MassBank:KOX00734p
From Metabolomics.JP
Revision as of 13:43, 4 November 2009 by Move page script (Talk)
General Index | Ion Frequency | Prec.-Product | Neutral Loss | Help |
IDs and Links | |
---|---|
MassBank | Oxidized glutathione |
CAS | 27025-41-8 |
Keio ID | G008+ |
Contents |
Top 10 Similar Molecules of Oxidized glutathione
Ranking | About scoring |
---|---|
The similarity score between two molecules is defined as the sum of Shannon entropy of ionic formulas shared by the molecules:
|
Links
Page list for each fragment |
---|
Pages Related to Peak C5H8NO3:
KOX00022p KOX00225p KOX00254p KOX00259p KOX00268p KOX00270p KOX00281p KOX00476p KOX00529p KOX00733p |
Annotations
Precursor | Product | Comments |
---|---|---|
C20H33N6O12S2 (613) | C20H31N6O11S2 (595) | -H2O |
C20H33N6O12S2 (613) | C18H28N5O10S2 (538) | b[e] |
C20H33N6O12S2 (613) | C15H26N5O9S2 (484) | a |
C15H26N5O9S2 (484) | C15H24N5O8S2 (466) | IT |
C15H26N5O9S2 (484) | C10H19N4O6S2 (355) | IT |
C10H19N4O6S2 (355) | C5H9N2O3S (177) | IT |
Precursor-Product Relationship
About the PP Table (行列表示について) | |
---|---|
The matrix is viewed columnwise. The topmost precursor ion in bold face produces the product ions beneath it.
Each formula in matrix cells corresponds to the neutral loss. Blackout cells indicate products that cannot be derived, and orange cells indicate a structurally plausible link produced by cleaving a single chemical bond (in cases of ring-opening, two bonds). |
行列は列方向に見ます。最上段太字の前駆イオン(precursor ion)が直下の生成イオン群(product ions)になると解釈します。
行列要素に書かれている組成式はニュートラルロスです。黒は前駆イオンから生成しえない関係、オレンジは分子構造における共有結合1本の切断(開環の場合は2本)で生じる関係を意味します。 |
KOX00734p | 613 C20H33N6O12S2 |
595 C20H31N6O11S2 |
538 C18H28N5O10S2 |
484 C15H26N5O9S2 |
466 C15H24N5O8S2 |
409 C13H21N4O7S2 |
355 C10H19N4O6S2 |
235 C7H11N2O3S2 |
231 C8H11N2O4S |
211 C5H11N2O3S2 |
177 C5H9N2O3S |
130 C5H8NO3 |
---|---|---|---|---|---|---|---|---|---|---|---|---|
613 C20H33N6O12S2 |
| |||||||||||
595 C20H31N6O11S2 | H2O |
| ||||||||||
538 C18H28N5O10S2 | C2H5NO2 | C2H3NO |
| |||||||||
484 C15H26N5O9S2 | C5H7NO3 | C5H5NO2 | C3H2O |
| ||||||||
466 C15H24N5O8S2 | C5H9NO4 | C5H7NO3 | C3H4O2 | H2O |
| |||||||
409 C13H21N4O7S2 | C7H12N2O5 | C7H10N2O4 | C5H7NO3 | C2H5NO2 | C2H3NO |
| ||||||
355 C10H19N4O6S2 | C10H14N2O6 | C10H12N2O5 | C8H9NO4 | C5H7NO3 | C5H5NO2 | C3H2O |
| |||||
235 C7H11N2O3S2 | C13H22N4O9 | C13H20N4O8 | C11H17N3O7 | C8H15N3O6 | C8H13N3O5 | C6H10N2O4 | C3H8N2O3 |
| ||||
231 C8H11N2O4S | C12H22N4O8S | C12H20N4O7S | C10H17N3O6S | C7H15N3O5S | C7H13N3O4S | C5H10N2O3S | C2H8N2O2S |
| ||||
211 C5H11N2O3S2 | C15H22N4O9 | C15H20N4O8 | C13H17N3O7 | C10H15N3O6 | C10H13N3O5 | C8H10N2O4 | C5H8N2O3 | C2 |
| |||
177 C5H9N2O3S | C15H24N4O9S | C15H22N4O8S | C13H19N3O7S | C10H17N3O6S | C10H15N3O5S | C8H12N2O4S | C5H10N2O3S | C2H2S | C3H2O | H2S |
| |
130 C5H8NO3 | C15H25N5O9S2 | C15H23N5O8S2 | C13H20N4O7S2 | C10H18N4O6S2 | C10H16N4O5S2 | C8H13N3O4S2 | C5H11N3O3S2 | C2H3NS2 | C3H3NOS | H3NS2 | HNS |
|