Regeneration responses of callus from different expiants and changes in isozymes during morphogenesis in wheat

Immature embryo and root meristem expiants of wheat were cultured on modified medium of Murashige and Skoog and Gamborg’s medium supplemented with 2,4-dichlorophenoxy acetic acid. Morphogeriic callus cultures were obtained from both the expiants. The frequency of shoot formation varied from 22% to 48% from callus obtained from embryos while only root formation could be induced from root meristem expiants. Cultures from young and old non-differentiating calli, and calli with shoot and/or root formation at different intervals were analysed for isozymes of esterase, peroxidase and acid phosphatase for studying the morphogenic capacity. With the development of shoot and/or root from callus, some conspicuous isozymes appeared which indicates the involvement of these isozymes in root/shoot development rather than in the induction of morphogenesis in callus. Basic isozyme pattern of each enzyme for the callus was retained in all the callus stages.     

Regeneration potentiality and isozymic variations during morphogenesis of barley callus

Morphogenic callus cultures were obtained from 7–10 days old immature embryo explants on Murashige and Skoog and Gamborg’s medium supplemented with 2,4-D. In the initial stages of culture the frequency of shoot formation varied from 28% to 65%. After 5 to 6 months of subculturing, the frequency of shoot formation was reduced to 14%. In the initial stages of culture, growth hormones do not seem to be very important for regeneration. Cultures from young and old non-differentiating calli, and calli with shoot and/or root formation at different intervals were analysed for isozymes of esterase, peroxidase and acid phosphatase for studying the morphogenic capacity. With the development of shoot/root, changes in isozymes takes place but no specific isozyme(s) could be related to the process of induction of morphogenesis.     

Changes in Isozyme Patterns During in Vitro Regeneration from Cotyledon Explants of Brassica Species

High frequency shoot regeneration from cotyledons excised from 4-d-old seedlings of Brassica campestris L. cv. M 27 and Brassica juncea (L.) Czern. cv. Pusabold was achieved on Murashige and Skoog's (MS) medium supplemented with 1.0 mg dm^-3 N⁶-benzyladenine (BA) and 3 % (m/v) saccharose. Rooting occurred simultaneously with shoot formation on the medium containing 1.0 mg dm^-3 BA and 0.5 mg dm^-3 1-naphthaleneacetic acid. Cultures of cotyledon, cotyledon derived non-differentiating calli and differentiated calli with shoots and/or roots were analysed at different intervals for isozyme patterns of esterase and peroxidase. With the BA-induced development of shoot and/or root from non-differentiating callus, some conspicuous isozymes appeared which indicates the involvement of these isozymes in root and shoot development rather than in induction of morphogenesis in callus. This revised version was published online in July 2006 with corrections to the Cover Date.     

Isozyme Profile During Somatic Embryogenesis and In Vitro Flowering of Bambusa vulgaris

Peroxidase and esterase isozymes were investigated during plant regeneration via somatic embryogenesis in Bambusa vulgaris, The transition of non-embryogenic calli to embryogenic calli, somatic embryo development, germination and subsequent flowering of somatic embryo derived shoots were associated with selective expression or repression of isoforms of peroxidase and esterase. Non-embryogenic callus showed six peroxidase and four esterase bands. During somatic embryogenesis and germination of somatic embryos, some bands were suppressed and new isoforms of peroxidase and esterase appeared. During flowering, in addition to four peroxidase bands, a new unique esterase band ‘a’ appeared. Each developmental stage was thus associated with a definite isozyme profile.     

Differential expression of esterase and MDH isozymes during in vitro culture in maize (Zea mays L.)

Isozyme patterns of esterase and malate dehydrogenase were analyzed at different stages of in vitro culture of immature embryos and glumes of Zea mays L. viz. explant, callus formation, root formation and shoot formation. Significant changes in isoenzyme patterns of esterase and MDH were observed besides the appearance of specific and new isozymes. Specific fast migrating isozymes were noted in differentiating calli of embryo and glume calli which were absent at other stages suggesting a possible association of these isozyme patterns with in vitro differentiation.     

Isozyme patterns in callus cultures and in plants regenerated from calli ofCereus peruvianus (Cactaceae)

Electrophoretic patterns for isocitrate dehydrogenase (IDH; EC 1.1.1.42), acid phosphatase (ACP; EC 3.1.3.2), peroxidase (PER; EC 1.11.1.7), and esterase (EST; EC 3.1.1.1) isozymes were determined inCereus peruvianus tissues and used as markers of genetic uniformity of calli and of the plants regenerated from callus cultures. One IDH, six ACP, six PER, and six EST isozymes were induced in cultured callus tissues in medium containing three 2,4-dichlorophenoxyacetic acid and kinetin combinations. Four ACP, two PER, and three EST isozymes were still present in all regenerated plantsin vitro and therefore can be used as markers of theC. peruvianus plants regenerated from callus tissues. The differential patterns of ACP and IDH isozymes and the similar zymograms for PER and EST isozymes presented by callus tissues were used in a comparison of callus tissues cultured for 2 years. The comparative analysis of zymograms within each enzyme system indicated a mean heterogeneity coefficient of 0.33 forC. peruvianus calli cultured for 2 years. Because of the isozyme variations, which developed in culture medium and were transferred to the regenerated plants, the IDH, ACP, PER, and EST enzyme systems can be considered to be good markers for investigating possible genetic variations in plant populations ofC. peruvianus obtainedin vitro from callus culture.This research was supported by the CNPq     

Isozymal differention between two species of Prosopis

The patterns of five multilocus isozyme systems were investigated in seed, shoot and cotyledon tissue of two species of mesquite, Prosopis glandulosa var. glandulosa and P. pallida. The isozymes of malate dehydrogenase, peroxidase, esterase, alcohol dehydrogenase and acid phosphatase from each of these tissues were analysed by starch gel electrophoresis and specific histochemical stains. In the case of each enzyme system examined, there were distinctly different isozymes which could be utilized to differentiate between these two species.     

Isozyme modifications and plant regeneration through somatic embryogenesis in sweet potato (Ipomoea batatas (L.) Lam.)

Summary The potential of somatic embryogenesis was evaluated for 10 cultivars of sweet potato through extensive embryogenic response and isozyme analysis. Embryogenic callus was induced by incubating lateral buds on Murashige and Skoog medium containing 10 M 2,4-dichlorophenoxyacetic acid for 6–8 weeks. The frequency of embryogenic response was low, and varied with genotypes, ranging from 0 to 17%. Embryo to plantlet formation could be enhanced by the use of the combination of 2,4-dichlorophenoxyacetic acid with kinetin, both used at 0.01 M. Embryogenic callus with its potential of plantlet formation has constantly been maintained for over two years. However, after several subcultures, 0.5 to 12% of embryogenic callus reverted irreversibly into friable fast-growing non-embryogenic callus whose ability to regenerate shoots was then definitively lost. The isozymes of esterase, peroxidase, glutamate oxaloacetate transaminase and acid phosphatase investigated in this study were found appropriate to distinguish compact embryogenic from friable non-embryogenic callus in sweet potato. In fact, the callus reversion was associated with a loss of bands or a decline in isozyme activity. On the contrary, very small changes in isozyme activity or no specific changes at all were observed during the differentiation of embryogenic callus into globular embryos.Abbreviations Acp acid phosphatase - BAP 6-benzylaminopurine - cv cultivar - df degree of freedom - 2,4-D 2,4-dichlorophenoxyacetic acid - Est esterase - Got glutamate oxaloacetate transaminase - IAA indole-3-acetic acid - MS Murashige and Skoog (1962) medium - Prx peroxidase - Tris tris(hydroxymethyl)aminomethane     

Isozymes as biochemical and cytochemical markers in embryogenic callus cultures of maize (Zea mays L.)

Isozyme analyses were carried out on protein extracts of non-embryogenic and embryogenic callus fromZea mays L., using polyacrylamide gel electrophoresis. We examined the isozyme patterns of glutamate dehydrogenase, peroxidase and acid phosphatase for their utility as biochemical markers of maize embryogenic callus cultures. These isozyme systems were also used to examine possible correlations between isozymes and different stages of regeneration. The zymograms of peroxidase and glutamate dehydrogenase differed for non-embryogenic and embryogenic callus. Further, some isozymes were correlated with the morphological appearance of the tissue while others seemed to be involved with the duration of the culture period. Using the same enzyme assays on fresh tissue samples we were able to test the three enzymes as cytochemical markers in embryogenic cultures. Glutamate dehydrogenase proved to be most successful to discriminate embryogenic from non-embryogenic cells.     

苜蓿组织培养中球形胚发生时特异蛋白质和同工酶分析

试验在苜蓿组织培养中,对球形胚形成过程中特异蛋白质表达的模式、过氧化物酶及酯酶同工酶酶谱变化进行研究,结果表明：苜蓿组织培养中从胚性愈伤组织到球形胚发育的进程中,顺序消失和出现了11种中小分子量多肽;过氧化物酶同工酶酶谱发生了显著的变化;酯酶同工酶酶谱变化不大,但其总活力对于维持体细胞胚胎发生是必须的。     

Alcohol dehydrogenase (EC 1.1.1.1) isozymes as markers at 2,4-dichlorophenoxyacetic acid × kinetin combinations in callus cultures ofCereus peruvianus (Cactaceae)

Alcohol dehydrogenase (ADH; EC 1.1.1.1) isozymes were investigated in tissue ofCereus peruvianus cultured in different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) and kinetin. Five ADH isozymes were detected in starch gel and showed different patterns in seeds, seedlings, calli cultured at 32 and 22°C, and plants regenerated from calli cultured in three 2,4-D and kinetin combinations. Four phenotypes formed by different combinations of ADH-2, ADH-3, ADH-4, and ADH-5 were detected in calli cultured at 32°C and in plants regenerated from calli. ADH-1 isozyme was detected only in calli subcultured for 1 or 2 weeks at 22°C and was indicated as a marker of stress conditions that affect the growth ofC. peruvianus callus tissues in culture. ADH phenotypes with either a higher or a lower number of isozymes were detected in different proportions in the callus tissues cultured in media containing different 2,4-D and kinetin ratios. ADH isozyme patterns were found to be sensitive markers at the highest kinetin concentration or at high kinetin/2,4-D ratios. The results indicate a high correlation between the ADH isozyme patterns and the capacity for regeneration. Thus, ADH isozymes are indicated as good biochemical markers and as a powerful tool for monitoring studies ofC. peruvianus callus cultures.This research was supported by the CNPq.     

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     

Superoxide dismutase and peroxidase are coordinately regulated in differentiated and transformed tissues of Nicotiana tabacum

We used a series of normal and Agrobacterium-transformed, bacteria-free tobacco tissue cultures which differ in their levels of histodifferentiation to test the relationship of superoxide dismutase, peroxidase, and catalase to oncogenic transformation and differentiation. When compared with normal callus, tumor callus contained reduced levels of both superoxide dismutase and peroxidase, and a reduced number of isozymes of both enzymes. Teratomas characterized by limited but abnormal differentiation showed increases in superoxide-dismutase activity and isozymes, but levels of peroxidase activity lower than those found in normal callus despite an increase in the number of peroxidase isozymes. A similar disparity between low peroxidase activity and high isozyme number in the shoot suggests that there are increased levels of peroxidase inhibitors or of molecules which interfere with the spectrophotometric assay for peroxidase in more differentiated tissues. As judged by the number of isozymes of both superoxide dismutase and peroxidase in each tissue, the following conclusions are warranted: first, tobacco copper/zinc superoxide dismutases and peroxidases are encoded in several duplicated loci which are regulated independently. Second, transformation is associated with a decrease in both the specific activity and isozyme number of superoxide dismutase. Third, the partial release from the total inhibition of expression of differentiated function exhibited by teratoma is associated with an increase in both the activity and isozyme number of superoxide dismutase. Finally, the expression of superoxide dismutase and peroxidase isozymes appears to be coordinated during differentiation in a manner that is consistent with their role in an integrated mechanism for the removal of reduced oxygen species.     

Identification of Flax and Linseed Cultivars by Isozyme Markers

A set of 28 fibre flax and linseed cultivars differing in plant morphology and technological parameters were analysed by isozyme markers in five ontogenetic phases. Relatively high isozyme polymorphism was observed using polyacrylamide gel electrophoresis. Altogether 18 isozyme systems produced 145 different bands; 66 of them (45.52 %) have been found to be polymorphic. The highest level of polymorphism was found in acid phosphatase and esterase, polymorphism was detected in aconitase, diaphorase, glutamate dehydrogenase, peroxidase and superoxide dismutase as well. The highest number of unique isozymic spectra (cultivar × enzyme × ontogenetic phase) was detected in the phase of shoot with removed cotyledons. Electrophoretic analysis of all polymorphic isozymes enabled to distinguish 20 cultivars (71 %) in the screened cultivar set.     

<Emphasis Type="Italic">In vitro</Emphasis> organogenesis and antioxidant enzymes activity in <Emphasis Type="Italic">Acanthophyllum sordidum</Emphasis>

The effect of various hormonal combinations on callus formation and regeneration of shoot and root from leaf derived callus of Acanthophyllum sordidum Bunge ex Boiss. has been studied. Proteins and activity of antioxidant enzymes were also evaluated during shoot and root organogenesis from callus. Calli were induced from leaf explants excised from 30-d-old seedlings grown on Murashige and Skoog medium containing 4.52 μM 2,4-dichlorophenoxyacetic acid + 4.65 μM kinetin. Maximum growth of calli and the most efficient regeneration of shoots and roots occurred with 2.69 μM 1-naphthalene acetic acid (NAA), 2.69 μM NAA + 4.54 μM thidiazuron and 2.46 μM indole-3-butyric acid. Protein content decreased in calli and increased significantly during regeneration of shoots from callus. Superoxide dismutase activity decreased in calli comparing to that of seedlings, then increased in regenerated shoots and roots. High catalase activity was detected in seedlings and regenerated shoots, whereas high peroxidase activity was observed in calli and regenerated roots.     

Origin of cytokinin-and auxin-autonomy and changes in specific proteins in tobacco callus tissue

On the basis of earlier data it was suggested that the induction of cytokinin autonomy might be accompanied by disorders in plastid function and a decrease in cytokinin utilization. In the work presented below the formation of chlorophyll and the isozyme patterns of nine enzymes, some of which are known to be localized in plastids, were compared in tobacco callus tissues differing in their hormonal requirements. Tissues either not requiring cytokinin or both auxin and cytokinin for their growth, contained a lower amount of chlorophyll than the cytokinin-and auxin-dependent strain. The number of isozymes of glucose-6-phosphate and NADP-malate dehydrogenase (i.e. enzymes which are known to be located in plastids) was reduced from four in the cytokinin-and auxin-dependent strain to two and one in the two cytokinin-autonomous strains, respectively. The fully habituated tissue contained an additional isozyme of NADP-malate dehydrogenase. The total number of isozymes of the remaining enzymes (NAD-malate dehydrogenase, peroxidase, esterase and a-and β-galactosidase) either was decreased or not changed in the cytokinin autonomous strains. The exception was an additional anodic peroxidase in one strain. The number of these isozymes in tissue habituated with respect to both auxin and cytokinin either remained the same or increased. Tobacco callus strains with altered requirements for growth regulators contained some new isozymes which were not present in any other strain and some isozymes present in other strains were absent. These differences are discussed in relation to the possible role of plastid function disorder associated with habituation.     

Selection of higher regenerative callus and change in isozyme pattern in rice (Oryza sativa L.)

Summary Calli were initiated from seedling roots in rice (Oryza sativa L. var. Tadukan) and subcultured at 45-day intervals on MS medium supplemented with 2 mg/l 2,4-D. Sectors of callus which differentiated shoot meristems (green spots) under the same 2,4-D concentration were selected from the calli subcultured 90 days after initiation. The selection was continued for about 2 years. Responses to 2,4-D between original and selected lines differed considerably, although differentiation was not generally seen in rice callus in the presence of 2 mg/l 2,4-D. After 180 days, calli of the selected line differentiated into numerous shoot-bud primordia and grew out new callus tissues under 2 mg/l 2,4-D concentration; the frequency of the differentiation exceeded 90%. On the other hand, no calli of non-selected line differentiated into shootbuds under 2 mg/l 2,4-D, and the frequency of the shootbud was only about 50% under lower 2,4-D concentration (0.1 mg/l). The pattern and activity of peroxidase isozyme varied markedly between calli of the selected and non-selected lines. First, two strong peroxidase bands which show fast mobility and one intermediate peroxidase band with slow mobility were detected only in the calli of selected line. Secondly, changes in band pattern of proteins separated by SDS-PAGE were observed. In the calli of selected line, there was a loss of the polypeptide bands with molecular weight of 24 and 42 K in the selected calli, but they were clearly present in the unselected line. The appearance of new peroxidase isozyme bands and loss of polypeptide bands, change in response to auxin and increased ability for shoot bud differentiation are closely correlated to each other.     

Total protein and isozyme characterization in the flax zygotic embryo during development

Flax zygotic embryogenesis was studied for isozyme patterns of acid phosphatase and esterase and for content of total proteins. For acid phosphatase, six multiple molecular forms or isozymes, were identified during flax zygotic embryo development. For esterase, six isozymes were expressed during zygotic flax embryogenesis. Some of the isozymes were expressed during entire embryogenesis, and some were only transiently expressed or appeared near maturation. The amount of total proteins was very low at early embryogenesis and proteins in a range from 26.6 kDa to 97.4 kDa were expressed. During further flax embryo development the protein spectra became more diverse and the quantity of total proteins increased. Proteins ranging from 3.4 kDa to 97.4 kDa were present, and proteins of 20 kDa to 36.5 kDa were expressed in the highest amount. The results are discussed with reference to selected information in the literature. Received: 16 October 2000 / Revision accepted: 20 April 2001     

玉米酯酶同工酶和过氧化物酶同工酶的分子量研究

本试验利用聚丙烯酰胺凝胶梯度电泳分步染色法直接对玉米苗期酯酶同工酶和过氧化物酶同工酶各酶带的分子量进行了比较测定。酯酶同工酶 E_1、E_2、E_3~F、E_3~S、a、b、c 各酶带的分子量分别为<20000,35200、33000、38500、29900、28500、34000道尔顿过氧化物酶同工酶 PX_4~F和 PX_4~S酶带的分子量分别为131000和149000道尔顿。根据酶带在均匀胶和梯度胶中的位置变化对各酶带的生化性质作了初步分析,发现 E_3~F和 E_3~S、PX_4~F 和 PX_4~S 在迁移率上的差异主要是分子量的差异。本文为同工酶的分子量测定提供了一个简便的方法。     

Malate dehydrogenase (MDH; EC 1.1.1.37) isozymes in tissues and callus cultures ofCereus peruvianus (cactaceae)

Malate dehydrogenase (MDH; EC 1.1.1.37) isozymes were investigated in seeds and in seedlings and calli cultures ofC. peruvianus to determine if the changes in MDH isozyme banding patterns could be used as biochemical markers to identify the origin of regenerated plants from callus tissues. Four cytoplasmic MDH isozymes (sMDH), five mitochondrial MDH isozymes (mMDH), and one glyoxysomal MDH isozyme (gMDH) were detected and showed tissue- and stage-specific expression. A relationship of mMDH and gMDH isozyme patterns with callus tissues subcultured in three hormonal combinations and with the plants regenerated from these callus tissues was demonstrated. Furthermore, temperature and mechanical stress were found to be closely related to mMDH-1 activity in callus culture. Therefore, the different patterns of MDH isozymes in the various tissues ofC. peruvianus can be used as biochemical markers for the study of gene expression during development and as powerful tools in monitoring studies on callus cultures. This research was supported by the CNPq.