Chromosome doubling in monohaploid and dihaploid potatoes by regeneration from cultured leaf explants

Plants were regenerated from cultured excised leaf segments of monohaploid (2n=x=12) and diphaloid (2n=2x=24) potato (Solanum tuberosum L.) and a sample has been studied cytologically. In the case of monohaploids, a single leaf regeneration cycle resulted in almost total recovery of doubled monohaploid plants (2n=2x=24), whilst 50% of the plants regenerated from doubled monohaploid leaves had doubled again to the doubled double monohaploid (or homozygous tetraploid, 2n=4x=48) level. Regeneration from dihaploid leaf pieces also gave a good proportion (60%) of doubled genotypes. Very few mixoploids and very few aneuploids were found. These results, together with the general applicability of the method to a large number of potato cultivars, suggest that it can be used as a simple and reliable method of obtaining homozygous tetraploid potatoes.     

Initial Anatomical Changes Associated with Tuber Formation on Single-node Potato (Solanum tuberosum L.) Cuttings: A Re-evaluation

Cell division and cell expansion during early stages of tuberdevelopment were studied using developing axillary buds on single-leafcuttings from potato (Solanum tuberosum L.). Cuttings takenfrom plants induced to form tubers, by short day (SD) treatment,were compared with cuttings from non-induced (long day, LD)plants. In the apical zone of the buds, cell division occurredfrom the first day after cutting, in both LD and SD cuttings.The planes of these divisions were transverse, associated withelongation of the buds. At day 5, a new orientation of celldivision was observed in the subapical zone of SD cuttings only.These divisions were longitudinal, associated with radial growth.Cell expansion occurred in both SD and LD cuttings, and wasnot uniquely related to the onset of tuber formation. Copyright1999 Annals of Botany Company Solanum tuberosum L., potato, tuber formation, cell division, cell expansion.     

One-Leaf Cuttings as a Model to Study Second Growth in the Potato (Solanum tuberosum) Plant

Second growth is an important physiological disorder of thepotato (Solanum tuberosum L.) plant. A model system to studysecond growth was developed using one-leaf cuttings. Photoperiod,temperature, decapitation and leaf removal treatments were carriedout on the plants from which the cuttings were taken and onthe cuttings themselves. Tuberized, one-leaf cuttings takenfrom moderately-induced plants and exposed to 35 °C afterleaf removal showed 95% second growth within 10 d after treatmentinitiation. Conditions that promoted second growth also reducedstarch and dry-matter content, even in tubers that did not developsecond growth. Cuttings, second growth, potato, Solanum tuberosum L, cv, Bintje, Solanum tuberosum L. cv., Désirée, Solanum tuberosum L. cv., Russet Burbank, tuberization, starch content, dry-matter, heat, photoperiod, decapitation, leaf removal     

Somatic embryogenesis on various potato tissues from a range of genotypes and ploidy levels

Somatic embryos (SEs) formed on in vitro-cultured stem internodes, leaves, microtubers and roots of 18 tetraploid potato (Solanum tuberosum L.) cultivars, diploid and monoploid germplasm and three wild Solanum species. A two-step protocol with 6-benzylaminopurine or thidiazuron in the first medium, and zeatin, indoleacetic acid and gibberellic acid in the second medium produced SEs within 14-28 days. SEs developed through the globular, heart and torpedo stages to produce thin-stemmed plantlets resembling potato seedlings. Plantlets transferred to the greenhouse produced greenhouse tubers. Secondary SEs were observed at the base of germinating torpedo-stage SEs in culture. SEs formed on stem internode sections, leaves and microtuber slices of in vitro-grown plants. Genotypic differences in regenerative capacity were clearly evident.     

Tuberization in Potato at High Temperatures: Interaction between Temperature and Irradiance

Potato plants (Solanum tuberosum L., cv. Sebago) responded similarlyto high temperatures and low irradiance by diverting dry matterto the shoots rather than the tubers, and changes were notedin a range of morphological characteristics. It is proposedthat the effect of both high temperature and low irradianceis brought about by the increased production of a growth substance,possibly gibberellin, which inhibits tuber formation, and thattuber yield is determined by the balance between temperatureand irradiance. Solanum tuberosum L., potato, tuberization, temperature, irradiance, gibberellin     

Interrelation Between Growth Rate of Individual Potato (Solanum tuberosum L.) Tubers and Their Cell Number

In potato plants fast and slow growing tubers develop on thesame plant. A hypothetical causality between tuber growth rateand tuber cell number was investigated by determining the tubercell number with the aid of an automatic counting procedure.Our data show a close correlation between tuber size and cellnumber over the whole range of tuber volumes considered (3–28cm³). If the influence of tuber size on cell number is eliminatedby means of a partial correlation analysis, the cell numberof the entire tuber is not significantly correlated with itsgrowth rate. An exclusive consideration of the smaller cells(10–30 µm) in the apical tuber region, where thecell division rate in potato tubers is highest, reveals a loosebut significant partial correlation to tuber growth rate (r= 0.383, P < 0.05). The growth rate of the slow growing tubers of any potato plantmay be enhanced by removing the fast growing tubers. In thefirst few days this enhanced growth rate is not due to a stimulationof cell division rate, but rather due to cell expansion. Potato, Solanum tuberosum L., tuber growth rate, tuber cell number     

Intraclonal Genetic Variation for Protoplast Regenerative Ability Within Solatium tuberosum cv. Record

The potato cv. Record is recognized as a recalcitrant cultivarin tissue culture and attempts in the past to obtain regenerationfrom protoplasts continually failed, despite media and protocolalterations. By sampling a large number of Record tubers, significantdifferences between lines were obtained for regeneration fromleaf discs. Eight such lines exhibiting a range of responseto regeneration from leaf discs were used in the present studyto examine protoplast culture response. Significant variationwas detected in protoplast plating efficiency and in the numberof regenerants produced. These results are discussed in relationto the exploitation of protoplasts in potato improvement andin terms of the role of tissue culture techniques for the maintenanceof potato cultivars. Solarium tuberosum, cv. Record, potato, protoplasts, intraclonal variation     

An Analysis of the Relation between Dry Matter Allocation to the Tuber and Earliness of a Potato Crop

Compared with late cultivars, early potato cultivars allocatea larger part of the available assimilates to the tubers earlyin the growing season, leading to shorter growing periods andlower yields. A dynamic simulation model, integrating effectivetemperature and source –sink relationships of the crop,was used to analyse this relation, using data from experimentsin the Netherlands carried out over 5 years. Dry matter allocationto the tuber in these field experiments was simulated well whenthe tuber was considered as a dominant sink that affects earlinessof a potato crop in two ways: early allocation of assimilatesto the tubers stops foliage growth early in the season and reducesthe longevity of individual leaves. In a sensitivity analysisthe influence of tuber initiation, leaf longevity and the maximumrelative tuber growth rate (R_tb) on assimilate allocation andcrop earliness was evaluated. It was found that the maximumrelative tuber growth rate can influence crop earliness morethan the other two factors, but when conditions for tuber growthare optimal, the leaf longevity is most important. Solanum tuberosumL.; simulation model; source –sink relationships; cultivars     

Intraclonal Genetic Variation for Protoplast Regenerative Ability Within Solanum tuberosum cv. Record

The potato cv. Record is recognized as a recalcitrant cultivarin tissue culture and attempts in the past to obtain regenerationfrom protoplasts continually failed, despite media and protocolalterations. By sampling a large number of Record tubers, significantdifferences between lines were obtained for regeneration fromleaf discs. Eight such lines exhibiting a range of responseto regeneration from leaf discs were, used in the present studyto examine protoplast culture response. Significant variationwas detected in protoplast plating efficiency and in the numberof regenerants produced. These results are discussed in relationto the exploitation of protoplasts in potato improvement andin terms of the role of tissue culture techniques for the maintenanceof potato cultivars. Solanum tuberosum, cv. Record, potato, protoplasts, intraclonal variation     

The Role of Polyphenol Oxidase and Peroxidase in Potato Tuber Resistance to Soft Rot Caused by Erwinia carotovora

Tubers from somatic hybrids produced by protoplast fusion between Solanum brevidens, a diploid, non-tuber-bearing wild species, and a tetraploid S. tuberosum showed resistance to decay caused by soft rot Erwinia. Tubers of the S. tuberosum fusion parent and potato cultivar Russet Burbank are susceptible to bacterial soft rot. Tubers of somatic hybrids indicated higher levels of activities of polyphenol oxidase and peroxidase than tubers of the parental line of S. tuberosum and cultivar Russet Burbank. This is true for intact tubers and also for injured or inoculated tubers. Polish commercial potato cultivars indicated a higher susceptibility to soft rot than somatic hybrids. However, there were some differences in susceptibility to soft rot between Polish commercial potato cultivars, only slight differences were observed in the activities of the polyphenol oxidase and peroxidase between Polish cultivars. A relation between soft rot resistance and the activity of each enzyme was not found for intact, injured or inoculated tissue of commercial cultivars. On the contrary, the activities of both enzymes were significantly higher in the periderm than in the medullary tissue of somatic hybrids, the parental line and the commercial cultivars.     

Tuberization in Potato at High Temperatures: Gibberellin Content and Transport from Buds

Warm temperatures (35°C day/30°C night) which inhibittuberization in potato (Solanum tuberosum L., cv. Sebago) increasedgibberellin activity in crude extracts from buds, but not frommature leaves, as determined by the lettuce hypocotyl bioassay.Changes in the growth of tubers and stolons indicate the occurrenceof basipetal movement of GA₃ applied to the terminal bud ora mature leaf. ¹⁴C labelling from GA₃ or mevalonic acid injectedjust below the terminal bud was recovered in the lower shoot,stolons and tubers, but the amount transported was greater atcool temperatures (20/15°C). It is concluded that high temperaturespromote the synthesis of gibberellin in the buds rather thantransport to the stolons. Solanum tuberosum L., potato, tuberization, gibberellin     

Karyotypic changes in potato plants regenerated from protoplasts

Over two hundred plants were regenerated from shoot-culture derived proto-plasts of potato (Solanum tuberosum L. cv. Majestic). Some had grossly aberrant phenotypes but the majority were similar to, or indistinguishable from normal control Majestic. Cytological examination showed that on average, 57% of the regenerants had the normal chromosome number (2n=4x=48). The remainder were aneuploids and fell into two classes in approximately equal numbers. The first class was limited at about the euploid level (ie, 2n=44–49). The second class contained plants with higher chromosome numbers ranging from 2n=73 to the octaploid level (2n=8x=96). The overall results represent an improvement over our earlier studies on chromosome variation in protoplast-derived potato plants. In addition, three cases of structural chromosome variation were observed.     

Synthesis of intraspecific somatic hybrids of Solanum tuberosum: assessments of morphological, biochemical and nematode (Globodera pallida) resistance characteristics

In an attempt to produce novel agronomic traits, a number ofintraspecific somatic hybrid plants have been produced followingleaf mesophyll protoplast fusion between S. tuberosum dihaploidclones PDH 40 (possessing good tuber shape and yield) and PDH417 (possessing resistance to potato cyst nematode, G. pallida).PDH 417 protoplast-derived calli failed to regenerate plantsusing the described culture conditions preventing this parentaltype amongst the mass of regenerated fusion products. Initially,somatic hybrid plants were selected based on differential pigmentationin tuber sprouts and where possible on petal colour. Differentialmobility of patatin bands in electrophoresed tuber extractsfurther confinned hybridity. The intraspecific somatic hybridsalso showed different levels of resistance to G. pallida pathotypesPa2 and Pa3 in the somatic hybrid plants examined. Key words: Somatic hybridization, dihaploids, patatin, nematode resistance, Solanum tuberosum, potato     

Tissue-Specific Distribution of Glutamine Synthetase in Potato Tubers

Cytosolic isoforms of the enzyme glutamine synthetase (GS) locatedin the phloem have been implicated in the mobilization of nitrogenfor intracellular transport in higher plants. The potato tuberrepresents an important reservoir of nitrogen and an approachwas made to the characterization of GS in this organ, particularlyat the stages of sprouting and of new tuber formation. By immunoblottingafter SDS-PAGE, and by immunological tissue printing, it waspossible to conclude that a cytosolic GS is present in tubersand sprouts, and that it is mainly expressed in the internalphloem, in a very precise tissue-specific pattern of distribution.These data provide additional clues to the interpretation ofthe functional role of GS in the mobilization of nitrogen andits utilization in growing parts of the plant. The importanceof morphological data and localization studies in complementingmolecular and biochemical work is emphasized. The proposed functionalimportance of the internal phloem inSolanum tuberosum organsis also reinforced. Solanum tuberosum L. cv. Desirée; potato; tubers; plant glutamine synthetase; tissue-specific distribution; phloem; nitrogen mobilization; in situlocalization; tissue printing     

Effects of Temperature and Photoperiod on Assimilate Partitioning in Potato Plants

The effects of temperature and photoperiod on d. wt partitioningand ¹⁴C translocation were studied in three potato varieties.High temperatures and long days enhanced plant growth in termsof plant height and number of leaves, and also affected d. wtpartitioning between the plant organs. However, no temperatureeffect was noted on total plant d. wt, nor on the export of¹⁴C from the source leaf. Translocation of ¹⁴C to the vegetativeorgans (leaves and stems) was greater at higher temperatures,while translocation to the tubers was less under these conditions.We suggest that, under the temperature regimes studied, themain effect of high temperature is on assimilate partitioningand not on total plant productivity. Differences in responseto high temperatures were observed among varieties, with Norchipshowing the least and Up-to-Date showing the most sensitivity. High temperature, partitioning of assimilates, ¹⁴C-translocation, potato, Solanum tuberosum var. Desirèe, Solanum tuberosum var. Norchip, Solanum tuberosum var. Up-to-Date     

Effects of 3,5-Dihalogenated-4-hydroxybenzonitriles on the Activity of Mitochondria From White Potato Tubers

Effects of the herbicide 3,5-diiodo-4-hydroxybenzonitrile (ioxynil), and its dibromo and dichloro analogs, upon the respiration of mitochondria isolated from white potato tubers (Solanum tuberosum L.) were investigated. Mitochondrial-mediated oxygen uptake was monitored polarographically with a platinum oxygen electrode.     

Nucleotide ratios and quantitative RNA changes in potato plants elicited by photoperiod and temperature

The nucleotide composition of potato plants, Solanum tuberosumL., grown under four environmental regimes was studied. Althoughthere were marked quantitative differences in RNA followingthe temperature and photoperiod treatments as previously observed,nucleotide composition of all types of RNA did not change appreciably. ¹ Scientific Journal Series Article Number 7642 of the MinnesotaAgricultural Experiment Station. (Received August 23, 1971; )     

Stomatal Response of some Cultivated and Wild Tuber-bearing Potatoes in Warm Tropics as Influenced by Water Deficits

Leaf resistances of 14 cultivated potato genotypes (Solanumspp) and three tuber-bearing wild Solanum species were comparedwhen plants were grown under water stress at two tropical sitesFactors investigated were diurnal changes in leaf resistance,the effect of plant age, transient drought versus well-wateredconditions of potted and field-grown plants These measurementswere carried out in order to determine the stomatal behaviourof tuber-bearing genotypes and species Significant genotypic differences in leaf resistances were notedwithin the cultivated genotypes All genotypes had higher resistanceswhen water-stressed, but LT-7 appeared to have the lowest leafresistances Genetic differences in stomatal behaviour of tuber-bearingSolanum species were confirmed Abaxial stomatal resistancesof water-stressed plants of the species ranged between 1 74and 13 8 s cm^–1 Stomata of S chacoense were less affectedby drought (three-fold) than S tuberosum (four-fold) The greatesteffect was on S jungasense (five-fold) and on S raphanifoliumThese data show that stomata behaviour among tuber-bearing Solanumspecies is sufficiently different to warrant investigationsof drought-resistance in potato species under dry hot conditions Solanum tuberosum L., Solanum raphanifolium, Solanum chacoense, Solanum jungasense, leaf resistance     

Periderm cell size as a ploidy indicator in potato (Solatium tuberosum L. subspecies tuberosum)

Using the tubers of glasshouse-grown potato plants, periderm cell dimensions were found to indicate ploidy in comparisons of Solanum tuberosum subspecies tuberosum dihaploids and their somatically-chromosome-doubled derivatives. The mean ratio of dihaploid to tetraploid cell sizes, determined as the product of cell length x breadth, was 0.60:1. There were differences between 34 tetraploid cultivars in their mean periderm cell sizes and between clones within six dihaploid families derived parthenogen-etically from tetraploids. There was variation in mean cell size but dihaploid cells were always smaller than those of their parents. The mean cell size of the parent was usually in the next highest size class of its largest-celled dihaploids. As there was overlap between dihaploid and tetraploid ranges it was concluded that in order to identify dihaploids the mean cell size in tubers of the parent grown under the same conditions should be used for comparison. Clones with mean periderm cell sizes no greater than 60% of the parent's cell size could be provisionally classed as dihaploid.