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    首页 分子通 松胞菌素 F

    松胞菌素 F | 36084-18-1

    分子结构分类

    有机化合物 - 生物碱及其衍生物 - 细胞松弛素类
    中文名称
    松胞菌素 F
    中文别名
    松胞菌素F
    英文名称
    Cytochalasin F
    英文别名
    (1S,4E,6R,10R,12E,14S,15S,17R,18S,19S,20S)-20-benzyl-6-hydroxy-10,17,18-trimethyl-2,16-dioxa-21-azatetracyclo[12.8.0.01,19.015,17]docosa-4,12-diene-3,22-dione
    CAS
    36084-18-1
    化学式
    C29H37NO5
    mdl
    ——
    分子量
    479.6
    InChiKey
    CXWYFIYZAZBQGQ-QJMMVEIUSA-N
    BEILSTEIN
    ——
    EINECS
    ——
    • 物化性质
    • 计算性质
    • ADMET
    • 安全信息
    • SDS
    • 制备方法与用途
    • 上下游信息
    • 反应信息
    • 文献信息
    • 表征谱图
    • 同类化合物
    • 相关功能分类
    • 相关结构分类

    计算性质

    • 辛醇/水分配系数(LogP):
      4.6
    • 重原子数:
      35
    • 可旋转键数:
      2
    • 环数:
      5.0
    • sp3杂化的碳原子比例:
      0.59
    • 拓扑面积:
      88.2
    • 氢给体数:
      2
    • 氢受体数:
      5

    文献信息

    • Intravascular stent with cytoskeletal inhibitors for the prevention of restenosis
      申请人:Boston Scientific Limited
      公开号:EP1512398A1
      公开(公告)日:2005-03-09
      Methods are provided for inhibiting stenosis or restenosis following vascular trauma in a mammalian host, comprising administering to the host a therapeutically effective dosage of a cytostatic agent and/or cytoskeletal inhibitor so as to biologically stent the traumatized vessel. Also provided is a method to inhibit or reduce vascular remodeling following vascular trauma, comprising administering an effective amount of a cytoskeletal inhibitor. Further provided are pharmaceutical compositions and kits comprising the therapeutic agents of the invention.
      提供了抑制哺乳动物宿主血管创伤后狭窄或再狭窄的方法,包括向宿主施用治疗有效剂量的细胞抑制剂和/或细胞骨架抑制剂,以便对创伤血管进行生物支架治疗。还提供了一种抑制或减少血管创伤后血管重塑的方法,包括施用有效量的细胞骨架抑制剂。还提供了包含本发明治疗剂的药物组合物和试剂盒。
    • Use of cytoskeletal inhibitors in crystalline form for the inhibition or prevention of restenosis
      申请人:BOSTON SCIENTIFIC SCIMED LIMITED
      公开号:EP2098230A1
      公开(公告)日:2009-09-09
      Methods are provided for inhibiting stenosis or restenosis following vascular trauma in a mammalian host, comprising administering to the host a therapeutically effective dosage of a cytostatic agent and/or cytoskeletal inhibitor so as to biologically stent the traumatized vessel. Also provided is a method to inhibit or reduce vascular remodeling following vascular trauma, comprising administering an effective amount of a cytoskeletal inhibitor. Further provided are pharmaceutical compositions and kits comprising the therapeutic agents of the invention.
      提供了抑制哺乳动物宿主血管创伤后狭窄或再狭窄的方法,包括向宿主施用治疗有效剂量的细胞抑制剂和/或细胞骨架抑制剂,以便对创伤血管进行生物支架治疗。还提供了一种抑制或减少血管创伤后血管重塑的方法,包括施用有效量的细胞骨架抑制剂。还提供了包含本发明治疗剂的药物组合物和试剂盒。
    • Therapeutic inhibitors of vascular smooth muscle cells
      申请人:Boston Scientific Limited
      公开号:EP2298310A2
      公开(公告)日:2011-03-23
      Methods are provided for inhibiting stenosis following vascular trauma or disease in a mammalian host, comprising administering to the host a therapeutically effective dosage of a therapeutic conjugate containing a vascular smooth muscle binding protein that associates in a specific manner with a cell surface of the vascular smooth muscle cell coupled to a therapeutic agent dosage form that inhibits a cellular activity of the muscle cell. Methods are also provided for the direct and/or targeted delivery of therapeutic agents to vascular smooth muscle cells that cause a dilation and fixation of the vascular lumen by inhibiting smooth muscle cell contraction, thereby constituting a biological stent.
      本发明提供了抑制哺乳动物宿主血管创伤或疾病后狭窄的方法,包括向宿主施用治疗有效剂量的治疗共轭物,该共轭物含有血管平滑肌结合蛋白,该蛋白以特定方式与血管平滑肌细胞的细胞表面结合,并与抑制肌肉细胞的细胞活性的治疗剂剂型耦合。还提供了向血管平滑肌细胞直接和/或靶向输送治疗剂的方法,这种方法通过抑制平滑肌细胞收缩,使血管腔扩张和固定,从而构成生物支架。
    • Dosage form comprising taxol in crystalline form
      申请人:BOSTON SCIENTIFIC SCIMED LIMITED
      公开号:EP2292225A1
      公开(公告)日:2011-03-09
      Methods are provided for inhibiting stenosis or restenosis following vascular trauma in a mammalian host, comprising administering to the host a therapeutically effective dosage of a cytostatic agent and/or cytoskeletal inhibitor so as to biologically stent the traumatized vessel. Also provided is a method to inhibit or reduce vascular remodeling following vascular trauma, comprising administering an effective amount of a cytoskeletal inhibitor. Further provided are pharmaceutical compositions and kits comprising the therapeutic agents of the invention.
      提供了抑制哺乳动物宿主血管创伤后狭窄或再狭窄的方法,包括向宿主施用治疗有效剂量的细胞抑制剂和/或细胞骨架抑制剂,以便对创伤血管进行生物支架治疗。还提供了一种抑制或减少血管创伤后血管重塑的方法,包括施用有效量的细胞骨架抑制剂。还提供了包含本发明治疗剂的药物组合物和试剂盒。
    • CELL-PENETRATING PEPTIDE, CONJUGATE COMPRISING SAME AND COMPOSITION COMPRISING SAME
      申请人:Gemvax & Kael Co.,Ltd
      公开号:EP2873678A1
      公开(公告)日:2015-05-20
      The present invention relates to a conjugate of cell penetrating peptide and an active ingredient; and its use. Specifically, a conjugate including a cell penetrating peptide which is a peptide comprising amino acid sequence of SEQ ID NO:1, a fragment of any one sequence of SEQ ID NO:1, or a peptide having above 80% homology with the above-mentioned sequence; and a composition comprising the same are disclosed.
      本发明涉及一种细胞穿透肽和活性成分的共轭物及其用途。具体地说,本发明公开了一种共轭物,包括一种细胞穿透肽,该肽是由 SEQ ID NO:1 的氨基酸序列、SEQ ID NO:1 中任意一个序列的片段或与上述序列具有 80% 以上同源性的肽组成的;以及一种由其组成的组合物。
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    同类化合物

    胞松弛素D 细胞松驰素J 细胞松驰素C 细胞松驰素 E 细胞松驰素 A 细胞松弛素H 细胞松弛素B 球毛壳菌素K 球毛壳菌素 F 球毛壳菌素 C 毛壳球菌素 松胞菌素 F 曲霉菌素PZ 接柄孢素E 接柄孢素D 噻氯匹定N-氧化物 二氢细胞松弛素 3-吡啶胺,6-乙氧基-4-甲基- (7S,13E,16S,18R,19E,21R)-7-乙酰氧基-18,21-二羟基-16,18-二甲基-10-苯基[11]松胞素-6(12),13,19-三烯-1,17-二酮 (7S,13E,16S,18R,19E,21R)-7,18,21-三羟基-16,18-二甲基-10-苯基-(11)松胞素-5,13,19-三烯-1-酮 (7S,13E,16S,18R,19E,21R)-21-(乙酰氧基)-7,18-二羟基-16,18-二甲基-10-苯基-(11)松胞素-5,13,19-三烯-1-酮 (6S,7S,13E,16S,18R,19E,21R)-21-(乙酰氧基)-6,7,18-三羟基-16,18-二甲基-10-苯基-(11)松胞素-13,19-二烯-1-酮 (3S,3aR,4S,6aS,7E,15aS)-3,3a,4,6a,9,10,13,14-八氢-4,5,8-三甲基-3-(2-甲基丙基)-1H-环十一碳(d)异吲哚-1,11,12,15(2H)-四酮 (3S,3aR,4S,6aS,7E,11S,13E,15aS)-2,3,3a,4,6a,9,10,11-八氢-11-羟基-4,5,8-三甲基-3-(2-甲基丙基)-1H-环十一碳(d)异吲哚-1,12,15-三酮 Acetic acid (3E,9E)-(1R,5R,7S,11R,14S,15R,16S)-16-benzyl-5-hydroxy-5,7,13,14-tetramethyl-6,12,18-trioxo-17-aza-tricyclo[9.7.0.01,15]octadeca-3,9-dien-2-yl ester Tetrahydro-cytochalasin C <4-3H>Cytochalasin B chaetoglobosin Fa 7,18-O-diacetylcytochalasin D 12-Hydroxyzygosporin G 12-cyanocytochalasin C 12-iodocytochalasin C 6,12-dibromocytochalasin D Engleromycin 12-bromocytochalasin C (7S,16S,17S,18R,21R,13E,19E)-17-hydroxy-16,18-dimethyl-10-phenyl<11>cytochalasa-6(12),13,19-triene-7,18,21-triyl triacetate (6R,7S,13E,16S,17R,18R)-2-Benzoyl-6,7,17,18-tetrahydroxy-16,18-dimethyl-10-phenyl[11]cytochalasa-13-ene-1,21-dione 17-hydroxycytochalasin N (7S,16S,18R,21R;13E,19E)-7,21-diacetoxy-5,6,18-trihydroxy-16,18-dimethyl-10-phenyl<11>cytochalasa-13,19-diene-1,17-dione isoaspochalasin C 7β,20α-dihydroxy-16α-methyl-10-phenyl-24-oxa-[14]cytochalasa-6(12),13t-diene-1,23-dione isocytochalasin N (7S,16S,18R,21R)-21-acetoxy-7-hydroxy-16,18-dimethyl-10-phenyl-18-(2-trimethylsilylethoxymethoxy)<11>cytochalasa-6(12),13t,19t-trien-1-one 7-O-Acetylcytochalasin Npho (6R,7S,16S,18S)-6,7-epoxy-16,18-dimethyl-10-phenyl-18-(2-trimethylsilylethoxymethoxy)[11]cytochalas-13t-ene-1,21-dione (3S,3aR,4S,6S,6aR,10S,12S,15aR,E)-3-benzyl-4,10,12-trimethyl-5-methylene-6,12-bis((2-(trimethylsilyl)ethoxy)methoxy)-3,3a,4,5,6,6a,9,10,11,12,13,14-dodecahydro-1H-cycloundeca[d]isoindole-1,15(2H)-dione (7S,16S,18S)-7-hydroxy-16,18-dimethyl-10-phenyl-18-(2-trimethylsilylethoxymethoxy)<11>cytochalasa-6(12),13t-diene-1,21-dione 18,21-Dihydroxy-18,21-didesoxo-aspochalasin-B cytochalasin P 7,18-O-dibenzoate

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