Chemical fact sheet: Eriodictyol

Eriodictyol

Basics

Category
Flavanone derivatives
IUPAC-name
2-(3,4-dihydroxyphenyl)-5,7-dihydroxychroman-4-one
Formula
No formula stored
Exact mass
288.06340 g/mol
Molecular weight
288.25000 g/mol
Structure
Chemical structure of eriodictyol
Figure 1.1: Chemical structure of eriodictyol

Sources

In summary, the chemical eriodictyol has been analyzed from following sources:

Carthamus lanatus  L.
1st 2nd
Carthamus palaestinus  L.
1st
Carthamus tinctorius  L.
1st
Tanacetum parthenium  (L.) Sch. Bip.
1st 2nd 3rd

Note that an analysis result in the database may indicate either presence or lack thereof of a chemical in an analyzed sample.

References

  1. J. Kim, A. Assefa, J. Song, V. Mani, S. Park, S. Lee, K. Lee, D. Kim, and B. Hahn, "Assessment of metabolic profiles in florets of Carthamus species using ultra-performance liquid chromatography-mass spectrometry.," Metabolites , vol. 10 , no. 11 , pp. 440 , DOI: 10.3390/metabo10110440 .
  2. G. Zengin, A. Cvetanonović, U. Gašić, A. Stupar, G. Bulut, I. Şenkardes, A. Dogan, K. Sinan, Z. Aumeeruddy-Elalfi, A. Aktumsek, and M. Mahomoodally, "Modern and traditional extraction techniques affect chemical composition and bioactivity of Tanacetum parthenium (L.) Sch. Bip.," Industrial Crops and Products , vol. 146 , pp. 112202 , DOI: 10.1016/j.indcrop.2020.112202 .

Analysis results

Analysis result 1

STD
False
TLC
False
UV/Vis detector description
Mass spectrometer description
UHPLC-ESI-QTOF-MS, quadrupole time-of-flight
Organism
Carthamus tinctorius  L.
cultivated
dried, frozen
Sample note
The material (Accession Number 592391) were obtained from USDA National Plant Germplasm system. The seeds were planted and cultivated in a greenhouse at 18-25 °C located at the National Institute of Agricultural Sciences, Jeonju, Korea.These LATE STAGE flower samples were collected when the capitulum begins to expand and the seeds are about to start developing. The florets start to change color to orange/red.
Drying methods
freeze-dried
Dried material storage temperature
-80 °C
Extraction solvents
70 % methanol
Extraction mass/volume-ratio
25 mg/mL
Extraction repeats
5
Extraction time
35 min
Extraction temperature
4 °C
Analysis solvents
70 % methanol
Detection note
The exact mass was obtained.
References

J. Kim, A. Assefa, J. Song, V. Mani, S. Park, S. Lee, K. Lee, D. Kim, and B. Hahn, "Assessment of metabolic profiles in florets of Carthamus species using ultra-performance liquid chromatography-mass spectrometry.," Metabolites , vol. 10 , no. 11 , pp. 440 , DOI: 10.3390/metabo10110440 .

Analysis result 2

STD
False
TLC
False
UV/Vis detector description
Mass spectrometer description
UHPLC-ESI-QTOF-MS, quadrupole time-of-flight
Organism
Carthamus palaestinus  L.
wild
dried, frozen
Sample note
The material (Accession Number 235663) were obtained from USDA National Plant Germplasm system. The seeds were planted and cultivated in a greenhouse at 18-25 °C located at the National Institute of Agricultural Sciences, Jeonju, Korea.These LATE STAGE flower samples were collected when the capitulum begins to expand and the seeds are about to start developing. The florets start to change color to orange/red.
Drying methods
freeze-dried
Dried material storage temperature
-80 °C
Extraction solvents
70 % methanol
Extraction mass/volume-ratio
25 mg/mL
Extraction repeats
5
Extraction time
35 min
Extraction temperature
4 °C
Analysis solvents
70 % methanol
Detection note
The exact mass was obtained.
References

J. Kim, A. Assefa, J. Song, V. Mani, S. Park, S. Lee, K. Lee, D. Kim, and B. Hahn, "Assessment of metabolic profiles in florets of Carthamus species using ultra-performance liquid chromatography-mass spectrometry.," Metabolites , vol. 10 , no. 11 , pp. 440 , DOI: 10.3390/metabo10110440 .

Analysis result 3

STD
False
TLC
False
UV/Vis detector description
Mass spectrometer description
UHPLC-ESI-QTOF-MS, quadrupole time-of-flight
Organism
Carthamus lanatus  L.
wild
dried, frozen
Sample note
The material (Accession Number W6 16791) were obtained from USDA National Plant Germplasm system. The seeds were planted and cultivated in a greenhouse at 18-25 °C located at the National Institute of Agricultural Sciences, Jeonju, Korea.These MIDDLE STAGE flower samples were collected when flowering was considered complete, i.e. more than 90 % of the florets were open. The florets were yellow and the pistils became orange as the development proceeded, and the colour started to change gradually yellos/red.
Drying methods
freeze-dried
Dried material storage temperature
-80 °C
Extraction solvents
70 % methanol
Extraction mass/volume-ratio
25 mg/mL
Extraction repeats
5
Extraction time
35 min
Extraction temperature
4 °C
Analysis solvents
70 % methanol
References

J. Kim, A. Assefa, J. Song, V. Mani, S. Park, S. Lee, K. Lee, D. Kim, and B. Hahn, "Assessment of metabolic profiles in florets of Carthamus species using ultra-performance liquid chromatography-mass spectrometry.," Metabolites , vol. 10 , no. 11 , pp. 440 , DOI: 10.3390/metabo10110440 .

Analysis result 4

STD
False
TLC
False
UV/Vis detector description
Mass spectrometer description
UHPLC-ESI-QTOF-MS, quadrupole time-of-flight
Organism
Carthamus lanatus  L.
wild
dried, frozen
Sample note
The material (Accession Number W6 16791)) were obtained from USDA National Plant Germplasm system. The seeds were planted and cultivated in a greenhouse at 18-25 °C located at the National Institute of Agricultural Sciences, Jeonju, Korea.These LATE STAGE flower samples were collected when the capitulum begins to expand and the seeds are about to start developing. The florets start to change color to yellow&/red. The pistils became orange as the development proceeded.
Drying methods
freeze-dried
Dried material storage temperature
-80 °C
Extraction solvents
70 % methanol
Extraction mass/volume-ratio
25 mg/mL
Extraction repeats
5
Extraction time
35 min
Extraction temperature
4 °C
Analysis solvents
70 % methanol
References

J. Kim, A. Assefa, J. Song, V. Mani, S. Park, S. Lee, K. Lee, D. Kim, and B. Hahn, "Assessment of metabolic profiles in florets of Carthamus species using ultra-performance liquid chromatography-mass spectrometry.," Metabolites , vol. 10 , no. 11 , pp. 440 , DOI: 10.3390/metabo10110440 .

Analysis result 5

Detection technique Values Units
[M⁻ H]⁻ 287.05469 m/z
MS²⁻ 107
151 		m/z
MS³⁻ 107 m/z
STD
True
TLC
False
UV/Vis detector description
UHPLC
Mass spectrometer description
UHPLC-MS, HRMS, LTQ OrbiTrap, UHPLC–LTQ OrbiTrap MS/MS, HESI, heated ESI
Organism
Tanacetum parthenium  (L.) Sch. Bip.
wild
ground, dried
Sample note
The samples were collected in Turkey (Taskopru, Karacaoglu village). Taxonomic spotting was performed at Marmara University, Istanbul, Turkey, voucher number: MARE-19056./ Microwave-assisted extraction (MAE) was performed at 600W microwave power.
Drying methods
air-dried
Extraction solvents
ethanol
Extraction mass/volume-ratio
50 mg/mL
Extraction repeats
1
Extraction time
30 min
Extract drying method
concentration under vacuum
Extract drying temperature
40 °C
Dried extract storage temperature
4 °C
Detection note
MS2 fragments (% base peak): 151 (100), 107 (10); MS3: 107 (100); MS4: 65 (100)
References

G. Zengin, A. Cvetanonović, U. Gašić, A. Stupar, G. Bulut, I. Şenkardes, A. Dogan, K. Sinan, Z. Aumeeruddy-Elalfi, A. Aktumsek, and M. Mahomoodally, "Modern and traditional extraction techniques affect chemical composition and bioactivity of Tanacetum parthenium (L.) Sch. Bip.," Industrial Crops and Products , vol. 146 , pp. 112202 , DOI: 10.1016/j.indcrop.2020.112202 .

Analysis result 6

Detection technique Values Units
[M⁻ H]⁻ 287.05469 m/z
MS²⁻ 107
151 		m/z
MS³⁻ 107 m/z
STD
True
TLC
False
UV/Vis detector description
UHPLC
Mass spectrometer description
UHPLC-MS, HRMS, LTQ OrbiTrap, UHPLC–LTQ OrbiTrap MS/MS, HESI, heated ESI
Organism
Tanacetum parthenium  (L.) Sch. Bip.
wild
ground, dried
Sample note
The samples were collected in Turkey (Taskopru, Karacaoglu village). Taxonomic spotting was performed at Marmara University, Istanbul, Turkey, voucher number: MARE-19056./Sonication of plant-ethanol mixture was done in ultrasonic bath for an hour at 30 °C.
Drying methods
air-dried
Extraction solvents
ethanol
Extraction mass/volume-ratio
40 mg/mL
Extraction repeats
1
Extraction time
1 h
Extraction temperature
30 °C
Extract drying method
concentration under vacuum
Extract drying temperature
40 °C
Dried extract storage temperature
4 °C
Detection note
MS2 fragments (% base peak): 151 (100), 107 (10); MS3: 107 (100); MS4: 65 (100)
References

G. Zengin, A. Cvetanonović, U. Gašić, A. Stupar, G. Bulut, I. Şenkardes, A. Dogan, K. Sinan, Z. Aumeeruddy-Elalfi, A. Aktumsek, and M. Mahomoodally, "Modern and traditional extraction techniques affect chemical composition and bioactivity of Tanacetum parthenium (L.) Sch. Bip.," Industrial Crops and Products , vol. 146 , pp. 112202 , DOI: 10.1016/j.indcrop.2020.112202 .

Analysis result 7

Detection technique Values Units
[M⁻ H]⁻ 287.05469 m/z
MS²⁻ 107
151 		m/z
MS³⁻ 107 m/z
STD
True
TLC
False
UV/Vis detector description
UHPLC
Mass spectrometer description
UHPLC-MS, HRMS, LTQ OrbiTrap, UHPLC–LTQ OrbiTrap MS/MS, HESI, heated ESI
Organism
Tanacetum parthenium  (L.) Sch. Bip.
wild
ground, dried
Sample note
The samples were collected in Turkey (Taskopru, Karacaoglu village). Taxonomic spotting was performed at Marmara University, Istanbul, Turkey, voucher number: MARE-19056./The plant samples were macerated at room temperature at dark for 24 h.
Drying methods
air-dried
Extraction solvents
ethanol
Extraction mass/volume-ratio
50 mg/mL
Extraction repeats
1
Extraction time
1 d
Extraction temperature
20±5 °C
Extract drying method
concentration under vacuum
Extract drying temperature
40 °C
Dried extract storage temperature
4 °C
Detection note
MS2 fragments (% base peak): 151 (100), 107 (10); MS3: 107 (100); MS4: 65 (100)
References

G. Zengin, A. Cvetanonović, U. Gašić, A. Stupar, G. Bulut, I. Şenkardes, A. Dogan, K. Sinan, Z. Aumeeruddy-Elalfi, A. Aktumsek, and M. Mahomoodally, "Modern and traditional extraction techniques affect chemical composition and bioactivity of Tanacetum parthenium (L.) Sch. Bip.," Industrial Crops and Products , vol. 146 , pp. 112202 , DOI: 10.1016/j.indcrop.2020.112202 .