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Agmatin

Izvor: Wikipedija
Agmatin
Identifikacija
CAS registarski broj306-60-5 DaY
PubChem[1][2]199
ChemSpider[3]194 DaY
DrugBankDB08838
KEGG[4]C00179
ChEBI17431
ChEMBL[5]CHEMBL58343 DaY
Jmol-3D slikeSlika 1

NCCCC[nH]:c(:[nH]):[nH2]

InChI=1S/C5H14N4/c6-3-1-2-4-9-5(7)8/h1-4,6H2,(H4,7,8,9) DaY
Kod: QYPPJABKJHAVHS-UHFFFAOYSA-N DaY

Svojstva
Molarna masa130,191
Tačka topljenja

234-238

 DaY (šta je ovo?)  (verifikuj)

Ukoliko nije drugačije napomenuto, podaci se odnose nastandardno stanje (25 °C, 100 kPa) materijala

Infobox references

Agmatin jeorgansko jedinjenje, koje sadrži 5atomaugljenika i imamolekulsku masu od 130,191Da.[6][7][8][9][10][11][12][13]

Osobine

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OsobinaVrednost
Broj akceptora vodonika2
Broj donora vodonika4
Broj rotacionih veza5
Particioni koeficijent[14] (ALogP)-1,0
Rastvorljivost[15] (logS, log(mol/L))0,1
Polarna površina[16] (PSA,Å2)87,9

Reference

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  1. Li Q, Cheng T, Wang Y, Bryant SH (2010). „PubChem as a public resource for drug discovery.”. Drug Discov Today 15 (23-24): 1052-7. DOI:10.1016/j.drudis.2010.10.003. PMID 20970519.  edit
  2. Evan E. Bolton, Yanli Wang, Paul A. Thiessen, Stephen H. Bryant (2008). „Chapter 12 PubChem: Integrated Platform of Small Molecules and Biological Activities”. Annual Reports in Computational Chemistry 4: 217-241. DOI:10.1016/S1574-1400(08)00012-1. 
  3. Hettne KM, Williams AJ, van Mulligen EM, Kleinjans J, Tkachenko V, Kors JA. (2010). „Automatic vs. manual curation of a multi-source chemical dictionary: the impact on text mining”. J Cheminform 2 (1): 3. DOI:10.1186/1758-2946-2-3. PMID 20331846.  edit
  4. Joanne Wixon, Douglas Kell (2000). „Website Review: The Kyoto Encyclopedia of Genes and Genomes — KEGG”. Yeast 17 (1): 48–55. DOI:10.1002/(SICI)1097-0061(200004)17:1<48::AID-YEA2>3.0.CO;2-H. 
  5. Gaulton A, Bellis LJ, Bento AP, Chambers J, Davies M, Hersey A, Light Y, McGlinchey S, Michalovich D, Al-Lazikani B, Overington JP. (2012). „ChEMBL: a large-scale bioactivity database for drug discovery”. Nucleic Acids Res 40 (Database issue): D1100-7. DOI:10.1093/nar/gkr777. PMID 21948594.  edit
  6. The Merck Index.
  7. Li G, Regunathan S, Barrow CJ, Eshraghi J, Cooper R, Reis DJ: Agmatine: an endogenous clonidine-displacing substance in the brain. Science. 1994 Feb 18;263(5149):966-9.PMID7906055
  8. Payandemehr B, Rahimian R, Bahremand A, Ebrahimi A, Saadat S, Moghaddas P, Fadakar K, Derakhshanian H, Dehpour AR: Role of nitric oxide in additive anticonvulsant effects of agmatine and morphine. Physiol Behav. 2013 May 14;118C:52-57. doi: 10.1016/j.physbeh.2013.05.022.PMID23685229
  9. Huang YC, Tzeng WS, Wang CC, Cheng BC, Chang YK, Chen HH, Lin PC, Huang TY, Chuang TJ, Lin JW, Chang CP: Neuroprotective effect of agmatine in rats with transient cerebral ischemia using MR imaging and histopathologic evaluation. Magn Reson Imaging. 2013 May 1. pii: S0730-725X(13)00133-1. doi: 10.1016/j.mri.2013.03.026.PMID23642800
  10. Piletz JE, Aricioglu F, Cheng JT, Fairbanks CA, Gilad VH, Haenisch B, Halaris A, Hong S, Lee JE, Li J, Liu P, Molderings GJ, Rodrigues AL, Satriano J, Seong GJ, Wilcox G, Wu N, Gilad GM: Agmatine: clinical applications after 100 years in translation. Drug Discov Today. 2013 Jun 13. pii: S1359-6446(13)00163-3. doi: 10.1016/j.drudis.2013.05.017.PMID23769988 23769988
  11. Regunathan S, Piletz JE: Regulation of inducible nitric oxide synthase and agmatine synthesis in macrophages and astrocytes. Ann N Y Acad Sci. 2003 Dec;1009:20-9.PMID15028566
  12. Knox C, Law V, Jewison T, Liu P, Ly S, Frolkis A, Pon A, Banco K, Mak C, Neveu V, Djoumbou Y, Eisner R, Guo AC, Wishart DS (2011). „DrugBank 3.0: a comprehensive resource for omics research on drugs”. Nucleic Acids Res. 39 (Database issue): D1035-41. DOI:10.1093/nar/gkq1126. PMC 3013709. PMID 21059682. 
  13. David S. Wishart, Craig Knox, An Chi Guo, Dean Cheng, Savita Shrivastava, Dan Tzur, Bijaya Gautam, and Murtaza Hassanali (2008). „DrugBank: a knowledgebase for drugs, drug actions and drug targets”. Nucleic Acids Res 36 (Database issue): D901-6. DOI:10.1093/nar/gkm958. PMC 2238889. PMID 18048412. 
  14. Ghose, A.K., Viswanadhan V.N., and Wendoloski, J.J. (1998). „Prediction of Hydrophobic (Lipophilic) Properties of Small Organic Molecules Using Fragment Methods: An Analysis of AlogP and CLogP Methods”. J. Phys. Chem. A 102: 3762-3772. DOI:10.1021/jp980230o. 
  15. Tetko IV, Tanchuk VY, Kasheva TN, Villa AE. (2001). „Estimation of Aqueous Solubility of Chemical Compounds Using E-State Indices”. Chem Inf. Comput. Sci. 41: 1488-1493. DOI:10.1021/ci000392t. PMID 11749573. 
  16. Ertl P., Rohde B., Selzer P. (2000). „Fast calculation of molecular polar surface area as a sum of fragment based contributions and its application to the prediction of drug transport properties”. J. Med. Chem. 43: 3714-3717. DOI:10.1021/jm000942e. PMID 11020286. 

Literatura

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Vanjske veze

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