Phenylalanine derived cyanogenic diglucosides from Eucalyptus camphora and their abundances in relation to ontogeny and tissue type

Elizabeth Heather Neilson; Jason Q.D. Goodger; Mohammed Saddik Motawie; Nanna Bjarnholt; Tina Frisch; Carl Erik Olsen; Birger Lindberg Møller; Ian E. Woodrow

doi:10.1016/j.phytochem.2011.08.022

Phenylalanine derived cyanogenic diglucosides from Eucalyptus camphora and their abundances in relation to ontogeny and tissue type

Elizabeth Heather Neilson, Jason Q.D. Goodger, Mohammed Saddik Motawie, Nanna Bjarnholt, Tina Frisch, Carl Erik Olsen, Birger Lindberg Møller, Ian E. Woodrow

27 Citations (Scopus)

Abstract

The cyanogenic glucoside profile of Eucalyptus camphora was investigated in the course of plant ontogeny. In addition to amygdalin, three phenylalanine-derived cyanogenic diglucosides characterized by unique linkage positions between the two glucose moieties were identified in E. camphora tissues. This is the first time that multiple cyanogenic diglucosides have been shown to co-occur in any plant species. Two of these cyanogenic glucosides have not previously been reported and are named eucalyptosin B and eucalyptosin C. Quantitative and qualitative differences in total cyanogenic glucoside content were observed across different stages of whole plant and tissue ontogeny, as well as within different tissue types. Seedlings of E. camphora produce only the cyanogenic monoglucoside prunasin, and genetically based variation was observed in the age at which seedlings initiate prunasin biosynthesis. Once initiated, total cyanogenic glucoside concentration increased throughout plant ontogeny with cyanogenic diglucoside production initiated in saplings and reaching a maximum in flower buds of adult trees. The role of multiple cyanogenic glucosides in E. camphora is unknown, but may include enhanced plant defense and/or a primary role in nitrogen storage and transport.

Original language	English
Journal	Phytochemistry
Volume	72
Issue number	18
Pages (from-to)	2325-2334
Number of pages	10
ISSN	0031-9422
DOIs	https://doi.org/10.1016/j.phytochem.2011.08.022
Publication status	Published - Dec 2011

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10.1016/j.phytochem.2011.08.022

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@article{cfb06939b5ab41dcbbe612d3cebe3043,

title = "Phenylalanine derived cyanogenic diglucosides from Eucalyptus camphora and their abundances in relation to ontogeny and tissue type",

abstract = "The cyanogenic glucoside profile of Eucalyptus camphora was investigated in the course of plant ontogeny. In addition to amygdalin, three phenylalanine-derived cyanogenic diglucosides characterized by unique linkage positions between the two glucose moieties were identified in E. camphora tissues. This is the first time that multiple cyanogenic diglucosides have been shown to co-occur in any plant species. Two of these cyanogenic glucosides have not previously been reported and are named eucalyptosin B and eucalyptosin C. Quantitative and qualitative differences in total cyanogenic glucoside content were observed across different stages of whole plant and tissue ontogeny, as well as within different tissue types. Seedlings of E. camphora produce only the cyanogenic monoglucoside prunasin, and genetically based variation was observed in the age at which seedlings initiate prunasin biosynthesis. Once initiated, total cyanogenic glucoside concentration increased throughout plant ontogeny with cyanogenic diglucoside production initiated in saplings and reaching a maximum in flower buds of adult trees. The role of multiple cyanogenic glucosides in E. camphora is unknown, but may include enhanced plant defense and/or a primary role in nitrogen storage and transport.",

author = "Neilson, {Elizabeth Heather} and Goodger, {Jason Q.D.} and Motawie, {Mohammed Saddik} and Nanna Bjarnholt and Tina Frisch and Olsen, {Carl Erik} and M{\o}ller, {Birger Lindberg} and Woodrow, {Ian E.}",

year = "2011",

month = dec,

doi = "10.1016/j.phytochem.2011.08.022",

language = "English",

volume = "72",

pages = "2325--2334",

journal = "Phytochemistry",

issn = "0031-9422",

publisher = "Pergamon Press",

number = "18",

}

TY - JOUR

T1 - Phenylalanine derived cyanogenic diglucosides from Eucalyptus camphora and their abundances in relation to ontogeny and tissue type

AU - Neilson, Elizabeth Heather

AU - Goodger, Jason Q.D.

AU - Motawie, Mohammed Saddik

AU - Bjarnholt, Nanna

AU - Frisch, Tina

AU - Olsen, Carl Erik

AU - Møller, Birger Lindberg

AU - Woodrow, Ian E.

PY - 2011/12

Y1 - 2011/12

N2 - The cyanogenic glucoside profile of Eucalyptus camphora was investigated in the course of plant ontogeny. In addition to amygdalin, three phenylalanine-derived cyanogenic diglucosides characterized by unique linkage positions between the two glucose moieties were identified in E. camphora tissues. This is the first time that multiple cyanogenic diglucosides have been shown to co-occur in any plant species. Two of these cyanogenic glucosides have not previously been reported and are named eucalyptosin B and eucalyptosin C. Quantitative and qualitative differences in total cyanogenic glucoside content were observed across different stages of whole plant and tissue ontogeny, as well as within different tissue types. Seedlings of E. camphora produce only the cyanogenic monoglucoside prunasin, and genetically based variation was observed in the age at which seedlings initiate prunasin biosynthesis. Once initiated, total cyanogenic glucoside concentration increased throughout plant ontogeny with cyanogenic diglucoside production initiated in saplings and reaching a maximum in flower buds of adult trees. The role of multiple cyanogenic glucosides in E. camphora is unknown, but may include enhanced plant defense and/or a primary role in nitrogen storage and transport.

AB - The cyanogenic glucoside profile of Eucalyptus camphora was investigated in the course of plant ontogeny. In addition to amygdalin, three phenylalanine-derived cyanogenic diglucosides characterized by unique linkage positions between the two glucose moieties were identified in E. camphora tissues. This is the first time that multiple cyanogenic diglucosides have been shown to co-occur in any plant species. Two of these cyanogenic glucosides have not previously been reported and are named eucalyptosin B and eucalyptosin C. Quantitative and qualitative differences in total cyanogenic glucoside content were observed across different stages of whole plant and tissue ontogeny, as well as within different tissue types. Seedlings of E. camphora produce only the cyanogenic monoglucoside prunasin, and genetically based variation was observed in the age at which seedlings initiate prunasin biosynthesis. Once initiated, total cyanogenic glucoside concentration increased throughout plant ontogeny with cyanogenic diglucoside production initiated in saplings and reaching a maximum in flower buds of adult trees. The role of multiple cyanogenic glucosides in E. camphora is unknown, but may include enhanced plant defense and/or a primary role in nitrogen storage and transport.

U2 - 10.1016/j.phytochem.2011.08.022

DO - 10.1016/j.phytochem.2011.08.022

M3 - Journal article

SN - 0031-9422

VL - 72

SP - 2325

EP - 2334

JO - Phytochemistry

JF - Phytochemistry

IS - 18

ER -

Phenylalanine derived cyanogenic diglucosides from Eucalyptus camphora and their abundances in relation to ontogeny and tissue type

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