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.     

Effects of O2 stress on tomato alcohol dehydrogenase activity: Description of a second ADH coding gene

Subjecting tomato seedlings to anaerobic conditions results in expression of a previously undescribed Adh gene, Adh-2. Induction profiles were similar for all tissues, including roots, hypocotyls, cotyledons, and true leaves. In sharp contrast to ADH-1, ADH-2 showed no induction under anaerobic stress. The only time ADH-2 activity was expressed (under noninduced conditions) was during the early stages of embryogenesis. By late embryogenesis, ADH-2 activity approached a zero level, concomitant with a sharp rise in ADH-1 activity, which is found in the cotyledons of quiescent embryo. Despite striking differences in the regulation of these two genes, their homology is demonstrated in the ability of their enzyme subunits to form presumed intergenic heterodimers, which are visible during the transient period of embryogenesis when the polypeptides encoded by both genes are expressed. A multiple point linkage test using isozymic marker genes places the Adh-2 locus on chromosome 6 near Aps-1, whereas Adh-1 resides on chromosome 4.     

Increased NaCl-tolerance in wheat (Triticum aestivum L. andT. durum desf.) through in vitro selection

Summary Callus cultures were initiated from immature embryos of oneTriticum aestivum and threeT. durum cultivars. Growing morphogenic calli were exposed to different concentrations of NaCl (0, 0.3, 0.5, and 0.7%) added to the culture medium during two subsequent subcultures (4 wk each). The growth rate of the calli was determined by the relative fresh weight callus growth (RFWCG). The callus growth of all investigated genotypes was slightly changed in the presence of 0.3 and 0.5% NaCl, but strongly inhibited by 0.7% NaCl. Selected NaCl-tolerant clones were isolated and plants were regenerated on MS-based regeneration medium without NaCl. The regeneration capacity of the selected calli was highly reduced compared to the control. The highest number of regenerants was scored for cv. Gladiator (T. aestivum). All regenerated plants were morphologically normal and many developed to maturity and set seeds. Seedlings from the R₁ generation of selected and control plants were treated with 0.5% NaCl in vivo in liquid cultures for 6 wk. Salt tolerance of the progenies of selected plants appeared in all cultivars, but those derived from calli grown on medium with 0.7% NaCl showed the highest survival rate.T. aestivum showed higher tolerance to NaCl salinity thanT. durum.     

Efficient callus induction and plant regeneration from mature embryo culture of winter wheat (Triticum aestivum L.) genotypes

Immature and mature embryos of 12 common winter wheat (Triticum aestivum) genotypes were cultured in vitro to develop an efficient method of callus formation and plant regeneration from mature embryo culture, and to compare the responses of both embryo cultures. Fifteen days after anthesis, immature embryos were aseptically dissected from seeds and placed with the scutellum upwards on a solid agar medium containing the inorganic components of Murashige and Skoog (MS) and 2 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D). Mature embryos were moved slightly in the imbibed seeds. The seeds with moved embryos were placed furrow downwards in dishes containing 8 mg/l 2,4-D for callus induction. The developed calli and regenerated plants were maintained on 2,4-D-free MS medium. Plants regenerated from both embryo cultures were vernalized and grown to maturity in soil. Regenerated plantlets all maintained the hexaploid chromosome number. A strong genotypic effect on the culture responses was found for both explant cultures. Callus induction rate, regeneration capacity of callus and number of plants regenerated were independent of each other. Mature embryos had a high frequency of callus induction and regeneration capacity, and therefore, being available throughout the year, can be used as an effective explant source in wheat tissue culture. Received: 4 February 1997 / Revision received: 1 April 1997 / Accepted: 5 May 1997     

Morphological analyses of spring wheat (CIMMYT cv. PCYT-10) somaclones

The objectives of this study were to induce callus from single immature wheat embryos, produce multiple seedlings from the induced callus, and analyse the somaclonal regenerants for potential grain production in a space garden. Immature wheat, Triticum aestivum L. (cv. PCYT-10), embryos were excised 10 to 12 days post-anthesis and cultured on modified Murashige & Skoog's inorganic salts. Embryos cultured on medium containing kinetin (6-furfurylaminopurine) at 0.5 mgl^–1 plus 2 or 3 mgl^–1 dicamba (1-methoxy-3,6-dichlorobenzoic acid) or 0.2 mgl^–1 2,4-dichlorophenoxyacetic acid produced calli from which 24, 35 and 39% of the explant tissue exhibited regenerants, respectively. The size of flag leaves, plant heights, tillers per plant, spike lengths, awn lengths, and seeds per spike were significantly different in regenerants of two-selfed recurrent generations (SC₁, SC₂) than in parental controls. However, there were no significant differences in spikelets per spike between the SC₂ and parental controls. Desirable characteristics that were obtained included longer spikes, more seeds per spike, supernumerary spikelets, and larger flag leaves, variants that should be useful in wheat improvement programs.Contribution from the Plant Science Dept., Utah State University, Logan, UT 84322-4820. Utah Agricultural Experiment Station Journal Paper No. 3611     

Morphogenesis in callus tissue cultures of someMatricaria andAchillea Species

In the present paper we deal with the possibility of morphogenesis induction in callus tissue cultures of some representatives ofMatricaria andAchillea species. Shoot regeneration from calli ofMatricaria chamomilla andM. inodora has been induced by 0.1 mg l^-1 kinetin or by combination of 0.5 mg l^-1 kinetin and 0.5 mg l^-1 NAA added to Murashige-Skoog culture medium. Rhizogenesis took place without any other addition of auxin. In callus tissue cultures ofAchillea ptarmica cultivated on Murashige-Skoog medium with 1 mg l^-1 2,4-D after a year long cultivation the whole plant has been regenerated without any change of nutrient requirements. In callus tissue ofA. nobilis under the same conditions only roots wore regenerated.     

The Effect of Rye Chromosomes on Callus Induction and Regeneration in Callus Cultures of Immature Embryos of Wheat–Rye Substitution Lines,Triticum aestivum L. Cultivar Saratovskaya 29–Secale cereale L. Cultivar Onokhoiskaya

The effect of individual rye chromosomes on the induction of callus and the character of its regenerating capacity was studied with cultured immature embryos of wheat–rye (Triticum aestivum L. cv. Saratovskaya 29–Secale cereale L. cv. Onokhoiskaya) substitution lines. The genotypic diversity of the substitution lines proved to significantly affect variation of parameters characterizing the major types of callus cultures, that is, frequencies of embryogenic calli, which are capable of shoot regeneration, and of morphogenic calli, which produce root structures. Functioning in the genotypic background of common wheat cultivar Saratovskaya 29, chromosomes 2R and 3R of rye cultivar Onokhoiskaya stimulated significantly the induction of embryogenic callus highly capable of shoot regeneration. Rye chromosome 2R present in place of chromosome 2D in the common wheat genome suppressed the induction of callus producing root structures. Rye chromosomes 1R and 6R suppressed the induction of embryogenic callus capable of shoot regeneration.     

Cloning and sequence analysis of genes involved in erythromycin biosynthesis in Saccharopolyspora erythraea: sequence similarities between EryG and a family of S-adenosylmethionine-dependent methyltransferases.

Summary Treatment of tomato seeds with ethyl methanesulphonate (EMS) followed by allyl alcohol selection of M₂ seeds has led to the identification of one plant (B15-1) heterozygous for an alcohol dehydrogenase (Adh) null mutation. Genetic analysis and expression studies indicated that the mutation corresponded to the structural gene of the Adh-1 locus on chromosome 4. Homozygous Adh-1 null mutants lacked ADH-1 activity in both pollen and seeds. Using an antiserum directed against ADH from Arabidopsis thaliana, which crossreacts with ADH-1 and ADH-2 proteins from tomato, no ADH-1 protein was detected in seeds of the null mutant. Northern blot analysis showed that Adh-1 mRNA was synthesized at wild-type levels in immature seeds of the null mutant, but dropped to 25% in mature seeds. Expression of the Adh-2 gene on chromosome 6 was unaffected. The potential use of the Adh-1 null mutant in selecting rare transposon insertion mutations in a cross with mutable Adh-1 ⁺ tomato lines is discussed.     

Chromosomal integration is required for spatial regulation of expression from the β-phaseolin promoter

The stringency of spatial expression of phaseolin, the major storage protein of bean (Phaseolus vulgaris) seeds, has been rigorously evaluated using stable and transient transformation techniques. Transgenic tobacco plants known to be homozygous for the β-glucuronidase (gus) reporter sequence under the regulation of various lengths of the β-phaseolin gene (phas) promoter were shown to express gus only in developing seed tissues. No expression was detected in calli initiated from stems, leaves and immature seeds, showing that expression was not leaky in undifferentiated tissues. Control plants and cultures containing gus fused to the CaMV 35S promoter actively expressed gus under identical conditions. It was not possible to induce expression in phas/gus calli with ABA, GA or jasmonic acid. Treatment of the cultures with 5-azacytidine did not result in expression, excluding methyletlon as the major factor regulating the phas promoter. However, strong gus expression was detected in seed of plants regenerated from these callus cultures, confirming that neither gene rearrangements nor deletion were responsible for the lack of activity seen in tissues other than the developing seed. In contrast to the above observations, strong transient expression of gus was detected in tobacco, bean and soybean leaves following introduction of the phas/gus fusion constructs via biolistic approaches and in electroporated bean leaf and hypocotyl protoplasts. These experiments show unequi-vocally that the phas promoter is under rigorous spatial control when integrated into the genome, but lacks spatial control when present as extrachromosomal naked DNA. A putative model explaining these differences is presented.     

<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.     

Factors affecting the establishment and maintenance of embryogenic callus and suspension cultures of wheat (Triticum aestivum L.)

Improved suspension cell culture systems are needed to facilitate the application of recombinant DNA technology for wheat germplasm enhancement. This study evaluated three wheat (Triticum aestivum L.) cultivars, and the effects of medium basal salts, 2,4-D, sucrose, and L-proline concentrations on the establishment of rapidly growing and highly embryogenic callus and suspension cultures. Percent embryogenic calli was visually estimated and verified with light and scanning electron microscopy. The most highly embryogenic callus was produced by cultivar Bobwhite on medium with MS basal salts, 5.6 M 2,4-D, 58 mM sucrose, and zero proline. The suspension cultures that produced the greatest number of regenerated plants utilized callus tissue produced on solid medium with MS basal salts, 87 mM sucrose, 9 M 2,4-D, and no proline.Abbreviations MS Murashige and Skoog medium (1962) - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - NAA napthaleneacetic acid; RG, relative growth - %EC percent embryogenic calli - RV Redway and Vasil medium (1990a) - DPA days postanthesis     

Comparison of 2,4-D and picloram for selection of long-term totipotent green callus cultures of sugarcane

Long-term regeneration of sugarcane (Saccharum spp. hybrid and Saccharum spontaneum L.) callus cultures was achieved by selection of green callus on MS agar medium containing 0.5 mgl^-1 picloram or 2,4-D. Newly initiated sugarcane callus cultures were a complex mixture of different tissue types including white, nonregenerative and green, regenerative tissues. The proportion of the tissue types changed as a function of time in culture, genotype, and amount and kind of auxin. Green callus on picloram media always regenerated green plants. Nine hybrids and ten wild relatives of sugarcane produced green calli on picloram media whereas only three hybrids were grown as green calli on 2,4-D media in long-term culture. Green calli were inoculated into liquid MS medium with 0.5 mgl^-1 picloram for suspension culture. These cultures were totipotent after 19 months. For routine culture, we initiated callus cultures on modified MS medium with 3 mgl^-1 2,4-D, then in two to three weeks we subcultured callus on MS medium with 0.5 mgl^-1 picloram and selected for green callus. Green calli regenerated large numbers of green plants after more than four years.     

Optimization of Agrobacterial (<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>) Transformation of Maize Embryogenic Callus

The method for genetic transformation of maize (Zea mays L.) via embryogenic callus infection with Agrobacterium tumefaciens was developed. Calli were co-cultivated with the overnight culture of A. tumefaciens strain LBA4404 harboring the pBI121 plasmid with the nptII and uidA genes. Thereafter, the sensitivity of calli and regenerated plantlets to kanamycin (Km) was determined. It was shown that kanamycin selection was more efficient at the stage of regenerated plantlets than in callus culture. Both vacuum infiltration at the infection step and preliminary activation of Agrobacterium by acetosyringone or by tobacco leaves exudate increased the frequency of Km-resistant plants. The frequency of Km-resistant plants also varied depending on the morphogenic ability of calli. Polymerase chain reaction confirmed the presence of the nptII gene in the genome of regenerated plants and their progeny. β-Glucuronidase gene expression was observed in roots of T1 plants.__________Translated from Fiziologiya Rastenii, Vol. 52, No. 4, 2005, pp. 600–607.Original Russian Text Copyright © 2005 by Danilova, Dolgikh.     

青海野生黑果枸杞再生体系的建立及遗传稳定性分析

以野生黑果枸杞(Lycium ruthenicum Murr.)的无菌苗叶片作为外植体,建立了两条再生体系:一条是经愈伤组织再分化的间接再生体系,一条是不经愈伤组织再分化的直接再生体系。并采用流式细胞术(FCM)及ISSR分子标记技术对两种途径再生苗进行了遗传稳定性分析。结果表明:(1)最佳愈伤组织诱导培养基为MS+1.5 mg·L-12,4-二氯苯氧乙酸(2,4-D),诱导率达100%;最佳分化培养基为MS+1.5 mg·L-16-苄氨基腺嘌呤(6-BA)+0.1 mg·L-1吲哚-3-丁酸(IBA),1 g愈伤组织上的平均不定芽数为39.4个。(2)叶片直接诱导不定芽的最佳培养基为MS+0.5 mg·L-16-BA+0.3 mg·L-1α-萘乙酸(NAA),不定芽诱导率为92.9%,每个外植体上平均不定芽数为18.1个。(3)两条途径再生的不定芽在不含植物生长调节剂的MS培养基上,2周内均可正常生根。(4)FCM结果显示亲本苗及2种再生苗均为二倍体。(5)ISSR分析表明,间接再生苗的平均遗传相似性系数为0.84,直接再生苗的平均遗传相似性系数为0.91,直接再生体系是一种更加快速高效的繁殖方法。     

Distribution of {beta}-Thioglucosidase Activity in Intact Plants, Cell and Tissue 6Brassica napus L.

Distribution of myrosinase activity in extracts from seeds,intact plants, cell cultures and regenerated callus and plantsof Brassica napus L. was determined by the rate of glucose formationfrom glucosinolate hydrolysis. Calli with shoots and regeneratedplants were obtained from protoplasts or from explants. Of the seedling organs from Brassica napus L. cv. Niklas, hypocotylsshowed the highest myrosinase activity. In cotyledons a nearlyconstant enzyme activity was determined over the first 6 d,followed by a gradual decline. Roots showed a fast decline inenzyme activity over the investigated period. Freshly-isolated protoplasts contained less myrosinase activitythan the original intact tissue. The enzyme activity in developingcalli generally decreased during the first culture periods.After the initial decline a low activity was found which wasstable for a period of more than 2 years. The enzyme activityshowed fluctuations when measured at different times after mediumchange. Protoplast calli with regenerated shoots showed a considerablyhigher myrosinase activity than calli without shoots. Myrosinaseactivity was also found in explant calli including explant callifrom cotyledons and hypocotyls after induction of shoots. Myrosinase activity in seeds from 21 cultivars of Brassica napus,Brassica campestris, Sinapis alba and Raphanus sativus was testedand the highest myrosinase activity was found in seeds fromthe Sinapis alba cultivar Trico while the lowest activity wasfound in the Brassica campestris cultivar Rapido III. Leaf, stem and inflorescence from flowering regenerated or seed-grownplants contained a low but significant myrosinase activity.In contrast, roots showed a high myrosinase activity. The resultsobtained from regenerated plants indicate that the myrosinasesystem is stable in vitro culture, and that the glucosinolate-myrosinasesystem is active in calli tissue. Key words: Myrosinase (thioglucoside glucohydrolase, E.C. 3.2.3.1), in vitro cultures, intact plants     

The Effect of Aerobic Methylotrophic Bacteria on the in vitro Morphogenesis of Soft Wheat (Triticum aestivum)

The effects of four aerobic methylotrophic bacteria on the morphogenesis of soft wheat (Triticum aestivum) were studied in vitro using immature embryos as explants. The inoculation of the embryos with methylotrophic bacteria led to their stable colonization with the bacteria. The colonization of the explants with the strains of Methylobacterium sp. D10 and Methylophilus glucoseoxidans stimulated the formation of morphogenic calli and shoots and also promoted development of the regenerated plants. These regenerated plants manifested bright green leaves and a well-developed root system. The colonization of immature wheat embryos with methylotrophic bacteria can be employed as a tool for raising the efficiency of genetic transformation of various wheat cultivars.     

Callus induction, somatic embryogenesis and organogenesis in Narcissus confusus: correlation between the state of differentiation and the content of galanthamine and related alkaloids

In vitro cultures from two strains of Narcissus confusus (Amaryllidaceae) initiated from mature seeds were screened for their ability to produce alkaloids. Protocols for callus induction, somatic embryogenesis and organogenesis were established. The alkaloid contents were determined by HPLC. Undifferentiated calli produced small amounts of galanthamine, which increased with the degree of tissue differentiation. Scanning electron micrographs of the cultures at different stages of development were made. Embryogenic friable calli were maintained in culture for more than 2 years, retaining a high regeneration capability. All regenerated plants showed normal morphological characteristics. Received: 20 August 1997 / Revision received: 20 December 1997 / Accepted: 1 February 1998     

Carbohydrate and Proline Contents in Leaves, Roots, and Apices of Salt-Tolerant and Salt-Sensitive Wheat Cultivars1

Intra-specific variations in nonstructural carbohydrates and free proline were determined in leaves, apices, roots, and maturing seeds of two salt-tolerant cultivars (CR and Kharchia-65) and one salt-sensitive cv. Ghods of spring wheat (Triticum aestivum L.) grown in sand culture at various levels of salinity (0, 100, 200, and 300 mM NaCl and CaCl₂ at 5 : 1 molar ratio) under controlled environmental conditions. The levels of leaf, apex, and root ethanol-soluble carbohydrates, fructans, starch, and proline increased in line with elevating level of salinity in all three cultivars under investigation. The contents of proline, soluble and insoluble carbohydrates in the apex increased to levels exceeding those in the leaves and roots. Soluble carbohydrate content of salt-sensitive cv. Ghods was higher in the leaves, apices, and roots and lower in the maturing seeds than in the other cultivars at all levels of salinity except at 300 mM. The results show considerable variation in the amount of soluble, insoluble sugars, and proline among plant tissues and wheat genotypes in response to salinity. Higher soluble carbohydrates and fructan in leaves, roots and maturing seeds of stressed plants indicate that their accumulation may help plant to tolerate salinity. Salt-sensitive cv. Ghods accumulated less soluble sugars in the maturing seeds and higher soluble sugars in the apices, which might be used as an indicator in screening wheat genotypes for salinity tolerance.     

Plantlet differentiation in leaf and root cultures of birch (Betula Pendula roth.)

The newly-formed leaves on plantlets differentiated from shoot bud cultures of Betula pendula, when excised and grown on a fresh medium produced callus from the margins or regenerated leafy shoots, roots and plantlets. After 4 weeks, upon transfer to murashige and Skoog (MS) medium supplemented with 3-indoleacetic acid (IAA) + 6-(4-hydroxy-3-methyl-trans-2-enyl)aminopurine (zeatin) + 6-aminopurine (adenine), 15–20 plantlets were produced from each explant. Likewise, the roots also showed meristematic activity at several sites, and produced nodulated callus on MS + α-naphthaleneacetic acid (NAA) + 6-(3-methyl-2-butenyl-amino)purine (2-iP) + adenine, and ultimately differentiated plantlets. Anatomical studies showed that initiation of callus takes place by meristematic activity in epidermal cells of leaves, and cortical cells of roots. Cytological investigations revealed no change in chromosomal complement.