Riboflavin 3'- and 5'-sulfate, two novel flavins accumulating in the roots of iron-deficient sugar beet (Beta vulgaris)

Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds, whereas roots of control, iron-sufficient plants exhibited no yellow color and extremely low autofluorescence. The two major flavins whose acc...

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Published inThe Journal of biological chemistry Vol. 268; no. 28; pp. 20958 - 20965
Main Authors Susin, S, Abian, J, Sanchez-Baeza, F, Peleato, M.L, Abadia, A, Gelpi, E, Abadia, J
Format Journal Article
LanguageEnglish
Published Bethesda, MD American Society for Biochemistry and Molecular Biology 05.10.1993
Subjects
BETA VULGARIS
Biological and medical sciences
CARENCE EN OLIGOELEMENT
DEFICIENCIA DE OLIGOELEMENTOS
ESTER
ESTERES
FER
Fluorescence
Fundamental and applied biological sciences. Psychology
HIERRO
Iron - metabolism
Magnetic Resonance Spectroscopy
Mass Spectrometry - methods
Metabolism
Plant physiology and development
RACINE
RAICES
Riboflavin - analogs & derivatives
Riboflavin - analysis
RIBOFLAVINA
RIBOFLAVINE
Storage and secretion, pigments, phytochrome
Vegetables - chemistry
Vegetables - metabolism
Flavin
Root
Dicotyledones
Deficiency
Angiospermae
Nucleotide
Riboflavin
Isolation
Iron
Spermatophyta
Beta vulgaris
Chenopodiaceae
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Abstract Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds, whereas roots of control, iron-sufficient plants exhibited no yellow color and extremely low autofluorescence. The two major flavins whose accumulation is induced by iron deficiency have been shown to be different from riboflavin, FMN, and FAD by reversed-phase high performance liquid chromatography. These flavins, accounting for 82 and 15% of the total flavin concentration in deficient roots, have been shown unequivocally to be riboflavin 3'-sulfate and riboflavin 5'-sulfate, respectively, by electrospray-mass spectrometry, inductively coupled plasma emission spectroscopy, infrared spectrometry, and 1H nuclear magnetic resonance. These flavin sulfates have not been found previously in biological systems. The localization of riboflavin sulfates in deficient roots is similar, but not identical, to that of high iron reductase activity. The concentration of riboflavin sulfates has been estimated from root extracts to be at least 1 mM. We hypothesize, based on the similar localization of flavin and that of iron reduction, that the accumulation of riboflavin sulfates induced by iron deficiency may be an integral part of the turbo iron-reducing system in sugar beet roots
AbstractList Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds, whereas roots of control, iron-sufficient plants exhibited no yellow color and extremely low autofluorescence. The two major flavins whose accumulation is induced by iron deficiency have been shown to be different from riboflavin, FMN, and FAD by reversed-phase high performance liquid chromatography. These flavins, accounting for 82 and 15% of the total flavin concentration in deficient roots, have been shown unequivocally to be riboflavin 3'-sulfate and riboflavin 5'-sulfate, respectively, by electrospray-mass spectrometry, inductively coupled plasma emission spectroscopy, infrared spectrometry, and 1H nuclear magnetic resonance. These flavin sulfates have not been found previously in biological systems. The localization of riboflavin sulfates in deficient roots is similar, but not identical, to that of high iron reductase activity. The concentration of riboflavin sulfates has been estimated from root extracts to be at least 1 mM. We hypothesize, based on the similar localization of flavin and that of iron reduction, that the accumulation of riboflavin sulfates induced by iron deficiency may be an integral part of the turbo iron-reducing system in sugar beet roots.
Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds, whereas roots of control, iron-sufficient plants exhibited no yellow color and extremely low autofluorescence. The two major flavins whose accumulation is induced by iron deficiency have been shown to be different from riboflavin, FMN, and FAD by reversed-phase high performance liquid chromatography. These flavins, accounting for 82 and 15% of the total flavin concentration in deficient roots, have been shown unequivocally to be riboflavin 3'-sulfate and riboflavin 5'-sulfate, respectively, by electrospray-mass spectrometry, inductively coupled plasma emission spectroscopy, infrared spectrometry, and 1H nuclear magnetic resonance. These flavin sulfates have not been found previously in biological systems. The localization of riboflavin sulfates in deficient roots is similar, but not identical, to that of high iron reductase activity. The concentration of riboflavin sulfates has been estimated from root extracts to be at least 1 mM. We hypothesize, based on the similar localization of flavin and that of iron reduction, that the accumulation of riboflavin sulfates induced by iron deficiency may be an integral part of the turbo iron-reducing system in sugar beet roots.
Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds, whereas roots of control, iron-sufficient plants exhibited no yellow color and extremely low autofluorescence. The two major flavins whose accumulation is induced by iron deficiency have been shown to be different from riboflavin, FMN, and FAD by reversed-phase high performance liquid chromatography. These flavins, accounting for 82 and 15% of the total flavin concentration in deficient roots, have been shown unequivocally to be riboflavin 3'-sulfate and riboflavin 5'-sulfate, respectively, by electrospray-mass spectrometry, inductively coupled plasma emission spectroscopy, infrared spectrometry, and 1H nuclear magnetic resonance. These flavin sulfates have not been found previously in biological systems. The localization of riboflavin sulfates in deficient roots is similar, but not identical, to that of high iron reductase activity. The concentration of riboflavin sulfates has been estimated from root extracts to be at least 1 mM. We hypothesize, based on the similar localization of flavin and that of iron reduction, that the accumulation of riboflavin sulfates induced by iron deficiency may be an integral part of the turbo iron-reducing system in sugar beet roots
Author Sanchez-Baeza, F
Abadia, J
Abian, J
Gelpi, E
Abadia, A
Susin, S
Peleato, M.L
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Issue 28
Keywords Flavin
Root
Dicotyledones
Deficiency
Angiospermae
Nucleotide
Riboflavin
Isolation
Iron
Spermatophyta
Beta vulgaris
Chenopodiaceae
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Snippet Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds,...
Roots from iron-deficient sugar beet grown in the presence of calcium carbonate exhibit a yellow color and autofluorescence typical of flavin-like compounds,...
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StartPage 20958
SubjectTerms BETA VULGARIS
Biological and medical sciences
CARENCE EN OLIGOELEMENT
DEFICIENCIA DE OLIGOELEMENTOS
ESTER
ESTERES
FER
Fluorescence
Fundamental and applied biological sciences. Psychology
HIERRO
Iron - metabolism
Magnetic Resonance Spectroscopy
Mass Spectrometry - methods
Metabolism
Plant physiology and development
RACINE
RAICES
Riboflavin - analogs & derivatives
Riboflavin - analysis
RIBOFLAVINA
RIBOFLAVINE
Storage and secretion, pigments, phytochrome
Vegetables - chemistry
Vegetables - metabolism
Title Riboflavin 3'- and 5'-sulfate, two novel flavins accumulating in the roots of iron-deficient sugar beet (Beta vulgaris)
URI http://www.jbc.org/content/268/28/20958.abstract
https://www.ncbi.nlm.nih.gov/pubmed/8407931
https://search.proquest.com/docview/75996345
Volume 268
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