³Present address: Sanyo Women's College, Hatsukaichi, Hiroshima738, Japan ⁴Present address: Department of Biochemistry, Hiroshima UniversitySchool of Dentistry, Hiroshima 734, Japan (Received May 15, 1970; )     

Nitrite-reducing activity of modified cytochrome c-553 from the red alga Porphyra yezoensis Ueda

Crystalline cytochrome c-553 was obtained from Porphyra yezoensisUeda. The cytochrome in areduced form was modified to show anitrite-reducing activity after appropriate treatment with heat,hydrogen peroxide, or photooxidation using methylene blue asthe electron acceptor, but the reducing activity was far lowerthan that of the nitrite reductase isolated from this alga.The modified cytochrome c-553 was autooxidizable and showedan absorption spectrum resembling that of cytochrome c-553 inthe oxidized form except for slight shifts of the absorptionmaximumin the -band region toward shorter wavelengths. ¹ Present address: Department of Biological Sciences, Universityof Tsukuba, Sakura-Mura, Ibaraki, 300-31 Japan. ² Present address: Department of Fisheries, College of Agricultureand Veterinary Medicine, Nihon University, Shimouma, Setagaya-ku,Tokyo, 154 Japan. (Received June 10, 1975; )     

Cytochrome components of green alga, Bryopsis maxima

Five soluble cytochromes were isolated and were partially purifiedfrom Bryopsis maxima: Cytochrome b-562 is slightly autoxidizable and has a midpointredox potential of +175 mV at pH 7.0. Its molecular weight isclose to 30,000 as estimated by dextran gel filtration. Cytochrome b-555 is autoxidizable and can be reduced by dithionitebut not by ascorbate. Cytochrome c-549 is a basic protein. It is slightly autoxidizableand reducible with either ascorbate or dithionite. Cytochrome c-549_(LP) is autoxidizable and reducible with dithionitebut not with ascorbate. The reduced cytochrome combines withcarbon monoxide. Cytochrome c-553 is the f-type one, which was reported by Sugimuraet al. (1968). ¹ This paper is dedicated to the memory of the late Prof. AtusiTakamiya at Toho University. (Received September 10, 1976; )     

Purification of Sulphite-Cytochrome c Reductase of Thiobacillus novellus and Reconstitution of Its Sulphite Oxidase System with the Purified Constituents

Sulphite-cytochrome c reductase (sulphite: ferricytochrome coxidoreductase, EC 1.8.2.1 [EC] ) derived from Thiobacillus novelluswas purified by chromatography on a DEAE-cellulose column andby gel filtration with a Sephadex G-100 column. Although thereductase thus purified moved as a single band both in gel filtrationand in isoelectric focusing it was always split into two bandsby polyacrylamide gel electrophoresis; the one had the enzymaticactivity and showed absorption spectrum of cytochrome, whilethe other had no activity and was colourless, in contrast withthe results reported by Charles and Suzuki [(1966) Biochim.Biophys. Acta 128: 522]. The enzymatic properties of the purifiedreductase were almost the same as those of the enzyme obtainedby Charles and Suzuki. Cytochrome c-551 free of the reductase activity was obtained.Its molecular weight was determined to be 23,000 by polyacrylamidegel electrophoresis in the presence of sodium dodecyl sulphate.The cytochrome seemed to exist in the organism as a complexwith the reductase or a subunit of the enzyme. In the stateof the complex with the enzyme, the cytochrome was reduced veryquickly on addition of sulphite, while the cytochrome free ofthe reductase activity was hardly reduced by the enzyme withsulphite. A sulphite oxidase system was reconstituted with the reductase,cytochrome c-550 and cytochrome oxidase highly purified fromthe bacterium. ¹ Present address: Water Research Institute, Nagoya University,Nagoya 464, Japan ² Present address: Institute for Biological Science, SumitomoChemical Co., Ltd., Takarazuka, Hyogo 665, Japan (Received January 23, 1981; Accepted March 9, 1981)     

Light-induced changes in chlorophyll a fluorescence and cytochrome f in intact spinach chloroplasts: The site of light-dependent regulation of electron transport

Dark-adapted intact spinach chloroplasts exhibited two peaks,P and M₁, at the early phase of fluorescence induction and atransient reduction of cytochrome f shortly after its initialphotooxidation and in parallel to the appearance of P. Analysisof the peak P and the transient reduction of cytochrome f indicatedthat electron transport in intact spinach chloroplasts was regulatedby light: electron transport was inactivated at the reducingside of photosystem I in the dark-adapted chloroplasts but rapidlyreactivated by illumination. The fluorescence peak M₁ was correlatedto the proton gradient formed across the thylakoid membrane. Effects on P and transient reduction of cytochromef of NO₂^–,3-phosphoglycerate (PGA) and oxalacetate (OAA), which can penetrateinto intact chloroplasts and accept electrons at different sitesafter photosystem I, were studied to determine the site of thelight regulation. NC₂^–, which receives electrons fromreduced ferredoxin, markedly diminished both P and the transientreduction of cytochrome.f, whereas PGA and OAA, the reductionsof which are NADP-dependent, failed to affect the two transients.The ineffectiveness of PGA and OAA could not be attributed tothe dark inactivation of glyceraldehyde-3-phosphate and malicdehydrogenases, because dark-adapted chloroplasts still retainedsufficiently high levels of the enzyme activities. The resultsindicate that electron transport in intact spinach chloroplastsis regulated by light after ferredoxin but before NADP, i.e.,at the reducing terminal of the electron transport chain. (Received May 29, 1980; )     

Changes in cytochrome contents and respiratory activity of Bacillus cereus Strain T during germination, vegetative growth and sporulation

Vegetative cells of Bacillus cereus Strain T contain cytochromeb-562, a minor b-type component, in addition to known components,cytochrome a+a₃, cytochrome b-557 and cytochrome c-551. Also,the spores contain low but definite amounts of cytochromes b-562and c-551, which were oxidized when the spores were shaken withair. Contents of cytochromes a, b and c per cell and per cellnitrogen, and the activity of glucose oxidation increased duringspore germination and elongation. During the stage precedingfirst cell division, cytochrome contents per cell increasedin parallel with the increase of cell nitrogen, while the activityof glucose oxidation decreased. During early exponential growth,the content of cytochrome b per cell nitrogen and respiratoryactivity with glucose again increased. When cells entered thesporulation stage, characterized by structural changes insidethe cells, the activity of glucose oxidation began to decrease,while that of acetate or succinate oxidation started to increase.During the sporulation process, the contents of the three cytochromecomponents continued to increase and reached the highest levelin cells containing completed spores, but the activity of respirationwith endogenous or added substrates was negligible in thesecells. (Received November 10, 1975; )     

Purification and properties of cytochrome f from Brassica komatsuna leaves

Cytochrome f was extracted from leaves of Brassica komatsuna(Brassica Rapa L. var. pervidis Bailey) in an aqueous solutionusing methyl ethyl ketone and was purified by the followingsteps: (i) acetone precipitation, (ii) ammonium sulfate fractionation(0.33–0.7 saturation), (iii) DEAE-cellulose column chromatography,and (iv) Sephadex G-100 column chromatography. Characteristic spectroscopic properties and the midpoint potentialof the cytochrome were essentially identical with those of thecytochrome f from parsley reported by Bendall et al. Molecular weight of the cytochrome determined by gel filtrationwas close to 32,000 and it contained one haem per molecule ofprotein. The ferro-cytochrome was oxidized by potato polyphenol oxidasein the presence of chlorogenic acid. Under light-aerobic conditions, the ferro-cytochrome was rapidlyoxidized by the chlorophyll-protein CP743 from Chenopodium albumin the presence of menadione. Under light-anaerobic conditions,the oxidized cytochrome was reduced at a considerable rate. ¹ Cytochrome c₆ according to the enzyme nomenclature recommendedby I.U.P.A.C.-I.U.B. (5). (Received November 7, 1974; )     

Effects of growth conditions on formation of cytochrome system of a denitrifying bacterium, Pseudomonas stutzeri

Cytochrome systems in cells of a denitrifying bacterium, Pseudomonasstutzeri (VAN NIEL strain), grown under different atmosphericconditions were compared with reference to the effects of nitrateand nitrite on cytochrome synthesis. When a culture was sufficiently aerated (aerobic conditions),synthesis of all cytochrome components was repressed, regardlessof the presence or absence of nitrate and nitrite. When aeratedmoderately (semi-aerobic conditions), both soluble and paniculatecytochromes c-552 and cytochrome b-558 contents markedly increasedeven in the absence of nitrate and nitrite. Under anaerobic or semi-aerobic conditions, nitrite inducedcytochrome a₂–c synthesis. This inductive effect of nitritewas counteracted by nitrate. Nitrate also repressed particulatecytochrome c-552 synthesis to some extent but nitrite did not. ¹Present address: Department of Biochemistry, Hiroshima UniversitySchool of Dentistry, Hiroshima, Japan (Received June 24, 1969; )     

Oxidation Rate of Monomeric Radish Cytochrome f with Plastocyanin

The reaction rate of reduced monomeric cytochrome f with oxidizedplastocyanin, both purified from Japanese radish, was determinedby a stopped-flow method. The oxidation rate constant was 6.0x 10⁷ M¹sec¹ at pH 7.0 and 25°C, which is slightly higherthan the value reported by Wood [(1974) Biochim. Biophys. Acta357 : 370] for oligomeric parsley cytochrome f Thermodynamicparameters also were determined to be 56 KJ M^–1 for activationenthalpy and 90 J M^–1 K^–1 for activation entropy.Neither a pH from 6 to 9 nor the addition of NaCl, polylysine,histone or polyaspartate affected the rate constant. ¹Present address: The National Institute for Environmental Studies,Yatabe, Ibaraki 305, Japan. (Received October 9, 1980; Accepted November 17, 1980)     

Isolation of the Photoactive Reaction Center Complex that Contains Three Types of Fe-S Centers and a Cytochrome c Subunit from the Green Sulfur Bacterium Chlorobium limicola f. thiosulfatophilum, Strain Larsen

The photoactive reaction center (RC) complex from the greensulfur bacterium Chlorobium limicola f. thiosulfatophilum, strainLarsen, was isolated after solubilization and ammonium sulfatefractionation followed by ion-exchange chromatography. The spectrumof the complex was almost identical with that of the similarRC complex isolated by Feiler et al. [(1992) Biochemistry 31:2608–2614] except for the presence of cytochrome c₅₅₁instead of c₅₅₃ in the latter study. A molecular ratio of BChla to P840 of the isolated RC complex was assayed to be 25–35.SDSPAGE analysis revealed that the isolated complex containedthree major polypeptides with apparent molecular masses of 68,41 and 21 kDa, respectively. The 21-kDa polypeptide was identifiedto be a heme-binding protein by staining the gel for peroxidaseactivity. The cytochrome c₅₅₁ was oxidized by flash light ina biphasic manner with half times of 90 and 390 µs, respectively,that coincided with the reduction half times of P840⁺. Threedistinct iron-sulfur centers assigned to F_A, F_B and F_x, respectively,from their g-values were detected by EPR spectroscopy at cryogenictemperature. These results suggest that the present preparationcontains a minimal functional unit of the RC of this bacterium,and that this complex appears to lie on a evolutionary linebetween RC's of purple bacteria and photosystem I. (Received August 18, 1992; Accepted October 28, 1992)     

Accumulation of Demolybdo Nitrate Reductase during Induction and Its Separation from Active Nitrate Reductase in Chlorella

During induction of nitrate reductase in Chlorella vulgaris,synthesis of the precursor, demolybdo cytochrome c reductase,exceeds the synthesis of active enzyme. Evidence is also presentedwhich shows that the purification procedure of Funkhouser etal. [(1980) Plant Physiol. 65: 939] separates demolybdo cytochromec reductase from active nitrate reductase. ¹Supported in part by a grant to B. V. from the Deutsche Forschungsgemeinschaftand a contribution of the Texas Agricultural Experiment Station. (Received July 27, 1983; Accepted September 13, 1983)