β-Glycerol phosphate disodium salt - ≥98.0%, high purity , CAS No.13408-09-8

  • ≥98%
Item Number
G418953
Grouped product items
SKUSizeAvailabilityPrice Qty
G418953-5g
5g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$39.90
G418953-25g
25g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$109.90
G418953-100g
100g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$279.90
G418953-500g
500g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$899.90

Basic Description

SynonymsAC-26390 | DTXSID60158536 | beta-Glycerophosphoric acid disodium salt pentahydrate | ss-glycerolphosphate | Glycerol, 2-(dihydrogen phosphate), disodium salt, pentahydrate | 1,2,3-Propanetriol, 2-(dihydrogen phosphate), disodium salt, pentahydrate | beta-
Specifications & Purity≥98%
Biochemical and Physiological Mechanismsβ-Glycerophosphate is a classical serine-threonine phosphatase inhibitor used in kinase reaction buffers. BGP is often used in combination with other phosphatase/protease inhibitors to achieve broad-spectrum inhibition. It is useful as an organophosphate
Storage TempStore at 2-8°C
Shipped InWet ice

Names and Identifiers

IUPAC Name disodium;1,3-dihydroxypropan-2-yl phosphate;pentahydrate
INCHI InChI=1S/C3H9O6P.2Na.5H2O/c4-1-3(2-5)9-10(6,7)8;;;;;;;/h3-5H,1-2H2,(H2,6,7,8);;;5*1H2/q;2*+1;;;;;/p-2
InChi Key PEMUISUYOHQFQH-UHFFFAOYSA-L
Canonical SMILES C(C(CO)OP(=O)([O-])[O-])O.O.O.O.O.O.[Na+].[Na+]
Isomeric SMILES C(C(CO)OP(=O)([O-])[O-])O.O.O.O.O.O.[Na+].[Na+]
WGK Germany 3
RTECS UA0600000
Alternate CAS 819-83-0
PubChem CID 2735049
Molecular Weight 306.11
Beilstein 1(2)594
Reaxy-Rn 3922496

Certificates

Certificate of Analysis(COA)

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37 results found

Lot NumberCertificate TypeDateItem
K2408497Certificate of AnalysisOct 26, 2024 G418953
K2408496Certificate of AnalysisOct 26, 2024 G418953
K2408495Certificate of AnalysisOct 26, 2024 G418953
K2408452Certificate of AnalysisOct 26, 2024 G418953
G2409478Certificate of AnalysisJun 21, 2024 G418953
G2409477Certificate of AnalysisJun 21, 2024 G418953
G2409476Certificate of AnalysisJun 21, 2024 G418953
G2409475Certificate of AnalysisJun 21, 2024 G418953
G2409474Certificate of AnalysisJun 21, 2024 G418953
E2413273Certificate of AnalysisApr 30, 2024 G418953
E2413292Certificate of AnalysisApr 30, 2024 G418953
E2413293Certificate of AnalysisApr 30, 2024 G418953
E2413294Certificate of AnalysisApr 30, 2024 G418953
B2307281Certificate of AnalysisFeb 16, 2023 G418953
B2307282Certificate of AnalysisFeb 11, 2023 G418953
F2209132Certificate of AnalysisJun 18, 2022 G418953
F2209131Certificate of AnalysisJun 18, 2022 G418953
F2209130Certificate of AnalysisJun 18, 2022 G418953
F2316127Certificate of AnalysisJun 13, 2022 G418953
F2327411Certificate of AnalysisJun 13, 2022 G418953
F2209133Certificate of AnalysisJun 13, 2022 G418953
E2324249Certificate of AnalysisJun 13, 2022 G418953
F2316123Certificate of AnalysisJun 13, 2022 G418953
H2310008Certificate of AnalysisJun 13, 2022 G418953
D2310229Certificate of AnalysisJun 13, 2022 G418953
L2307097Certificate of AnalysisJun 11, 2022 G418953
A2410043Certificate of AnalysisJun 11, 2022 G418953
D23141114Certificate of AnalysisJun 11, 2022 G418953
J2327261Certificate of AnalysisJun 11, 2022 G418953
J2326114Certificate of AnalysisJun 11, 2022 G418953
J2323049Certificate of AnalysisJun 11, 2022 G418953
J2307029Certificate of AnalysisJun 11, 2022 G418953
I2201576Certificate of AnalysisJun 11, 2022 G418953
I2201574Certificate of AnalysisJun 11, 2022 G418953
I2201573Certificate of AnalysisJun 11, 2022 G418953
H2316102Certificate of AnalysisJun 11, 2022 G418953
H2302232Certificate of AnalysisJun 11, 2022 G418953

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Chemical and Physical Properties

SolubilitySoluble in water
SensitivityAir Sensitive,Heat Sensitive
Melt Point(°C)102-104°C

Safety and Hazards(GHS)

Pictogram(s) GHS07
Signal Warning
Hazard Statements

H335:May cause respiratory irritation

Precautionary Statements

P261:Avoid breathing dust/fume/gas/mist/vapors/spray.

P405:Store locked up.

P501:Dispose of contents/container to ...

P271:Use only outdoors or in a well-ventilated area.

P304+P340:IF INHALED: Remove person to fresh air and keep comfortable for breathing.

P403+P233:Store in a well-ventilated place. Keep container tightly closed.

P319:Get medical help if you feel unwell.

WGK Germany 3
RTECS UA0600000
Reaxy-Rn 3922496

Related Documents

Citations of This Product

1. Haibin Li, Chunyan Zhang, Qiang Liu.  (2023)  Lumican silencing ameliorates β-glycerophosphate-mediated vascular smooth muscle cell calcification by attenuating the inhibition of APOB on KIF2C activity.  Open Medicine,  18  (1):   [PMID:37711155] [10.1515/med-2023-0790]
2. Hanqi Wu, Weizheng Zhang, Xuhui Huang, Peng Gu, Qi Li, Xingzhang Luo, Zheng Zheng.  (2023)  Phosphorus conditions change the cellular responses of Microcystis aeruginosa to perfluorooctanoic acid.  SCIENCE OF THE TOTAL ENVIRONMENT,    (166707).  [PMID:37660808] [10.1016/j.scitotenv.2023.166707]
3. Yang Liu, Chuang Lang, Yaping Ding, Siyu Sun, Guangwei Sun.  (2023)  Chitosan with enhanced deprotonation for accelerated thermosensitive gelation with β-glycerophosphate.  EUROPEAN POLYMER JOURNAL,  196  (112229).  [PMID:] [10.1016/j.eurpolymj.2023.112229]
4. Cunguo Chen, Murong Hu, Yunyun Cao, Binbin Zhu, Jiashe Chen, Yashi Li, Junyi Shao, Sen Zhou, Pengfei Shan, Chen Zheng, Zhongyu Li, Zhiming Li.  (2023)  Combination of a STING Agonist and Photothermal Therapy Using Chitosan Hydrogels for Cancer Immunotherapy.  BIOMACROMOLECULES,  24  (6): (2790–2803).  [PMID:37125731] [10.1021/acs.biomac.3c00196]
5. Shihuai Li, Yunan Qing, Yan Lou, Ruiyan Li, Hao Wang, Xingyue Wang, Boda Ying, Xiongfeng Tang, Yanguo Qin.  (2023)  Injectable thermosensitive black phosphorus nanosheet- and doxorubicin-loaded hydrogel for synergistic bone tumor photothermal-chemotherapy and osteogenesis enhancement.  INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES,  239  (124209).  [PMID:36972826] [10.1016/j.ijbiomac.2023.124209]
6. Yutong Wu, Hongbo Ai, Yuchi Zou, Qiankun Yang, Ce Dou, Jianzhong Xu.  (2023)  Osteoclast-derived extracellular miR-106a-5p promotes osteogenic differentiation and facilitates bone defect healing.  CELLULAR SIGNALLING,  102  (110549).  [PMID:36464103] [10.1016/j.cellsig.2022.110549]
7. Tingting Wu, Binglin Li, Wanshun Wang, Lingling Chen, Zhan Li, Ming Wang, Zhengang Zha, Zefeng Lin, Hong Xia, Tao Zhang.  (2020)  Strontium-substituted hydroxyapatite grown on graphene oxide nanosheet-reinforced chitosan scaffold to promote bone regeneration.  Biomaterials Science,  (16): (4603-4615).  [PMID:32627770] [10.1039/D0BM00523A]
8. Peng Mengke, Hu Fenyan, Du Minting, Mai Bingjie, Zheng Shurong, Liu Peng, Wang Changhao, Chen Yashao.  (2020)  Hydrothermal growth of hydroxyapatite and ZnO bilayered nanoarrays on magnesium alloy surface with antibacterial activities.  Frontiers of Materials Science,  14  (1): (14-23).  [PMID:] [10.1007/s11706-020-0489-5]
9. Ye He, Caiyun Mu, Xinkun Shen, Zhang Yuan, Ju Liu, Weizhen Chen, Chuanchuan Lin, Bailong Tao, Bin Liu, Kaiyong Cai.  (2018)  Peptide LL-37 coating on micro-structured titanium implants to facilitate bone formation in vivo via mesenchymal stem cell recruitment.  Acta Biomaterialia,  80  (412).  [PMID:30266635] [10.1016/j.actbio.2018.09.036]

References

1. Haibin Li, Chunyan Zhang, Qiang Liu.  (2023)  Lumican silencing ameliorates β-glycerophosphate-mediated vascular smooth muscle cell calcification by attenuating the inhibition of APOB on KIF2C activity.  Open Medicine,  18  (1):   [PMID:37711155] [10.1515/med-2023-0790]
2. Hanqi Wu, Weizheng Zhang, Xuhui Huang, Peng Gu, Qi Li, Xingzhang Luo, Zheng Zheng.  (2023)  Phosphorus conditions change the cellular responses of Microcystis aeruginosa to perfluorooctanoic acid.  SCIENCE OF THE TOTAL ENVIRONMENT,    (166707).  [PMID:37660808] [10.1016/j.scitotenv.2023.166707]
3. Yang Liu, Chuang Lang, Yaping Ding, Siyu Sun, Guangwei Sun.  (2023)  Chitosan with enhanced deprotonation for accelerated thermosensitive gelation with β-glycerophosphate.  EUROPEAN POLYMER JOURNAL,  196  (112229).  [PMID:] [10.1016/j.eurpolymj.2023.112229]
4. Cunguo Chen, Murong Hu, Yunyun Cao, Binbin Zhu, Jiashe Chen, Yashi Li, Junyi Shao, Sen Zhou, Pengfei Shan, Chen Zheng, Zhongyu Li, Zhiming Li.  (2023)  Combination of a STING Agonist and Photothermal Therapy Using Chitosan Hydrogels for Cancer Immunotherapy.  BIOMACROMOLECULES,  24  (6): (2790–2803).  [PMID:37125731] [10.1021/acs.biomac.3c00196]
5. Shihuai Li, Yunan Qing, Yan Lou, Ruiyan Li, Hao Wang, Xingyue Wang, Boda Ying, Xiongfeng Tang, Yanguo Qin.  (2023)  Injectable thermosensitive black phosphorus nanosheet- and doxorubicin-loaded hydrogel for synergistic bone tumor photothermal-chemotherapy and osteogenesis enhancement.  INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES,  239  (124209).  [PMID:36972826] [10.1016/j.ijbiomac.2023.124209]
6. Yutong Wu, Hongbo Ai, Yuchi Zou, Qiankun Yang, Ce Dou, Jianzhong Xu.  (2023)  Osteoclast-derived extracellular miR-106a-5p promotes osteogenic differentiation and facilitates bone defect healing.  CELLULAR SIGNALLING,  102  (110549).  [PMID:36464103] [10.1016/j.cellsig.2022.110549]
7. Tingting Wu, Binglin Li, Wanshun Wang, Lingling Chen, Zhan Li, Ming Wang, Zhengang Zha, Zefeng Lin, Hong Xia, Tao Zhang.  (2020)  Strontium-substituted hydroxyapatite grown on graphene oxide nanosheet-reinforced chitosan scaffold to promote bone regeneration.  Biomaterials Science,  (16): (4603-4615).  [PMID:32627770] [10.1039/D0BM00523A]
8. Peng Mengke, Hu Fenyan, Du Minting, Mai Bingjie, Zheng Shurong, Liu Peng, Wang Changhao, Chen Yashao.  (2020)  Hydrothermal growth of hydroxyapatite and ZnO bilayered nanoarrays on magnesium alloy surface with antibacterial activities.  Frontiers of Materials Science,  14  (1): (14-23).  [PMID:] [10.1007/s11706-020-0489-5]
9. Ye He, Caiyun Mu, Xinkun Shen, Zhang Yuan, Ju Liu, Weizhen Chen, Chuanchuan Lin, Bailong Tao, Bin Liu, Kaiyong Cai.  (2018)  Peptide LL-37 coating on micro-structured titanium implants to facilitate bone formation in vivo via mesenchymal stem cell recruitment.  Acta Biomaterialia,  80  (412).  [PMID:30266635] [10.1016/j.actbio.2018.09.036]

Solution Calculators