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52444

Sigma-Aldrich

Violaxanthin

≥90.0% (HPLC), solid

Synonym(e):

(3S,3′S,5R,5′R,6S,6′S)-5,6:5′,6′-Diepoxy-5,5′,6,6′-tetrahydro-β,β-carotin-3,3′-diol

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About This Item

Empirische Formel (Hill-System):
C40H56O4
CAS-Nummer:
126-29-4
Molekulargewicht:
600.87
Beilstein:
101269
UNSPSC-Code:
12352202
PubChem Substanz-ID:
329757838
NACRES:
NA.32

product name

Violaxanthin, ≥90.0% (HPLC)

Assay

≥90.0% (HPLC)

Form

solid

λ

in ethanol

UV-Absorption

λ: 438-442 nm Amax

Lagertemp.

−20°C

SMILES String

CC(/C=C/[C@@]12[C@](C)(O2)C[C@@H](O)CC1(C)C)=C\C=C\C(C)=C\C=C\C=C(C)\C=C\C=C(\C=C\[C@]34C(C)(C)C[C@H](O)C[C@]3(O4)C)C

InChI

1S/C40H56O4/c1-29(17-13-19-31(3)21-23-39-35(5,6)25-33(41)27-37(39,9)43-39)15-11-12-16-30(2)18-14-20-32(4)22-24-40-36(7,8)26-34(42)28-38(40,10)44-40/h11-24,33-34,41-42H,25-28H2,1-10H3/b12-11+,17-13+,18-14+,23-21+,24-22+,29-15+,30-16+,31-19+,32-20+/t33-,34-,37+,38+,39-,40-/m0/s1

InChIKey

SZCBXWMUOPQSOX-WVJDLNGLSA-N

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Allgemeine Beschreibung

Violaxanthin is an epoxidized carotenoid obtained from plants. It is an orange-colored natural xanthophyll pigment.

Anwendung

Violaxanthin has been used as a standard/control in high-pressure liquid chromatography (HPLC) analysis of pigment extracts to confirm the high-level astaxanthin accumulation suspected from the visual phenotype of Nt-AXT plants.

Biochem./physiol. Wirkung

Violaxanthin is a carotene epoxide that is a precursor to capsanthin. It is one of three xanthophylls involved in the evolution of plastids of green plants (oxygen evolution) and participating in photo-induced interconversions known as the violaxanthin cycle. The cleavage of 9-cis-epoxycarotenoids (violaxanthin) to xanthoxin is the key regulatory step of abscisic acid biosynthesis.
Violaxanthin is a powerful antioxidant and a vital precursor to important compounds like fucoxanthin and β-damascenone. It is a non-photochemical fluorescence quenching structural component of the xanthophyll cycle that shields the photosynthetic system from excessive light. The 2,2′-azinobis-3-ethylbenzothiazoline-6-sulfonic acid (ABTS+) radical scavenging action of violaxanthin extracted from water spinach/water morning glory is strong, and it also inhibits lipid peroxidation and red blood cell hemolysis. Hence, it has the potential to be used in a wide range of medicinal and health products.

Lagerklassenschlüssel

11 - Combustible Solids

WGK

WGK 3

Flammpunkt (°F)

Not applicable

Flammpunkt (°C)

Not applicable

Analysenzertifikate (COA)

Suchen Sie nach Analysenzertifikate (COA), indem Sie die Lot-/Chargennummer des Produkts eingeben. Lot- und Chargennummern sind auf dem Produktetikett hinter den Wörtern ‘Lot’ oder ‘Batch’ (Lot oder Charge) zu finden.

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αβ-Carotin ≥95.0% (HPLC)

Sigma-Aldrich

40395

αβ-Carotin

Xanthophyll from marigold

Sigma-Aldrich

X6250

Xanthophyll

β-Cryptoxanthin ≥97% (TLC)

Sigma-Aldrich

C6368

β-Cryptoxanthin

Chlorophyll b aus Spinat ≥90% (HPLC), ≤0.5% Chlorophyll a

Sigma-Aldrich

C5878

Chlorophyll b aus Spinat

β-Carotin synthetic, ≥95% (HPLC), crystalline

Sigma-Aldrich

C4582

β-Carotin

Chlorophyll a from spinach

Sigma-Aldrich

C5753

Chlorophyll a

Yinghong Lu et al.
Current biology : CB, 27(19), 3034-3041 (2017-09-26)
Transgene expression from the plastid (chloroplast) genome provides unique advantages, including high levels of foreign protein accumulation, convenient transgene stacking in operons, and increased biosafety due to exclusion of plastids from pollen transmission [1, 2]. However, applications in biotechnology and
The Photochemistry of Carotenoids (2006)
The spectral determination of chlorophylls a and b, as well as total carotenoids, using various solvents with spectrophotometers of different resolution.
Wellburn, A.R.
Journal of Plant Physiology, 144, 307-313 (1994)
Daniel Riebe et al.
Sensors (Basel, Switzerland), 19(23) (2019-12-05)
The lack of soil data, which are relevant, reliable, affordable, immediately available, and sufficiently detailed, is still a significant challenge in precision agriculture. A promising technology for the spatial assessment of the distribution of chemical elements within fields, without sample
K K Niyogi et al.
The Plant cell, 10(7), 1121-1134 (1998-07-21)
A conserved regulatory mechanism protects plants against the potentially damaging effects of excessive light. Nearly all photosynthetic eukaryotes are able to dissipate excess absorbed light energy in a process that involves xanthophyll pigments. To dissect the role of xanthophylls in
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