taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
0947BB4AFFBAFFB1FFDDFD1425B6FBFC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294137/files/figure.png	https://doi.org/10.5281/zenodo.8294137	Fig. 6. PCA plot: The score plot of the principal component analysis (PCA) of 8 different species of banana passion fruits species shows a separation into four main groups.	Fig. 6. PCA plot: The score plot of the principal component analysis (PCA) of 8 different species of banana passion fruits species shows a separation into four main groups.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
0947BB4AFFBAFFB1FFDDFD1425B6FBFC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294127/files/figure.png	https://doi.org/10.5281/zenodo.8294127	Fig. 1. 1H NMR spectrum of Passiflora leave extract showing aliphatic, sugar and aromatic region and some assignments: ascorbic acid (I), proline (II), threonine (III), ethanol (IV), leucine (V) pipecolic acid (VI) and acetic acid (VIII) (A and B). Sugar region ascorbic acid (I) and glucose (X) (B and C). Phenolic region glucose (X), tyrosine (IX), 5-carboxymethyl-2,5-dihydrofuran-2-one (XI) shikimic acid (XII) (D). The whole NMR signals assignation can be consulted at Table 1 supporting information.	Fig. 1. 1H NMR spectrum of Passiflora leave extract showing aliphatic, sugar and aromatic region and some assignments: ascorbic acid (I), proline (II), threonine (III), ethanol (IV), leucine (V) pipecolic acid (VI) and acetic acid (VIII) (A and B). Sugar region ascorbic acid (I) and glucose (X) (B and C). Phenolic region glucose (X), tyrosine (IX), 5-carboxymethyl-2,5-dihydrofuran-2-one (XI) shikimic acid (XII) (D). The whole NMR signals assignation can be consulted at Table 1 supporting information.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
0947BB4AFFBAFFB1FFDDFD1425B6FBFC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294129/files/figure.png	https://doi.org/10.5281/zenodo.8294129	Fig. 2. The main differences for Passiflora samples can be observed in the aromatic region, suggesting a different composition of flavonoids and other polyphenolic compounds for each species.	Fig. 2. The main differences for Passiflora samples can be observed in the aromatic region, suggesting a different composition of flavonoids and other polyphenolic compounds for each species.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
0947BB4AFFBAFFB1FFDDFD1425B6FBFC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294131/files/figure.png	https://doi.org/10.5281/zenodo.8294131	Fig. 3. Barcoding of primary metabolites for banana passion fruit species.	Fig. 3. Barcoding of primary metabolites for banana passion fruit species.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
0947BB4AFFBAFFB1FFDDFD1425B6FBFC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294133/files/figure.png	https://doi.org/10.5281/zenodo.8294133	Fig. 4. UHPLC chromatograms (340 nm) of the butanolic extract of Passiflora species. Bold numbers correspond to identified compounds, and numbers in italics to the m/z of unidentified compounds.	Fig. 4. UHPLC chromatograms (340 nm) of the butanolic extract of Passiflora species. Bold numbers correspond to identified compounds, and numbers in italics to the m/z of unidentified compounds.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
0947BB4AFFBAFFB1FFDDFD1425B6FBFC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294135/files/figure.png	https://doi.org/10.5281/zenodo.8294135	Fig. 5. Unreported flavonoids identified as major components from Passiflora lehmannii Apigenin-4′-O-β-glucopyranosyl, 8-C-β-(6″acetyl)-glucopyranoside (1) (A) and Passiflora uribei Apigenin-4-O-β-glucopyranosyl-8-C-β-neohesperidoside (2) (B). Arrows represent key HMBC correlations.	Fig. 5. Unreported flavonoids identified as major components from Passiflora lehmannii Apigenin-4′-O-β-glucopyranosyl, 8-C-β-(6″acetyl)-glucopyranoside (1) (A) and Passiflora uribei Apigenin-4-O-β-glucopyranosyl-8-C-β-neohesperidoside (2) (B). Arrows represent key HMBC correlations.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
0947BB4AFFBFFFBEFFDDF94426F3FA98.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/8294139/files/figure.png	https://doi.org/10.5281/zenodo.8294139	Fig. 7. Supervised multivariate analysis of NMR data. A) OPLS score plot using Y-variable of QSI activity. The plot showed the separation of active and non-active samples along OPLS1 (left side active samples). B) The corresponding S-plot significant values for QSI activity without P. lehmanii samples. C) The corresponding Splot significant values for QSI activity without P. cumbalensis samples.	Fig. 7. Supervised multivariate analysis of NMR data. A) OPLS score plot using Y-variable of QSI activity. The plot showed the separation of active and non-active samples along OPLS1 (left side active samples). B) The corresponding S-plot significant values for QSI activity without P. lehmanii samples. C) The corresponding Splot significant values for QSI activity without P. cumbalensis samples.	2020-04-30	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae		Zenodo	biologists	Castellanos, Leonardo;Naranjo-Gaybor, Sandra Judith;Forero, Abel M.;Morales, Gustavo;Wilson, Erica Georgina;Ramos, Freddy A.;Choi, Young Hae			
