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A7668658

Jervine , 10mMinDMSO , 469-59-0

Synonym(s):
(3β, 23β)-17,23-Epoxy-3-hydroxyveratraman-11-one;(3β, 23β)-17,23-Epoxy-3-hydroxyveratraman-11-one, 11-Ketocyclopamine, Shh Signaling Antagonist III;11-Ketocyclopamine;Jervine - CAS 469-59-0 - Calbiochem

CAS NO.:469-59-0

Empirical Formula: C27H39NO3

Molecular Weight: 425.6

MDL number: MFCD01684066

EINECS: 207-417-9

Pack Size Price Stock Quantity
1ml RMB300.80 In Stock
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Update time: 2022-07-08

PRODUCT Properties

Melting point: 242- 244°C
alpha  D20 -150° (ethanol) (Saito); D20 -167.6° (chloroform) (Poethke)
Boiling point: 541.31°C (rough estimate)
Density  1.18±0.1 g/cm3 (20 ºC 760 Torr)
refractive index  1.6400 (estimate)
storage temp.  −20°C
solubility  methanol: >2 mg/mL
form  solid
pka 14.98±0.70(Predicted)
color  White
λmax 250nm(lit.)
Merck  14,5264
Stability: Store in Freezer at - 20°C

Description and Uses

First obtained from Veratrum grandiflorum by Wright and Luff, this alkaloid is also present in V. album. It was originally given the formula C26H3703N. 2H20, subsequently altered to that given above by Jacobs and Craig. The base crystallizes from aqueous EtOH in stellate groups of colourless prisms and has [α]D - 147° (EtOH). The hydrochloride (dihydrate) has m.p. 208°C (Wright and Luff) or 330-334°C (dec.) according to Jacobs and Craig, the latter finding a change in crystalline form at 280°C. The hydriodide has m.p. 302-5°C; the nitrate and aurichloride are both crystalline and the picrate melts at 278-284°C. TheN-nitroso derivative has m.p. 246-7°C; the N-acety1 compound, m.p. 161-2°C and the O,N-diacetyl derivative, m.p. 17 6-7°C.
Treatment with aluminium tert-butoxide gives Δ4-jervone, m.p. 193-4°C; [α]28D + 28.3° (EtOH), giving an oxime, m.p. 287-9°C and reduced by aluminium isopropoxide to Δ4-jervine, m.p. 203- 2 11°C. Catalytic hydrogenation with Pd-C yields the dihydro derivative, m.p. 248-251°C; [α]26D - 82° (EtOH). On further hydrogenation, the tetrahydro compound is formed, m.p. 216- 221°C; [α]28D - 18° (EtOH). Jervine may be reduced by sodium in butanol to a:-dihydrojervinol, m.p. 223-5°C; [α]27D - 107° (EtOH). The similar reduction of dihydrojervine yields (3-dihydrojervino1, m.p. 286-9°C; [α]28D-4 C(EtOH). On Se dehydrogenation, the alkaloid behaves like cevine (q.v.) giving a mixture of bases and hydrocarbons from which the following have been isolated; 5-methyl- 2-ethylpyridine; 5-methyl-2-ethyl-3-hydroxypyridine; C2oH22 , m.p. 79°C; C24H30, m.p. 100- 1°C; C2l H24 , m.p. 70-8 1°C; C2oH 16 , m.p. I 25-7°C and C22H20 , m.p. I 54-5℃。
In large doses, the alkaloid produces vasodilatation and a fall in blood pressure

Has antibacterial properties. Jervine demonstrates teratogenic properties. It is the starting material for C-nor-D-homosteroids. Jervine induces holoprosencephaly and blocks endogenous Sonic hedgehog signaling

Safety

Symbol(GHS) 
GHS06,GHS08
Signal word  Danger
Hazard statements  H301-H360D
Precautionary statements  P201-P301+P310+P330
Hazard Codes  Xn
Risk Statements  22
RIDADR  UN 2811 6.1/PG 3
WGK Germany  3
RTECS  WG9700000
HazardClass  6.1
PackingGroup  III
HS Code  29349990
Hazardous Substances Data 469-59-0(Hazardous Substances Data)
Toxicity LD50 i.v. in mice: 9.3 mg/kg (Krayer); LD50 s.c. in male mice: 29 mg/kg (Tanaka)

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