Mirabilis jalapa

Mirabilis jalapa
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Eudicots
(unranked): Core eudicots
Order: Caryophyllales
Family: Nyctaginaceae
Genus: Mirabilis
Species: M. jalapa
Binomial name
Mirabilis jalapa
L.

Mirabilis jalapa, the marvel of Peru[1] or four o'clock flower, is the most commonly grown ornamental species of Mirabilis, and is available in a range of colours. Mirabilis in Latin means wonderful and Jalapa is a common placename in Central and North America. Mirabilis jalapa was cultivated by the Aztecs for medicinal and ornamental purposes. It is also said to have been exported from the Peruvian Andes in 1540.

Flowers and colour

A curious aspect of this plant is that flowers with different colours can be found simultaneously on the same plant.

Different color variation in the flower and different color flowers in same plant.
Variegated flower on a four o'clock plant.
Naturally occurring color variation on four o'clock flowers.

Additionally, an individual flower can be splashed with different colours. Flower patterns are referred to as sectors (whole sections of flower), flakes (stripes of varying length), and spots. A single flower can be plain yellow, pink or white, or have a combination of sectors, flakes and spots. Furthermore, different combinations of flowers and patterns can occur on different flowers of the same plant.[2]

Another interesting point is a colour-changing phenomenon. For example, in the yellow variety, as the plant matures, it can display flowers that gradually change to a dark pink colour. Similarly white flowers can change to light violet.

A four o'clock plant in full bloom.

The flowers usually open from late afternoon onwards, hence the first of its common names. Flowers then produce a strong, sweet-smelling fragrance throughout the night, then close for good in the morning. New flowers open the following day.

Despite their appearance, the flowers are not formed from petals – rather they are a pigmented modification of the calyx. Similarly, the 'calyx' is an involucre of bracts.[3]

The flowers are pollinated by long-tongued moths of the Sphingidae family, such as the sphinx moths or hawk moths and other nocturnal pollinators attracted by the fragrance.[4]

Habitat and cultivation

Mirabilis jalapa hails from tropical South America, but has become naturalised throughout tropical and warm temperate regions. In cooler temperate regions, it will die back with the first frosts, regrowing in the following spring from the tuberous roots. The plant does best in full sun. It grows to approximately 0.9 m in height. The single-seeded fruits are spherical, wrinkled and black upon maturity (see picture), having started out greenish-yellow. The plant will self-seed, often spreading rapidly if left unchecked in a garden. Some gardeners recommend that the seeds should be soaked before planting, but this is not totally necessary. In North America, the plant perennializes in warm, coastal environments, particularly in USDA Zones 9–10.

Genetic studies

Around 1900, Carl Correns used Mirabilis as a model organism for his studies on cytoplasmic inheritance. He used the plant's variegated leaves to prove that certain factors outside the nucleus affected phenotype in a way not explained by Mendel's theories.[5] Correns proposed that leaf colour in Mirabilis was passed on via a uni-parental mode of inheritance.[5]

Also, when red-flowered plants are crossed with white-flowered plants, pink-flowered offspring, not red, are produced. This is seen as an exception to Mendel's Law of Dominance, because in this case the red and white genes are of equal strength, so neither completely dominates the other. The phenomenon is known as incomplete dominance.

Seed

Chemistry

Eight betaxanthins (indicaxanthin, vulgaxanthin-I, miraxanthin-I, -II, -III, -IV, V and -VI) can be isolated from M. jalapa flowers.[6]

Rotenoids (mirabijalone A, B, C and D, 9-O-methyl-4-hydroxyboeravinone B, boeravinone C and F, and 1,2,3,4-tetrahydro-1-methylisoquinoline-7,8-diol) can be isolated from the roots.[7]

A fatty acid (8-hydroxyoctadeca-cis-11,14-dienoic acid) is found as a minor component in the seed oil.[8]

Analysis of the methanolic extract of the aerial parts yields β-sitosterol, stigmasterol, ursolic acid, oleanolic acid and brassicasterol.[9]

Bioassay-guided fractionation of an organic extract of the cell mass from a manipulated plant cell culture of M. jalapa led to the isolation and subsequent identification of an isoflavone, a roteinoid and a dehydrorotenoid, Two of this compounds are responsible for the antimicrobial activity against Candida albicans.[10]

Bioassay-guided fractionation of the methanolic extract of M. jalapa also led to the isolation of an active polyphenolic amide: N-trans-feruloyl 4′-O-methyldopamine. This compound shows moderate activity as an efflux pump inhibitor against multidrug-resistant Staphylococcus aureus.[11]

Uses

The flowers are used in food colouring. The leaves may be eaten cooked as well, but only as an emergency food.[12]

An edible crimson dye is obtained from the flowers to colour cakes and jellies.[12]

In herbal medicine, parts of the plant may be used as a diuretic, purgative, and for vulnerary (wound healing) purposes. The root is believed an aphrodisiac as well as diuretic and purgative. It is used in the treatment of dropsy.

The leaves are used to reduce inflammation. A decoction of them (mashing and boiling) is used to treat abscesses. Leaf juice may be used to treat wounds.

Powdered, the seed of some varieties is used as a cosmetic and a dye.[12] The seeds are considered poisonous.[13]

The plant has a potential for the bioremediation of soils polluted with moderate concentrations of heavy metals such as cadmium.[14]

Common names

References

  1. "Mirabilis jalapa". Natural Resources Conservation Service PLANTS Database. USDA. Retrieved 28 January 2016.
  2. "Investigations of the inheritance of flower variegation in Mirabilis jalapa L. 1. General introduction and 2. Inheritance of colour in uniformly coloured flowers. J.M.M. Engels, W.N.M. van Kester, C.J.T. Spitters, L. Vosselman, A.C. Zeven. Institute of Plant Breeding, Agricultural University, Wageningen." (PDF).
  3. J. Hutchinson, 1969. Evolution and phylogeny of flowering plants. London.
  4. "UCLA Mildred E. Mathias Botanical Garden". Botgard.ucla.edu. Retrieved 2012-07-31.
  5. 1 2 Miko, I. Non-nuclear genes and their inheritance. Nature Education 1(1), (2008)
  6. Pigments of centrospermae—V. : Betaxanthins from Mirabilis jalapa L. M. Piattelli, L. Minale and R.A. Nicolaus, , Phytochemistry, 1965, Volume 4, Issue 6, Pages 817–823 (abstract)
  7. New Rotenoids from Roots of Mirabilis jalapa. Wang Yi-Fen, Chen Ji-Jun, Yang Yan, Zheng Yong-Tang, Tang Shao-Zong and Luo Shi-De, Helvetica Chimica Acta, August 2002, Volume 85, Issue 8, pages 2342–2348, doi:10.1002/1522-2675(200208)85:8<2342::AID-HLCA2342>3.0.CO;2-S
  8. An 8-hydroxyoctadeca-cis-11,14-dienoic acid from Mirabilis jalapa seed oil. Mohammad Shamim Ahmad, Abdul Rauf, Jamal Mustafa and Mohammad Osman Sheikh, Phytochemistry, 1984, Volume 23, Issue 10, Pages 2247–2249 (abstract)
  9. Constituents of Mirabilis jalapa. Siddiqui S., Siddiqui B.S., Adil Q. and Begum S., Fitoterapia, 1990, Volume 61, No. 5, page 471 (abstract)
  10. Three New Phenolic Compounds from a Manipulated Plant Cell Culture, Mirabilis jalapa. Shu-Wei Yang, Rosa Ubillas, James McAlpine, Angela Stafford , Dawn M. Ecker, M. Kelly Talbot and Bruce Rogers, J. Nat. Prod., 2001, volume 64, issue 3, pages 313–317, doi:10.1021/np0004092
  11. N-Caffeoylphenalkylamide derivatives as bacterial efflux pump inhibitors. Serge Michalet, Gilbert Cartier, Bruno David, Anne-Marie Mariotte, Marie-Geneviève Dijoux-franca, Glenn W. Kaatz, Michael Stavri and Simon Gibbons, Bioorganic & Medicinal Chemistry Letters, 15 March 2007, Volume 17, Issue 6, Pages 1755–1758 (abstract)
  12. 1 2 3 "Mirabilis jalapa Marvel Of Peru PFAF Plant Database". Pfaf.org. Retrieved 2012-07-31.
  13. "h2g2 - Four O'Clocks - Night Blooming Beauties". Bbc.co.uk. 2002-08-20. Retrieved 2012-07-31.
  14. Growth responses and cadmium accumulation of Mirabilis jalapa L. under interaction between cadmium and phosphorus. Yu Z and Zhou Q, J Hazard Mater., 15 August 2009, volume 167, issues 1-3, pages 38-43, doi:10.1016/j.jhazmat.2008.12.082

Further reading

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