计算溶液所需的质量、体积或浓度。
活性类型 | Relation | Activity value | Units | Action Type | Journal | PubMed Id | doi | Assay Aladdin ID |
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货号 (SKU) | 包装规格 | 是否现货 | 价格 | 数量 |
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A111947-100mg |
100mg |
现货 ![]() |
|
英文别名 | MFCD00070503 | Methyl decenoate | A827623 | D-(+)-Arabitol, >=99% | Lyxitol | ARABITE | SR-01000633502-1 | SR-01000633502-3 | (+)-ARABITOL | AS-11643 | D-lyxo-Pentitol | DTXCID2025979 | Oprea1_838482 | BOA443XF1X | D-Lyxitol | Isobutyl cis-2-methyl-2-bute |
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规格或纯度 | 分析标准品 |
英文名称 | D-(+)-Arabitol |
运输条件 | 常规运输 |
活性类型 | Relation | Activity value | Units | Action Type | Journal | PubMed Id | doi | Assay Aladdin ID |
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作用机制 | Action Type | target ID | Target Name | Target Type | Target Organism | Binding Site Name | 参考文献 |
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EC号 | 207-686-2 |
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分子类型 | 小分子 |
IUPAC Name | (2R,4R)-pentane-1,2,3,4,5-pentol |
INCHI | InChI=1S/C5H12O5/c6-1-3(8)5(10)4(9)2-7/h3-10H,1-2H2/t3-,4-/m1/s1 |
InChi Key | HEBKCHPVOIAQTA-QWWZWVQMSA-N |
Canonical SMILES | C(C(C(C(CO)O)O)O)O |
Isomeric SMILES | C([C@H](C([C@@H](CO)O)O)O)O |
WGK Germany | 3 |
PubChem CID | 94154 |
分子量 | 152.15 |
Beilstein号 | 1720520 |
密度 | 1.525 |
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比旋光度 | 12° (C=5,Sodium borate(8%)) |
熔点 | 97-105°C |
分子量 | 152.150 g/mol |
XLogP3 | -2.500 |
氢键供体数Hydrogen Bond Donor Count | 5 |
氢键受体数Hydrogen Bond Acceptor Count | 5 |
可旋转键计数Rotatable Bond Count | 4 |
精确质量Exact Mass | 152.068 Da |
单同位素质量Monoisotopic Mass | 152.068 Da |
拓扑极表面积Topological Polar Surface Area | 101.000 Ų |
重原子数Heavy Atom Count | 10 |
形式电荷Formal Charge | 0 |
复杂度Complexity | 76.100 |
同位素原子数Isotope Atom Count | 0 |
定义的原子立体中心计数Defined Atom Stereocenter Count | 2 |
未定义的原子立体中心计数Undefined Atom Stereocenter Count | 0 |
定义的键立体中心计数Defined Bond Stereocenter Count | 0 |
未定义的键立体中心计数Undefined Bond Stereocenter Count | 0 |
所有立体化学键的总数The total count of all stereochemical bonds | 0 |
共价键合单元计数Covalently-Bonded Unit Count | 1 |
WGK Germany | 3 |
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Merck Index | 762 |
个人防护装备 | Eyeshields,Gloves,type N95 (US),type P1 (EN143) respirator filter |
1. Hengtao Tang, Zhi Chen, Yu Shao, Xin Ju, Liangzhi Li. (2022) Development of an enzymatic cascade to systematically utilize lignocellulosic monosaccharide. JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, 103 (4): (1974-1980). [PMID:36448581] [10.1002/jsfa.12364] |
2. Xiaolan Li, Yufei Zhang, Hossain M. Zabed, Junhua Yun, Guoyan Zhang, Mei Zhao, Yuvaraj Ravikumar, Xianghui Qi. (2023) High-level production of d-arabitol by Zygosaccharomyces rouxii from glucose: Metabolic engineering and process optimization. BIORESOURCE TECHNOLOGY, 367 (128251). [PMID:36334865] [10.1016/j.biortech.2022.128251] |
3. Liangqing Zhang, Jiarong Qiu, Xing Tang, Yong Sun, Xianhai Zeng, Lu Lin. (2021) Efficient Synthesis of Sugar Alcohols over a Synergistic and Sustainable Catalyst. CHINESE JOURNAL OF CHEMISTRY, 39 (9): (2467-2476). [10.1002/cjoc.202100140] |
4. Gan Xiaorong, Zhao Huimin, Schirhagl Romana, Quan Xie. (2019) Non enzymatic fluorometric determination of glucose by using quenchable g-C3N4 quantum dots. MICROCHIMICA ACTA, 186 (12): (1-10). [PMID:31728637] [10.1007/s00604-019-3990-8] |
5. Xue-Feng Shao, Chao Wang, Yong-Jian Yang, Biao Feng, Zi-Qin Zhu, Wu-Jun Wang, Yi Zeng, Li-Wu Fan. (2018) Screening of sugar alcohols and their binary eutectic mixtures as phase change materials for low-to-medium temperature latent heat storage. (Ⅰ): Non-isothermal melting and crystallization behaviors. ENERGY, 160 (1078). [10.1016/j.energy.2018.07.081] |
6. Feng Sha, Yucong Zheng, Jiao Chen, Kequan Chen, Fei Cao, Ming Yan, Pingkai Ouyang. (2018) D-Tagatose manufacture through bio-oxidation of galactitol derived from waste xylose mother liquor. GREEN CHEMISTRY, 20 (10): (2382-2391). [10.1039/C8GC00091C] |
7. Rui Jia, Keyan Sun, Rongchun Li, Youyou Zhang, Wenxia Wang, Heng Yin, Dawei Fang, Quan Shi, Zhicheng Tan. (2017) Heat capacities of some sugar alcohols as phase change materials for thermal energy storage applications. JOURNAL OF CHEMICAL THERMODYNAMICS, 115 (233). [10.1016/j.jct.2017.08.004] |
1. Hengtao Tang, Zhi Chen, Yu Shao, Xin Ju, Liangzhi Li. (2022) Development of an enzymatic cascade to systematically utilize lignocellulosic monosaccharide. JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, 103 (4): (1974-1980). [PMID:36448581] [10.1002/jsfa.12364] |
2. Xiaolan Li, Yufei Zhang, Hossain M. Zabed, Junhua Yun, Guoyan Zhang, Mei Zhao, Yuvaraj Ravikumar, Xianghui Qi. (2023) High-level production of d-arabitol by Zygosaccharomyces rouxii from glucose: Metabolic engineering and process optimization. BIORESOURCE TECHNOLOGY, 367 (128251). [PMID:36334865] [10.1016/j.biortech.2022.128251] |
3. Liangqing Zhang, Jiarong Qiu, Xing Tang, Yong Sun, Xianhai Zeng, Lu Lin. (2021) Efficient Synthesis of Sugar Alcohols over a Synergistic and Sustainable Catalyst. CHINESE JOURNAL OF CHEMISTRY, 39 (9): (2467-2476). [10.1002/cjoc.202100140] |
4. Gan Xiaorong, Zhao Huimin, Schirhagl Romana, Quan Xie. (2019) Non enzymatic fluorometric determination of glucose by using quenchable g-C3N4 quantum dots. MICROCHIMICA ACTA, 186 (12): (1-10). [PMID:31728637] [10.1007/s00604-019-3990-8] |
5. Xue-Feng Shao, Chao Wang, Yong-Jian Yang, Biao Feng, Zi-Qin Zhu, Wu-Jun Wang, Yi Zeng, Li-Wu Fan. (2018) Screening of sugar alcohols and their binary eutectic mixtures as phase change materials for low-to-medium temperature latent heat storage. (Ⅰ): Non-isothermal melting and crystallization behaviors. ENERGY, 160 (1078). [10.1016/j.energy.2018.07.081] |
6. Feng Sha, Yucong Zheng, Jiao Chen, Kequan Chen, Fei Cao, Ming Yan, Pingkai Ouyang. (2018) D-Tagatose manufacture through bio-oxidation of galactitol derived from waste xylose mother liquor. GREEN CHEMISTRY, 20 (10): (2382-2391). [10.1039/C8GC00091C] |
7. Rui Jia, Keyan Sun, Rongchun Li, Youyou Zhang, Wenxia Wang, Heng Yin, Dawei Fang, Quan Shi, Zhicheng Tan. (2017) Heat capacities of some sugar alcohols as phase change materials for thermal energy storage applications. JOURNAL OF CHEMICAL THERMODYNAMICS, 115 (233). [10.1016/j.jct.2017.08.004] |