Sex structure and seed productivity of Mentha canadensis L. from natural flora of Primorye of Russia

The sex structure and seed productivity of Mentha canadensis L. from different climatic regions of Primorye of Russia was studied. We established that M. canadensis is characterized by a homogeneous population structure due to the formation of vegetative clones. The ratio of female and androgynous individuals was 1 : 5, and it is possible that this is a species-specific trait. Both sexual forms produced fruits under conditions of isolation from cross-pollination. We discuss the possibility of apomixis and the influence of climatic conditions on seed productivity and morphometric characteristics of plants.     

Variation in Mentha arvensis L. (Labiatae). I. The North American populations

Most North American populations of Mentha arvensis differ from those in Europe in leaf and calyx characters, but the extremes of variation overlap. However the former have a diploid chromosome number of 96 and the latter 72. The North American populations are morphologically very variable and much of this variation is genotypic. However, none of it is discrete and, as it shows little geographic or ecological coherence, taxonomic recognition appears undesirable.
The following chemical races based on essential oil composition, occur in North America:
Type 1–high in pulegone, isomenthone and menthone.
Type 2–high in linalool, cfr-ocimene and trans-ocimene.
Type 3–high in cw-isopulegone and fnmi-isopulegone.
Type 4–high in cis- and trans-ocimene and in 1,8-cineol.
These four chemotypes are not correlated with any of the morphological variations. The recognition of chemical races is discussed and it is concluded that where possible they should be based on diagnostic components, rather than on quantitative differences or the mere presence or absence of given compounds. The literature relating to biosynthesis and essential oil composition in Mentha arvensis is reviewed.     

Comparative inflorescence and floral ontogeny in the genus Mentha (Mentheae: Nepetoideae: Lamiaceae): variable sequences of organ appearance and random petal aestivation

The genus Mentha is a taxonomically complex genus, characterized by large morphological variations. Only a few, frequently overlapping, characters are of value in taxonomy. Comparative floral developmental studies provide an opportunity for better understanding the systematic relationships among different species. The inflorescence and floral ontogeny of three Mentha L. species (M. piperita L., M. pulegium L. and M. suaveolens Ehrh.) were investigated using epi-illumination light microscopy. All three species studied have thyrses with the same developmental pathway. The lack of higher order bracts and the monochasial branching of the higher order inflorescence apices were found as special features of inflorescence ontogeny. Sepals appear unidirectionally from the adaxial side in all except for M. pulegium which shows a modified unidirectional sequence. Variable sequences of petal and stamen appearance from unidirectional to reversed unidirectional sequence are present in all. Significant ontogenetic features include (1) appearance of the corolla as a rim before petal lobes become visible and (2) instability in petal aestivation. Morphological features including densely hairy calyx, five-lobed corolla tube, smaller adaxial stamens and hairy ovary with included style distinguish M. pulegium from the other species. On the basis of our results floral ontogenetic features could be considered important characters for delimiting or diagnosing different sections in the genus Mentha. Variable sequences of petal lobe appearance and instability in petal aestivation were found as unusual developmental characters.     

薄荷精油抗菌活性研究

采用气相色谱—质谱联用仪分析了薄荷精油的成分,在鉴定出的21种成分中,异佛尔酮(41.22%)、β-石竹烯(10.01%)、斯巴醇(2.89%)、β-蒎烯(1.45%)和桉树脑(1.13%)为主要成分。采用琼脂扩散法和微量肉汤稀释法对薄荷精油的抗菌活性进行了研究。结果表明,枯草芽孢杆菌及变形杆菌出现最大的抑菌环。MIC实验中,薄荷精油的浓度范围为5.00%~0.039%。在所选的8种菌种中,变形杆菌的MIC及MBC值最低,分别为0.625%及1.25%。结果充分证明,薄荷精油对于所选的8种病原菌都有很好的抗菌活性,在食品及制药工业中有广阔的应用前景。     

A palynological study of the genus Mentha L. (Lamiaceae)

The pollen morphology and exine structure of 10 Mentha L . species were investigated using light microscopy and scanning electron microscopy. The pollen grains of all 11 species were hexazonocolpate with granular membranes and a circular amb, varying in shape from prolate-spheroidal to suboblate. Different colpus shapes were recognized in M . ×  dumetorum . The exine was bireticulate in section Pulegium , and reticulate in section Menthae . A correlation was found between pollen size and chromosome number. The results indicate that the pollen characters of the genus Mentha are valuable for taxonomic applications and may be useful for classification.  © 2008 Uludag University. Journal compilation © 2008 The Linnean Society of London, Botanical Journal of the Linnean Society , 2008, 157 , 141–154.     

Highly oxygenated flavones from Mentha piperita

Six highly oxygenated flavones have been isolated from the leaves of Mentha piperita. Five known compounds, 5-hydroxy-6,7,8,4′-tetramethoxyflavone, 5,4′-dihydroxy-6,7,8-trimethoxyflavone, 5,3′-dihydroxy-6,7,8,4′-tetramethoxyflavone, 5-hydroxy-6,7,8,3′,4′-pentamethoxyflavone and 5,3′,4′-trihydroxy-6,7,8-trimethoxyflavone, are reported for the first time in the genus Mentha. The sixth compound has been identified as 5,6-dihydroxy-7,8,3′,4′-tetramethoxyflavone by UV, NMR and mass spectra.     

Penconazole induced changes in photosynthesis, ion acquisition and protein profile of Mentha pulegium L. under drought stress

Effect of penconazole (PEN) treatment on drought-stressed Mentha pulegium L. plants was investigated. Six weeks after sowing, seedlings were grown under soil moisture corresponding to 100, 75, 50 and 25 % field capacity (FC) with or without PEN (15 mg l⁻¹) for 4 weeks. Results showed that the seedlings at 75 % FC showed maximum growth and water supply lower than 75 % FC was the threshold of drought-initiated negative effects on seedling growth. Drought stress significantly induced proline and carbohydrate contents and the decreased chlorophyll, photosynthesis parameters, soluble proteins and ion accumulations. Exogenous PEN increased the growth parameters, pigments, photosynthesis and ion accumulations in drought stressed and unstressed plants, but the effects of PEN were more significant under water deficit conditions. PEN also reduced the negative effects of drought by osmotic balance and protein accumulations. Electrophoretic patterns indicated that PEN treatment increased the intensity of some protein bands with the molecular weights of 30 kDa in shoot and 31 kDa in roots, and several new protein bands with the molecular masses between 116 and 14 kDa appeared in leaves, shoots and roots. These results suggest that the PEN application can be a useful tool in alleviation of effects of drought stress in M. pulegium plants.     

A study of the chemical composition of essential oils of some species from the Lamiaceae L. family cultivated in the Western Siberian Region

The chemical composition of the essential oils from Mentha piperita L., Mentha crispa L., Origanum vulgare L., Dracocephalum moldavica L., and Hyssopus officinalis L. cultivated under the conditions of the Western Siberia Region was studied using the chromatography-mass spectrometry approach. The results on the composition of the cultivated O. vulgare, D. moldavica, and H. officinalis are comparable with the data for wild plants, and for M. piperita and M. crispa, with the plants grown in the Southern regions of Russia. The data on the chemical composition of the essence oil, or attar, from M. crispa (Inna breed) were obtained for the first time, and the data for H. officinalis were substantially extended.     

Predicting current and future distributions of Mentha pulegium L. in Tunisia under climate change conditions,using the MaxEnt model

Climate change and human activities have caused the degeneration of the natural habitats of medicinal plants. Mentha pulegium L. is one of the most common medicinal plants in Tunisia that features high economic and ecological values. Predicting species' suitable habitats, through modeling, has evolved as a useful tool for the assessment of resource conservation to protect medicinal plants. Herein, we used MaxEnt model to predict current and future distributions of M. pulegium under two representative concentration pathways (RCP2.6 and RCP8.5) for the years 2050 and 2070. MaxEnt modeling was in the “Excellent” category since all the AUCs were above 0.9. Results showed that high and moderate suitable habitats for the current distribution of M. pulegium encompassed ca. 9929 km² and 16,423 km², respectively. These areas are mainly located in North Tunisia. Precipitation of the coldest quarter (Bio19) was identified as the most critical factor shaping M. pulegium distribution. Compared to the current distribution, the highly and moderately suitable areas for M. pulegium under the two RCPs (RCP2.6 and RCP8.5) would decrease in the 2050s and 2070s. The model projected a shift of the suitable area from Northeastward to Center-eastward. These results may provide a useful tool for developing adaptive management strategies to enhance M. pulegium protection and sustainable utilization in the context of global climate change.     

Biosynthesis of carvone in Mentha spicata

Degradation of, and measurement of isotope ratios in, (?)-carvone that had been biosynthesized in Mentha spicata from ³H- and ¹⁴C-labelled geraniol and mevalonate indicate that (a) oxidation of limonene or its biogenetic equivalent to form carvone involves shift of the endocyclic double bond; (b) (+)-limonene and (?)-carvone are biogenetically related and are probably formed on divergent pathways from a common intermediate; and (c) the exocyclic double bond of carvone is not formed regiospecifically. These results enable the mechanisms for the introduction of the carbonyl group and for the formation of the isopropenyl side-chain to be delimited.     

A unique interspecific hybrid spearmint clone with growth properties of Menthaarvensis L. and oil qualities of Mentha spicata L.

Crossing blocks of Mentha arvensis cv Kalka (menthol mint without carvone) and Mentha spicata cv Neera (carvone mint without menthol) in alternate rows (2:1::Kalka:Neera), and pollination of florets of Kalka with that from Neera, yielded a carvone-rich variant among the open-pollinated seedlings. The variant possesses the hybrid phenotype, including the vigorous M. arvensis growth habit and the synthesis of rich oil aroma supplemented with a menthol tinge (carvone 64%–76% against 58% for the normal carvone mint cv Neera), and thus a novel combination of the essential oil. Chromosome counts and random amplified polymorphic DNA analysis confirmed that this spearmint variant, designated as the variety Neerkalka, is a unique interspecific hybrid (2n=5x=60) of M. arvensis cv Kalka (2n=8x=96) and M. spicata cv Neera (2n=2x=24). Vegetative multiplication of the hybrid was facilitated by its underground sucker-reproducing ability which is otherwise absent in spearmints. The per cent improvement in the variant ranged from 31–97 for herbage yield and 95–317 for oil yield over the standard spearmint varieties (MSS-5, Arka and Neera), with per hectare oil yields of 125.0 kg, 139.0 kg and 65.0 kg, respectively. Received: 25 March 2000 / Accepted: 3 July 2000     

Lipid Constituents of Callus Tissues of Mentha spicata

A callus tissue culture was established from leaves and stems of Mentha spicata L. Lipid constituents isolated from callus tissues were composed of fatty acids, fatty acid methyl esters, triglycerides, squalene, stigrnasterol, sitosterol, oleanolic acid (1), ursolic acid (2) and pomolic acid (3). These liquid constituents did not contain monoterpenoids.     

Somatic hybridization in mint: identification and characterization of Mentha piperita (+) M. spicata hybrid plants

 Twenty eight somatic hybrid plants were identified following protoplast fusions between peppermint (Mentha piperita L. cv Black Mitcham), producing high-quality oil, and spearmint (Mentha spicata L. cv Native Spearmint), likewise producing high-quality oil and also possessing resistance to verticillium wilt. Prior to fusion, peppermint protoplasts were subjected to iodoacetic acid to inhibit cell division. Protoplasts of peppermint and spearmint were fused using polyethylene glycol plus DMSO. Fusion products were cultured according to an efficient protoplast-to-plant-cycle protocol developed for peppermint. Using this protocol, iodoacetic acid-treated peppermint protoplasts were not able to divide, whereas untreated spearmint protoplasts had the ability to produce callus but not shoots. Therefore, selection of somatic hybrid calli was based on the presumed capability of hybrid cells to form calli and shoots. Shoots in vitro were initially identified as hybrids using RAPD profiles. Subsequently, observations on morphology, chromosome counts, and Southern-hybridization patterns confirmed their hybrid status. The results of verticillium tests revealed that 18 somatic hybrids were more susceptible than Native Spearmint, while hybrid II-14 had a level of susceptibility intermediate between that of the fusion parents. Oil-analysis of hybrid plants indicated that they all have a GC-profile typical of spearmint oil. Received: 8 February 1997 / Accepted: 9 April 1997     

The first genetic maps for subterranean clover (Trifolium subterraneum L.) and comparative genomics with T. pratense L. and Medicago truncatula Gaertn. to identify new molecular markers for breeding

This study reports on the construction of the first genetic maps of subterranean clover (Trifolium subterraneum L.), a diploid, inbreeding annual pasture legume, and alignment of its linkage groups with those of red clover (T. pratense L.) and Medicago truncatula Gaertn. Transferability of red and white clover (T. repens L.) simple sequence repeat (SSR) markers to subterranean clover was observed. A total of 343 SSR loci were mapped into eight subterranean clover linkage groups, with 6?C31 loci per linkage group and 27 loci with similar locations between two distinct F ₂ mapping populations. Phenotypic data obtained for flowering time, content of three isoflavonoids (formononetin, genistein and biochanin A), hardseededness, leaf markings, calyx pigmentation and hairiness of stems were analyzed, together with genotypic data. Genomic intervals influencing each trait were assigned to one to three chromosome regions, accounting for 5.5?C59.8% of the phenotypic variance. Syntenic relationships were observed among subterranean clover, red clover and Medicago truncatula genomes. Comparisons of loci shared between the three species indicated that at least two chromosomal regions have undergone duplications in the subterranean clover genome. Candidate genes for isoflavone content were identified using M. truncatula as a reference genome. Synteny-based segmentation observed in Brassicaceae chromosomes helped to account for the apparent segmental-based relationship between the clover genomes, particularly within the subterranean clover lines. The proposed segmental nature of clover genome could account for the extensive variation observed between the parental genotypes, while not preventing production of fertile intercrosses.     

Exogenous application of penconazole regulates plant growth and antioxidative responses in salt-stressed Mentha pulegium L.

The mechanism of growth amelioration in salt-stressed pennyroyal (Mentha pulegium L.) was investigated by exogenous application of penconazole (PEN). Seven weeks after sowing, seedlings were treated with increasing NaCl concentrations (0, 25, 50, and 75 mM) with or without PEN (15 mg l^?1) and were harvested randomly at different times. Results showed that some growth parameters and the relative water content (RWC) decreased under salt stress, while lipid peroxidation, H₂O₂ content, activities of superoxide dismutase (SOD; EC 1.15.1.1), peroxidase (POX; EC 1.11.1.7), polyphenol oxidase (PPO; EC 1.10.3.1), catalase (CAT; EC 1.11.1.6), and ascorbate peroxidase (APX; EC 1.11.1.1) remarkably increased. Exogenous application of PEN increased some growth parameters, RWC, antioxidant enzyme activities, and H₂O₂ content, but the effects of PEN were more significant under salt stress conditions. PEN treatment also decreased lipid peroxidation. These results suggest that PEN-induced tolerance to salt stress in M. pulegium plants may be related to regulation of antioxidative responses and H₂O₂ level.     

Postmortale bildung von 5,7-dihydroxychromon-7-rutinosid in Mentha longifolia

5,7-Dihydroxychromone 7-rutinoside isolated from Mentha longifolia must be considered to be a product of postmortem processes. It is only formed after heating fresh plant material and its production is connected with the degradation of flavonoids, and particularly of eriodictyol 7-rutinoside. Investigations with four other Mentha species confirm these results. Eriodictyol 7-rutinoside and eriodictyol are degraded up to 50%, by horseradish peroxidase but 5,7-dihydroxychromone-7-rutinoside cannot be detected.     

Chromosome numbers in the genus Mentha L.

One hundred and fifty-seven chromosome numbers of a range of taxa from both hemispheres are reported in the genus Mentha. Plants of both wild and cultivated origin have been sampled, including hybrids, some of which have been synthesized from known parents. Some of the causes of the great taxonomic complexity of the group are discussed and the need for accurate and unambiguous identification of the plant material is stressed. There is a critical review of the chromosome numbers in relation to their taxonomy, with a discussion on probable basic numbers. The most useful areas of future research are indicated.     

Demonstration of the Intercellular Compartmentation of l-Menthone Metabolism in Peppermint (Mentha piperita) Leaves

The metabolism of l-menthone, which is synthesized in the epidermal oil glands of peppermint (Mentha piperita L. cv. Black Mitcham) leaves, is compartmented; on leaf maturity, this ketone is converted to l-menthol and l-menthyl acetate in one compartment, and to d-neomenthol and d-neomenthyl glucoside in a separate compartment. All of the enzymes involved in these reactions are soluble when prepared from whole-leaf homogenates. Mechanical separation of epidermal fragments from the mesophyll, followed by preparation of the soluble enzyme fraction from each tissue, revealed that the neomenthol dehydrogenase and the glucosyl transferase resided specifically in the mesophyll layer, whereas the menthol dehydrogenase and substantial amounts of the acetyl transferase were located in the epidermis, presumably within the epidermal oil glands. These results suggest that the compartmentation of menthone metabolism in peppermint leaves is intercellular, not intracellular.     

Comparative Study of Chemical Composition,Cholinesterase Inhibition and Antioxidant Potential of Mentha pulegium L. Essential Oil

Perennial plant Mentha pulegium L. (pennyroyal, Lamiaceae) can be found in Europe and Mediterranean. In areas where it thrives, M. pulegium is used in nutrition and as medicinal plant. Essential oil of M. pulegium is also a frequent constituent of foods and fragrances, because of mint-like odor. Regarding the use of M. pulegium in traditional medicine and nutrition, as well as fact that essential oils are potential sources of bioactive components, this study was conducted to examine the chemical composition of essential oil of M. pulegium wild growing in Bosnia and Herzegovina and its biological activity. The chemical profile testing was made using GC/MS and GC/FID technique. Potential of cholinesterase inhibition was tested by Ellman's assay. The antioxidant activity was tested by DPPH and FRAP assay. The dominant components in analyzed oil were pulegone 54.4 %, p-menthone 14.0 % and piperitenone 12.8 %. Good antioxidant activity and moderate cholinesterase inhibition potential of tested essential oil indicates to possibility of its use in treatment of diseases related to free radicals, Alzheimer disease and as lipid protecting antioxidant.