Fig. 4 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Fig. 6 in MS/MS-based molecular networking accelerated discovery of germacrane-type sesquiterpene lactones from Elephantopus scaber L

Xu, Wei
Bai, Ming
Liu, De-Feng
Qin, Shu-Yan
Lv, Tian-Ming
Li, Qian
Lin, Bin
Song, Shao-Jiang
Huang, Xiao-Xiao

June 2022

Fig. 6. The ORTEP drawing of compounds 1, 2, 4 and 5.Published as part of Xu, Wei, Bai, Ming, Liu, D...

Fig. 2 in UPLC-MS/MS-based molecular networking and NMR structural determination for the untargeted phytochemical characterization of the fruit of Crescentia cujete (Bignoniaceae)

Rivera-Mondragón, Andrés
Tuenter, Emmy
Ortiz, Orlando
Sakavitsi, Maria E.
Nikou, Theodora
Halabalaki, Maria
Caballero-George, Catherina
Apers, Sandra
Pieters, Luc
Foubert, Kenn

September 2020

Fig. 2. (A) Molecular network of the molecular family of flavonoid glycosides and phenylethanoid ext...

Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Liu, Xueling, Wang, Yali, Alizade, Valida, Khutsishvili, Manana, Atha, Daniel, Borris, Robert P., Cl...

Fig. 2 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Fig. 2. Chemical structures of compounds 1–7.Published as part of Liu, Xueling, Dong, Yuyu, Alizade,...

Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Liu, Xueling, Dong, Yuyu, Alizade, Valida, Khutsishvili, Manana, Atha, Daniel, Borris, Robert P., Cl...

Fig. 3 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Fig. 3. Selected HMBC (solid arrows) and NOESY (dashed arrows) correlations for compounds 1 and 3.Pu...

Fig. 1 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Fig. 1. Molecular network of Cluster G1. Red: Parent ions of isolated new biscoumarins (1–4); Yellow...

Fig. 4. Proposed fragmentation pathway for compound 3 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 4. Proposed fragmentation pathway for compound 3; ESI negative mode.Published as part of Liu, X...

Fig. 1 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 1. Chemical structures of compounds 1–7.Published as part of Liu, Xueling, Wang, Yali, Alizade,...

Fig. 3 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 3. The MS2 spectra of compounds 1–7; ESI negative mode.Published as part of Liu, Xueling, Wang,...

Fig. 4 in Feruloyl sucrose derivatives from the root of Xerophyllum tenax

Liu, Xueling
Atha, Daniel
Clark, Benjamin R.
Borris, Robert P.

May 2021

Fig. 4. Proposed fragmentation pathway of compound 1–5. A. The MS2 spectrum of compounds 1 and 5; po...

Fig. 2 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 2. Selected HMBC (solid arrows) and NOESY (dashed arrows) correlations for compounds 1 and 4.Pu...

Fig. 2 in MS/MS-based molecular networking accelerated discovery of germacrane-type sesquiterpene lactones from Elephantopus scaber L

Xu, Wei
Bai, Ming
Liu, De-Feng
Qin, Shu-Yan
Lv, Tian-Ming
Li, Qian
Lin, Bin
Song, Shao-Jiang
Huang, Xiao-Xiao

June 2022

Fig. 2. Molecular network of E. scaber crude extract obtained using GNPS platform and visualized wit...

Fig. 2 in Molecular networking-based discovery of anti-inflammatory chromene dimers from Melicope pteleifolia

Kakumu, Yuya
Nguyen, Minh Tu Thi
Mitsunaga, Tohru

October 2022

Fig. 2. Structures of compounds 1–5.Published as part of Kakumu, Yuya, Nguyen, Minh Tu Thi & Mitsuna...

Fig. 1 in Unveiling fungal detoxification pathways of the cruciferous phytoalexin rapalexin A: Sequential L-cysteine conjugation, acetylation and oxidative cyclization mediated by Colletotrichum spp.

Pedras, M. Soledade C.
Thapa, Chintamani

January 2020

Fig. 1. Formation of isothiocyanates (ITCs) from glucosinolates (GLCs) via Lossen type rearrangement...

Fig. 6 in MS/MS-based molecular networking accelerated discovery of germacrane-type sesquiterpene lactones from Elephantopus scaber L

Xu, Wei
Bai, Ming
Liu, De-Feng
Qin, Shu-Yan
Lv, Tian-Ming
Li, Qian
Lin, Bin
Song, Shao-Jiang
Huang, Xiao-Xiao

June 2022

Fig. 6. The ORTEP drawing of compounds 1, 2, 4 and 5.Published as part of Xu, Wei, Bai, Ming, Liu, D...

Fig. 2 in UPLC-MS/MS-based molecular networking and NMR structural determination for the untargeted phytochemical characterization of the fruit of Crescentia cujete (Bignoniaceae)

Rivera-Mondragón, Andrés
Tuenter, Emmy
Ortiz, Orlando
Sakavitsi, Maria E.
Nikou, Theodora
Halabalaki, Maria
Caballero-George, Catherina
Apers, Sandra
Pieters, Luc
Foubert, Kenn

September 2020

Fig. 2. (A) Molecular network of the molecular family of flavonoid glycosides and phenylethanoid ext...

Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Liu, Xueling, Wang, Yali, Alizade, Valida, Khutsishvili, Manana, Atha, Daniel, Borris, Robert P., Cl...

Fig. 2 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Fig. 2. Chemical structures of compounds 1–7.Published as part of Liu, Xueling, Dong, Yuyu, Alizade,...

Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Liu, Xueling, Dong, Yuyu, Alizade, Valida, Khutsishvili, Manana, Atha, Daniel, Borris, Robert P., Cl...

Fig. 3 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Fig. 3. Selected HMBC (solid arrows) and NOESY (dashed arrows) correlations for compounds 1 and 3.Pu...

Fig. 1 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Liu, Xueling
Dong, Yuyu
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

October 2021

Fig. 1. Molecular network of Cluster G1. Red: Parent ions of isolated new biscoumarins (1–4); Yellow...

Fig. 4. Proposed fragmentation pathway for compound 3 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 4. Proposed fragmentation pathway for compound 3; ESI negative mode.Published as part of Liu, X...

Fig. 1 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 1. Chemical structures of compounds 1–7.Published as part of Liu, Xueling, Wang, Yali, Alizade,...

Fig. 3 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 3. The MS2 spectra of compounds 1–7; ESI negative mode.Published as part of Liu, Xueling, Wang,...

Fig. 4 in Feruloyl sucrose derivatives from the root of Xerophyllum tenax

Liu, Xueling
Atha, Daniel
Clark, Benjamin R.
Borris, Robert P.

May 2021

Fig. 4. Proposed fragmentation pathway of compound 1–5. A. The MS2 spectrum of compounds 1 and 5; po...

Fig. 2 in Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Fig. 2. Selected HMBC (solid arrows) and NOESY (dashed arrows) correlations for compounds 1 and 4.Pu...

Fig. 2 in MS/MS-based molecular networking accelerated discovery of germacrane-type sesquiterpene lactones from Elephantopus scaber L

Xu, Wei
Bai, Ming
Liu, De-Feng
Qin, Shu-Yan
Lv, Tian-Ming
Li, Qian
Lin, Bin
Song, Shao-Jiang
Huang, Xiao-Xiao

June 2022

Fig. 2. Molecular network of E. scaber crude extract obtained using GNPS platform and visualized wit...

Fig. 2 in Molecular networking-based discovery of anti-inflammatory chromene dimers from Melicope pteleifolia

Kakumu, Yuya
Nguyen, Minh Tu Thi
Mitsunaga, Tohru

October 2022

Fig. 2. Structures of compounds 1–5.Published as part of Kakumu, Yuya, Nguyen, Minh Tu Thi & Mitsuna...

Fig. 1 in Unveiling fungal detoxification pathways of the cruciferous phytoalexin rapalexin A: Sequential L-cysteine conjugation, acetylation and oxidative cyclization mediated by Colletotrichum spp.

Pedras, M. Soledade C.
Thapa, Chintamani

January 2020

Fig. 1. Formation of isothiocyanates (ITCs) from glucosinolates (GLCs) via Lossen type rearrangement...

Fig. 6 in MS/MS-based molecular networking accelerated discovery of germacrane-type sesquiterpene lactones from Elephantopus scaber L

Xu, Wei
Bai, Ming
Liu, De-Feng
Qin, Shu-Yan
Lv, Tian-Ming
Li, Qian
Lin, Bin
Song, Shao-Jiang
Huang, Xiao-Xiao

June 2022

Fig. 6. The ORTEP drawing of compounds 1, 2, 4 and 5.Published as part of Xu, Wei, Bai, Ming, Liu, D...

Fig. 2 in UPLC-MS/MS-based molecular networking and NMR structural determination for the untargeted phytochemical characterization of the fruit of Crescentia cujete (Bignoniaceae)

Rivera-Mondragón, Andrés
Tuenter, Emmy
Ortiz, Orlando
Sakavitsi, Maria E.
Nikou, Theodora
Halabalaki, Maria
Caballero-George, Catherina
Apers, Sandra
Pieters, Luc
Foubert, Kenn

September 2020

Fig. 2. (A) Molecular network of the molecular family of flavonoid glycosides and phenylethanoid ext...

Cruciasides C-G, monoterpenoid glycosides from Cruciata articulata

Liu, Xueling
Wang, Yali
Alizade, Valida
Khutsishvili, Manana
Atha, Daniel
Borris, Robert P.
Clark, Benjamin R.

September 2021

Liu, Xueling, Wang, Yali, Alizade, Valida, Khutsishvili, Manana, Atha, Daniel, Borris, Robert P., Cl...

Fig. 4 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Abstract

Extracted data

Fig. 4 in Molecular networking-driven isolation of 8 -Glycosylated biscoumarins from Cruciata articulata

Abstract

Extracted data

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