Cytokinin-induced changes in the chlorophyll content and fluorescence of in vitro apple leaves

Cytokinins (CKs) are one of the main regulators of in vitro growth and development and might affect the developmental state and function of the photosynthetic apparatus of in vitro shoots. Effects of different cytokinin regimes including different types of aromatic cytokinins, such as benzyl-adenine, benzyl-adenine riboside and 3-hydroxy-benzyladenine alone or in combination were studied on the capacity of the photosynthetic apparatus and the pigment content of in vitro apple leaves after 3 weeks of culture. We found that the type of cytokinins affected both chlorophyll a and b contents and its ratio. Chlorophyll content of in vitro apple leaves was the highest when benzyl-adenine was applied as a single source of cytokinin in the medium (1846–2176 μg/1 g fresh weight (FW) of the leaf). Increasing the concentration of benzyl-adenine riboside significantly decreased the chlorophyll content of the leaves (from 1923 to 1183 μg/1 g FW). The highest chl a/chl b ratio was detected after application of meta-topolin (TOP) at concentrations of 2.0 and 6.0 μM (2.706 and 2.804). Chlorophyll fluorescence was measured both in dark-adapted (F_v/F_m test) and in light-adapted leaf samples (Yield test; Y(II)). The maximum quantum yield and efficiency of leaves depended on the cytokinin source of the medium varied between 0.683 and 0.861 (F_v/F_m) indicating a well-developed and functional photosynthetic apparatus. Our results indicate that the type and concentration of aromatic cytokinins applied in the medium affect the chlorophyll content of the leaves in in vitro apple shoots. Performance of the photosynthetic apparatus measured by chlorophyll fluorescence in the leaves was also modified by the cytokinin supply. This is the first ever study on the relationship between the cytokinin supply and the functionability of photosystem II in plant tissue culture and our findings might help to increase plantlet survival after transfer to ex vitro conditions.     

Growth and triterpenic acid accumulation of Cyclocarya paliurus cell suspension cultures

Cyclocarya paliurus is a unique plant growing in central China with hypoglycaemic and hypolipaemia effects. To make better use of this functional food resource, cell suspension cultures and triterpenic acid accumulation were studied. Stable and uniform cell suspension cultures were established in liquid basal Murashige and Skoog medium supplemented with 2,4-dichlorophenoxy acetic acid (0.5 mg/L), naphthalene acetic acid (0.3 mg/L) and cytokinin (1.0 mg/L). According to the growth curve and triterpenic acid accumulation curve, the 8 ～ 10^th day postinoculation was the optimum time for subculture, and the 14^th day was the optimum time for harvest. Murashige and Skoog medium and woody plant medium were suitable for both cell growth and triterpenic acid accumulation. 3% sucrose (w/v), 60 mM total nitrogen (NO₃ ^?/NH₄ ⁺ = 2/1), 1.25 mM KH₂PO₄, 2 mM CaCl₂, and 2 mM MgSO₄ were all found to be fit for cell growth and triterpenic acid accumulation in a cell suspension culture of Cyclocarya paliurus. Total triterpenic acid, ursolic acid and oleanolic acid content in suspended cultured cells were all significantly higher than that of leaves and calluses (P ? 0.01), with levels up to 6.24, 2.28, and 0.94% (of dry weight), respectively. The betulinic acid content of suspended cultured cells also reached 0.82%, which was significantly higher than that of calluses. These results suggest that suspended cultured cells of Cyclocarya paliurus were rich in triterpenic acids and could be used for the production of total triterpenic acid, ursolic acid, oleanolic acid and betulinic acid.     

Chloroplast and Cytosol Isozymes of Cu,Zn-Superoxide Dismutase: Their Characteristic Amino Acid Sequences

lsozymes of CuZn-superoxide dismutase (SOD) were purified from angiosperms (spinach and rice), fern (horsetail) and green alga (Spirogyra). Occurrence of CuZn-SOD was confirmed by its purification in the group of green algae which shows the phragmoplast type of cell division. Purified CuZn-SODS are divided to chloroplast and cytosol types by their cellular localization and immunological properties. Their amino acid compositions, absorption spectra, CD spectra, and sensitivity to hydrogen peroxide also are distinguished from each other. All organisms including Spirogyra contain both types of isozyme. Thus, the divergence of the two types of CuZn-SOD isozyme occurred immediately after its acquisition by the most evolved green algae.

Amino acid sequences of amino-terminal regions of CuZn-SOD isozyrnes from spinach, rice and horsetail were determined and compared with those of CuZn-SODS from other plants. The chloroplast and cytosol isozymes of CuZn-SOD show each characteristic sequences. Sequence differences among the cytosol CuZn-SODS are greater than those among the chloroplast CuZn-SODS. These observations indicate that each type of isozyme had independently evolved after the acquisition of CuZn-SOD.     

Induction and in vitro alkaloid yield of calluses and protocorm-like bodies (PLBs) from Pinellia ternata

This study investigated the induction and in vitro alkaloid yield of calluses and protocorm-like bodies (PLBs) from Pinellia ternata (Thunb.) Berit (Araceae). We planned to use this material in future studies related to the mass production of medicinally valuable compounds and regulation of alkaloid metabolism. Different combinations of 2,4-dichlorophenoxyacetic acid (2,4-D), 6-benzyladenine (6-BA), kinetin (Kin), and α-naphthaleneacetic acid (NAA) were used to induce callus and PLB formation from P. ternata tuber explants. The results showed that three physiologically distinct calluses were induced by different combinations of 2,4-D, 6-BA, and Kin used in this study. The calluses differed in color, texture, differentiation status, and alkaloid content. The alkaloid content of the three calli types ranged from 0.0175% to 0.0293%. In comparison, the alkaloid content of field-grown tubers was 0.0072%. Many reports have indicated that 2,4-D suppresses the biosynthesis of secondary metabolites; however, our results show that 2,4-D promoted alkaloid production in Pinellia calluses. The combination of NAA?+?6-BA induced PLB formation. The PLB alkaloid content of 0.0321% was 1.1 to 1.8 times higher than the alkaloid content of the calluses and 4.5 times higher than the field-grown tubers. In conclusion, the induction of calluses and PLBs with alkaloid content greater than that of field-grown tubers indicates the potential use of these tissue culture materials for bioprocessing alkaloids from P. ternata and for the study of alkaloid metabolism.     

Variations in endogenous polyamine content of maize calli obtained from zygotic and androgenetic embryos

A comparative study of polyamine (putrescine, spermidine and spermine) levels was conducted with maize calli originating from a) immature embryos and b) pollen embryos capable of plant regeneration. The differences observed in the studied parameters of the two kinds of calluses are related to their cellular origin and to their regeneration capacity. Moreover, only the calluses proceeding from immature embryos differentiated into preembryogenic structures, which eventually developed into plants. Although total polyamine levels in pollenderived calluses were significantly higher than those from immature embryos, spermidine and spermine were the predominant polyamines in both culture types. Furthermore, polyamine fractions of these calluses also showed differences. All these phenomena may be related with the differences observed in the callus embryogenic response. These findings may be useful in understanding the implication of polyaminesin embryogenetic processes.Abbreviations IEC immature-embryo calluses - PAs polyamines - PEC pollen-embryo calluses - PH insoluble conjugated PA fraction - Put putrescine - S free PA fraction - SH soluble conjugated PA fraction - Spd spermidine - Spm spermine 2,4d-2,4 dichlorophenoxyacetic acid     

Effects of plant growth regulators on callus formation, growth and regeneration in axenic tissue cultures of Gracilaria tenuistipitata and Gracilaria perplexa (Gracilariales, Rhodophyta)

The effects of auxins and cytokinin on callus formation, growth and regeneration of Gracilaria tenuistipitata Chang et Xia and G. perplexa Byrne et Zuccarello (Gracilariales, Rhodophyta) are reported. Plant growth regulators (PGR) in concentrations ranging from 0.1 to 100.0 μmol of indole‐3‐acetic acid, 2,4‐dichlorophenoxyacetic acid (2,4‐D), and kinetin (K) were added to the ASP 12‐NTA solid medium (0.7% agar), and apical and intercalary segments (5 mm long) were inoculated as initial explants. K stimulated growth rates of intercalary segments of G. tenuistipitata in a linear relation, and 2,4‐D (1.0 μmol) and K (10.0 μmol) stimulated growth rates of apical and intercalary segments of G. perplexa, respectively. The simultaneous formation of apical, basal, and intermediate calluses is reported for the first time in axenic tissue cultures of red algae. With intercalary segments of G. tenuistipitata, basal callus induction rates were higher than those of apical and intermediate calluses in the majority of treatments, and auxins had stimulatory effects on the formation of all callus types. In apical segments of G. perplexa, intermediate callus formation was stimulated only by treatment with 1.0 μmol of K, while apical callus formation was stimulated by indole‐3‐acetic acid (1.0–10.0 μmol), 2,4‐D (10.0–100.0 μmol), or K (0.1 μmol). Intercalary segments of G. perplexa developed only intermediate calluses, and the majority of treatments with PGR stimulated higher rates than those presented by apical segments. Potential for regeneration (development of adventitious plantlets originated from callus cells) was higher in apical calluses than in basal and intermediate calluses developed in intercalary segments of G. tenuistipitata. Moreover, auxins and cytokinin were essential to the induction of regeneration in intermediate calluses, while specific concentrations stimulated regeneration from basal and apical calluses. Plant regeneration in G. perplexa was observed only after transferring calluses from solid to liquid medium, and the majority of treatments with PGR had stimulatory effects. Regenerating plants of G. perplexa developed tetrasporangia, and released tetraspores giving rise to adult gametophytes. Our results indicate that auxins and cytokinin have a regulatory role in the growth and morphogenesis in G. tenuistipitata and G. perplexa, and diversity of responses presented by both species is related to specific developmental systems.     

Use of plant growth regulators in micropropagation of Kappaphycus alvarezii (Doty) in airlift bioreactors

The effects of plant growth regulators on callus induction rate and regeneration of K. alvarezii explants was evaluated. K. alvarezii calluses were induced in vitro with kinetin (K), 6-benzylaminopurine (B), 1-naphtalene acetic acid (N) and spermine (S). After 30 days, K. alvarezii explants produced filamentous calluses and isolated crystalline filaments growing from the medullar region and from cortical cells at the cut edge. The plant growth regulators 1-naphtalene acetic acid (1 mg L⁻¹) and 6-benzylaminopurine (1 mg L⁻¹) and the 1-naphtalene acetic acid + kinetin + spermine (1, 1, 0.018 mg L⁻¹ respectively) combination produced 85 to 129% more calluses, with significant differences versus the control (p<0.05). Spermine at 0.018 mg L⁻¹ produced calluses in the apical, intercalary and basal regions of explants. Spermine also reduced callus induction time to 7 days, which is faster than previously reported induction times with other plant growth regulators. An airlift bioreactor was designed and characterized to micropropagate K. alvarezii calluses. The bioreactor had mixing times ranging from 4.6–10.3 s at T ₉₀ and T ₉₅, which is shorter than those for the Fernbach (5.2–13.4 s) and balloon flasks (6.3–17.3 s). Mixing time standard deviations were smaller for the bioreactor (1.1–4.6) than for the Fernbach (9.3–13.6) and balloon flasks (5.5–15.8), suggesting an adequate flow regime within the bioreactor. The results are useful for improving callus induction in K. alvarezii and propagating microplantlets in an airlift bioreactor, and provide baseline data for macroalgal bioreactor culture.     

Response to selenium by callus cultures derived from astragalus species

Callus cultures were obtained from five selenium accumulator and three nonaccumulator species of Astragalus. Their morphological characteristics and their growth responses to light, sucrose, kinetin, and 2,4-dichlorophenoxyacetic acid are described. Calluses derived from accumulator species characteristically retained their tolerance to high concentrations of selenate and selenite, whereas calluses derived from nonaccumulator species were markedly inhibited by these two forms of selenium. Competition between sulfate and selenate was demonstrated. The two types of calluses could not be distinguished on the basis of ⁷⁵Se-labeled selenate or selenite uptake. Neutron activation analysis failed to show differences in selenium content between the two types of calluses grown on media to which no selenium had been added.     

香果树体细胞胚胎发生过程中4种同工酶的研究

用非变性聚丙烯凝胶电泳技术对香果树体细胞胚胎发生及形态建成过程中过氧化物酶(POD)、酯酶(EST)、淀粉酶(AMY)和超氧化物歧化酶(SOD)4种同工酶进行分析.结果表明:香果树体细胞胚胎发生及形态建成过程中,POD、EST、AMY和SOD活性变化与胚性愈伤组织的诱导及体细胞胚的发生发育密切相关.非胚性愈伤组织和胚性愈伤组织酶谱差异明显,胚性愈伤组织中EST和AMY同工酶酶带多且活性高,非胚性愈伤组织中缺乏EST和AMY同工酶表达,AMY同工酶可作为胚性细胞分化和发育的重要标志.香果树体细胞胚形态建成过程中,球形胚时期的AMY、POD、EST同_T酶活性最强,表明这一时期生理代谢旺盛,是体细胞胚形态建成的关键时期;POD、AMY和SOD 3种同工酶的酶谱及表达强弱在形态建成的不同时期呈现有规律的变化,可作为香果树体细胞胚发生发育特定时期的参考标记. 与胚性愈伤组织的诱导及体细胞胚的发生发育密切相关.非胚性愈伤组织和胚性愈伤组织酶谱差异明显,胚性愈伤组织中EST和AMY同工酶酶带多且活性高,非胚性愈伤组织中缺乏EST和AMY同工酶表达,AMY同工酶町作为胚性细胞分化和发育的重要标志.香果树体细胞胚形态建成过程 ,球形胚时期的AMY、POD、EST同_T酶活性最强,表明这一时期生理代谢旺盛,是体细胞胚形态建成的关键时期;POD、AMY和SOD 3种同工酶的酶谱及表达强弱在形态建成的不同时期呈现有规律的变化,可作为香果树体细胞胚发生发育特定时期的参考标记. 与胚性愈伤组织的诱导及体细胞胚的发生发育密切相关.非胚性愈伤组织和胚性愈伤组织     

Effect of physical desiccation on plant regeneration efficiency in rice (Oryza sativa L.) variety super basmati

This experiment assessed the effect of partial physical desiccation on plant regeneration efficiency in scutellum-derived embryogenic calluses of rice (Oryza sativa L.) variety Super basmati. A number of callusing cultures were developed, and efficient callus induction was observed on MS (Murashige and Skoog) basal medium supplemented with 2.0 mg/L 2,4-dichlorophenoxy acetic acid. The calluses were proliferated on the same medium for 3 weeks and then shifted to dehydration desiccation treatment for 72 h. The desiccated calluses were cultured on different media for somatic embryogenesis and plant regeneration. A medium with 2.0 mg/L α-napthaleneacetic acid, 10.0 mg/L abscisic acid , 2.0 mg/L kinetin was best for somatic embryogenesis only, but not for further plant development. After 10 d, differentiated calluses were sub-cultured on medium with various concentrations and types of carbohydrates (carbon source) in ¹MS_2j medium. A large number of plantlets (14.51±2.81 and 8.56±2.90 plants/callus) were regenerated via chemical desiccation, on MS with 3% maltose+3% sorbitol and 6% sucrose, respectively. Under dehydration on only simple MS (3% sucrose), 11.23±3.22 plants/callus were developed. Under conditions of dehydration and chemical desiccation, plant regeneration rates were higher than the calluses cultured on simple MS medium in the presence of plant growth regulator. After somatic embryogenesis, >25% plants were sterile. The protocol used here may allow maximum regeneration of normal and fertile plantlets of super basmati rice within 3 months.     

Effects of Iso-osmotic Concentrations of NaCl and Mannitol on some Metabolic Activity in Calluses of Two Salicornia species

The comparative effects of salinity and drought on activity of antioxidant enzymes such as superoxide dismutase (SOD), peroxidase (POX), catalase (CAT), and polyphenol oxidase (PPO) and contents of protein, proline, hydrogen peroxide, malondialdehyde (MDA), and carotenoids were studied in calluses of Salicornia persica and Salicornia europaea. Calluses were cultured on Murashige and Skoog medium (MS medium) containing iso-osmotic concentrations of NaCl (100, 300, and 600 mM) and mannitol (200, 500, and 1000 mM). Proline content increased in calluses of both species under NaCl- and mannitol-induced stresses. Under both stresses, S. persica accumulated higher amounts of protein as compared to S. europaea. Under both stresses, protein content in S. persica decreased in comparison to control. Antioxidant enzyme activities showed different trends in the two Salicornia species under salt and drought stresses but were higher in S. europaea than in S. persica. Changes of hydrogen peroxide and MDA contents of calluses subjected to salt stress followed a pattern different from that observed under drought stress. MDA content showed similar changes to hydrogen peroxide content. Carotenoid content decreased in both species under both stresses. Overall, at the cellular level, S. europaea calluses were more tolerant to both NaCl- and mannitol-induced stresses than calluses of S. persica.     

The isozymic similarity of indoleacetic Acid oxidase to peroxidase in birch and horseradish

The relationship of indoleacetic acid oxidase activity to peroxidase activity is complicated by numerous multiple forms of this enzyme system. It is not known if all isozymes of this complex system contain both types of activity. Isozyme analysis of commercial horseradish peroxidase and leaf extracts of yellow birch (Betula alleghaniensis) by isoelectric focusing in polyacrylamide gels was used to examine this problem. Horseradish and birch exhibited 20 and 13 peroxidase isozymes, respectively, by staining with benzidine or scopoletin. Guaiacol was less sensitive. Indoleacetic acid oxidase staining (dimethylaminocinnamaldehyde) generally showed fewer bands, and left doubt as to the residence of both types of activity on all isozymes. Elution of the isozymes from the gels and wet assays verified that all peroxidase isozymes contained indoleacetic acid oxidase activity as well. Estimation of oxidase to peroxidase ratios for the major bands indicated small differences in this parameter. A unique isozyme for one or the other type of activity was not found.     

Impact of precursors and plant growth regulators on <Emphasis Type="Italic">in vitro</Emphasis> growth,bioactive lignans,and antioxidant content of <Emphasis Type="Italic">Phyllanthus</Emphasis> species

The production of specific secondary metabolites in vitro can be improved through medium supplementation with secondary metabolite precursors, plant growth regulators (PGRs), and abiotic and biotic elicitors. In the present study, node and internode explants of Phyllanthus amarus and P. urinaria collected from Karkala region, Udupi District, Karnataka, India, were inoculated aseptically onto Murashige and Skoog (MS) medium for callus induction. Uniform calluses were inoculated onto MS medium fortified with one of two precursor’s cinnamic acid (CA) or phenylalanine (PA), or with naphthalene acetic acid (NAA). After 30 d of treatment, calluses from treatment and control groups were harvested and quantitatively analyzed for three lignans (phyllanthin, hypophyllanthin and niranthin) and an antioxidant (ellagic acid). Increased amounts of the lignans and ellagic acid were obtained through supplementation with CA, PA, and NAA, and higher ellagic acid was present at higher amounts than the three lignans. These results demonstrated that the Phyllanthus species collected from Karkala region (designated “Accessions3”) show substantial response to CA, PA, and NAA treatment and represent a potential source of donor plants with higher amounts of lignans and antioxidants. These plants can be cultivated on a large scale both in vitro and in vivo for production of important bioactive compounds. Production of these compounds can be further enhanced through induction of somaclonal variant plants with higher amounts of bioactive molecule production and through production of transgenic plants overexpressing genes related to lignan- and phenolic-compound biosynthesis.     

Plant regeneration from callus cultures in two ecotypes of reed (Phragmites communis Trinius)

Summary Different ecotypes of reed (Phragmites communis Trinius) provide an ideal resource for studies on plant environmental adaptations and presence of genes relating to stress resistance. Dune reed is a drought-tolerant reed ecotype growing in the desert regions of north-west China. In this work, in vitro culture systems of dune reed and local swamp reed (as control) were established by optimizing the culture conditions for each of them. Bright yellow calluses were induced on a Murashige and Skoog medium containing 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 5.4 μM naphthaleneacetic acid and 2.2μM benzyladenine. Benzyladenine promoted callus induction, but was not required for callus maintenance. Four types of callus have been identified from each of the reed ecotypes. Two types of callus, i.e. type A (formed normal green shoots) and type C (formed albino plants), were both found as embryogenic calluses. The optimal concentrations of 2,4-D to maintain embryogenic callus were 2.3–4.5 μM for dune reed and 9.0–13.5 μM for swap reed. Plant regeneration was achieved from types A and C callus in a hormone-free medium. The embryogenic calluses of swamp reed have been maintained for over 2 yr and still retain their strong embryogenic potential; however, those of dune reed gradually lost their embryogenic potential after only 7 mo. of culture. Regenerated plants from the two reed ecotypes showed, after a growth season, similar morphology and the same chromosome number (2n=8x=96, octoploid) as the wild plants.     

Lipid Compositions of Photomixotrophic Green Calluses and Chlorophyll Deficient Leaves of Tobacco

Among photomixotrophic green calluses tested (N. rustica. N. tobacum L. cv. BY-4 and Samsun), the callus of Samsun had the highest contents of chlorophyll and chloroplast lipids, such as monogalactosyldiglyceride (MGDG), digalactosyldiglyceride (DGDG), sulfoquinovosyldigly-ceride (SQDG) and phosphatidylglycerol (PG). However, the chlorophyll and chloroplast lipids in the green callus of Samsun were still 1/6 and 1/3 of that in the parent leaves, respectively. The relative content of a-linolenate in MGDG, DGDG and SQDG of the green calluses were higher than that of the white calluses. The ratios of hexadecatrienoate in MGDG and hexadeceno-ate (Δ³-trans) in PG in the green calluses were trace or less compared with that of the parent leaves. The crude lipids and total fatty acid contents of the chlorophyll deficient leaves (N. taba-cum L. cv. Consolation 402 and Dominant Aurea Su/su) were almost the same as those of the normal leaves (cv. BY-4 and Samsun), although the chlorophyll contents of the chlorophyll deficient leaves were 1/3 ~ 1/4 of that of the normal leaves. The ratios of chloroplast lipids in the total polar lipids in the chlorophyll deficient leaves were a little lower than that in the normal green leaves, but the former had a slightly higher ratio of phospholipids such as phosphatidylcholine and phosphatidylethanolamine than the latter. There were few differences in the fatty acid compositions of each individual lipid betweeen both types of leaves.     

Influence of medium composition on callus induction and camptothecin(s) accumulation in Nothapodytes foetida

Camptothecin(s) production was examined in callus cultures derived from cotyledons of Nothapodytes foetida (Weigh) Sleumer. The calluses were grown on various combinations of Murashige and Skoog's basal media supplemented with auxins 2,4-dichlorophenoxyacetic acid (2,4-D), 2,4,5-trichlorophenoxyacetic acid (2,4,5-T), a-napthalene acetic acid (NAA) and indole-3-acetic acid (IAA) with 6-benzyl aminopurine (BA)/kinetin in different concentrations. The presence of camptothecin (CPT) and 9-methoxycamptothecin (9-OMeCPT) were analyzed by HPLC in relation to the media composition. Hyper production of CPT(1.306% on dry wt. basis) was observed with a combination of 2,4-D with BA and 2,4,5-T and NAA in 1-month-old callus.     

Preparation and Properties of Antibodies against Indoleacetic Acid (IAA)-C5-BSA, a Novel Ring-Coupled IAA Antigen, as Compared to Two Other Types of IAA-Specific Antibodies

Two types of indoleacetic acid (IAA) antigens have been described in the literature which show marked differences with respect to antibody specificity. In this communication an alternative antigen design is described. In the so-called IAA-C5-BSA conjugate, both the acetic acid group and the pyrrole moiety are presented free, as the covalent linkage between IAA and the carrier molecule is introduced in the benzene moiety. Antibodies were elicited in rabbits against this novel antigen. Using cross-reactivity data and the strategy of successive approximation for the measurements of auxin levels in the internodes of light-grown broad bean (Vicia faba L. cv Superfine), the three types of antibodies are compared.     

Endogenous Levels of Gibberellins, IAA and Cytokinins in Tobacco Crown Gall Tissues of Different Morphologies

Endogenous levels of gibberellin (GA) as well as IAA and cytokininsin teratomas and unorganized crown gall tissues of tobacco wereexamined by GC-SIM (for GA and cytokinin) or HPLC with a fluorescencedetector (for IAA). Two different types of crown gall inducedby octopine-type and nopaline-type Ti-plasmids were used. Inboth types, GA contents were higher in shoot-forming teratomasthan in unorganized calluses, while IAA contents were higherin unorganized calluses. But cytokinin contents in octopine-typecells were higher in unorganized calluses than in teratomas,whereas the contents in nopaline-type cells were higher in teratomas.Our results suggest that there is not always a relationshipbetween the cytokinin/IAA balance and tobacco crown gall morphology,but GA production in tobacco tissues is closely related to itsdifferentiation. ⁴ Present address: Agency for the Assessment and Applicationof Technology (BPPT), Jakarta Pusat, Indonesia. (Received September 1, 1986; Accepted February 16, 1987)     

Biochemical features of maize tissues with different capacities to regenerate plants

Metabolic profiling using GC–MS and LC–MS analyses of soluble metabolites and cell wall bound phenolic compounds from maize calluses of different morphogenic competence revealed a number of biochemical characteristics that distinguish tissues with high plant regeneration ability from tissues that cannot efficiently regenerate plants in vitro. Maize cultures of different ages from H99 (compact type I callus) and HiII (friable type II callus) were divided into two different samples: regenerable (R) and non-regenerable (NR) based on known morphologies. Tissues from both genotypes with high morphogenic potential had higher asparagine and aspartate and indole-3-butenol concentrations, decreased sugar and DIMBOA (2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one) concentrations, low levels of 4-aminobutyric acid (GABA) and chlorogenic acid and lower levels of feruloyl- and sinapoyl glucosides compared to NR tissues. The ether bound cell wall phenolics of tissues with high regeneration potential had higher levels of the predominant G (guaiacyl) units and lower levels of H (p-hydroxyphenyl) and S (syringyl) units and higher ferulic acid/coumaric acid and ferulic acid/diferulic acid ratios. The same trends were found with the ester-bound phenolics of HiII, however, there were only small differences between the H99 R and NR tissues. Concentrations of the major sugars, organic acids, amino acids and soluble aromatic compounds tended to increase as the time after culture initiation increased. The results show that there are differences in general metabolism, phenolic secondary compounds and cell wall composition between R and NR cell types.     

Candida zemplinina can reduce acetic acid produced by Saccharomyces cerevisiae in sweet wine fermentations

In this study we investigated the possibility of using Candida zemplinina, as a partner of Saccharomyces cerevisiae, in mixed fermentations of must with a high sugar content, in order to reduce its acetic acid production. Thirty-five C. zemplinina strains, which were isolated from different geographic regions, were molecularly characterized, and their fermentation performances were determined. Five genetically different strains were selected for mixed fermentations with S. cerevisiae. Two types of inoculation were carried out: coinoculation and sequential inoculation. A balance between the two species was generally observed for the first 6 days, after which the levels of C. zemplinina started to decrease. Relevant differences were observed concerning the consumption of sugars, the ethanol and glycerol content, and acetic acid production, depending on which strain was used and which type of inoculation was performed. Sequential inoculation led to the reduction of about half of the acetic acid content compared to the pure S. cerevisiae fermentation, but the ethanol and glycerol amounts were also low. A coinoculation with selected combinations of S. cerevisiae and C. zemplinina resulted in a decrease of ~0.3 g of acetic acid/liter, while maintaining high ethanol and glycerol levels. This study demonstrates that mixed S. cerevisiae and C. zemplinina fermentation could be applied in sweet wine fermentation to reduce the production of acetic acid, connected to the S. cerevisiae osmotic stress response.