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The closely related genus ''[[Broussonetia]]'' is also commonly known as mulberry, notably the [[Paper Mulberry]], ''Broussonetia papyrifera''.
The closely related genus ''[[Broussonetia]]'' is also commonly known as mulberry, notably the [[Paper Mulberry]], ''Broussonetia papyrifera''.


Mulberries are fast-growing when young, but soon become slow-growing and rarely exceed 10-15 meters (33-49 ft) tall. The [[leaf|leaves]] are alternately arranged, simple, often lobed, more often lobed on juvenile shoots than on mature trees, and serrated on the margin.
Mulberries are swift-growing when young, but soon become slow-growing and rarely exceed 10–15 meters (33–49 ft.) tall. The [[leaf|leaves]] are alternately arranged, simple, often lobed, more often lobed on juvenile shoots than on mature trees, and serrated on the margin.


The [[fruit]] is a [[Fruit#Multiple fruit|multiple fruit]], 2-3 centimetres (0.8-1.2 in) long. The fruits when immature are white or green to pale yellow with pink edges. In most species the fruits are red when they are ripening. A fully ripened mulberry in these species is dark purple to black, edible, and sweet with a good flavor in several species. The fruits of the white-fruited [[cultivar]] of the White Mulberry on the other hand are green when unripe and white when ripe; the fruit in this cultivar is sweet, and has a very mild flavor compared with the dark fruits.
The [[fruit]] is a [[fruit#Multiple fruit|multiple fruit]], 2–3 centimetres (0.8–1.2 in.) tall. The fruits when immature are white or green to pale yellow with pink edges. In most species the fruits are red when they are ripening. A fully ripened mulberry in these species is dark purple to black, edible, and sweet with a good flavor in several species. The fruits of the white-fruited [[cultivar]] of the white mulberry on the other hand are green when raw and white when ripe; the fruit in this cultivar is sweet, and has a very mild flavor compared with the dark fruits.


==Species==
==Species==
The taxonomy of ''Morus'' is complex and disputed. Over 150 species names have been published, and although differing sources may cite ''different'' selections of accepted names, only 10–16 are generally cited as being accepted by the vast majority of botanical authorities. ''Morus'' classification is even further complicated by widespread [[Hybrid (biology)|hybrid]]isation, wherein the hybrids are fertile.
The taxonomy of ''Morus'' is complex and disputed. Over 150 species names have been published, and although differing sources may cite ''different'' selections of accepted names, only 10–16 are generally cited as being accepted by the vast majority of botanical authorities. ''Morus'' classification is even further complicated by widespread [[hybrid (biology)|hybrid]]isation, wherein the hybrids are fertile.


The following species are generally accepted:
The following species are generally accepted:
{|
{|
|
|
*''[[Morus alba]]'' - White Mulberry <font size=1>(E ASIA)</font>
*''[[Morus alba]]'', white mulberry <font size=1>(E Asia)</font>
*''[[Morus australis]]'' - Chinese Mulberry <font size=1>(SE ASIA)</font>
*''[[Morus australis]]'', Chinese mulberry <font size=1>(SE Asia)</font>
*''[[Morus celtidifolia]]'' - . <font size=1>(MEXICO)</font>
*''[[Morus celtidifolia]]'', <font size=1>(Mexico)</font>
*''[[Morus insignis]]'' - . <font size=1>(S AMERICA)</font>
*''[[Morus insignis]]'', <font size=1>(S America)</font>
*''[[Morus mesozygia]]'' - African Mulberry <font size=1>(SOUTHERN and C AFRICA)</font>
*''[[Morus mesozygia]]'', African Mulberry <font size=1>(S and C Africa)</font>
|
|
*''[[Morus microphylla]]'' - Texas Mulberry <font size=1>(MEXICO, TEXAS (USA))</font>
*''[[Morus microphylla]]'', Texas mulberry <font size=1>(Mexico, Texas (USA))</font>
*''[[Morus nigra]]'' - Black Mulberry <font size=1>(SW ASIA)</font>
*''[[Morus nigra]]'', black mulberry <font size=1>(SW Asia)</font>
*''[[Morus rubra]]'' - Red Mulberry <font size=1>(E NORTH AMERICA)</font>
*''[[Morus rubra]]'', red mulberry <font size=1>(E N America)</font>
|
|
|}
|}
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*''Morus notabilis''
*''Morus notabilis''
*''Morus rotundiloba''
*''Morus rotundiloba''
*''[[Morus serrata]]'' [''M. alba'' var. ''serrata''] - Himalayan Mulberry
*''[[Morus serrata]]'' [''M. alba'' var. ''serrata''], Himalayan mulberry
*''Morus tillaefolia''
*''Morus tillaefolia''
*''Morus trilobata'' [''M. australis'' var. trilobata'']
*''Morus trilobata'' [''M. australis'' var. trilobata'']
Line 83: Line 83:


==Uses and cultivation==
==Uses and cultivation==
The ripe fruit is edible and is widely used in pies, tarts, wines and cordials. The fruit of the black mulberry, native to southwest Asia, and the red mulberry, native to eastern North America, have the strongest flavor. The fruit of the white mulberry, an east Asian species which is extensively naturalized in urban regions of eastern North America, has a different flavor, sometimes characterized as insipid. The mature plant contains significant amounts of [[resveratrol]], particularly in stem bark.<ref>{{cite journal |author=Cui XQ, Wang HQ, Liu C, Chen RY |trans_title=Study of anti-oxidant phenolic compounds from stem barks of Morus yunanensis |language=Chinese |journal=Zhongguo Zhong Yao Za Zhi |volume=33 |issue=13 |pages=1569–72 |year=2008 |month=July |pmid=18837317 |title=Study of anti-oxidant phenolic compounds from stem barks of Morus yunanensis}}</ref>
The ripe fruit is edible and is widely used in pies, tarts, wines, and cordials. The fruit of the black mulberry, native to southwest Asia, and the red mulberry, native to eastern North America, have the strongest flavor. The fruit of the white mulberry, an east Asian species which is extensively naturalized in urban regions of eastern North America, has a different flavor, sometimes characterized as insipid. The mature plant contains significant amounts of [[resveratrol]], particularly in stem bark.<ref>{{cite journal|author=Cui XQ, Wang HQ, Liu C, Chen RY|trans_title=Study of anti-oxidant phenolic compounds from stem barks of Morus yunanensis|language=Chinese|journal=Zhongguo Zhong Yao Za Zhi|volume=33|issue=13|pages=1569–72|year=2008|month=July|pmid=18837317|title=Study of anti-oxidant phenolic compounds from stem barks of Morus yunanensis}}</ref> The fruit and leaves are sold in various forms as nutritional supplements. Raw fruit and green parts of the plant have a white sap that is intoxicating and mildly [[hallucinogenic]].<ref>[http://www.erowid.org/herbs/mulberry/mulberry_info2.shtml Erowid Mulberry Vault : Hallucinogenic properties]</ref>
The fruit and leaves are sold in various forms as nutritional supplements.
Unripe fruit and green parts of the plant have a white sap that is intoxicating and mildly [[hallucinogenic]].<ref>[http://www.erowid.org/herbs/mulberry/mulberry_info2.shtml Erowid Mulberry Vault : Hallucinogenic properties]</ref>


Black, red and white mulberry are widespread in Northern [[India]], [[Azerbaijan]], [[Jordan]], [[Syria]], [[Armenia]], [[Pakistan]], [[Iran]], [[Turkey]] and [[Afghanistan]], where the tree and the fruit are known by the [[Persian language|Persian]]-derived names ''toot'' (mulberry) or ''shahtoot'' (King's or "superior" mulberry). [[Jam]]s and [[sherbet]]s are often made from the fruit in this region. Black mulberry was imported to Britain in the 17th century in the hope that it would be useful in the cultivation of silkworms. It was much used in [[folk medicine]], especially in the treatment of ringworm.
Black, red, and white mulberry are widespread in Northern [[India]], [[Azerbaijan]], [[Jordan]], [[Syria]], [[Armenia]], [[Pakistan]], [[Iran]], [[Turkey]], and [[Afghanistan]], where the tree and the fruit are known by the [[Persian language|Persian]]-derived names ''toot'' (mulberry) or ''shahtoot'' (King's or "superior" mulberry). [[Jam]]s and [[sherbet]]s are often made from the fruit in this region. Black mulberry was imported to Britain in the 17th century in the hope that it would be useful in the cultivation of silkworms. It was much used in [[folk medicine]], especially in the treatment of ringworm.


Mulberry leaves, particularly those of the white mulberry, are ecologically important as the sole food source of the [[silkworm]] (''[[Bombyx mori]]'', named after the mulberry genus ''Morus''), the pupa/cocoon of which is used to make silk. Other [[Lepidoptera]] [[larva]]e also sometimes feed on the plant including [[common emerald]], [[Mimas tiliae|lime hawk-moth]] and [[Sycamore (moth)|the sycamore]].
Mulberry leaves, particularly those of the white mulberry, are ecologically important as the sole food source of the [[silkworm]] (''[[Bombyx mori]]'', named after the mulberry genus ''Morus''), the pupa/cocoon of which is used to make silk. Other [[Lepidoptera]] [[larva]]e also sometimes feed on the plant including [[common emerald]], [[Mimas tiliae|lime hawk-moth]], and [[Sycamore (moth)|the sycamore]].


Mulberries can be grown from seed, and this is often advised as seedling-grown trees are generally of better shape and health. But they are most often planted from large cuttings which root readily.
Mulberries can be grown from seed, and this is often advised as seedling-grown trees are generally of better shape and health. But they are most often planted from large cuttings which root readily.
Line 96: Line 94:


===Anthocyanins from mulberry fruits===
===Anthocyanins from mulberry fruits===
[[Anthocyanins]] are pigments which hold potential use as dietary modulators of mechanisms for various diseases<ref>Wrolstad RE. The possible health benefits of anthocyanin pigments and polyphenolics, Linus Pauling Institute, Oregon State University, 2001[http://lpi.oregonstate.edu/ss01/anthocyanin.html]</ref><ref>{{cite journal |author=Hou DX |title=Potential mechanisms of cancer chemoprevention by anthocyanins |journal=Current Molecular Medicine |volume=3 |issue=2 |pages=149–59 |year=2003 |month=March |pmid=12630561 |doi=10.2174/1566524033361555}}</ref> and as natural food colorants. As the safety of synthetic pigments is doubted and in the wake of increasing demand for natural food colorants, their significance in the food industry is increasing. Anthocyanins yield attractive colors of fresh plant foods such as orange, red, purple, black and blue. Since they are water-soluble, they are easily extractable and incorporated into aqueous food systems.
[[Anthocyanins]] are pigments which hold potential use as dietary modulators of mechanisms for various diseases<ref>Wrolstad RE. The possible health benefits of anthocyanin pigments and polyphenolics, Linus Pauling Institute, Oregon State University, 2001[http://lpi.oregonstate.edu/ss01/anthocyanin.html]</ref><ref>{{cite journal|author=Hou DX|title=Potential mechanisms of cancer chemoprevention by anthocyanins|journal=Current Molecular Medicine|volume=3|issue=2|pages=149–59|year=2003|month=March |pmid=12630561|doi=10.2174/1566524033361555}}</ref> and as natural food colorants. As the safety of synthetic pigments is doubted and in the wake of increasing demand for natural food colorants, their significance in the food industry is increasing. Anthocyanins yield attractive colors of fresh plant foods such as orange, red, purple, black, and blue. Since they are water-soluble, they are easily extractable and incorporated into aqueous food systems.


A cheap and industrially feasible method to purify anthocyanins from mulberry fruit which could be used as a fabric [[tanning]] agent or food colorant of high color value (of above 100) has been established. Scientists found that out of 31 Chinese mulberry cultivars tested, the total anthocyanin yield varied from 148&nbsp;mg to 2725&nbsp;mg per liter of fruit juice.<ref>{{cite journal |author=Liu X, Xiao G, Chen W, Xu Y, Wu J |title=Quantification and Purification of Mulberry Anthocyanins with Macroporous Resins |journal=Journal of Biomedicine & Biotechnology |volume=2004 |issue=5 |pages=326–331 |year=2004 |pmid=15577197 |pmc=1082888 |doi=10.1155/S1110724304403052}}</ref> Total sugars, total acids and vitamins remained intact in the residual juice after removal of anthocyanins and that the residual juice could be fermented in order to produce products such as juice, wine and sauce.
A cheap and industrially feasible method to purify anthocyanins from mulberry fruit which could be used as a fabric [[tanning]] agent or food colorant of high color value (of above 100) has been established. Scientists found that out of 31 Chinese mulberry cultivars tested, the total anthocyanin yield varied from 148 mg to 2725 mg per liter of fruit juice.<ref>{{cite journal|author=Liu X, Xiao G, Chen W, Xu Y, Wu J|title=Quantification and Purification of Mulberry Anthocyanins with Macroporous Resins|journal=Journal of Biomedicine & Biotechnology|volume=2004 |issue=5|pages=326–331|year=2004|pmid=15577197|pmc=1082888|doi=10.1155/S1110724304403052}}</ref> Total sugars, total acids, and vitamins remained intact in the residual juice after removal of anthocyanins and that the residual juice could be fermented in order to produce products such as juice, wine, and sauce.


Worldwide, mulberry is grown for its fruit. In traditional and [[folk medicine]], the fruit is believed to have medicinal properties and is used for making jam, wine, and other food products. As the genera Morus has been domesticated over thousands of years and constantly been subjected to [[heterosis]] breeding (mainly for improving leaf yield), it is possible to evolve breeds suitable for berry production, thus offering possible industrial use of mulberry as a source of anthocyanins for [[functional foods]] or food colorants which could enhance the overall profitability of sericulture.
Worldwide, mulberry is grown for its fruit. In traditional and [[folk medicine]], the fruit is believed to have medicinal properties and is used for making jam, wine, and other food products. As the genera Morus has been domesticated over thousands of years and constantly been subjected to [[heterosis]] breeding (mainly for improving leaf yield), it is possible to evolve breeds suitable for berry production, thus offering possible industrial use of mulberry as a source of anthocyanins for [[functional foods]] or food colorants which could enhance the overall profitability of sericulture.


Anthocyanin content depends on climate, area of cultivation and is particularly higher in sunny climates.<ref>{{cite journal |author=Matus JT, Loyola R, Vega A, ''et al.'' |title=Post-veraison sunlight exposure induces MYB-mediated transcriptional regulation of anthocyanin and flavonol synthesis in berry skins of Vitis vinifera |journal=Journal of Experimental Botany |volume=60 |issue=3 |pages=853–67 |year=2009 |pmid=19129169 |pmc=2652055 |doi=10.1093/jxb/ern336}}</ref> This finding holds promise for tropical [[sericulture]] countries to profit from industrial anthocyanin production from mulberry through anthocyanin recovery.
Anthocyanin content depends on climate, area of cultivation, and is particularly higher in sunny climates.<ref>{{cite journal|author=Matus JT, Loyola R, Vega A, ''et al.''|title=Post-veraison sunlight exposure induces MYB-mediated transcriptional regulation of anthocyanin and flavonol synthesis in berry skins of Vitis vinifera|journal=Journal of Experimental Botany |volume=60|issue=3|pages=853–67|year=2009|pmid=19129169|pmc=2652055|doi=10.1093/jxb/ern336}}</ref> This finding holds promise for tropical [[sericulture]] countries to profit from industrial anthocyanin production from mulberry through anthocyanin recovery.


This offers a challenging task to the mulberry [[germplasm]] resources for
This offers a challenging task to the mulberry [[germplasm]] resources for
* exploration and collection of fruit yielding mulberry species
*exploration and collection of fruit yielding mulberry species;
* their characterization, cataloging and evaluation for anthocyanin content by using traditional as well as modern means and [[biotechnology]] tools
*their characterization, cataloging, and evaluation for anthocyanin content by using traditional as well as modern means and [[biotechnology]] tools;
* developing an information system about these [[cultivar]]s or varieties
*developing an information system about these [[cultivar]]s or varieties;
* training and global coordination of genetic stocks
*training and global coordination of genetic stocks;
* evolving suitable breeding strategies to improve the anthocyanin content in potential breeds by collaboration with various research stations in the field of sericulture, plant genetics and breeding, biotechnology and [[pharmacology]].
*evolving suitable breeding strategies to improve the anthocyanin content in potential breeds by collaboration with various research stations in the field of sericulture, plant genetics, and breeding, biotechnology and [[pharmacology]].


==Popular culture==
==Popular culture==
Line 115: Line 113:


==References==
==References==
{{Reflist}}
{{reflist}}


==External links==
==External links==
{{Wikispecies|Morus (Moraceae)}}
{{Wikispecies|Morus (Moraceae)}}
{{Commons category|Morus}}
{{Commons category|Morus}}
* [http://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=121220 Flora of China: ''Morus'']
*[http://efloras.org/florataxon.aspx?flora_id=2&taxon_id=121220 Flora of China: ''Morus'']
* [http://www.efloras.org/florataxon.aspx?flora_id=1&taxon_id=121220 Flora of North America: ''Morus'']
*[http://efloras.org/florataxon.aspx?flora_id=1&taxon_id=121220 Flora of North America: ''Morus'']
* [http://www.plantnames.unimelb.edu.au/Sorting/Morus.html University of Melbourne: Sorting ''Morus'' names]
*[http://www.plantnames.unimelb.edu.au/Sorting/Morus.html University of Melbourne: Sorting ''Morus'' names]
* [http://www.museums.org.za/bio/plants/moraceae/ Museum of Cape Town: Moraceae]
*[http://www.museums.org.za/bio/plants/moraceae/ Museum of Cape Town: Moraceae]
* [http://silkwormmori.blogspot.com/ Information on mulberry, silkworms and sericulture]
*[http://silkwormmori.blogspot.com/ Information on mulberry, silkworms and sericulture]
* [http://www.academicjournals.org/AJB/PDF/Pdf2005/Jun/Weiguo%20et%20al.pdf Zhao W et al. 2005. Phylogeny of the genus Morus. ''Afr J Biotech'' 4(6): 563-569]
*[http://academicjournals.org/AJB/PDF/Pdf2005/Jun/Weiguo%20et%20al.pdf Zhao W et al. 2005. Phylogeny of the genus Morus. ''Afr J Biotech'' 4(6): 563–569]
* [http://mulberrytrees.co.uk/vegetative/ Propagation (growing) by vegetative method]
*[http://mulberrytrees.co.uk/vegetative/ Propagation (growing) by vegetative method]
* [http://mulberrytrees.co.uk/propagation/ Propagation (growing) by seed method]
*[http://mulberrytrees.co.uk/propagation/ Propagation (growing) by seed method]


{{DEFAULTSORT:Morus (Plant)}}
{{DEFAULTSORT:Morus (Plant)}}

Revision as of 16:47, 26 November 2009

"Mulberry" redirects here. For other uses, see Mulberry (disambiguation).

Template:FixBunching

Mulberry
Ripe mulberry on tree
Scientific classification
Kingdom:
Plantae
(unranked):
Angiosperms
(unranked):
Eudicots
(unranked):
Rosids
Order:
Rosales
Family:
Moraceae
Tribe:
Moreae[1]
Genus:
Morus

Species

See text.

Template:FixBunching

Mulberry fruits in Libya.

Template:FixBunching

Mulberry fruits in various stages of ripeness.

Template:FixBunching

Long Mulberry

Template:FixBunching

Unopened female flower bud.

Template:FixBunching

Female flower of a monoecious variety.

Template:FixBunching

Morus or Mulberry is a genus of 10–16 species of deciduous trees native to warm temperate and subtropical regions of Asia, Africa, Europe, and the Americas, with the majority of the species native to Asia.

The closely related genus Broussonetia is also commonly known as mulberry, notably the Paper Mulberry, Broussonetia papyrifera.

Mulberries are swift-growing when young, but soon become slow-growing and rarely exceed 10–15 meters (33–49 ft.) tall. The leaves are alternately arranged, simple, often lobed, more often lobed on juvenile shoots than on mature trees, and serrated on the margin.

The fruit is a multiple fruit, 2–3 centimetres (0.8–1.2 in.) tall. The fruits when immature are white or green to pale yellow with pink edges. In most species the fruits are red when they are ripening. A fully ripened mulberry in these species is dark purple to black, edible, and sweet with a good flavor in several species. The fruits of the white-fruited cultivar of the white mulberry on the other hand are green when raw and white when ripe; the fruit in this cultivar is sweet, and has a very mild flavor compared with the dark fruits.

Species

The taxonomy of Morus is complex and disputed. Over 150 species names have been published, and although differing sources may cite different selections of accepted names, only 10–16 are generally cited as being accepted by the vast majority of botanical authorities. Morus classification is even further complicated by widespread hybridisation, wherein the hybrids are fertile.

The following species are generally accepted:

The following, all from eastern and southern Asia, are additionally accepted by one or more taxonomic lists or studies; synonymy, as given by other lists or studies, is indicated in square brackets:

  • Morus atropurpurea
  • Morus bombycis [M. australis]
  • Morus cathayana
  • Morus indica [M. alba]
  • Morus japonica [M. alba]
  • Morus kagayamae [M. australis]
  • Morus laevigata [M. alba var. laevigata; M. macroura]
  • Morus latifolia [M. alba]
  • Morus liboensis
  • Morus macroura [M. alba var. laevigata]
  • Morus mongolica [M. alba var. mongolica]
  • Morus multicaulis [M. alba]
  • Morus notabilis
  • Morus rotundiloba
  • Morus serrata [M. alba var. serrata], Himalayan mulberry
  • Morus tillaefolia
  • Morus trilobata [M. australis var. trilobata]
  • Morus wittiorum

Uses and cultivation

The ripe fruit is edible and is widely used in pies, tarts, wines, and cordials. The fruit of the black mulberry, native to southwest Asia, and the red mulberry, native to eastern North America, have the strongest flavor. The fruit of the white mulberry, an east Asian species which is extensively naturalized in urban regions of eastern North America, has a different flavor, sometimes characterized as insipid. The mature plant contains significant amounts of resveratrol, particularly in stem bark.[2] The fruit and leaves are sold in various forms as nutritional supplements. Raw fruit and green parts of the plant have a white sap that is intoxicating and mildly hallucinogenic.[3]

Black, red, and white mulberry are widespread in Northern India, Azerbaijan, Jordan, Syria, Armenia, Pakistan, Iran, Turkey, and Afghanistan, where the tree and the fruit are known by the Persian-derived names toot (mulberry) or shahtoot (King's or "superior" mulberry). Jams and sherbets are often made from the fruit in this region. Black mulberry was imported to Britain in the 17th century in the hope that it would be useful in the cultivation of silkworms. It was much used in folk medicine, especially in the treatment of ringworm.

Mulberry leaves, particularly those of the white mulberry, are ecologically important as the sole food source of the silkworm (Bombyx mori, named after the mulberry genus Morus), the pupa/cocoon of which is used to make silk. Other Lepidoptera larvae also sometimes feed on the plant including common emerald, lime hawk-moth, and the sycamore.

Mulberries can be grown from seed, and this is often advised as seedling-grown trees are generally of better shape and health. But they are most often planted from large cuttings which root readily.

The tree branches pruned during the fall season (after the leaves have fallen) are cut and used to make very durable baskets which are used in a lot of village jobs related to agriculture and animal husbandry.

Anthocyanins from mulberry fruits

Anthocyanins are pigments which hold potential use as dietary modulators of mechanisms for various diseases[4][5] and as natural food colorants. As the safety of synthetic pigments is doubted and in the wake of increasing demand for natural food colorants, their significance in the food industry is increasing. Anthocyanins yield attractive colors of fresh plant foods such as orange, red, purple, black, and blue. Since they are water-soluble, they are easily extractable and incorporated into aqueous food systems.

A cheap and industrially feasible method to purify anthocyanins from mulberry fruit which could be used as a fabric tanning agent or food colorant of high color value (of above 100) has been established. Scientists found that out of 31 Chinese mulberry cultivars tested, the total anthocyanin yield varied from 148 mg to 2725 mg per liter of fruit juice.[6] Total sugars, total acids, and vitamins remained intact in the residual juice after removal of anthocyanins and that the residual juice could be fermented in order to produce products such as juice, wine, and sauce.

Worldwide, mulberry is grown for its fruit. In traditional and folk medicine, the fruit is believed to have medicinal properties and is used for making jam, wine, and other food products. As the genera Morus has been domesticated over thousands of years and constantly been subjected to heterosis breeding (mainly for improving leaf yield), it is possible to evolve breeds suitable for berry production, thus offering possible industrial use of mulberry as a source of anthocyanins for functional foods or food colorants which could enhance the overall profitability of sericulture.

Anthocyanin content depends on climate, area of cultivation, and is particularly higher in sunny climates.[7] This finding holds promise for tropical sericulture countries to profit from industrial anthocyanin production from mulberry through anthocyanin recovery.

This offers a challenging task to the mulberry germplasm resources for

  • exploration and collection of fruit yielding mulberry species;
  • their characterization, cataloging, and evaluation for anthocyanin content by using traditional as well as modern means and biotechnology tools;
  • developing an information system about these cultivars or varieties;
  • training and global coordination of genetic stocks;
  • evolving suitable breeding strategies to improve the anthocyanin content in potential breeds by collaboration with various research stations in the field of sericulture, plant genetics, and breeding, biotechnology and pharmacology.

The nursery rhyme Here We Go Round the Mulberry Bush uses the tree in the refrain, as do some contemporary American versions of the nursery rhyme Pop Goes the Weasel.

References

  1. ^ "Morus L". Germplasm Resources Information Network. United States Department of Agriculture. 2009-01-16. Retrieved 2009-03-11.
  2. ^ Cui XQ, Wang HQ, Liu C, Chen RY (2008). "Study of anti-oxidant phenolic compounds from stem barks of Morus yunanensis". Zhongguo Zhong Yao Za Zhi (in Chinese). 33 (13): 1569–72. PMID 18837317. {{cite journal}}: Unknown parameter |month= ignored (help); Unknown parameter |trans_title= ignored (|trans-title= suggested) (help)CS1 maint: multiple names: authors list (link)
  3. ^ Erowid Mulberry Vault : Hallucinogenic properties
  4. ^ Wrolstad RE. The possible health benefits of anthocyanin pigments and polyphenolics, Linus Pauling Institute, Oregon State University, 2001[1]
  5. ^ Hou DX (2003). "Potential mechanisms of cancer chemoprevention by anthocyanins". Current Molecular Medicine. 3 (2): 149–59. doi:10.2174/1566524033361555. PMID 12630561. {{cite journal}}: Unknown parameter |month= ignored (help)
  6. ^ Liu X, Xiao G, Chen W, Xu Y, Wu J (2004). "Quantification and Purification of Mulberry Anthocyanins with Macroporous Resins". Journal of Biomedicine & Biotechnology. 2004 (5): 326–331. doi:10.1155/S1110724304403052. PMC 1082888. PMID 15577197.{{cite journal}}: CS1 maint: multiple names: authors list (link) CS1 maint: unflagged free DOI (link)
  7. ^ Matus JT, Loyola R, Vega A; et al. (2009). "Post-veraison sunlight exposure induces MYB-mediated transcriptional regulation of anthocyanin and flavonol synthesis in berry skins of Vitis vinifera". Journal of Experimental Botany. 60 (3): 853–67. doi:10.1093/jxb/ern336. PMC 2652055. PMID 19129169. {{cite journal}}: Explicit use of et al. in: |author= (help)CS1 maint: multiple names: authors list (link)
Wikispecies has information related to Morus (Moraceae).
Wikimedia Commons has media related to Morus.
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