Brassica (//) is a genus of plants in the mustard family (Brassicaceae). The members of the genus are informally known as cruciferous vegetables, cabbages, or mustard plants. Crops from this genus are sometimes called cole crops—derived from the Latin caulis, denoting the stem or stalk of a plant.
The genus Brassica is known for its important agricultural and horticultural crops and includes a number of weeds, both of wild taxa and escapees from cultivation. Brassica species and varieties commonly used for food include broccoli, cauliflower, cabbage, choy sum, rutabaga, turnip and some seeds used in the production of canola oil and the condiment mustard. Over 30 wild species and hybrids are in cultivation, plus numerous cultivars and hybrids of cultivated origin. Most are seasonal plants (annuals or biennials), but some are small shrubs. Brassica plants have been the subject of much scientific interest for their agricultural importance. Six particular species (B. carinata, B. juncea, B. oleracea, B. napus, B. nigra, and B. rapa) evolved by the combining of chromosomes from three earlier species, as described by the Triangle of U theory. Although of no agricultural importance of itself, the brassica Arabidopsis thaliana is of great scientific importance as a model plant species.
A dislike for cabbage or broccoli can result from the fact that these plants contain a compound similar to phenylthiocarbamide (PTC), which is either bitter or tasteless to people depending on their taste buds.
Almost all parts of some species or other have been developed for food, including the root (rutabaga, turnip), stems (kohlrabi), leaves (cabbage, collard greens, kale), flowers (cauliflower, broccoli), buds (Brussels sprouts, cabbage), and seeds (many, including mustard seed, and oil-producing rapeseed). Some forms with white or purple foliage or flowerheads are also sometimes grown for ornament.
Brassica vegetables provide high amounts of vitamin C, vitamin K, manganese, and soluble fiber, and contain glucosinolates which are under preliminary research for their potential biological properties when consumed. Epidemiological studies suggest that brassica vegetables are protective against cancers of the lungs and alimentary tract. Cruciferous vegetables are the dietary source of glucosinolates, a large group of sulfur-containing glucosides. These compounds remain intact unless brought into contact with the enzyme myrosinase by pests, food processing, or chewing. Myrosinase releases glucose and breakdown products, including isothiocyanates. These highly reactive compounds are potent inducers of Phase II enzymes in vitro. Isothiocyanates also inhibit mitosis and stimulate apoptosis in human tumor cells, in vitro and in vivo.
Boiling substantially reduces the levels of broccoli glucosinolates, while other cooking methods, such as steaming, microwaving, and stir frying, have no significant effect on glucosinolate levels.
There is some disagreement among botanists on the classification and status of Brassica species and subspecies. The following is an abbreviated list, with an emphasis on economically important species.
- B. balearica: Mallorca cabbage
- B. carinata: Abyssinian mustard or Abyssinian cabbage, used to produce biodiesel
- B. elongata: elongated mustard
- B. fruticulosa: Mediterranean cabbage
- B. hilarionis: St Hilarion cabbage
- B. juncea: Indian mustard, brown and leaf mustards, Sarepta mustard
- B. napus: rapeseed, canola, rutabaga, Siberian kale (swede, swede turnip, Swedish turnip)
- B. narinosa: broadbeaked mustard
- B. nigra: black mustard
- B. oleracea: kale, cabbage, collard greens, broccoli, cauliflower, kai-lan, Brussels sprouts, kohlrabi
- B. perviridis: tender green, mustard spinach
- B. rapa (syn. B. campestris): Chinese cabbage, turnip, rapini, komatsuna
- B. rupestris: brown mustard
- B. tournefortii: Asian mustard
Species formerly placed in Brassica
- B. alba or B. hirta (white or yellow mustard)—see Sinapis alba
- B. geniculata (hoary mustard)—see Hirschfeldia incana
- B. kaber (wild mustard or charlock)—see Sinapis arvensis
Genome sequencing and genetics
Bayer CropScience (in collaboration with BGI-Shenzhen, China; Keygene N.V.; the Netherlands and the University of Queensland, Australia) announced it had sequenced the entire genome of rapeseed (canola, Brassica napus) and its constituent genomes present in B. rapa and B. oleracea in 2009. The B. rapa genome was sequenced by the Multinational Brassica Genome Project in 2011. This also represents the A genome component of the amphidiploid crop species B. napus and B. juncea.
‘Brassica’ is Pliny's name for several cabbage-like plants.
- "caulis". Wordnik. Retrieved 25 May 2013.
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- Nugrahedi, Probo Y.; Verkerk, Ruud; Widianarko, Budi; Dekker, Matthijs (25 November 2014). "A Mechanistic Perspective on Process-Induced Changes in Glucosinolate Content in Brassica Vegetables: A Review". 55 (6): 823–838. doi:10.1080/10408398.2012.688076. PMID 24915330. Cite journal requires
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- Wang, Xiaowu; Wang, Hanzhong; Wang, Jun; Sun, Rifei; Wu, Jian; Liu, Shengyi; Bai, Yinqi; Mun, Jeong-Hwan; et al. (2011). "The genome of the mesopolyploid crop species Brassica rapa". Nature Genetics. 43 (10): 1035–9. doi:10.1038/ng.919. PMID 21873998.
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- Media related to Brassica at Wikimedia Commons