6-Phospho-2-desoxy-gluconsaeure | 3006-63-1

• 分子结构分类: 有机化合物 - 有机酸及其衍生物 - 羟基酸及其衍生物
• 英文名称: 6-Phospho-2-desoxy-gluconsaeure
• 英文别名: 3,4,5-Trihydroxy-6-phosphonooxyhexanoic acid
• CAS: 3006-63-1
• 化学式: C₆H₁₃O₉P
• 分子量: 260.138
• InChiKey: LTHDIZOWAIGONP-UHFFFAOYSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  -3.9
• 重原子数：
  16
• 可旋转键数：
  7
• 环数：
  0.0
• sp3杂化的碳原子比例：
  0.83
• 拓扑面积：
  165
• 氢给体数：
  6
• 氢受体数：
  9

文献信息

• Method and System for Killing Cancer Cells Using a Virus
  申请人：Postrel Richard

  公开号：US20190133945A1

  公开（公告）日：2019-05-09

  This invention provides tools and methods that prevent a cancer cell from growing and reproducing more cancer cells. When growth ceases the body's immune defenses are enabled to attack and destroy these cells if the cancer cell itself has not initiated its own natural apoptotic self-destruction processes. The tools and methods of the invention obstruct the metabolic adaptions required to support cancer growth. By addressing the increased rates of metabolism characteristic of all rapidly reproducing cancer cells using chemical and/or physical nanotechnology to identify, segregate, isolate these hypermetabolizing cells, the body's immune system and other natural defenses are empowered to further isolate and eliminate the diseased cells. The extreme growth rates required for their rapid reproduction involve massively increased rates of the biochemical reactions supporting the cancerous growth. Each excess reaction produces extra heat and raises the internal cell's temperature and the tissue space immediate to the rapidly growing cells. This heat signature is used as a primary biomarker that enables binding of a nanoviral particle engineered to migrate to at attach at the target site at the site and prevent the cell from continued metabolism. Preferably, the nanoparticle not only binds and blocks external membrane receptors on the target cell, but incorporates into the rapidly metabolizing cells additional metabolic blocking agents to stop their growth. When cell growth and proliferation are stopped, the body's natural defenses are able to segregate and eliminate these cells. The massively increased rates of metabolic reactions characteristic of cancer cells also produce excess acid. The decreased pH is useful as a secondary or confirmatory marker for identifying these cancer cells.
• Method for Precise Identification, Targeting and Delivery of Directed Therapies with the Use of Bacteria for the Destruction of Cancerous Cells
  申请人：Postrel Richard

  公开号：US20190134105A1

  公开（公告）日：2019-05-09

  This invention teaches systems and methods for identifying, targeting and destroying cancer cells. As cells progress from a normal to a cancerous state their accelerated metabolic rates and adapted pathways generate a higher heat signature that serves as a targeting beacon for a specialized cell killing vector. Suitable vectors include modified or adapted viruses, modified or adapted intracellular bacteria and/or engineered liposomes. Especially preferred is the bacterial vector because of its ease of production. The bacterial vector is selectively targeted to recognize cells whose temperature is slightly elevated and ambient pH suppressed due to cancer related alterations to metabolism. An additional targeting feature, such as recognition of the MCT4 transmembrane protein exaggeratively expressed on the cancer cell outer membrane, may provide additional targeting specificity. Embodiments featuring facultative extracellular and intracellular growth capable bacteria have the preferred feature that culture conditions for producing the vector can be optimized solely for the one organism and need not be compromised to support or optimize host cell maintenance.
• System and Method for Managing All Cancers by Disabling the Cancer Cells Ability to Reproduce
  申请人：Postrel Richard

  公开号：US20190134228A1

  公开（公告）日：2019-05-09

  This invention provides tools and methods that prevent a cancer cell from growing and reproducing more cancer cells. When growth ceases the body's immune defenses are enabled to attack and destroy these cells if the cancer cell itself has not initiated its own natural apoptotic self-destruction processes. The tools and methods of the invention obstruct the metabolic adaptions required to support cancer growth. By addressing the increased rates of metabolism characteristic of all rapidly reproducing cancer cells using chemical and/or physical nanotechnology to identify, segregate, isolate these hypermetabolizing cells, the body's immune system and other natural defenses are empowered to further isolate and eliminate the diseased cells. The extreme growth rates required for their rapid reproduction involve massively increased rates of the biochemical reactions supporting the cancerous growth. Each excess reaction produces extra heat and raises the internal cell's temperature and the tissue space immediate to the rapidly growing cells. This heat signature is used as a primary biomarker that enables binding of a nanoviral particle engineered to migrate to at attach at the target site at the site and prevent the cell from continued metabolism. Preferably, the nanoparticle not only binds and blocks external membrane receptors on the target cell, but incorporates into the rapidly metabolizing cells additional metabolic blocking agents to stop their growth. When cell growth and proliferation are stopped, the body's natural defenses are able to segregate and eliminate these cells. The massively increased rates of metabolic reactions characteristic of cancer cells also produce excess acid. The decreased pH is useful as a secondary or confirmatory marker for identifying these cancer cells.
• Method for Precise Identification, Targeting and Delivery of Directed Therapies to Domesticated Animals Using Bacteria to Bind and Destroy Cancerous Cells
  申请人：Postrel Richard

  公开号：US20200054688A1

  公开（公告）日：2020-02-20

  This invention teaches systems and methods for identifying, targeting and destroying cancer cells domesticated organism such as a pet or zoo animal. As cells progress from a normal to a cancerous state their accelerated metabolic rates and adapted pathways generate a higher heat signature that serves as a targeting beacon for a specialized cell killing vector. Suitable vectors include modified or adapted viruses, modified or adapted intracellular bacteria and/or engineered liposomes. Especially preferred is the bacterial vector because of its ease of production. The bacterial vector is selectively targeted to recognize cells whose temperature is slightly elevated and ambient pH suppressed due to cancer related alterations to metabolism. An additional targeting feature, such as recognition of the MCT4 transmembrane protein exaggeratively expressed on the cancer cell outer membrane, may provide additional targeting specificity. Embodiments featuring facultative extracellular and intracellular growth capable bacteria have the preferred feature that culture conditions for producing the vector can be optimized solely for the one organism and need not be compromised to support or optimize host cell maintenance.
• System and Method for Managing Animal Cancers by Disabling the Cancer Cells Ability to Reproduce
  申请人：Postrel Richard

  公开号：US20200057081A1

  公开（公告）日：2020-02-20

  This invention provides tools and methods that prevent a cancer cell from growing and reproducing more cancer cells in a diseased animal. When growth ceases the body's immune defenses are enabled to attack and destroy these cells if the cancer cell itself has not initiated its own natural apoptotic self-destruction processes. The tools and methods of the invention obstruct the metabolic adaptions required to support cancer growth. By addressing the increased rates of metabolism characteristic of all rapidly reproducing cancer cells using chemical and/or physical nanotechnology to identify, segregate, isolate these hypermetabolizing cells, the body's immune system and other natural defenses are empowered to further isolate and eliminate the diseased cells. The extreme growth rates required for their rapid reproduction involve massively increased rates of the biochemical reactions supporting the cancerous growth. Each excess reaction produces extra heat and raises the internal cell's temperature and the tissue space immediate to the rapidly growing cells. This heat signature is used as a primary biomarker that enables binding of a nanoviral particle engineered to migrate to at attach at the target site at the site and prevent the cell from continued metabolism. Preferably, the nanoparticle not only binds and blocks external membrane receptors on the target cell, but incorporates into the rapidly metabolizing cells additional metabolic blocking agents to stop their growth. When cell growth and proliferation are stopped, the body's natural defenses are able to segregate and eliminate these cells. The massively increased rates of metabolic reactions characteristic of cancer cells also produce excess acid. The decreased pH is useful as a secondary or confirmatory marker for identifying these cancer cells.