LnRiLWhlYWRpbmcuaGFzLWJhY2tncm91bmR7cGFkZGluZzowfQ==
LnRiLWZpZWxke21hcmdpbi1ib3R0b206MC43NmVtfS50Yi1maWVsZC0tbGVmdHt0ZXh0LWFsaWduOmxlZnR9LnRiLWZpZWxkLS1jZW50ZXJ7dGV4dC1hbGlnbjpjZW50ZXJ9LnRiLWZpZWxkLS1yaWdodHt0ZXh0LWFsaWduOnJpZ2h0fS50Yi1maWVsZF9fc2t5cGVfcHJldmlld3twYWRkaW5nOjEwcHggMjBweDtib3JkZXItcmFkaXVzOjNweDtjb2xvcjojZmZmO2JhY2tncm91bmQ6IzAwYWZlZTtkaXNwbGF5OmlubGluZS1ibG9ja311bC5nbGlkZV9fc2xpZGVze21hcmdpbjowfQ==
.tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row }   .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .wpv-pagination-nav-links[data-toolset-views-view-pagination-block="cdfd4c4737b2898eba4443dd59a1bf50"] { text-align: left;justify-content: flex-start; } .tb-field[data-toolset-blocks-field="9cbffc8f0bb443fa4d7772ff6b497331"] { margin-bottom: 20px; }  h1.tb-heading[data-toolset-blocks-heading="92c335762acd52b936b2b92f1f6a1f4e"]  { margin-top: 10px; }  @media only screen and (max-width: 781px) { .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row }   .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > 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.wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 1fr);grid-auto-flow: row }   .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"]  > .tb-grid-column:nth-of-type(1n+1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 1fr);grid-auto-flow: row }    } 
Triterpenes
Triterpenes are naturally occurring compounds in plants.
Triterpene substances are primary reference standards with certified absolute purity.
Considering:
chromatographic purity
moisture
residual solvents
inorganic impurities
Name Cas No Absinthin Demethylzeylasteral 107316-88-1 a-Onocerin 511-01-3 Roburic acid 6812-81-3
Name Cas No 3-O-Acetyl a-boswellic acid 3-O-Acetyl b-boswellic acid 3-O-Acetyl 11-keto-b-boswellic acid 3-O-Acetyl 9,11-dehydro b-boswellic acid Alisol A Alisol A 24-acetate Alisol B Alisol B 23-acetate 26575-95-1 a-Amyrin 638-95-9 b-Amyrin 559-70-6 Anemosapogenin 85999-40-2 Arjungenin 58880-25-4 Arjunic acid 31298-06-3 Asiatic acid 464-92-6 Bayogenin 6989-24-8 Betulin 473-98-3 Betulinic acid 472-15-1 Betulonic acid 4481-62-3 a-Boswellic acid 471-66-9 b-Boswellic acid 631-69-6 11-keto-b-Boswellic acid 17019-92-0 Celastrol 34157-83-0 Corosolic acid 4547-24-4 Cucurbitacin A 6040-19-3 Cucurbitacin B 6199-67-3 Cucurbitacin D 3877-86-9 Cucurbitacin E 18444-66-1 Cucurbitacin I Cycloastragenol 78574-94-4 9-Dehydropachymic acid 77012-31-8 Dehydrotumulosic acid 6754-16-1 Echinocystic acid 510-30-5 a,b-Elemolic acid b-Elemonic acid 28282-25-9 Erythrodiol 545-48-2 Faradiol 20554-95-4 Friedelin 559-74-0 Ganoderic acid A 81907-62-2 Ganoderic acid B 81907-61-1 Ganoderic acid D 108340-60-9 Ganoderic acid F 98665-15-7 Ganodermanontriol 106518-63-2 18a-Glycyrrhetinic acid 1449-05-4 18b-Glycyrrhetinic acid 471-53-4 Gymnemagenin 22467-07-8 Hederagenin 465-99-6 Hemslecin A 58546-34-2 Lupeol 545-47-1 Madecassic acid 18449-41-7 Maslinic acid 4373-41-5 Medicagenic acid 599-07-5 Miliacin 5945-45-9 Mogrol 88930-15-8 Oleanolic acid 508-02-1 Oleanonic acid 17990-42-0 Pachymic acid 29070-92-6 Panaxadiol 19666-76-3 Panaxatriol 32791-84-7 Phytolaccagenin 1802-12-6 Polygalic acid 1260-04-4 Pristimerin 1258-84-0 Protoescigenin 20853-07-0 Protopanaxadiol 30636-90-9 Protopanaxatriol 34080-08-5 Rotundic acid 20137-37-5 Senegenin 2469-34-3 Soyasapogenol A 508-01-0 Soyasapogenol B 595-15-3 Taraxasterol acetate 6426-43-3 3b-Taraxerol 127-22-0 Tormentic acid 13850-16-3 Ursolic acid 77-52-1 Wilforlide A 84104-71-2
Name Cas No Name Cas No Actein Hederacoside C 14216-03-6 Araloside A 7518-22-1 Hederacoside D 760961-03-3 Arjunetin 31297-79-7 a-Hederin 27013-91-8 Asiaticoside 16830-15-2 Hosenkoside A 156791-82-1 Asperosaponin VI 39524-08-8 Hosenkoside B 156764-82-8 Astragaloside I 84680-75-1 Hosenkoside C 156764-83-9 Astragaloside II 84676-89-1 Hosenkoside K 160896-49-1 Astragaloside III 84687-42-3 Ilexsaponin A 108524-93-2 Astragaloside IV 84687-43-4 Isoescin IA 219944-39-5 Bacopasaponin C 178064-13-6 Isoescin IB 219944-46-4 Bacopaside I 382148-47-2 Isomogroside V 1126032-65-2 Bacopaside II 382146-66-9 Jujuboside A 55466-04-1 Bacopaside V 620592-16-7 Jujuboside B 55466-05-2 Bacopaside X 94443-88-6 Macranthoidin A 140360-29-8 Bacoside A 11028-00-5 Macranthoidin B 136849-88-2 Bacoside A3 157408-08-7 Madecassoside 34540-22-2 Chikusetsusaponin IVa 51415-02-2 Mogroside III-E 88901-37-5 Cimigenol 3-a-L-arabinoside 256925-92-5 Mogroside IV 89590-95-4 Cimigenol 3-b-D-xyloside 27994-11-2 Mogroside V 88901-36-4 Cucurbitacin E-2-O-glucoside 1398-78-3 Momordin Ic 96990-18-0 Deacylgymnemic acid 121686-42-8 Notoginsenoside Fa 88100-04-3 23-epi-26-Deoxyactein 501938-01-8 Notoginsenoside R1 80418-24-2 Dipsacoside B 33289-85-9 Notoginsenoside R2 80418-25-3 Eclalbasaponin I 158511-59-2 11-Oxomogroside III-E 2096516-68-4 Eclalbasaponin II 78285-90-2 11-Oxomogroside V 126105-11-1 Escin 6805-41-0 Pedunculoside 42719-32-4 Escin IA 123748-68-5 Platycodin D 58479-68-8 Escin IB 26339-90-2 Polygalasaponin F 882664-74-6 Esculentoside A 65497-07-6 Primulic acid I 65312-86-9 Ginsenoside C-K 39262-14-1 Primulic acid II 208599-88-6 Ginsenoside Rb1 41753-43-9 Pseudoginsenoside F11 69884-00-0 Ginsenoside Rb2 11021-13-9 Pseudoginsenoside RT5 98474-78-3 Ginsenoside Rb3 68406-26-8 Saikosaponin A 20736-09-8 Ginsenoside Rc 11021-14-0 Saikosaponin B1 58558-08-0 Ginsenoside Rd 52705-93-8 Saikosaponin B2 58316-41-9 Ginsenoside Re 52286-59-6 Saikosaponin C 20736-08-7 Ginsenoside Rf 52286-58-5 Saikosaponin D 20874-52-6 Ginsenoside Rg1 22427-39-0 Siamenoside I 126105-12-2 Ginsenoside Rg2 52286-74-5 Soyasaponin Aa 117230-33-8 Ginsenoside Rg3 14197-60-5 Soyasaponin Ba 114590-20-4 Ginsenoside Rg5 186763-78-0 Soyasaponin Bb 51330-27-9 Ginsenoside Rh1 63223-86-9 Sutherlandioside B 1055329-47-9 Ginsenoside Rh2 78214-33-2 Sutherlandioside D 1055329-49-1 Ginsenoside Rk1 494753-69-4 Tenuifolin 20183-47-5 Ginsenoside Ro 34367-04-9 Terminoloside 125265-68-1 Glycyrrhizin 1405-86-3 Tubeimoside I 102040-03-9 Glycyrrhizin ammonium salt 53956-04-0 Tubeimoside II 115810-12-3 Gypenoside XVII 80321-69-3 Tubeimoside III 115810-13-4 Gypenoside XLIX 94987-08-3 Ziyuglycoside I 35286-58-9 Hederacolchiside A1 106577-39-3 Ziyuglycoside II 35286-59-0
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