3-甲基硫代苯硼酸频那醇酯 | 710348-63-3

• 分子结构分类: 有机化合物 - 有机硫化合物 - 硫醚类
• 中文名称: 3-甲基硫代苯硼酸频那醇酯
• 中文别名: 3-甲硫基苯硼酸频呐酯
• 英文名称: 4,4,5,5-tetramethyl-2-(3-(methylthio)phenyl)-1,3,2-dioxaborolane
• 英文别名: 4,4,5,5-tetramethyl-2-(3-methylsulfanylphenyl)-1,3,2-dioxaborolane
• CAS: 710348-63-3
• 化学式: C₁₃H₁₉BO₂S
• 分子量: 250.17
• InChiKey: SVJUVGVKTGZKCG-UHFFFAOYSA-N

物化性质

• 沸点：
  350.0±25.0 °C(Predicted)
• 密度：
  1.06g/ml

计算性质

• 辛醇/水分配系数(LogP)：
  2.71
• 重原子数：
  17
• 可旋转键数：
  2
• 环数：
  2.0
• sp3杂化的碳原子比例：
  0.54
• 拓扑面积：
  43.8
• 氢给体数：
  0
• 氢受体数：
  3

安全信息

• 危险等级：
  IRRITANT
• 海关编码：
  2931900090
• 危险性防范说明：
  P261,P305+P351+P338
• 危险性描述：
  H302,H315,H319,H335
• 储存条件：
  室温下应存放在干燥密封的环境中。

SDS

Material Safety Data Sheet

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Section 1. Identification of the substance
Product Name: 3-Methylthiophenylboronic acid, pinacol ester
Synonyms:

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Section 2. Hazards identification
Harmful by inhalation, in contact with skin, and if swallowed.

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Section 3. Composition/information on ingredients.
Ingredient name: 3-Methylthiophenylboronic acid, pinacol ester
CAS number: 710348-63-3

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Section 4. First aid measures
Skin contact: Immediately wash skin with copious amounts of water for at least 15 minutes while removing
contaminated clothing and shoes. If irritation persists, seek medical attention.
Eye contact: Immediately wash skin with copious amounts of water for at least 15 minutes. Assure adequate
flushing of the eyes by separating the eyelids with fingers. If irritation persists, seek medical
attention.
Inhalation: Remove to fresh air. In severe cases or if symptoms persist, seek medical attention.
Ingestion: Wash out mouth with copious amounts of water for at least 15 minutes. Seek medical attention.

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Section 5. Fire fighting measures
In the event of a fire involving this material, alone or in combination with other materials, use dry
powder or carbon dioxide extinguishers. Protective clothing and self-contained breathing apparatus
should be worn.

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Section 6. Accidental release measures
Personal precautions: Wear suitable personal protective equipment which performs satisfactorily and meets local/state/national
standards.
Respiratory precaution: Wear approved mask/respirator
Hand precaution: Wear suitable gloves/gauntlets
Skin protection: Wear suitable protective clothing
Eye protection: Wear suitable eye protection
Methods for cleaning up: Mix with sand or similar inert absorbent material, sweep up and keep in a tightly closed container
for disposal. See section 12.
Environmental precautions: Do not allow material to enter drains or water courses.

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Section 7. Handling and storage
Handling: This product should be handled only by, or under the close supervision of, those properly qualified
in the handling and use of potentially hazardous chemicals, who should take into account the fire,
health and chemical hazard data given on this sheet.
Store in closed vessels.
Storage:

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Section 8. Exposure Controls / Personal protection
Engineering Controls: Use only in a chemical fume hood.
Personal protective equipment: Wear laboratory clothing, chemical-resistant gloves and safety goggles.
General hydiene measures: Wash thoroughly after handling. Wash contaminated clothing before reuse.

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Section 9. Physical and chemical properties
Appearance: Not specified
Boiling point: No data
No data
Melting point:
Flash point: No data
Density: No data
Molecular formula: C13H19BO2S
Molecular weight: 250.2

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Section 10. Stability and reactivity
Conditions to avoid: Heat, flames and sparks.
Materials to avoid: Oxidizing agents.
Possible hazardous combustion products: Carbon monoxide, sulfur oxides.

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Section 11. Toxicological information
No data.

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Section 12. Ecological information
No data.

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Section 13. Disposal consideration
Arrange disposal as special waste, by licensed disposal company, in consultation with local waste
disposal authority, in accordance with national and regional regulations.

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Section 14. Transportation information
Non-harzardous for air and ground transportation.

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Section 15. Regulatory information
No chemicals in this material are subject to the reporting requirements of SARA Title III, Section
302, or have known CAS numbers that exceed the threshold reporting levels established by SARA
Title III, Section 313.

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SECTION 16 - ADDITIONAL INFORMATION
N/A

反应信息

• 作为反应物：
  描述：

  3-甲基硫代苯硼酸频那醇酯 在 sodium iodide 、 [Cu(pyridine)₄(trifluoromethanesulfonate)₂] 作用下， 以 甲醇 、 水 为溶剂， 反应 0.17h， 以97.2%的产率得到
  参考文献：
  名称：

  Copper‐mediated radioiodination reaction through aryl boronic acid or ester precursor and its application to direct radiolabeling of a cyclic peptide

  摘要：

  铜介导的使用芳基硼酸前体的放射性碘化法作为解决氧化碘锡化和镍介导的放射性碘化法缺点的一种方法，正在引起人们的关注。铜介导的放射标记法可以在室温下使用稳定的芳基硼酸前体进行放射碘化，无需准备复杂的起始材料或试剂，而且可以在暴露于空气中的反应容器中进行。这种方法在放射化学领域具有很好的应用前景；然而，有关铜通过硼酸前体介导的放射性碘化范围的研究还不够充分。特别是，很少有报告证明保护基团对放射性标记效率的影响。因此，我们研究了芳基硼酸的保护基团对铜介导的放射碘化的影响。此外，这种无需加热的方法有望用于多肽的直接放射性标记。因此，我们以 c(RGDyk)为例尝试了直接放射性碘化。在各种底物中，放射性碘化方法的耐受性都很好，而且不受频哪醇酯类保护基的影响。此外，还利用芳基硼酸前体，通过铜介导的放射碘化法用 125I 标记了 c(RGDyk)。与间接法相比，反应时间和收率都有所提高。此外，硼酸前体和放射性标记化合物之间的极性差异较大，有利于纯化。

  DOI：

  10.1002/jlcr.3925
• 作为产物：
  描述：

  3-氯茴香硫醚 在 甲醇 、 palladium diacetate 、 三乙胺 、 potassium iodide 、 2-二环己基磷-2,4,6-三异丙基联苯 作用下， 以 乙酸乙酯 为溶剂， 反应 21.0h， 生成 3-甲基硫代苯硼酸频那醇酯
  参考文献：
  名称：

  通过使用二异丙基氨基硼烷作为硼化试剂在温和条件下将未活化的芳基氯化物硼化

  摘要：

  描述了通过使用芳基（氨基）硼烷从芳基氯化物合成芳基硼酸酯衍生物。在温和条件下，芳基氯化物和二异丙基氨基硼烷之间的钯催化偶联导致形成CB键。宽泛的官能团是可以容忍的，这使得该方法对官能化芳族化合物的硼酸酯化特别有用。

  DOI：

  10.1002/chem.201304861

文献信息

• Lewis Acid–Base Interaction‐Controlled <i>ortho</i> ‐Selective C−H Borylation of Aryl Sulfides
  作者：Hong Liang Li、Yoichiro Kuninobu、Motomu Kanai

  DOI：10.1002/anie.201610041

  日期：2017.2

  iridium/bipyridine‐catalyzed ortho‐selective C−H borylation of aryl sulfides was developed. High ortho‐selectivity was achieved by a Lewis acid–base interaction between a boryl group of the ligand and a sulfur atom of the substrate. This is the first example of a catalytic and regioselective C−H transformation controlled by a Lewis acid–base interaction between a ligand and a substrate. The C−H borylation reaction

  开发了铱/联吡啶催化的芳基硫醚的邻位选择性CH硼化反应。高配位选择性是通过配体的硼基与底物的硫原子之间的路易斯酸碱相互作用实现的。这是由配体与底物之间的路易斯酸碱相互作用控制的催化和区域选择性CH转化的第一个例子。CH硼化反应可以以克为单位进行，并以生物活性分子为底物，证明了其对后期区域选择性CH硼化的适用性。一种生物活性分子是由邻硼酸盐化的产物通过将产物的硼烷基和甲硫基基团转化而合成的。
• Discovery and Structure–Activity Relationships of <i>N</i> ‐Aryl 6‐Aminoquinoxalines as Potent PFKFB3 Kinase Inhibitors
  作者：Nicolas Boutard、Arkadiusz Białas、Aleksandra Sabiniarz、Paweł Guzik、Katarzyna Banaszak、Artur Biela、Marcin Bień、Anna Buda、Barbara Bugaj、Ewelina Cieluch、Anna Cierpich、Łukasz Dudek、Hans‐Michael Eggenweiler、Joanna Fogt、Monika Gaik、Andrzej Gondela、Krzysztof Jakubiec、Mirek Jurzak、Agata Kitlińska、Piotr Kowalczyk、Maciej Kujawa、Katarzyna Kwiecińska、Marcin Leś、Ralph Lindemann、Monika Maciuszek、Maciej Mikulski、Paulina Niedziejko、Alicja Obara、Henryk Pawlik、Tomasz Rzymski、Magdalena Sieprawska‐Lupa、Marta Sowińska、Joanna Szeremeta‐Spisak、Agata Stachowicz、Mateusz M. Tomczyk、Katarzyna Wiklik、Łukasz Włoszczak、Sylwia Ziemiańska、Adrian Zarębski、Krzysztof Brzózka、Mateusz Nowak、Charles‐Henry Fabritius

  DOI：10.1002/cmdc.201800569

  日期：2019.1.8

  is the ubiquitous and hypoxia‐induced isoform of PFK‐2, are reported. X‐ray crystallography and docking were instrumental in the design and optimisation of a series of N‐aryl 6‐aminoquinoxalines. The most potent representative, N‐(4‐methanesulfonylpyridin‐3‐yl)‐8‐(3‐methyl‐1‐benzothiophen‐5‐yl)quinoxalin‐6‐amine, displayed an IC50 of 14 nm for the target and an IC50 of 0.49 μm for fructose‐2,6‐biphosphate

  癌细胞的能量和生物质生产在很大程度上被有氧糖酵解所支持，这就是所谓的Warburg效应。该过程受关键酶的调节，其中磷酸果糖激酶PFK-2通过产生果糖-2,6-二磷酸而起重要作用。磷酸果糖激酶PFK-1执行的最有效的糖酵解限速步骤激活剂。本文介绍了6-磷酸果糖-2-激酶/果糖-2,6-二磷酸酯酶3（PFKFB3）的新型抑制剂的合成，生物学评估以及其结构与活性之间的关系，PFKFB3是一种普遍存在且由低氧引起的PFK-2亚型，被报道。X射线晶体学和对接有助于设计和优化一系列N-芳基6-氨基喹喔啉。最有力的代表，N-（4-甲磺酰基吡啶-3-基）-8-（3-甲基-1-苯并噻吩-5-基）喹喔啉-6-胺，目标物的IC 50为14 n m，0.4的IC 50为0.49μm m为人类结肠癌HCT116细胞中果糖2,6-二磷酸的产生。这项工作为PFKFB3抑制剂领域的发展提供了新的机会。
• Modular Dual-Tasked C–H Methylation via the Catellani Strategy
  作者：Qianwen Gao、Yong Shang、Fuzhen Song、Jinxiang Ye、Ze-Shui Liu、Lisha Li、Hong-Gang Cheng、Qianghui Zhou

  DOI：10.1021/jacs.9b07857

  日期：2019.10.9

  We report a dual-tasked methylation based on cooperative palladium/norbornene catalysis. Readily available (hetero)aryl halides (39 iodides and 4 bromides) and inexpensive MeOTs or trimethylphosphate are utilized as the substrates and meth-ylating reagent, respectively. Six types of ipso terminations can modularly couple with this ortho C-H methylation to consti-tute a versatile methylation toolbox

  我们报告了基于协同钯/降冰片烯催化的双任务甲基化。容易获得的（杂）芳基卤化物（39 个碘化物和 4 个溴化物）和廉价的 MeOT 或磷酸三甲酯分别用作底物和甲基化试剂。六种类型的 ipso 末端可以与这种邻位 CH 甲基化模块化耦合，构成一个通用的甲基化工具箱，用于制备多样化的甲基化芳烃。该工具箱具有廉价的甲基来源、出色的官能团耐受性、简单的反应程序和可扩展性。重要的是，通过切换到相应的试剂 CD3OT 或 13CH3OT，它可以顺利地扩展到同位素标记的甲基化。此外，该工具箱可用于具有完全立体保留的生物相关底物的后期修饰。
• Method for preparing aminoarylborane compounds or derivatives thereof
  申请人：Université de Bordeaux I

  公开号：EP2881398A1

  公开（公告）日：2015-06-10

  The present invention provides a process for the preparation of aminoarylborane compounds and derivatives thereof comprising a step of arylation by reacting an aryl chloride with an aminoborane compound in the presence of a catalytic system. Typically, the transformation comprises, converting Aryl-chloride Ar-Cl with an aminoborane such as into an aminoarylborane compound of the following formula:

  本发明提供了一种制备氨基芳基硼化合物及其衍生物的方法，包括通过在催化体系存在下，将芳基氯化物与氨基硼烷化合物反应进行芳基化的步骤。通常，该转化包括将芳基氯化物Ar-Cl与氨基硼烷化合物反应，转化为以下式的氨基芳基硼化合物：
• Merging Electron Transfer with 1,2‐Metalate Rearrangement: Deoxygenative Arylation of Aromatic Amides with Arylboronic Esters
  作者：Jiwen Jiao、Xiaoming Wang

  DOI：10.1002/anie.202104359

  日期：2021.7.26

  rearrangement, a wide range of aromatic amides react smoothly with arylboron reagents, affording a series of biologically relevant diarylmethylamines as deoxygenative C−C bond cross-coupling products. With its simplicity and versatility, this reaction shows great promise in the synthesis of amines from amides, which may open up new avenues in retrosynthetic planning and find widespread use in academia

  在许多类型的化学转化中，酰胺本质上是惰性的羧基衍生物。特别是，由于共振稳定的酰胺 C=O 键的惰性，酰胺与合成重要胺的脱氧 C-C 键形成对合成化学家来说是一个长期存在的挑战。本文公开了通过将电子转移诱导的活化与 1,2-金属酸盐重排相结合，广泛的芳香酰胺与芳基硼试剂顺利反应，提供一系列生物学相关的二芳基甲胺作为脱氧 C-C 键交叉偶联产品。由于其简单性和多功能性，该反应在由酰胺合成胺方面显示出巨大的希望，这可能为逆合成规划开辟新的途径，并在学术界和工业界得到广泛应用。