购物车 
-
Α-毒伞肽
- names:
α-Amanitin
- CAS号:
23109-05-9
MDL Number: Not available - MF(分子式): C39H54N10O14S MW(分子量): 918.97
- EINECS:Not available Reaxys Number:Not available
- Pubchem ID:441541 Brand:BIOFOUNT
Α-毒伞肽(23109-05-9, α-Amanitin)是双环八肽,属于一大群原生质蘑菇毒素,被称为阿托莫辛。Α-毒伞肽用于抗体-药物结合(ADC)的细胞毒素中。Α-毒伞肽是几种致命毒蘑菇的主要毒素,通过抑制 RNA聚合酶II 发挥其毒性作用。
| 货品编码 | 规格 | 纯度 | 价格 (¥) | 现价(¥) | 特价(¥) | 库存描述 | 数量 | 总计 (¥) |
|---|
| 中文别名 | Α-毒伞肽(23109-05-9, α-Amanitin),Α-鹅膏蕈碱,ALPHA-毒伞肽,alpha-鹅膏毒素 |
| 英文别名 | α-Amanitin(23109-05-9),alpha-amanitin,alpha-amanitine,α-Amatoxin |
| CAS号 | 23109-05-9 |
| SMILES | CC[C@H](C)[C@H]1C(=O)NCC(=O)N[C@H]2C[S@@](=O)c3c(c4ccc(cc4[nH]3)O)C[C@@H](C(=O)NCC(=O)N1)NC(=O)[C@@H](NC(=O)[C@@H]5C[C@H](CN5C(=O)[C@@H](NC2=O)CC(=O)N)O)[C@@H](C)[C@H](CO)O |
| Inchi | InChI=1S/C39H54N10O14S/c1-4-16(2)31-36(60)42-11-29(55)43-25-15-64(63)38-21(20-6-5-18(51)7-22(20)46-38)9-23(33(57)41-12-30(56)47-31)44-37(61)32(17(3)27(53)14-50)48-35(59)26-8-19(52)13-49(26)39(62)24(10-28(40)54)45-34(25)58/h5-7,16-17,19,23-27,31-32,46,50-53H,4,8-15H2,1-3H3,(H2,40,54)(H,41,57)(H,42,60)(H,43,55)(H,44,61)(H,45,58)(H,47,56)(H,48,59)/t16-,17-,19+,23-,24-,25-,26-,27-,31-,32-,64+/m0/s1 |
| InchiKey | CIORWBWIBBPXCG-SXZCQOKQSA-N |
| 分子式 Formula | C39H54N10O14S |
| 分子量 Molecular Weight | 918.97 |
| 闪点 FP | 934.9±34.3 °C |
| 熔点 Melting point | 254-255°C |
| 沸点 Boiling point | 1622.2±65.0 °C at 760 mmHg |
| Polarizability极化度 | 89.0±0.5 10-24cm3 |
| 密度 Density | 1.6±0.1 g/cm3 |
| 蒸汽压 Vapor Pressure | 0.0±0.3 mmHg at 25°C |
| 溶解度Solubility | |
| 性状 | 浅黄色至黄色固体粉末 |
| 储藏条件 Storage conditions | Powder -20°C 3 years (该产品在溶液状态不稳定,建议您现用现配,即刻使用) |
Α-毒伞肽(23109-05-9, α-Amanitin)实验注意事项:
1.实验前需戴好防护眼镜,穿戴防护服和口罩,佩戴手套,避免与皮肤接触。
2.实验过程中如遇到有毒或者刺激性物质及有害物质产生,必要时实验操作需要手套箱内完成以免对实验人员造成伤害
3.实验后产生的废弃物需分类存储,并交于专业生物废气物处理公司处理,以免造成环境污染
α-Amanitin(23109-05-9) Experimental considerations:
1. Wear protective glasses, protective clothing and masks, gloves, and avoid contact with the skin during the experiment.
2. The waste generated after the experiment needs to be stored separately, and handed over to a professional biological waste gas treatment company to avoid environmental pollution.
Tag:Α-毒伞肽(23109-05-9, α-Amanitin),Α-毒伞肽试剂,Α-毒伞肽抑制剂,Α-毒伞肽杂质,Α-毒伞肽的作用,Α-毒伞肽的纯度,Α-毒伞肽的外观,Α-毒伞肽的使用,Α-毒伞肽的外观,Α-毒伞肽的含量
| 产品说明 | Α-毒伞肽(23109-05-9, α-Amanitin)是几种致命毒蘑菇的主要毒素,23109-05-9通过抑制RNA聚合酶II发挥毒性作用 |
| Introduction | α-Amanitin(23109-05-9,Α-毒伞肽) is the main toxin of several deadly poisonous mushrooms, and exerts its toxic effect by inhibiting RNA polymerase II. |
| Application1 | α-Amanitin is a bicyclic octapeptide which belongs to a large group of protoplasmic mushroom toxins known as amatoxins. α-Amanitin is used in a cytotoxin in antibody-drug-conjugation (ADC). |
| Application2 | |
| Application3 |
RNA and protein synthesis is required for Ancylostoma caninum larval activation.
Dryanovski DI;Dowling C;Gelmedin V;Hawdon JM Vet Parasitol. 2011 Jun 30;179(1-3):137-43. doi: 10.1016/j.vetpar.2011.01.062. Epub 2011 Feb 26.
The developmentally arrested infective larva of hookworms encounters a host-specific signal during invasion that initiates the resumption of suspended developmental pathways. The resumption of development during infection is analogous to recovery from the facultative arrested dauer stage in the free-living nematode Caenorhabditis elegans. Infective larvae of the canine hookworm Ancylostoma caninum resume feeding and secrete molecules important for infection when exposed to a host mimicking signal in vitro. This activation process is a model for the initial steps of the infective process. Dauer recovery requires protein synthesis, but not RNA synthesis in C. elegans. To determine the role of RNA and protein synthesis in hookworm infection, inhibitors of RNA and protein synthesis were tested for their effect on feeding and secretion by A. caninum infective larvae. The RNA synthesis inhibitors α-amanitin and actinomycin D inhibit feeding dose-dependently, with IC(50) values of 30 and 8 μM, respectively. The protein synthesis inhibitors puromycin (IC(50)=110 μM), cycloheximide (IC(50)=50 μM), and anisomycin (IC(50)=200 μM) also displayed dose-dependent inhibition of larval feeding. Significant inhibition of feeding by α-amanitin and anisomycin occurred when the inhibitors were added before 12h of the activation process, but not if the inhibitors were added after 12h.
Dryanovski DI;Dowling C;Gelmedin V;Hawdon JM Vet Parasitol. 2011 Jun 30;179(1-3):137-43. doi: 10.1016/j.vetpar.2011.01.062. Epub 2011 Feb 26.
The developmentally arrested infective larva of hookworms encounters a host-specific signal during invasion that initiates the resumption of suspended developmental pathways. The resumption of development during infection is analogous to recovery from the facultative arrested dauer stage in the free-living nematode Caenorhabditis elegans. Infective larvae of the canine hookworm Ancylostoma caninum resume feeding and secrete molecules important for infection when exposed to a host mimicking signal in vitro. This activation process is a model for the initial steps of the infective process. Dauer recovery requires protein synthesis, but not RNA synthesis in C. elegans. To determine the role of RNA and protein synthesis in hookworm infection, inhibitors of RNA and protein synthesis were tested for their effect on feeding and secretion by A. caninum infective larvae. The RNA synthesis inhibitors α-amanitin and actinomycin D inhibit feeding dose-dependently, with IC(50) values of 30 and 8 μM, respectively. The protein synthesis inhibitors puromycin (IC(50)=110 μM), cycloheximide (IC(50)=50 μM), and anisomycin (IC(50)=200 μM) also displayed dose-dependent inhibition of larval feeding. Significant inhibition of feeding by α-amanitin and anisomycin occurred when the inhibitors were added before 12h of the activation process, but not if the inhibitors were added after 12h.
| 警示图 | |
| 危险性 | warning |
| 危险性警示 | Not available |
| 安全声明 | H303吞入可能有害+H313皮肤接触可能有害+H333吸入可能对身体有害 |
| 安全防护 | P264处理后彻底清洗+P280戴防护手套/穿防护服/戴防护眼罩/戴防护面具+P305如果进入眼睛+P351用水小心冲洗几分钟+P338取出隐形眼镜(如果有)并且易于操作,继续冲洗+P337如果眼睛刺激持续+P313获得医疗建议/护理 |
| 备注 | α-AmanitinCURRENTLY UNAVAILABLE实验过程中防止吸入、食入,做好安全防护 |
| A Convergent Total Synthesis of the Death Cap Toxin α-Amanitin |
| In vitro mechanistic studies on α-amanitin and its putative antidotes |
| Highly sensitive α-amanitin sensor based on molecularly imprinted photonic crystals |
Lamin A/C speckles mediate spatial organization of splicing factor compartments and RNA polymerase II transcription.
Kumaran RI;Muralikrishna B;Parnaik VK J Cell Biol. 2002 Dec 9;159(5):783-93. Epub 2002 Dec 9.
The A-type lamins have been observed to colocalize with RNA splicing factors in speckles within the nucleus, in addition to their typical distribution at the nuclear periphery. To understand the functions of lamin speckles, the effects of transcriptional inhibitors known to modify RNA splicing factor compartments (SFCs) were examined. Treatment of HeLa cells with alpha-amanitin or 5,6-dichlorobenzimidazole riboside (DRB) inhibited RNA polymerase II (pol II) transcription and led to the enlargement of lamin speckles as well as SFCs. Removal of the reversible inhibitor DRB resulted in the reactivation of transcription and a rapid, synchronous redistribution of lamins and splicing factors to normal-sized speckles, indicating a close association between lamin speckles and SFCs. Conversely, the expression of NH2-terminally modified lamin A or C in HeLa cells brought about a loss of lamin speckles, depletion of SFCs, and down-regulation of pol II transcription without affecting the peripheral lamina. Our results suggest a unique role for lamin speckles in the spatial organization of RNA splicing factors and pol II transcription in the nucleus.
Kumaran RI;Muralikrishna B;Parnaik VK J Cell Biol. 2002 Dec 9;159(5):783-93. Epub 2002 Dec 9.
The A-type lamins have been observed to colocalize with RNA splicing factors in speckles within the nucleus, in addition to their typical distribution at the nuclear periphery. To understand the functions of lamin speckles, the effects of transcriptional inhibitors known to modify RNA splicing factor compartments (SFCs) were examined. Treatment of HeLa cells with alpha-amanitin or 5,6-dichlorobenzimidazole riboside (DRB) inhibited RNA polymerase II (pol II) transcription and led to the enlargement of lamin speckles as well as SFCs. Removal of the reversible inhibitor DRB resulted in the reactivation of transcription and a rapid, synchronous redistribution of lamins and splicing factors to normal-sized speckles, indicating a close association between lamin speckles and SFCs. Conversely, the expression of NH2-terminally modified lamin A or C in HeLa cells brought about a loss of lamin speckles, depletion of SFCs, and down-regulation of pol II transcription without affecting the peripheral lamina. Our results suggest a unique role for lamin speckles in the spatial organization of RNA splicing factors and pol II transcription in the nucleus.
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