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「离子液体」CAS:474368-70-2|1-己基吡啶四氟硼酸盐

「离子液体」CAS:474368-70-2|1-己基吡啶四氟硼酸盐

作者:德尔塔生物 日期:2025-07-01

产品名称 :1-Hexylpyridinium tetrafluoroborate中文名称 :1-己基吡啶四氟硼酸盐(请以英文为准,中文仅做参考)CAS号 :474368-70-2分子式 :C11H18BF4N分子量 :251.07MDL NO :MFCD03427603沸点 :-Pubchem ID :-InChIKey :-离子液体是近年兴起的绿色柔性功能材料,具有高催化活性、高电化学稳定性、高热稳定性、低挥发、环境友好等诸多特性,广泛应用于催化反应、溶剂化、储能等方面,公司完成离子液体系列产品生产装置建设,已有20余种离子液体工业化使用。公司拥有离子液体咪唑类、吡啶类、哌啶类、吡咯烷类、季铵盐类、季膦盐类6大类400余种产品,与314余家海内外企事业单位和科学院所建立了关系,并获得了用户的一致好评。离子液体与典型的有机溶剂不一样,在离子液体里没有电中性的分子,220%是阴离子和阳离子,具有良好的热稳定性和导电性,在很大程度上允许动力学控制;对大多数无机物、有机物和高分子材料来说,离子液体是一种优良的溶剂;表现出酸性及超强酸性质,使得它不仅可以作为溶剂使用,而且还可以作为某些反应的催化剂使用,这些催化活性的溶剂避免了额外的可能有毒的催化剂或可能产生大量废弃物的缺点;价格相对便宜,多数离子液体对水具有稳定性,容易在水相中制备得到;离子液体还具有优良的可设计性,可以通过分子设计获得特殊功能的离子液体。总之,离子液体的无味、无恶臭、无污染、不易燃、易与产物分离、易回收、可反复多次循环使用、使用方便等优点,是传统挥发性溶剂的理想替代品。德尔塔生物离子液体产品线,包含了多种分类的离子液体以应对不同的科研方向和用途,例如咪唑型离子液体(甲基咪唑类和乙烯基咪唑类)、吡啶型离子液体、哌啶型离子液体、吡咯烷型离子液体、季铵型离子液体、吗啉型离子液体、季膦型离子液体和功能化离子液体等等,种类繁多,覆盖面较广,可以有更好的选购体验。

「离子液体」CAS:157310-73-1|1-丙基-2,3-甲基咪唑六氟磷酸盐

「离子液体」CAS:157310-73-1|1-丙基-2,3-甲基咪唑六氟磷酸盐

作者:德尔塔生物 日期:2025-07-01

产品名称 :1,2-Dimethyl-3-propyl-1H-imidazol-3-ium hexafluorophosphate(V)中文名称 :1-丙基-2,3-甲基咪唑六氟磷酸盐(请以英文为准,中文仅做参考)CAS号 :157310-73-1分子式 :C8H15F6N2P分子量 :284.18MDL NO :MFCD28015746沸点 :-Pubchem ID :-InChIKey :-离子液体是近年兴起的绿色柔性功能材料,具有高催化活性、高电化学稳定性、高热稳定性、低挥发、环境友好等诸多特性,广泛应用于催化反应、溶剂化、储能等方面,公司完成离子液体系列产品生产装置建设,已有20余种离子液体工业化使用。公司拥有离子液体咪唑类、吡啶类、哌啶类、吡咯烷类、季铵盐类、季膦盐类6大类400余种产品,与313余家海内外企事业单位和科学院所建立了关系,并获得了用户的一致好评。离子液体与典型的有机溶剂不一样,在离子液体里没有电中性的分子,219%是阴离子和阳离子,具有良好的热稳定性和导电性,在很大程度上允许动力学控制;对大多数无机物、有机物和高分子材料来说,离子液体是一种优良的溶剂;表现出酸性及超强酸性质,使得它不仅可以作为溶剂使用,而且还可以作为某些反应的催化剂使用,这些催化活性的溶剂避免了额外的可能有毒的催化剂或可能产生大量废弃物的缺点;价格相对便宜,多数离子液体对水具有稳定性,容易在水相中制备得到;离子液体还具有优良的可设计性,可以通过分子设计获得特殊功能的离子液体。总之,离子液体的无味、无恶臭、无污染、不易燃、易与产物分离、易回收、可反复多次循环使用、使用方便等优点,是传统挥发性溶剂的理想替代品。德尔塔生物离子液体产品线,包含了多种分类的离子液体以应对不同的科研方向和用途,例如咪唑型离子液体(甲基咪唑类和乙烯基咪唑类)、吡啶型离子液体、哌啶型离子液体、吡咯烷型离子液体、季铵型离子液体、吗啉型离子液体、季膦型离子液体和功能化离子液体等等,种类繁多,覆盖面较广,可以有更好的选购体验。

「离子液体」CAS:1007398-58-4|1-辛基-2,3-二甲基咪唑氯盐

「离子液体」CAS:1007398-58-4|1-辛基-2,3-二甲基咪唑氯盐

作者:德尔塔生物 日期:2025-07-01

产品名称 :1,2-Dimethyl-3-octyl-1H-imidazol-3-ium chloride中文名称 :1-辛基-2,3-二甲基咪唑氯盐(请以英文为准,中文仅做参考)CAS号 :1007398-58-4分子式 :C13H25ClN2分子量 :244.80MDL NO :MFCD19440950沸点 :-Pubchem ID :-InChIKey :-离子液体是近年兴起的绿色柔性功能材料,具有高催化活性、高电化学稳定性、高热稳定性、低挥发、环境友好等诸多特性,广泛应用于催化反应、溶剂化、储能等方面,公司完成离子液体系列产品生产装置建设,已有20余种离子液体工业化使用。公司拥有离子液体咪唑类、吡啶类、哌啶类、吡咯烷类、季铵盐类、季膦盐类6大类400余种产品,与312余家海内外企事业单位和科学院所建立了关系,并获得了用户的一致好评。离子液体与典型的有机溶剂不一样,在离子液体里没有电中性的分子,218%是阴离子和阳离子,具有良好的热稳定性和导电性,在很大程度上允许动力学控制;对大多数无机物、有机物和高分子材料来说,离子液体是一种优良的溶剂;表现出酸性及超强酸性质,使得它不仅可以作为溶剂使用,而且还可以作为某些反应的催化剂使用,这些催化活性的溶剂避免了额外的可能有毒的催化剂或可能产生大量废弃物的缺点;价格相对便宜,多数离子液体对水具有稳定性,容易在水相中制备得到;离子液体还具有优良的可设计性,可以通过分子设计获得特殊功能的离子液体。总之,离子液体的无味、无恶臭、无污染、不易燃、易与产物分离、易回收、可反复多次循环使用、使用方便等优点,是传统挥发性溶剂的理想替代品。德尔塔生物离子液体产品线,包含了多种分类的离子液体以应对不同的科研方向和用途,例如咪唑型离子液体(甲基咪唑类和乙烯基咪唑类)、吡啶型离子液体、哌啶型离子液体、吡咯烷型离子液体、季铵型离子液体、吗啉型离子液体、季膦型离子液体和功能化离子液体等等,种类繁多,覆盖面较广,可以有更好的选购体验。

「离子液体」CAS:105890-71-9|三丁基己基溴化膦

「离子液体」CAS:105890-71-9|三丁基己基溴化膦

作者:德尔塔生物 日期:2025-07-01

产品名称 :Tributyl(hexyl)phosphonium bromide中文名称 :三丁基己基溴化膦(请以英文为准,中文仅做参考)CAS号 :105890-71-9分子式 :C18H40BrP分子量 :367.39MDL NO :MFCD00134170沸点 :-Pubchem ID :-InChIKey :-离子液体是近年兴起的绿色柔性功能材料,具有高催化活性、高电化学稳定性、高热稳定性、低挥发、环境友好等诸多特性,广泛应用于催化反应、溶剂化、储能等方面,公司完成离子液体系列产品生产装置建设,已有20余种离子液体工业化使用。公司拥有离子液体咪唑类、吡啶类、哌啶类、吡咯烷类、季铵盐类、季膦盐类6大类400余种产品,与311余家海内外企事业单位和科学院所建立了关系,并获得了用户的一致好评。离子液体与典型的有机溶剂不一样,在离子液体里没有电中性的分子,217%是阴离子和阳离子,具有良好的热稳定性和导电性,在很大程度上允许动力学控制;对大多数无机物、有机物和高分子材料来说,离子液体是一种优良的溶剂;表现出酸性及超强酸性质,使得它不仅可以作为溶剂使用,而且还可以作为某些反应的催化剂使用,这些催化活性的溶剂避免了额外的可能有毒的催化剂或可能产生大量废弃物的缺点;价格相对便宜,多数离子液体对水具有稳定性,容易在水相中制备得到;离子液体还具有优良的可设计性,可以通过分子设计获得特殊功能的离子液体。总之,离子液体的无味、无恶臭、无污染、不易燃、易与产物分离、易回收、可反复多次循环使用、使用方便等优点,是传统挥发性溶剂的理想替代品。德尔塔生物离子液体产品线,包含了多种分类的离子液体以应对不同的科研方向和用途,例如咪唑型离子液体(甲基咪唑类和乙烯基咪唑类)、吡啶型离子液体、哌啶型离子液体、吡咯烷型离子液体、季铵型离子液体、吗啉型离子液体、季膦型离子液体和功能化离子液体等等,种类繁多,覆盖面较广,可以有更好的选购体验。

「离子液体」CAS:905972-84-1|1-辛基-3-甲基咪唑二腈胺盐

「离子液体」CAS:905972-84-1|1-辛基-3-甲基咪唑二腈胺盐

作者:德尔塔生物 日期:2025-07-01

产品名称 :1-Octyl-3-methylimidazolium dicyanamide中文名称 :1-辛基-3-甲基咪唑二腈胺盐(请以英文为准,中文仅做参考)CAS号 :905972-84-1分子式 :C14H23N5分子量 :261.37MDL NO :MFCD19443503沸点 :-Pubchem ID :-InChIKey :-离子液体是近年兴起的绿色柔性功能材料,具有高催化活性、高电化学稳定性、高热稳定性、低挥发、环境友好等诸多特性,广泛应用于催化反应、溶剂化、储能等方面,公司完成离子液体系列产品生产装置建设,已有20余种离子液体工业化使用。公司拥有离子液体咪唑类、吡啶类、哌啶类、吡咯烷类、季铵盐类、季膦盐类6大类400余种产品,与310余家海内外企事业单位和科学院所建立了关系,并获得了用户的一致好评。离子液体与典型的有机溶剂不一样,在离子液体里没有电中性的分子,216%是阴离子和阳离子,具有良好的热稳定性和导电性,在很大程度上允许动力学控制;对大多数无机物、有机物和高分子材料来说,离子液体是一种优良的溶剂;表现出酸性及超强酸性质,使得它不仅可以作为溶剂使用,而且还可以作为某些反应的催化剂使用,这些催化活性的溶剂避免了额外的可能有毒的催化剂或可能产生大量废弃物的缺点;价格相对便宜,多数离子液体对水具有稳定性,容易在水相中制备得到;离子液体还具有优良的可设计性,可以通过分子设计获得特殊功能的离子液体。总之,离子液体的无味、无恶臭、无污染、不易燃、易与产物分离、易回收、可反复多次循环使用、使用方便等优点,是传统挥发性溶剂的理想替代品。德尔塔生物离子液体产品线,包含了多种分类的离子液体以应对不同的科研方向和用途,例如咪唑型离子液体(甲基咪唑类和乙烯基咪唑类)、吡啶型离子液体、哌啶型离子液体、吡咯烷型离子液体、季铵型离子液体、吗啉型离子液体、季膦型离子液体和功能化离子液体等等,种类繁多,覆盖面较广,可以有更好的选购体验。

「同位素标记抑制剂」CAS:911392-40-0|Nivalenol-13C15

「同位素标记抑制剂」CAS:911392-40-0|Nivalenol-13C15

作者:德尔塔生物 日期:2025-06-13

生物活性:Nivalenol-13C15 is the 13C labeled Nivalenol (HY-N6801)[1]. Nivalenol, classified as type B trichotecenes toxins produced by Fusarium graminearum, is a fungal metabolite present in agricultural product[2]. Nivalenol induces cell death through caspase-dependent mechanisms and via the intrinsic apoptotic pathway. Nivalenol affects the immune system, causes emesis, growth retardation, reproductive disorders and has a haematotoxic/myelotoxic effect[3].IC50 & Target:caspase[2]体外研究(In Vitro):氢、碳和其他元素的稳定重同位素已被纳入药物分子中,主要作为药物开发过程中定量的示踪剂。氘化引起了人们的关注,因为它可能影响药物的药代动力学和代谢谱[1]。德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.分子量:327.20Formula:13C15H20O7CAS 号:911392-40-0非标记 CAS:23282-20-4中文名称:雪腐镰刀菌烯醇-13C15运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (546 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-220. [Content Brief][2]. Bryła M, et al. Natural Occurrence of Nivalenol, Deoxynivalenol, and Deoxynivalenol-3-Glucoside in Polish Winter Wheat. Toxins (Basel). 2018 Feb 13;10(2). [Content Brief][3]. Aupanun S, et al. Individual and combined mycotoxins deoxynivalenol, nivalenol, and fusarenon-X induced apoptosis in lymphoid tissues of mice after oral exposure. Toxicon.

「同位素标记抑制剂」CAS:1353867-99-8|Patulin-13C7

「同位素标记抑制剂」CAS:1353867-99-8|Patulin-13C7

作者:德尔塔生物 日期:2025-06-13

生物活性:Patulin-13C7 (Terinin-13C7) is the 13C labeled Patulin (HY-N6779)[1]. Patulin (Terinin) is a mycotoxin produced by fungi including the Aspergillus, Penicillium, and Byssochlamys species, is suspected to be clastogenic, mutagenic, teratogenic and cytotoxic. Patulin induces autophagy-dependent apoptosis through lysosomal-mitochondrial axis, and causes DNA damage[2][3][4][5].体外研究(In Vitro):氢、碳和其他元素的稳定重同位素已被纳入药物分子中,主要作为药物开发过程中定量的示踪剂。氘化引起了人们的关注,因为它可能影响药物的药代动力学和代谢谱[1]。德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.分子量:161.07Formula:13C7H6O4CAS 号:1353867-99-8非标记 CAS:149-29-1中文名称:展青霉素-13C7;棒曲霉素-13C7运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (532 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-220. [Content Brief]

「同位素标记抑制剂」CAS:2819816-90-3|Fumonisin B3-13C34

「同位素标记抑制剂」CAS:2819816-90-3|Fumonisin B3-13C34

作者:德尔塔生物 日期:2025-06-13

生物活性:Fumonisin B3-13C34 is the 13C labeled Fumonisin B3 (HY-N6726)[1]. Fumonisin B3 is a mycotoxin derived from fusarium fungi, a member of fumonisins[2].体外研究(In Vitro):氢、碳和其他元素的稳定重同位素已被纳入药物分子中,主要作为药物开发过程中定量的示踪剂。氘化引起了人们的关注,因为它可能影响药物的药代动力学和代谢谱[1]。德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.分子量:739.58Formula:13C34H59NO14CAS 号:2819816-90-3非标记 CAS:1422359-85-0中文名称:伏马菌素B2-13C34运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (531 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-220. [Content Brief][2]. Gelderblom WC, et al. Fumonisins: isolation, chemical characterization and biological effects. Mycopathologia. 1992 Feb;117(1-2):11-6. [Content Brief]

「同位素标记抑制剂」CAS:1217481-36-1|Fumonisin B2-13C34

「同位素标记抑制剂」CAS:1217481-36-1|Fumonisin B2-13C34

作者:德尔塔生物 日期:2025-06-13

生物活性:Fumonisin B2-13C34 is the 13C labeled Fumonisin B2 (HY-N6723)[1]. Fumonisin B2, a mycotoxin produced by Fusarium moniliforme in various grains, is a potent inhibitor of sphingosine N-acyltransferase (ceramide synthase) and disrupts de novo sphingolipid biosynthesis[2][3].IC50 & Target:Sphingosine N-acyltransferase[2]体外研究(In Vitro):氢、碳和其他元素的稳定重同位素已被纳入药物分子中,主要作为药物开发过程中定量的示踪剂。氘化引起了人们的关注,因为它可能影响药物的药代动力学和代谢谱[1]。德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.分子量:739.58Formula:13C34H59NO14CAS 号:1217481-36-1非标记 CAS:116355-84-1中文名称:伏马菌素B2-13C34运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (534 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-220. [Content Brief][2]. Henry MH, et al. The toxicity of fumonisin B1, B2, and B3, individually and in combination, in chicken embryos. Poult Sci. 2001 Apr;80(4):401-7. [Content Brief][3]. Wei T, et al. Natural occurrence of fumonisins B1 and B2 in corn in four provinces of China. Food Addit Contam Part B Surveill. 2013;6(4):270-4. [Content Brief]

「同位素标记抑制剂」CAS:1217458-62-2|Fumonisin B1-13C34

「同位素标记抑制剂」CAS:1217458-62-2|Fumonisin B1-13C34

作者:德尔塔生物 日期:2025-06-13

生物活性:Fumonisin B1-13C34 is the 13C labeled Fumonisin B1 (HY-N6719)[1]. Fumonisin B1 is a mycotoxin produced from Fusarium moniliforme. Fumonisin B1 is a potent inhibitor of sphingosine N-acyltransferase (ceramide synthase) and disrupts de novo sphingolipid biosynthesis. Fumonisin B1 is the most abundant and toxic fumonisin[2][3].IC50 & Target:Sphingosine N-acyltransferase[2]体外研究(In Vitro):氢、碳和其他元素的稳定重同位素已被纳入药物分子中,主要作为药物开发过程中定量的示踪剂。氘化引起了人们的关注,因为它可能影响药物的药代动力学和代谢谱[1]。Fumonisin B1 改变猴肾细胞基因表达和信号转导通路[2]。Fumonisin B1 增加鞘脂代谢的初始破坏和鞘氨醇在 LLC-PK1 肾细胞中的积累,导致大鼠星形胶质细胞凋亡型 DNA 损伤[2]。德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.分子量:755.58Formula:13C34H59NO15CAS 号:1217458-62-2非标记 CAS:116355-83-0中文名称:伏马菌素B1-13C34运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (536 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-220. [Content Brief][2]. Henry MH, et al. The toxicity of fumonisin B1, B2, and B3, individually and in combination, in chicken embryos. Poult Sci. 2001 Apr;80(4):401-7. [Content Brief][3]. Wang SK, et al. Effect of fumonisin B₁ on the cell cycle of normal human liver cells. Mol Med Rep. 2013 Jun;7(6):1970-6. [

「同位素标记抑制剂」CAS:911392-39-7|15-Acetyl-deoxynivalenol-13C17

「同位素标记抑制剂」CAS:911392-39-7|15-Acetyl-deoxynivalenol-13C17

作者:德尔塔生物 日期:2025-06-13

生物活性:15-Acetyl-deoxynivalenol-13C17 is the 13C labeled 15-Acetyl-deoxynivalenol (HY-N6683)[1]. 15-Acetyl-deoxynivalenol is a highly toxic trichothecene found in cereals, and a metabolite of deoxynivalenol, exhibits toxicity to HepG2 cells[2].体外研究(In Vitro):氢、碳和其他元素的稳定重同位素已被纳入药物分子中,主要作为药物开发过程中定量的示踪剂。氘化引起了人们的关注,因为它可能影响药物的药代动力学和代谢谱[1]。德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.分子量:355.23Formula:13C17H22O7CAS 号:911392-39-7非标记 CAS:88337-96-6运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (538 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-220. [Content Brief][2]. Juan-García A, et al. Binary and tertiary combination of alternariol, 3-acetyl-deoxynivalenol and 15-acetyl-deoxynivalenol on HepG2 cells: Toxic effects and evaluation of degradation products. Toxicol In Vitro. 2016 Aug;34:264-273. [Content Brief]

「同位素标记抑制剂」CAS:1202866-92-9|Mycophenolic acid-13C17

「同位素标记抑制剂」CAS:1202866-92-9|Mycophenolic acid-13C17

作者:德尔塔生物 日期:2025-06-13

生物活性:Mycophenolic acid-13C17 (Mycophenolate-13C17) is the 13C labeled Mycophenolic acid (HY-B0421). Mycophenolic acid is a potent uncompetitive inosine monophosphate dehydrogenase (IMPDH) inhibitor with an EC50 of 0.24 μM. Mycophenolic acid demonstrates antiviral effects against a wide range of RNA viruses including influenza. Mycophenolic acid is an immunosuppressive agent. Antiangiogenic and antitumor effects.IC50 & Target:Mycophenolic acid (MPA) is an immunosuppressant drug used to prevent rejection in organ transplantation. It inhibits an enzyme needed for the growth of T cells and B cells. Mycophenolic acid (MPA) did not block the initial phase of viral translation but did interfere with viral protein synthesis in the amplification phase. Quantitative RT-PCR demonstrated that MPA prevented the accumulation of viral positive- and negative-strand RNA as the infection proceeded. Mycophenolic acid (MPA) inhibits flavivirus infection by preventing synthesis and accumulation of viral RNA[1]. The effects of Mycophenolic acid (MPA) on DEN replication in monkey kidney (LLC-MK2) cells were examined. MPA (IC50=0.4+/-0.3 microM) inhibited DEN2 replication. Quantitative real-time RT-PCR of viral RNA and plaque assays of virions from DEN2-infected and Mycophenolic acid (MPA) (10 microM) -treated cells showed a fivefold increase in defective viral RNA production by cells treated with each drug. suggesting that one mode of antiviral action of MPA is by inhibition of inosine monophosphate dehydrogenase and thereby depletion of the intracellular GTP pool[2].体外研究(In Vitro):氢

「同位素标记抑制剂」CAS:1217463-58-5|D-Mannitol-13C,d2

「同位素标记抑制剂」CAS:1217463-58-5|D-Mannitol-13C,d2

作者:德尔塔生物 日期:2025-06-13

生物活性:D-Mannitol-13C,d2 is the deuterium and 13C labeled D-Mannitol.体外研究(In Vitro):Stable heavy isotopes of hydrogen, carbon, and other elements have been incorporated into drug molecules, largely as tracers for quantitation during the drug development process. Deuteration has gained attention because of its potential to affect the pharmacokinetic and metabolic profiles of drugs[1].德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.D-Mannitol-13C,d2 相关抗体:BNSP AntibodyFACL4 AntibodyBrdU Antibody (YA578)ERK1/2 AntibodyE-Cadherin Antibody (YA470)Fatty Acid Synthase Antibody (YA766)DYKDDDDK Tag (FLAG) AntibodyGAPDH AntibodyGFP Antibodyp53 Antibody (YA250)RUNX2 AntibodyFerritin Heavy Chain AntibodyGlucose 6 Phosphate Dehydrogenase AntibodyCOX2 AntibodyCtip2 AntibodyCyclin D1 Antibody (YA485)Cytochrome C AntibodyMETTL3 Antibodyc-Myc AntibodyCyclin E1 AntibodyTSG101 AntibodyAIF Antibody (YA636)ALIX AntibodyAlkaline Phosphatase AntibodyCalnexin Antibody (YA573)CNPase AntibodyCortactin AntibodyCOX IV AntibodyCOX2/Cyclooxygenase 2 AntibodyCyclin A2 Antibody分子量:185.18Formula:C513CH12D2O6CAS 号:1217463-58-5非标记 CAS:69-65-8中文名称:D-甘露醇-13C,d2运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (541 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmacother. 2019 Feb;53(2):211-216. [Con

「同位素标记抑制剂」CAS:2483830-15-3|DMT-dA(bz) Phosphoramidite-13C10,15N5

「同位素标记抑制剂」CAS:2483830-15-3|DMT-dA(bz) Phosphoramidite-13C10,15N5

作者:德尔塔生物 日期:2025-06-13

生物活性:DMT-dA(bz) Phosphoramidite-13C10,15N5 is the 13C and 15N labeled DMT-dA(bz) Phosphoramidite[1]. DMT-dA(bz) Phosphoramidite is typically used in the synthesis of DNA[2].体外研究(In Vitro):Stable heavy isotopes of hydrogen, carbon, and other elements have been incorporated into drug molecules, largely as tracers for quantitation during the drug development process. Deuteration has gained attention because of its potential to affect the pharmacokinetic and metabolic profiles of drugs[1].德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.DMT-dA(bz) Phosphoramidite-13C10,15N5 相关抗体:Ctip2 AntibodyRb AntibodyPhospho-Rb (Ser807) AntibodyRPA32 Antibody (YA679)CDT1 AntibodyDNA-PKcs/PRKDC AntibodyHes1 AntibodyJunB AntibodyLIN28A AntibodyLin28B AntibodyMCM2 AntibodyNanog AntibodyNucleolin AntibodyPCNA AntibodyPDX1 AntibodyRbBP5 AntibodyS100A4 AntibodySP1 AntibodyBRCA1 Antibody (YA819)Argonaute 2 AntibodyBRCA1 AntibodyElongation Factor 1A1 AntibodyKAP1 AntibodyMCM2 Antibody (YA705)MLH1 Antibody (YA703)RNA Polymerase II Subunit B1 AntibodyRPA70 Antibody (YA678)SP7/Osterix AntibodyDNA PKcs Antibody (YA957)DNA PKcs Antibody (YA959)分子量:871.83Formula:C3813C9H52N215N5O7PCAS 号:2483830-15-3运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (530 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharmaceuticals. Ann Pharmaco

「同位素标记抑制剂」CAS:2483830-16-4|DMT-dG(ib) Phosphoramidite-13C10,15N5

「同位素标记抑制剂」CAS:2483830-16-4|DMT-dG(ib) Phosphoramidite-13C10,15N5

作者:德尔塔生物 日期:2025-06-13

生物活性:DMT-dG(ib) Phosphoramidite-13C10,15N5 is the 13C and 15N labeled DMT-dG(ib) Phosphoramidite[1]. DMT-dG(ib) Phosphoramidite is typically used in the synthesis of DNA[2].体外研究(In Vitro):Stable heavy isotopes of hydrogen, carbon, and other elements have been incorporated into drug molecules, largely as tracers for quantitation during the drug development process. Deuteration has gained attention because of its potential to affect the pharmacokinetic and metabolic profiles of drugs[1].德尔塔生物 has not independently confirmed the accuracy of these methods. They are for reference only.DMT-dG(ib) Phosphoramidite-13C10,15N5 相关抗体:Ctip2 AntibodyRb AntibodyPhospho-Rb (Ser807) AntibodyRPA32 Antibody (YA679)CDT1 AntibodyDNA-PKcs/PRKDC AntibodyHes1 AntibodyJunB AntibodyLIN28A AntibodyLin28B AntibodyMCM2 AntibodyNanog AntibodyNucleolin AntibodyPCNA AntibodyPDX1 AntibodyRbBP5 AntibodyS100A4 AntibodySP1 AntibodyBRCA1 Antibody (YA819)Argonaute 2 AntibodyBRCA1 AntibodyElongation Factor 1A1 AntibodyKAP1 AntibodyMCM2 Antibody (YA705)MLH1 Antibody (YA703)RNA Polymerase II Subunit B1 AntibodyRPA70 Antibody (YA678)SP7/Osterix AntibodyDNA PKcs Antibody (YA957)DNA PKcs Antibody (YA959)分子量:854.81Formula:C3413C10H54N215N5O8PCAS 号:2483830-16-4非标记 CAS:93183-15-4运输条件:Room temperature in continental US; may vary elsewhere.储存方式:Please store the product under the recommended conditions in the Certificate of Analysis.纯度 & 产品资料Data Sheet (530 KB)产品使用指南 (1538 KB)参考文献[1]. Russak EM, et al. Impact of Deuterium Substitution on the Pharmacokinetics of Pharma