Identification of 2,4-D-responsive proteins in embryogenic callus of Valencia sweet orange (<Emphasis Type="Italic">Citrus sinensis</Emphasis> Osbeck) following osmotic stress

The compound 2,4-Dicholorophenoxyacetic acid (2,4-D) is an important growth regulator which is used in the majority of embryogenic cell and tissue culture systems. However, 2,4-D also appears to have a negative effect on growth and development of plant tissues and organs cultured in vitro. For example, 2,4-D exerts inhibition on in vitro somatic embryo initiation and/or development of most citrus species. To understand the molecular mechanism by which 2,4-D inhibits somatic embryogenesis (SE), proteomic changes of Valencia sweet orange (Citrus sinensis) embryogenic callus induced by treatments with a high concentration of 2,4-D (6 mg l⁻¹) was investigated. Nine 2,4-D-responsive proteins were identified, of which eight were up-regulated and one was down-regulated. Interestingly, three of the eight up-regulated proteins were osmotic stress-associated, suggesting that 2,4-D induced osmotic stress in Valencia embryogenic callus. This speculation was supported by results from our physiological studies: 2,4-D treated callus cells exhibited increased cytoplasm concentration with a significant reduction in relative water content (RWC) and an obvious increase in levels of two osmolytes (proline and soluble sugar). Taken together, our results suggested that 2,4-D could inhibit somatic embryo initiation by, at least in part, inducing osmotic stress to citrus callus cells.     

Somatic Embryogenesis and Plant Regeneration from Cultured Leaf Explants of Zea mays

Young leaf segments of Zea mays L. seedlings were cultured onMurashige and Skoog's basal nutrient medium supplemented with2 mg l^–1 2, 4-D and sub-cultured on medium containing8 mg l^–1 2,4-D. Two types of callus tissues appeared—embryogenicand non-embryogenic. The embryogenic callus tissue producednumerous somatic embryos which on transfer to media containinglow amounts of 2,4-D or ABA produced plantlets. Callus tissuesexhibited embryogenic potential for more than 1 year. Zea mays L. cv. Ageti-76, Zea mays L. cv. N-L-D-Comp., maize, leaf, callus, somatic embryogenesis, regeneration     

Growth and tropane alkaloid production inAgrobacterium transformed roots and derived callus ofDatura

Small callus pieces excised from theAgrobacterium transformed root line D₂ ofDatura stramonium, were cultured onto solidified MS medium supplemented with a 1.0 μM kinetin and three different concentrations (0.1, 0.5 and 1.0 μM) of 2,4-dichlorophenoxyacetic acid (2,4-D), and were examined for their alkaloid productivity in relation to organization level and growth rate. Growth of transformed roots (in a MS liquid medium without plant growth regulators) was greater than that of transformed calli excised from them and cultured separately. The addition of 1.0 μM 2,4-D to the culture medium had a positive effect on callus biomass production, while it inhibited root formation by this tissue (the lower the 2,4-D concentration in the medium the greater the number of roots which emerged from the calli). Hyoscyamine production was also higher in the transformed roots than in the transformed calli, and in these tissues the production of hyoscyamine was positively correlated with organogenesis index (i.e. its ability for rooting). At the same time, the epoxidation of hyoscyamine to scopolamine only took place in the transformed calli. This occurred to a greater extent at the lower concentrations of 2,4-D in the culture medium. The mode through which the 2,4-D could control the alkaloid production of transformed callus is discussed.     

Somatic Embryogenesis from Clonal Leaf Tissues of Cassava

Leaf lobes were isolated from palmate leaves of clonal cassava(Manihot esculenta Crantz) material growing in vitro or in glasshouseconditions and subjected to a two-stage culture procedure involvingincubation on Murashige and Skoog (MS2) basal medium supplementedwith 2–12 mg l^–1 2,4-D for 20 d (Stage I) beforetransfer to MS2 basal medium supplemented with 0.01 mg l^–12,4-D and 0.1 mg l^–1 6-benzylamino purine (BAP) (StageII medium). Embryogenetic tissues, foliose structures and somatic embryosdeveloped from leaf lobes at all Stage I 2,4-D concentrations,except on those explants isolated from shoot-tip cultures incubatedon MS2 basal medium supplemented with 0.1 mg l^–1 NAA and1.0 mg l^–1 BAP. Leaf lobes isolated directly from glasshouse plants showed optimalembryogenetic competence when subjected to a Stage I cultureperiod of 17 d, although foliose structure initiation was optimalwith shorter Stage I durations. Leaf lobes of 2–4 mm lengthand those isolated from phyllotaxic leaf numbers 4 and 5 showedthe greatest embryogenetic competence. Manihot esculenta, cassava, somatic embryogenesis, tissue culture, morphogenetic competence     

Ethylene and Ethane Production in 2,4-D Treated and Salt Treated Tobacco Tissue Cultures

Gas chromatography was used to measure ethylene (ethene) andethane production by tobacco (Nicotiana tabacum cv. Wisconsinno. 38) callus tissues grown on media containing inorganic saltsaccording to Murashige and Skoog (1962), sucrose, myo-inositol,thiamine-HCl kinetic according to Linsmaier and Skoog (1965),and either 2,4-dichiorophenoxyacetic acid (2,4-D) in the range0–100 mgl^–1 or 2 mgl^–1 indoi-3-ylacetic acidplus NaCl in the range 0–200 Meq l^–1. Ethylene productionrates were high (> 500 nl h^–1 g^1– fresh weight)initially in all treatments. Subsequently, ethylene productiondeclined in rapidly growing cultures but remained high in moderatelyand severely 2,4-D (> 0·5 mgl^–1) stressed andin severely NaCl (150 Meql^–1) stressed cultures. Highinitial rates of ethane production (> 200 nl h^–1 g^–1fresh weight) were obtained under conditions of severe stresscaused by 2,4-D or NaCl but not in control or moderately inhibitedcultures. With further incubation ethane production declinedin the severely stressed cultures. It is concluded that ethyleneproduction can be used as an index of moderate 2,4-D stressand severe NaCl stress by virtue of the high persisting ratesof ethylene production in stressed cultures. Ethane productioncan be used as an early index of severe stress caused by either2,4-D or NaCl in vitro. Nicotiana tabacum L., tobacco, ethylene, ethenen, ethane, 2,4-dichlorophenoxyacetic acid, auxin, stress, callus tissue     

Somatic Embryogenesis in Cassava: The Anatomy and Morphology of the Regeneration Process

Anatomical and morphological studies demonstrated that somaticembryos developed similarly on mature seed and clonal leaf explantsof cassava (Manihot esculenta Crantz) cultured for 20–24d on Murashige and Skoog (MS2) basal medium supplemented with4.0 mg l^–1 2,4-D (Stage 1) before transfer to MS2 basalmedium supplemented with 0–01 mg l^–1 2,4-D and 0–1mg l^–1 6-benzylaminopurine (Stage II medium). Within 7d of inoculation onto Stage I medium, cell divisions occurredin the adaxial tissues of cotyledon-piece and leaf-lobe explants,and associated with this was the development of embryogeneticprotusions and ridges on the adaxial surface. Foliose structuresand somatic embryo initials developed from these tissues oncotyledon, embryonic axis and leaf-lobe explants and, when cultureswere transferred to Stage II medium, further somatic embryodevelopment occurred. Somatic embryos apparently originatedfrom groups of cells and were identified by the presence ofa closed root axis, a shoot axis and cotyledons of similar shapeand venation to those of zygotic embryos. Somatic embryos hadno vascular connection with parental cultures. Manihot esculenta, cassava, somatic embryogenesis, tissue culture, anatomy, morphology, morphogenesis     

On the occurrence of a high content of cytokinins in rice callus tissues

Rice callus tissues contained at least three active cytokinincompounds: zeatin, its riboside and N⁶-(²-isopentenyl) adenosine.These butanol-extractable cytokinins were identified by theirchromatographic mobilities in Sephadex LH-20, paper and gaschromatography. Zeatin, the apparent major cytokinin, was presentat concentrations of 0.7 to 1.0 µg/g fresh tissue and1.3 to 1.7 µg/g fresh tissue in 10^–7 M and 10^–55M 2,4-D callus, respectively. On the basis of these and earlierresults, the induction and growth of rice callus tissue is discussedin relation to the occurrence of cytokinins in the tissue. (Received December 27, 1978; )     

Factors Affecting Growth and Aggregate Dissociation in Batch Suspension Cultures of Datura innoxia (Miller)

Growth kinetics of Datura innoxia batch suspension cultureswen monitored by a Klett-turbidimetric technique. While cultured. wt varied linearly with Klett units, f. wt and packed cellvolume did not. Turbidimetrically determined doubling timeswere highly reproducible. The method proved to be useful inthe determination of acutely lethal conantrations of a seriesof anti-metabolites. In certain circumstances, aggregate dissociation in batch suspensioncultures of D. innoxia was found to be coupled to growth rate.Suspensions maintained with 10^–5 M 2,4-D exhibited a relativelyslow growth rate with a high degree of aggregate dissociation:10^–4 M 2,4-D promoted a maximum growth rate, but dramaticallysuppressed aggregate dissociation. At 10^–5 M 2,4-D, themitotic index of smaller-aggregate fractions was greater thanthe mitotic index of the large-aggregate fraction. At 10^–5M 2,4-D the converse was observed. Supraoptimal 2,4-D concentrationsthus enhanced both aggregate dissociation and the growth ofsmaller aggregates. When present in concentrations promoting optimal growth. malicand succinic acids caused a decrease in aggregate dissociation.Casein hydrolysate dramatically enhanced growth, but did notaffect aggregate dissociation to the same degree as 2,4-D orthe Krebs cycle organic acids. Suggestions are made concerningmedium composition to be used in future mutant selection schemesusing D. innoxia. Datura innoxia (Miller), suspension culture, growth kinetics, mitotic index, 2,4-dichorophenoxy acetic acid     

Studies on the Growth in Culture of Plant Cells: XX. UTILIZATION OF 2,4-DICHLOROPHENOXYACETIC ACID BY STEADY-STATE CELL CULTURES OF ACER PSEUDOPLATANUS L

Omission of 2,4-dichlorophenoxyacetic acid (2,4-D) from batchcultures of sycamore produced an immediate reduction in ratesof cell division and eventually in rates of biomass accumulation.The sequential responses of a chemostat and of turbidostat culturessubjected to gradual withdrawal of 2,4-P were: (i) a transientincrease in biomass accumulation, (ii) increased accumulationof p-coumaric acid, flavonoids, and lignin, (iii) increasedcell aggregation, (iv) reduced rates of cell division, and (v)death. During stepwise reduction of 2,4-D supplied to turbidostatcultures, rates of 2,4-D uptake were reduced when the spentmedium concentration fell to 3?5–1?0 ? 10^–7 M. Underthese conditions the 2,4-D concentration in soluble and insolublecell fractions declined. The growth responses were correlatedwith the spent-medium 2,4-D concentration but not with its concentrationin the intracellular fractions.     

Regeneration of Salvia sclarea via organogenesis

Summary The present work provides a system for regeneration of clary sage, (Salvia sclarea L.) via organogenesis using plant tissue culture techniques in a multistage culturing medium containing 2,4-dichlorophenoxyacetic acid (2,4-D) (9.05–181.00 μM). A higher frequency of organogenic tissue initiation was obtained from immature zygotic embryo cotyledons (IZEC) 2–3 wk after pollination on the medium supplemented with 9.05 μM 2,4-D. The organogenic tissues were then proliferated on media containing both indole-3-acetic acid (IAA) and 6-benzylaminopurine (BA). Organogenic lines were established via selection, isolation and continuous subculture of organogenic tissues on a medium containing 22.19 μM BA and 2.85 μM IAA. Shoots were regenerated from both the proliferated tissues and IZEC, and propagated in the presence of IAA or α naphthaleneacetic acid (NAA), BA and gibberellic acid (GA₃). Although roots were induced from regenerated shoots on the media containing a low concentration of IAA, IBA (0.98 μM) in combination with desiccation of regenerated shoots with a stem ∼10 mm in length promoted more and stronger root formation. After the root system was well established (20 mm in length), the regenerated plants were transferred to soil in plastic pots for further growth and production of R1 seeds in the greenhouse.     

Induction of DNA synthesis and callus formation from tuber tissue of Jerusalem artichoke by 2,4-dichlorophenoxyacetic acid

Cellus induction was observed from Jerusalem artichoke tubertissue on a synthetic medium containing 2,4-D at 10^–6,10^–5 (optimum conc.) and 10^–4 M. The first DNA synthesis(thymidine incorporation) was observed only at 2,4-D concentrationsof 10^–5 to 10^–4M. In 10^–5 M 2,4-D treatedtissue, DNA synthesis increased after a 20 hr lag and reacheda maximum at 36 hr, after which it decreased. Actinomycin Dand 8-aza-guanine; inhibitors of RNA synthesis, inhibited DNAsynthesis completely. 2,4-D caused the characteristic changesin RNA and protein syntheses. In comparison with the control,RNA and protein syntheses were first repressed then inducedbefore the peak of DNA synthesis. Treatment with cycloheximide(10^–4M) for one hour before inoculation inhibited proteinsynthesis completely for 12 hr; consequently DNA synthesis wasalso delayed. The results suggest that RNA and protein synthesesneeded for callus induction are regulated by 2,4-D in the firstDNA synthesis. (Received July 19, 1973; )     

Wheat Callus Culture: the Initiation, Growth and Organogenesis of Callus Derived from Various Explant Sources

Callus was obtained from mature excised embryos of wheat, fromnodal and internodal stem segments and from rachis segmentsusing the medium of Murashige and Skoog(1962)(M medium), containing1-0mg l^–1 2,4-D, and from immature embryos using the mediumof Green and Phillips (1975) containing 2 mg l^–1 2,4-D.Callus yield from mature embryos depended upon the cultivarused. No callus could be obtained from leaf segments. Callusderived from mature embryos and nodal stem segments was successfullymaintained by serial sub-culture on the M medium containing2,4-D for up to 3 years although its growth rate declined toa lower level as culture proceeded. Such cultures consistently produced roots when transferred toa medium containing a low level of 2,4-D or no 2,4-D. The presenceof the auxin was essential for continued proliferation of thecallus tissue. Shoot initiation was infrequent, did not occurafter the first few sub-cultures and could not be enhanced byvarious auxin and cytokinin additions to the medium. Callusderived from immature embryos did not have an enhanced potentialfor shoot initiation. Triticum aestivum, wheat, callus culture, organogenesis     

Some Physiological Responses of Chlorella pyrenoidosa to 2,4-Dichlorophenoxyacetic Acid

An 18-h treatment of synchronously-grown Chlorella pyrenoidosawith 2,4-D did not significantly alter the size, dry weight,degree of synchrony, or pigment content of the cells, nor weredetectable quantities of ethylene produced. When Chlorella pyrenoidosawas treated with 5?10^–4 M 2,4-D, there was a statisticallysignificant stimulation of both net oxygen uptake and productionwhile 5?10 M 2,4-D inhibited both processes. When Chlorellapyrenoidosa was treated with 5?10^–4 M and 5?10^–3M 2,4-D, significantly greater amounts of glycollate were presentin the culture medium, even though an assay for glycollate dehydrogenaseshowed that the activity of this enzyme from 2,4-D-treated Chlorellapyrenoidosa was three times greater than in control cells. Looselybound 2,4-D was partitioned from a nonaqueously isolated chloroplastfraction, while other cell fractions failed to show detectablequantities of 2,4-D. It is postulated that in Chlorella pyrenoidosathe chloroplast is a target for 2,4-D action and that interferencein photorespiratory processes may underlie the observed responses.     

<Emphasis Type="Italic">Cupressus</Emphasis> callus and cell suspension cultures: Effect of seiridins on their growth and sensitivity

Summary Cupressus macrocarpa and C. arizonica were examined for callus and cell culture production in vitro. Both species produced callus on agar-solidified MSCY medium supplemented with vitamins, antioxidants, 0.14 μM kinetin (KIN), and 10 μM 2,4-dichlorophenoxyacetic acid (2,4-D). Suspension cultures of both species were established in liquid MSCY medium. Seiridin (SE) and iso-seiridin (ISE), two phytotoxic butenolides produced by Seiridium cardinale, S. cupressi, and S. unicorne, the causal agents of many canker diseases of cypress, were tested on callus or cell suspension cultures. In the medium without other plant growth regulators (PGR), SE promoted cell proliferation of cypress better than ISE, for callus initiation, callus maintenance, and cell suspension cultures. The growth rates of cypress callus tissues and suspension cultures of both cypress species on media containing 50–150 μM SE or ISE were measured. At concentrations of 50 μM and higher, growth rates increased exponentially with the SE concentration. A comparison with KIN and 2,4-D indicated that 50 μM SE promoted growth of callus tissues and cell suspension cultures more than 100 μM ISE. SE can also interact with, or counteract, KIN and 2,4-D. It was demonstrated that SE could replace KIN in the medium for C. arizonica. SE could be involved in cell enlargement and proliferation processes. The less susceptible cypress species (C. arizonica) had a high content of terpenoids than that of the more susceptible species (C. macrocarpa). SE could be a useful tool as a phytohormonal-like regulator to manipulate physiological changes at the cellular level and as an elicitor of sensitivity or tolerance of cypress germplasm to the phytotoxin.     

Haploid Plantlet Formation from Female Gametophytes of Ephedra foliata Boiss. in vitro

Female gametophytes (at the archegonial stage) excised fromyoung ovules of Ephedra foliata Boiss, were cultured on a basalmedium (Murnshige and Skoog's combinations of major and minorsalts, Iron source, vitamins, myo-inositol along with 2 percent sucrose and 10 per cent coconut milk) under aseptic conditions.Growth and morphogenetic responses of the explants to auxinswere compared at different concentrations and a study of theirinteractions with cytokinins has also been made. At 2 mg 1^–1,2, 4-D induced profuse callusing which subsequently producedroots. NAA at 4 mg 1^–1 was optimal for callus growth androoting. Combinations of 2,4-D and kinetin were more effectivein inducing roots and shoot buds than those of 2,4-D and benzylamino-purine (BAP). Addition of BAP (0.05 mg ^1–1) to themedium containing optimal concentrations of NAA resulted information of a large number of roots. Kinetin induced only rootingin the presence of 4 mg 1^–1 NAA. A high concentrationof BAP (8 mg 1^–1), stimulated shoot bud formation. Forthe further development of shoot buds, neither auxin nor cytokininwas needed. Cytological observations revealed the presence ofhaploid number of chromosomes, i.e. seven. Ephedra foliata, tissue culture, callus, regeneration, 2,4-dichlorophenoxyacetic acid, naphthalene acetic acid, kinetin, benzyl amino-purine     

Biochemical profile of callus cultures of <Emphasis Type="Italic">Pogostemon cablin</Emphasis> (Blanco) Benth

Patchouli is an aromatic shrub of commercial interest because its essential oil is rich in patchoulol. This study aimed to evaluate the effect of growth regulators on callus production, analyze the essential oil production in calli and evaluate metabolic differences between callus, in vitro grown-plantlets and greenhouse-grown plants in three different accessions of patchouli. Calli were induced from leaf explants on media supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) in combination with 6-benzyladenine (BA). The largest size calli from different accessions were obtained in the presence of the two plant growth regulators (PGRs). For accession POG014, presence of 0.022 mg l⁻¹ 2,4-D plus 0.022 mg l⁻¹ BA were optimum. For accession POG021, presence of 0.110 mg l⁻¹ 2,4-D plus 0.022 mg l⁻¹ of BA induced the largest callus, whereas for accession POG002, 0.022 mg l⁻¹ 2,4-D and 0.225 mg l⁻¹ BA, as well as 0.11 mg l⁻¹ 2,4-D and 0.022 mg l⁻¹ BA promoted the development of largest callus. Among all accessions, peroxidase activity was highest in organogenic calli of accession POG014, whereas, polyphenol oxidase activity was highest in in vitro-grown plantlets of accession POG021. Biochemical variables differed significantly among the treatments, with the exception of total sugar levels. The highest concentrations of total sugars were observed in the calli and in vitro-grown plantlets of POG014 and POG021. Essential oils were not detected in callus tissues.     

Tissue cultures of Artemisia pallens: Organogenesis,terpenoid production

Germinated seedlings of Artemisia pallens gave three types of cultures on MS medium supplemented with different plant growth hormones. Medium containing BA+2,4-D stimulated unorganized callus; BA+IAA medium, semi-organized tissues interspersed with shoot buds; and BA+NAA+IAA medium, multiple shoot cultures. The in vitro shoots developed roots in medium devoid of growth hormones. TLC and GLC analysis of the tissue extracts showed that linalool was present in the cultured tissues, with maximum concentration in the unorganized tissue. Although the TLC profiles of the three culture extracts were similar, the extracts did not contain the major polar compounds of the plant. The plant extracts contained more polar compounds and gave the characteristic fragrance of davana.Abbreviations MS Murashige & Skoog's basal medium - BA benzyladenine - Kn kinetin - NAA naphthaleneacetic acid - IAA indoleacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - PCV packed cell volume     

Differential Responses of Buckwheat Leaf Cells to Growth Substances Stimulating Cell Division

Isolated buckwheat cotyledons form calli, roots or buds whencultured in an appropriate medium. A medium containing high2,4-D (5 mg 1^–1) and low KN (01 mg I^–1), which inducescallus formation, was found to stimulate cell division in thelayer between palisade and spongy parenchyma tissue after 72h. Low 2,4-D and low KN (01 mg I^–1 each), which stimulatesroot formation in buckwheat cotyledons, induces divisions primarilyin spongy parenchyma cells. In a high benzylaminopurine (10^–5M) and a low IAA (10^–6 M) medium, which favours bud induction,cell divisions were localized to the palisade layer. The differentialresponsiveness of leaf cells to various hormone treatments isdiscussed.     

Membrane Potential of Cultured Carrot Cells in Relation to the Synthesis of Anthocyanin and Embryogenesis

Membrane potentials of cultured carrot cells in culture mediumwere about –40 mV and did not change with addition ofsalts of addition (or depletion) of 2,4-dichlorophenoxyaceticacid (2,4-D). When the measurement was performed in the testmedium (containing low concentration of salts), the values werewidely distributed (from –60 to –110mV) and changedlargely with external concentration of K⁺ but not Mg²⁺ nor Ca²⁺.When the cells were fractionated by Ficoll density gradientcentrifugation, the membrane potential of the cells of higherdensity (> 14% Ficoll) was about –150 mV in the testmedium and did not change during embryogenesis with depletionof 2,4-D. The membrane potential of cells of lower density (bandingbetween 6– 10% Ficoll) was less negative (– 60 to– 110 mV) in the test medium. When these cells were transferredand cultured in medium containing zeatin but lacking 2,4-D,the membrane potential was shifted negatively by about 15 mVprior to anthocyanin synthesis. When 2,4-D was added to anthocyanin-synthesizingcells in the medium containing zeatin, a transient hyperpolarizationand subsequent depolarization of the membrane were observedprior to the inhibition of anthocyanin synthesis. (Received October 22, 1987; Accepted April 20, 1988)     

Changes in Activities of Enzymes Involved in General Phenylpropanoid Metabolism during the Induction and Reduction of Anthocyanin Synthesis in a Carrot Suspension Culture as Regulated by 2,4-D

The activities of enzymes involved in general phenylpropanoidmetabolism were followed in a carrot suspension culture duringthe induction and reduction of anthocyanin synthesis regulatedby 2,4-D. When no anthocyanin synthesis occurred in a mediumcontaining 2,4-D (+2,4-D medium), the activities of phenylalanineammonia-lyase (PAL) and 4-coumarate:CoA ligase (4CL) increased1 day after transfer due to the transfer effect, but subsequentlydecreased and remained at a low level. Cinnamate-4-hydroxylase(C4H) activity showed a low level throughout culture. When cellswere transferred to a medium lacking 2,4-D (–2,4-D medium),the activities of PAL, C4H and 4CL increased and maximum activitiesof these enzymes were observed 6–7 days after transfer,when anthocyanin was most rapidly synthesized. When cells were cultured in the –2,4-D medium, the additionof 2,4-D immediately reduced the induced activity of PAL. PALactivity was super-induced by the transfer effect, while anthocyaninsynthesis decreased. The addition of intermediates of generalphenylpropanoid metabolism, with 2,4-D, to the medium 6 daysafter transfer to the –2,4-D medium did not promote anthocyaninsynthesis, whereas dihydroquercetin did promote it. Regulationof anthocyanin synthesis by 2,4-D is discussed in relation tochanges in enzyme activities involved in general phenylpropanoidmetabolism. ¹ Present address: Cell Science and Technology Division, FermentationResearch Institute, Agency of Industrial Science and Technology,Yatabe-machi, Ibaraki 305, Japan. ² Present address: Biological Institute, Faculty of Science,Tohoku University, Sendai 980, Japan.