Morphological, physiological, cytological and phytochemical studies in diploid and colchicine-induced tetraploid plants of Echinacea purpurea (L.)

Echinacea purpurea (L.) is one of the important medicinal plant species. To obtain the tetraploid plants of Echinacea purpurea with improved medicinal qualities, the root tips of two true leaves seedlings were imbibed in 0.25 % (w/v) colchicine solution for 24, 48, 72, 96 and 168 h. The ploidy level of plants was determined by chromosome counting of root tip cells, and confirmed by flow cytometric analysis. Tetraploid induction occurred in seedlings treated for 24, 48 and 72 h at colchicine solution. The morphological, physiological, cytological, and phytochemical characteristics of diploid and colchicine-induced tetraploid plants were compared. Results indicated that tetraploid plants had considerable larger stomata, pollen grain, seed and flower. Moreover, chloroplast number in guard cells, amount of chlorophyll (a, b, and a + b), carotenoids as well as width and thickness of leaves were increased in tetraploids. However, stomata frequency, leaf index, plant height, and quantum efficiency of photosystem II in tetraploid were lower than diploid plants. High-performance liquid chromatography analysis showed that leaves of the tetraploid plants had more cichoric acid (45 %) and chlorogenic acid (71 %) than diploid plants. It was concluded that morphological and physiological characteristics can be used as useful parameters for preliminary screening of putative tetraploids in this species.     

Meiotic behavior and pollen fertility in triploid and tetraploid natural populations of Campuloclinium macrocephalum (Eupatorieae,Asteraceae)

Campuloclinium macrocephalum DC. is a perennial herb widely distributed in the New World and introduced in South Africa, where it is commonly called “pompom weed”. This species is considered one of the most important weeds of Brazil and one of the problematic invasive plants of South Africa. The meiotic system can be studied to assess the ability of a weed to spread, but only few studies on C. macrocephalum have been realized. In this study, we examined the meiotic behavior and pollen fertility of 14 natural populations of C. macrocephalum from Argentina and Uruguay. Meiotic analysis revealed 2 triploid (2n = 3x = 30), 11 tetraploid (2n = 4x = 40) and 1 mixed population (2n = 2x = 20, 2n = 4x = 40). Both, triploid and tetraploid specimens showed a widely variable meiotic behavior with irregular chromosome pairing showing univalents, bivalents, trivalents (in triploids) and tetravalents (in tetraploids) at diacinesis of first meiotic division. Different abnormalities were observed, such as: laggard chromosomes, chromatin bridges, and out of plate chromosomes at metaphase I. During meiosis I (prophase), some cells showed the phenomenon of cytomixis or chromatin transfer between pollen mother cells. The meiotic indexes suggest that only four populations were normally fertile (over 90 % of fertile pollen), indicating meiotically stable plants. The remaining populations share variable pollen fertility, with triploids ranging from 46.64 to 54.83 % and tetraploids varying from 3.54 to 45.30 %. We suggest that polyploidy seems to be recurrent in C. macrocephalum, promoting partial sterility of pollen grains, generating large numbers of individuals by apomixis promoting invasion of crop fields. This study presents the meiotic behavior of this weed, these could be useful for future studies of biological control in areas with no natural enemies.     

Interspecific hybridization in the genus Hieracium s. str.: evidence for bidirectional gene flow and spontaneous allopolyploidization

Although reticulation has indisputably played an important role in the evolutionary history of the genus Hieracium s. str. (Asteraceae), convincingly documented cases of recent interspecific hybridization are very rare. Here we report combined evidence on recent hybridization between two diploid species, Hieracium alpinum and H. transsilvanicum. The hybrid origin of the plants from the Romanian Eastern Carpathians was supported by additive patterns of nuclear ribosomal DNA polymorphism (ITS), an intermediate position of hybrid plants in principal coordinate analysis based on amplified fragment length polymorphism phenotypes (AFLP), and additivity at one allozyme locus. Flow cytometric analyses and chromosome counting showed that two hybrids were diploid (2n ~ 2x ~ 18) while one was surprisingly tetraploid (2n = 4x = 36). To our knowledge, this is the first record of spontaneous polyploidization following interspecific crossing in the genus. Allozyme data, especially the presence of unbalanced heterozygosity at one locus, suggest the origin of this tetraploid via a triploid bridge with subsequent backcrossing to H. alpinum. According to PCR-RFLP analyses of the trnT-trnL intergenic spacer, all H. ×krasani hybrids examined had the H. alpinum haplotype while H. transsilvanicum served as a pollen donor. The hybrids occurred at the locality with abundant H. alpinum plants where paternal H. transsilvanicum was missing. Previously reported instances of interspecific hybridization between the same parental taxa showed an opposite direction of crossing and relative abundance of parental taxa. This suggests that the direction of hybridization might be influenced by the frequency of parental taxa at the locality.     

Meiotic chromosome configurations in oocytes of <Emphasis Type="Italic">Cobitis taenia</Emphasis> and its polyploid hybrids

Diploid and triploid hybrid females of Cobitis as a rule produce unreduced eggs which mainly develop gynogenetically, but some of the eggs incorporate sperm genome and develop into triploids and tetraploids, respectively. Here, we observed for the first time the meiotic chromosomes in the germinal vesicles (GVs) of mature oocytes of three diploid C. taenia (2n = 48) and 20 allopolyploid females of Cobitis (18 triploid 3n = 74 and 2 tetraploid 4n = 99). The majority of GVs in diploid, triploid and tetraploid females contained 24, 74 and 96 or 99 bivalents, respectively. These results directly indicated premeiotic endomitosis as a mechanism underlying the formation of unreduced eggs in allopolyploid females of Cobitis.     

In vitro induction and identification of tetraploid plants of <Emphasis Type="Italic">Paulownia tomentosa</Emphasis>

Polyploidization is a major trend in plant evolution that has many advantages over diploid. In particular, the enlargement and lower fertility of polyploids are very attractive traits in forest tree breeding programs. We report here a system for the in vitro induction and identification of tetraploid plants of Paulownia tomentosa induced by colchicine treatment. Embryonic calluses derived from placentas were transferred to liquid Murashige and Skoog (MS) medium containing different concentrations of colchicine (0.01, 0.05, or 0.1%) and incubated for 24, 48, or 72 h on an orbital shaker at 110 rpm. The best result in terms of the production of tetraploid plantlets was obtained in the 48 h + 0.05% colchicine treatment, with more than 100 tetraploid plantlets being produced. The ploidy level of plantlets was verified by chromosome counts, flow cytometry, and morphology. The chromosome number of tetraploids was 2n = 4x = 80 and that of diploid plantlets was 2n = 2x = 40. The relative fluorescence intensity of tetraploids was twofold higher than that of diploids. The tetraploid and diploid plantlets differed significantly in leaf shape, with those of the former being round and those of the latter pentagonal. The mean length of the stomata was longer in tetraploid plants than diploid plants, and stomatal frequency was reduced with the increased ploidy level. The tetraploids had large floral organs that were easily distinguishable from those of diploid plants.     

In vitro induction and identification of autotetraploid of <Emphasis Type="Italic">Bletilla striata (Thunb.) Reichb.f</Emphasis>. by colchicine treatment

Polyploidy breeding has proved to be a valuable approach for acquiring the high yield superior varieties in medicinal plants. An effective protocol for obtaining Bletilla striata autotetraploid is in vitro induction of protocorms with colchicine. The protocorms of B.striata were soaked in different concentrations of colchicine solution [0.05, 0.1 and 0.2% (w/v)] for 12, 24, 36, 48 and 60 h, and the ploidy of the seedlings was identified by chromosome counting and flow cytometry analysis. The results showed that the optimal condition for induction of autotetraploid of B. striata protocorms was treated with 0.2% colchicine for 36 h with the induction rate reached as high as 26.7%. In addition, the morphological and anatomical characteristics were observed and compared between the diploid and tetraploid plants. And we found that the features of tetraploid plants were significantly different from diploid plants, such as tetraploid plants possessed thicker and deeper green leaves, larger stomata and more chloroplast number, which could be used as simple and efficient parameters for screening tetraploid. This study laid a foundation for breeding superior varieties of B. striata.     

A protocol for fertility restoration of F<Subscript>1</Subscript> hybrid derived from <Emphasis Type="Italic">Lilium</Emphasis> × <Emphasis Type="Italic">formolongi</Emphasis> ‘Raizan 3’ × Oriental hybrid ‘Sorbonne’

The present study was an attempt to develop an in vitro colchicine chromosome doubling protocol to restore the fertility of an F₁ interspecific hybrid in Lilium. Basal scale segments of Lilium?×?formolongi?×?Oriental hybrid (FO) bulblets were pre-cultured for three durations (6, 15 and 25 days) and soaked in three colchicine concentrations (0.00, 1.25 and 2.50 mM) for 18, 24 and 36 h. To separate mixoploids, three cycles of adventitious bud induction were performed. The ploidy levels of the surviving plantlets were detected by flow cytometry at 30–31 weeks after induction and were confirmed by chromosome counts. The results indicated that the pre-culture duration, colchicine concentration and exposure time all had significant impacts on the tetraploid induction rate. The preferred procedure was to pre-culture the segments for 6 days and then treat them with 1.25 mM colchicine for 24 h. The morphological traits of rosette leaves were significantly different between the tetraploid and diploid plants. The adult tetraploid plants had considerably longer and wider leaves, larger flowers, and delayed flowering time (8 days later) than did diploid plants. Pollen viability tests and backcross trials of FO hybrids demonstrated fertility restoration at the tetraploid level. This protocol provides a feasible method for inducing fertile tetraploid FO hybrids for further breeding.     

同源四倍体紫菜薹的诱导鉴定及其营养品质比较

该研究以二倍体紫菜薹为材料,采用浓度为0.1%、0.2%和0.3%的秋水仙素溶液,在二倍体紫菜薹生长至子叶期时对植株茎尖生长点进行4次点滴处理,鉴定筛选同源四倍体紫菜薹并进行二倍体和四倍体紫菜薹的营养品质比较。结果表明:(1)使用浓度为0.2%秋水仙素溶液点滴4次对紫菜薹的处理效果最好,四倍体紫菜薹的诱导率为6.62%。(2)在形态学上,四倍体植株的叶片、花簇、花器官、角果和种子与二倍体相比都在巨大性上呈现出明显差异;在解剖学上,四倍体植株在气孔密度减小的同时气孔变大,其花粉表现出矩形、梯形以及其他一些不规则的形状;在细胞学上,四倍体和二倍体植株的染色体数目分别为40条和20条;流式细胞仪鉴定结果显示,四倍体植株的DNA分子荧光强度(2 092 385.03)约为二倍体植株(956 725.15)的2倍。(3)植株营养品质方面,四倍体紫菜薹的游离氨基酸、叶绿素总浓度分别比二倍体植株显著增加了228.58%、110.02%,但四倍体紫菜薹的硝态氮、可溶性蛋白、维生素C、可溶性糖、纤维素总含量分别比二倍体植株显著减少了48.99%、43.20%、45.81%、44.50%、59.97%。(4)与二倍体植株相比,四倍体紫菜薹的单株质量、十叶厚、叶宽、叶柄宽都有不同程度的增加,叶片开展度有一定程度的降低。研究发现,秋水仙素诱导产生四倍体紫菜薹的最适浓度为0.2%;四倍体紫菜薹表现出明显的高产性,但多数营养品质极显著低于二倍体紫菜薹。     

Persistence,dispersal and genetic evolution of recently formed <Emphasis Type="Italic">Spartina</Emphasis> homoploid hybrids and allopolyploids in Southern England

In Southampton Water, UK, the recent (c. 150 years ago) interspecific hybridisation between Spartina alterniflora (2n = 6x = 62; A-genome) and S. maritima (2n = 6x = 60; M-genome) gave rise to the homoploid hybrid (S. × townsendii, 2n = 6x = 62), and subsequently to the invasive allododecaploid species S. anglica (2n = 12x = 120–124) that has since spread worldwide. To address the question of dynamics of mixed ploidy populations involving these plants, we analysed several Spartina populations (fifty one individuals) in Southern England, UK, one of which was the presumed place of origin of the homoploid hybrid (Hythe). Using a combination of flow cytometry and ribosomal DNA (rDNA) genotyping we were able to identify the genomic composition and ploidy level of each individual analysed. The data show that the homoploid hybrid still dominates the population at Hythe (82 % of individuals collected in that locality) since its origin in the nineteenth century. We also identified S. × townsendii for the first time on Hayling Island (66 % individuals), indicating dispersal beyond its likely origin. The fertile allododecaploid S. anglica was mainly found in populations outside the initial hybridisation site, on Hayling Island and at Eling Marchwood. Quantification of the rDNA contributions from each parental genome showed that the ratios were mostly balanced in S. × townsendii. However, two (3 %) S. anglica individuals analysed have lost nearly all M-genome homeologs, indicating extensive repeat loss. Such variation indicates that despite the presumed single allopolyploid origin of S. anglica and genetic uniformity at other loci, it has undergone substantial changes at the rDNA loci following genome duplication.     

Impaired male meiosis, morphology and distribution pattern of different cytotypes of Bupleurum lanceolatum Wall. (Apiaceae) from the Western Himalayas

Detailed male meiosis, critical morphological observations and distribution pattern of diploid as well as tetraploid cytotypes of the Western Himalayan species, Bupleurum lanceolatum have been evaluated at present. A diploid (n = 8) cytotype is reported from Kashmir, whereas, both diploid (n = 8) and tetraploid (n = 16) cytotypes are available from two districts Kangra and Sirmaur of Himachal Pradesh. Out of these, the tetraploid cytotype makes new addition for the species on a worldwide basis. As per behavior, a tetraploid cytotype is characterized by abnormal meiosis leading to high pollen sterility and size variation of the pollen grains. Morphologically, tetraploids are noted to be luxuriant in comparison to the diploids.     

Enhancement of paclitaxel content in induced tetraploid <Emphasis Type="Italic">Corylus avellana</Emphasis> L. cell suspension culture with regulating the expression of genes in paclitaxel biosynthetic pathway

During recent years, hazel cell suspension culture has been significantly considered as a new important source of paclitaxel. Artificial polyploidy alters different characters in plants which results in amplifying the secondary metabolites in medicinal plants. In this paper, the effects of tetraploidy induction on paclitaxel content and gene expression in hazel cell suspension culture were investigated. Various concentrations of colchicine and duration of exposure in solid and liquid media were examined and the ploidy level of cells was determined using flow cytometric analysis. The tetraploid cells were obtained from 0.2% colchicine in the exposure time of 5 and 6 days in solid medium and 0.3% colchicine in the exposure time of 3 and 4 days in liquid medium. Tetraploid cells were employed to prepare cell suspension. 3 µM of phenylalanine and 0.05 mM of vanadyl sulfate were added to both tetraploid and diploid (control) suspension to elicit paclitaxel induction. High performance liquid chromatography analysis demonstrated that the tetraploid cell suspensions produced paclitaxel of about [9.88 µg g^?1 (DW)] 1.7-fold compared with diploid cells [5.74 µg g^?1 (DW)]. The application of phenylalanine and vanadyl sulfate increased the concentration of paclitaxel in both diploid and tetraploid cells. Moreover, qRT-PCR analysis showed that the expression of GGPPS gene was significantly increased and PAL gene expression was altered after tetraploidization.     

Using flow cytometry and cytological analyses to assess the genetic stability of somatic embryo-derived plantlets from embryogenic Musa acuminata Colla (AA) ssp. malaccensis cell suspension cultures

Flow cytometry and chromosome counts were used to analyze the genetic stability of plants regenerated via Musa acuminata Colla (AA) ssp. malaccensis embryogenic cell suspension (ECS) cultures. These cultures were initiated from immature zygotic embryos (IZE) on Murashige and Skoog medium using nine different plant growth regulator (PGR) treatments. Highest percentage of embryogenic calli (EC) formation occurred on media with 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D, 97 %), and 8.2 μM of picloram (Pi, 80 %) followed by 2.2 μM 2,4-D (75 %). Embryonic development was synchronized in liquid medium by filtration, and somatic embryo development was achieved with ECS aliquots overlaid on PGR-free medium. The EC medium composition and elapsed time of both short-term (~5 months old) and long-term (~2 years old) ECS cultures influenced plant regeneration, resulting in 65–99 % embryo germination and 50 to 100 % plant conversion. The mean 2C DNA content (1.23 ± 0.002 pg) and chromosome number (2n = 2x = 22) of M. acuminata ssp. malaccensis IZEs, seedlings and sucker plantlets were similar to the reported values. No significant differences were detected among IZEs before culturing, and none were found among the IZEs and leaves of control plants and the plants regenerated from short-term ECS lines when initiated with 2,4-D or Pi vis-à-vis the accession from which they originated. However, plants regenerated from the long-term ECS-L3 culture remained diploid, had the highest DNA content (2C = 1.283 ± 0.01 pg) and were clearly separate from the other regenerated and control plants.     

In vitro tetraploidization for the augmentation of wedelolactone in <Emphasis Type="Italic">Sphagneticola calendulacea</Emphasis> (L.) Pruski

A practical and reliable method for in vitro tetraploidization of Sphagneticola calendulacea (L.) Pruski [synonym Wedelia chinensis (Osbeck) Merrill] has been established to enhance the production of wedelolactone. Shoot tip and nodal explants from in vitro-grown culture (2n?=?50) were exposed to the antimitotic chemical, i.e., colchicine, at various concentrations (0, 0.025, 0.05, 0.1, 0.3, and 0.5%; w/v) for 12, 24, 36, 48, and 60 h. The treated explants were then incubated and proliferated on Murashige and Skoog (MS) medium fortified with 0.2 mg l^?1 thidiazuron and 0.05 mg l^?1 naphthalene acetic acid, followed by root induction in 1.0 mg l^?1 indole-3 acetic acid enriched ½MS medium. Treatment of shoot tips with 0.05% colchicine for 24 h supported the maximum rate of survival (63.33%) of explants as well as tetraploid induction (42.93%). Morphological, stomatal, and cytological characteristics along with the secondary metabolite content of the in vitro tetraploids were compared to that of diploids. The recovered tetraploid plants possessed superior plant height, stem diameter, leaf size, root number, and increased length and width of stomata but decreased stomatal frequency. The tetraploid plants demonstrated twice the chromosome number (2n?=?4x?=?100) than the diploids as confirmed through cytology, spectrophotometry and flow cytometry. High-performance thin-layer chromatography showed a significant enhancement in the wedelolactone content of tetraploid plants (541.48 µg g^?1 of dried sample) in comparison to diploid plants (325.43 µg g^?1 of dried sample), signifying the prospective of this technique for the trade value improvement.     

In vitro induction of tetraploid plants from diploid Zizyphus jujuba Mill. cv. Zhanhua

Tetraploid plants of Zizyphus jujuba Mill. cv. Zhanhua were obtained with in vitro colchicine treatment. Shoot tips from in vitro-grown plants were treated with five different concentrations of colchicine (0.01, 0.03, 0.05, 0.1, 0.3%) in liquid MS medium (Murashige and Skoog 1962), and shaken (100 rpm) at 25 °C in darkness for 24, 48, 72 or 96 h, respectively. Tetraploids were obtained at a frequency of over 3% by using 0.05% colchicine (48 h, 72 h) and 0.1% colchicine (24 h, 48 h) treatment as determined by flow cytometry. Cytological and morphological evidence confirmed the results of flow cytometric analysis. The chromosome number of diploid plants was 24 and that of tetraploid plants was 48. The stomata sizes of tetraploid plants were significantly larger than those of diploid plants, while the frequency of stomata were reduced significantly. Similarly, the chloroplast number of guard cells of tetraploid plants increased significantly. The selected tetraploid plants were grafted onto mature trees of Z. jujuba Mill. cv. Zhanhua in the field, resulted in thicker stems, rounder and succulent leaves, larger flowers and a delay in florescence time (3–4 days later) than diploid plants.     

Karyotype,genome size,and in vitro chromosome doubling of Pfaffia glomerata (Spreng.) Pedersen

Pfaffia glomerata (Spreng.) Pedersen, known worldwide as Brazilian ginseng, has an important commercial value due to its pharmaceutical properties. In addition to the newly described karyological traits and the first estimation of DNA content, this study reports a protocol for the successful induction of tetraploidy. Natural diploid individuals (2n = 34) showed a symmetric karyotype, centromeric DAPI⁺ bands, one chromosome pair with a CMA⁺ band and 45S rDNA site and another with one 5S rDNA site. To induce chromosome duplication, small nodal buds were cultured in semi-solid MS-based medium with 2.22 μM BA, 2.69 μM NAA, and colchicine or oryzalin at 10, 15, 20, 25, and 30 μM for 1 or 2 weeks before being transferred to MS basal medium. The results showed that colchicine induced tetraploid plants, mainly after 1 week of exposure, whereas oryzalin treatment induced only mixoploid plants. The tetraploid plants exhibited twice the chromosome number and DNA content and twice the number of chromosome markers observed for the diploids. Chromosome duplication reduced the dry mass of the stems and roots of the polyploid plants compared to the diploids, and the stomatal density was also reduced on the abaxial and adaxial leaf surfaces of the polyploids. Additionally, the production of β-ecdysone was 50 % higher in the tetraploids than in the diploids. Thus, chromosome doubling showed that is possible to increase the content of β-ecdysone, highlighting the considerable potential of this technique to produce new cultivars with high commercial value.     

In vitro induction of tetraploids in an interspecific hybrid of Calanthe (Calanthe discolor × Calanthe sieboldii) through colchicine and oryzalin treatments

Tetraploids were successfully produced from diploid seeds obtained through interspecific crossing between Calanthe discolor and Calanthe sieboldii by treating with colchicine or oryzalin. Colchicine was tested at concentrations of 0.05 and 0.1 % for 0, 3, or 7 days and oryzalin was tested at a concentration of 0.003 % for 1, 2, 4, and 7 days, and the ploidy of the seedlings was determined by flow cytometry. Tetraploids (4×) were obtained from the interspecific hybrid seeds treated with all colchicine and oryzalin concentrations. The most efficient condition for inducing tetraploids seemed to be treated with 0.003 % oryzalin for 1 or 2 days. Cytological and morphological evidence confirmed the results of flow cytometric analysis. The stomatal density and sizes of the tetraploid plants were significantly higher and larger than those of the diploid plants. Differences in leaf shape were found between the tetraploid and diploid plants under the same growing conditions: the leaves of the diploids were elongated and those of the tetraploids were round.     

Genetic response of Paspalum plicatulum to genome duplication

Paspalum plicatulum is a perennial rhizomatous grass with natural diploid and polyploid cytotypes. In this study, we investigated the occurrence of sequence polymorphisms arising immediately after genome autoduplication in this species. Two mixoploid plants (4C and 7D) were previously obtained through colchicine treatment of seeds generated by open pollination of a diploid plant (H14-2x). Diploid and tetraploid sectors from both mixoploids were dissected to generate two ploidy series (4C-2x/4C-4x and 7D-2x/7D-4x). Molecular fingerprints were generated from the maternal plant H14-2x, both ploidy series (4C-2x/4C-4x and 7D-2x/7D-4x), and a tetraploid plant (C1) produced by selfing 7D-4x. Our results indicate that immediately after polyploidization P. plicatulum suffers genetic rearrangements affecting ~28–38 % of the genome. Band gain and loss were equally prevalent at a statistically significant level. At least 5.62 % of the genome experimented recurrent genetic variation in a non-random basis with a confidence of 94.88 %. A significant proportion of novel bands (36 out of 195; 18.4 %) was detected in the C1 tetraploid plant. Half of these bands were not amplified in either H14-2x or 7D-4x, while the remainders were present in H14-2x but absent in 7D-4x. Our results indicate the occurrence of a considerable number of genetic changes in P. plicatulum immediately after polyploidization, some of which were recurrently detected in different independent events. Moreover, we confirmed that after polyploidization, lost ancestral alleles were spontaneously recovered in further generations, a phenomenon previously reported by other research groups.     

Induction of tetraploidy in Juncus effusus by colchicine

Tetraploidy was induced in vitro in mat rush (Juncus effusus L.) cultivar Nonglin-4 by exposure to colchicine (0, 50, 100 and 500 mg dm^?3) for 6, 12 and 24 h. Flow cytometric analysis was used to confirm the ploidy level. Anatomical and ultrastructural analyses at cellular and subcellular levels in tetraploid and diploid control plants revealed differences between diploid and tetraploid plants. The leaf epidermis had larger stomata but lower stomatal density in tetraploid plants. In addition, mesophyll cells in tetraploid plants appeared more compact and showed less intercellular spaces along with increased size of vascular bundles. However, a significant reduction of chlorophyll content was observed in tetraploid plants that might be the result of structural modification in the lamellar membranes of chloroplasts.     

A comparative study of bioactive secondary metabolite production in diploid and tetraploid Echinacea purpurea (L.) Moench

The impact of the ploidy level on biomass accumulation and the production of high-value secondary metabolites was studied in Echinacea purpurea (L.) Moench. Tetraploid E. purpurea was obtained by treating diploid explants with colchicine. The morphology, biomass yield, the contents of caffeic acid derivatives and alkamides, and the activities of phenylalanine ammonia-lyase (PAL) and cinnamate 4-hydroxylase (C4H) were compared between diploid plants and tetraploid plants of E. purpurea. The total fresh root weight and total dry root weight of the tetraploid plants were 39.32 and 40.48 % higher than those of the diploid plants, respectively. The chemical profiles of the diploid and tetraploid E. purpurea plants were similar, as determined through a comparison of their FTIR spectra and second derivative spectra. The caffeic acid derivatives and alkamides in the diploid and tetraploid plants were determined by HPLC. The tetraploid plants had higher contents of both of these types of molecules. In addition, the tetraploid plants had higher PAL and C4H activities compared with the diploid plants. The enhancement in the PAL and C4H activities was accompanied with an increase in the cichoric acid content, which indicates that the induction of polyploidy in E. purpurea resulted in higher PAL and C4H expression and promoted the biosynthesis of cichoric acid. Therefore, the induction of polyploidy may be a valid strategy to achieve a higher yield of biomass and bioactive compounds in E. purpurea.     

Comparison of photosynthesis and leaf ultrastructure on two black locust (Robinia pseudoacacia L.)

Polyploidy is common in many plant species. Up to date, few studies were reported on photosynthesis and leaf anatomy of tetraploid black locust (Robinia pseudoacacia L.), which has considerable value for agriculture and forest. This study compared photosynthesis and leaf ultrastructure on two black locusts. The values of P_n and C_i in tetraploid were significantly higher than those in the corresponding diploids. Significantly lower stomata dimensions (6.0 μm in length and 2.4 μm in width) and tomatal density were observed in 4×. Leaf trichome density was statistically different between 2× and 4×. However, no substantial difference in the ultrastructure of chloroplasts and mitochondria between diploid and tetraploid was observed under any stress. These ultrastructural characteristics may contribute to tetraploid a better protection mechanism than diploid.