Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization

Juliana Chaura; Gabriel Esteban Velez; Diana Carolina Clavijo-Buriticá; Camila Riccio-Rengifo; Lina Maria Granobles; Sarah Brinkley; Marcela Santaella; Peter Wenzl; Mónica Carvajal-Yepes; Miguel Correa Abondano; Jessica A. Ospina; Jenny J. Gallo-Franco; Daniel Debouck; Stephen Beebe; Jennifer Wilker; Gina Kennedy; Joe Tohme; Selena Ahmed; John de La Parra; Andres Jaramillo-Botero

doi:10.1021/acsnutrsci.5c00061

Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization

Juliana Chaura
, Gabriel Esteban Velez
, Diana Carolina Clavijo-Buriticá
, Camila Riccio-Rengifo
, Lina Maria Granobles
, Sarah Brinkley
, Marcela Santaella
, Peter Wenzl
, Mónica Carvajal-Yepes
, Miguel Correa Abondano
, Jessica A. Ospina
, Jenny J. Gallo-Franco
, Daniel Debouck
, Stephen Beebe
, Jennifer Wilker
, Gina Kennedy
, Joe Tohme
, Selena Ahmed
, John de La Parra
, Andres Jaramillo-Botero

Producción: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Comprehensive profiling of Phaseolus species revealed key biochemical differences relevant to nutrition and crop improvement. Genotyping confirmed species-level separation and two gene pools in P. vulgaris, with evidence of introgression. Proteomic analysis identified over 11100 proteins, with P. vulgaris showing the highest diversity. Functional proteins, storage proteins, digestive enzymes, and protease inhibitors were linked to amino acid composition and digestibility. All 20 standard and nine essential amino acids were detected, with P. lunatus displaying a distinct essentials profile. Metabolomics identified 6717 compounds, 57% shared across species, dominated by flavonoids, polyphenols, and terpenoids. P. lunatus had 592 unique metabolites, while P. acutifolius had 98, suggesting a conserved, drought-adapted metabolome. Although the total fat was low, P. vulgaris accessions had higher omega-3 content and favorable omega-6/omega-3. Ionomic profiling revealed a variation in Ca, Fe, and Zn, with one P. vulgaris line accumulating unsafe Pb and Cd. Multiomics enables identification of nutrient-rich, climate-resilient, food-safe accessions.

Idioma original	Inglés
Páginas (desde-hasta)	175-191
Número de páginas	17
Publicación	ACS Nutrition Science
Volumen	1
N.º	2
Fecha en línea anticipada	28 feb. 2026
DOI	https://doi.org/10.1021/acsnutrsci.5c00061
Estado	Publicada - 20 mar. 2026

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Chaura, J., Velez, G. E., Clavijo-Buriticá, D. C., Riccio-Rengifo, C., Granobles, L. M., Brinkley, S., Santaella, M., Wenzl, P., Carvajal-Yepes, M., Abondano, M. C., Ospina, J. A., Gallo-Franco, J. J., Debouck, D., Beebe, S., Wilker, J., Kennedy, G., Tohme, J., Ahmed, S., Parra, J. D. L., & Jaramillo-Botero, A. (2026). Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization. ACS Nutrition Science, 1(2), 175-191. https://doi.org/10.1021/acsnutrsci.5c00061

@article{34d324b3558a4e2f83706f81d50058f2,

title = "Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization",

abstract = "Comprehensive profiling of Phaseolus species revealed key biochemical differences relevant to nutrition and crop improvement. Genotyping confirmed species-level separation and two gene pools in P. vulgaris, with evidence of introgression. Proteomic analysis identified over 11100 proteins, with P. vulgaris showing the highest diversity. Functional proteins, storage proteins, digestive enzymes, and protease inhibitors were linked to amino acid composition and digestibility. All 20 standard and nine essential amino acids were detected, with P. lunatus displaying a distinct essentials profile. Metabolomics identified 6717 compounds, 57\% shared across species, dominated by flavonoids, polyphenols, and terpenoids. P. lunatus had 592 unique metabolites, while P. acutifolius had 98, suggesting a conserved, drought-adapted metabolome. Although the total fat was low, P. vulgaris accessions had higher omega-3 content and favorable omega-6/omega-3. Ionomic profiling revealed a variation in Ca, Fe, and Zn, with one P. vulgaris line accumulating unsafe Pb and Cd. Multiomics enables identification of nutrient-rich, climate-resilient, food-safe accessions. ",

keywords = "Beans, Genotyping, Metabolomics, Fatty acids, Proteomics, Ionomics, Food diversity",

author = "Juliana Chaura and Velez, \{Gabriel Esteban\} and Clavijo-Buritic{\'a}, \{Diana Carolina\} and Camila Riccio-Rengifo and Granobles, \{Lina Maria\} and Sarah Brinkley and Marcela Santaella and Peter Wenzl and M{\'o}nica Carvajal-Yepes and Abondano, \{Miguel Correa\} and Ospina, \{Jessica A.\} and Gallo-Franco, \{Jenny J.\} and Daniel Debouck and Stephen Beebe and Jennifer Wilker and Gina Kennedy and Joe Tohme and Selena Ahmed and Parra, \{John de La\} and Andres Jaramillo-Botero",

year = "2026",

month = mar,

day = "20",

doi = "10.1021/acsnutrsci.5c00061",

language = "English",

volume = "1",

pages = " 175--191",

journal = "ACS Nutrition Science",

number = "2",

}

Chaura, J, Velez, GE, Clavijo-Buriticá, DC, Riccio-Rengifo, C, Granobles, LM, Brinkley, S, Santaella, M, Wenzl, P, Carvajal-Yepes, M, Abondano, MC, Ospina, JA, Gallo-Franco, JJ, Debouck, D, Beebe, S, Wilker, J, Kennedy, G, Tohme, J, Ahmed, S, Parra, JDL & Jaramillo-Botero, A 2026, 'Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization', ACS Nutrition Science, vol. 1, n.º 2, pp. 175-191. https://doi.org/10.1021/acsnutrsci.5c00061

TY - JOUR

T1 - Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization

AU - Chaura, Juliana

AU - Velez, Gabriel Esteban

AU - Clavijo-Buriticá, Diana Carolina

AU - Riccio-Rengifo, Camila

AU - Granobles, Lina Maria

AU - Brinkley, Sarah

AU - Santaella, Marcela

AU - Wenzl, Peter

AU - Carvajal-Yepes, Mónica

AU - Abondano, Miguel Correa

AU - Ospina, Jessica A.

AU - Gallo-Franco, Jenny J.

AU - Debouck, Daniel

AU - Beebe, Stephen

AU - Wilker, Jennifer

AU - Kennedy, Gina

AU - Tohme, Joe

AU - Ahmed, Selena

AU - Parra, John de La

AU - Jaramillo-Botero, Andres

PY - 2026/3/20

Y1 - 2026/3/20

N2 - Comprehensive profiling of Phaseolus species revealed key biochemical differences relevant to nutrition and crop improvement. Genotyping confirmed species-level separation and two gene pools in P. vulgaris, with evidence of introgression. Proteomic analysis identified over 11100 proteins, with P. vulgaris showing the highest diversity. Functional proteins, storage proteins, digestive enzymes, and protease inhibitors were linked to amino acid composition and digestibility. All 20 standard and nine essential amino acids were detected, with P. lunatus displaying a distinct essentials profile. Metabolomics identified 6717 compounds, 57% shared across species, dominated by flavonoids, polyphenols, and terpenoids. P. lunatus had 592 unique metabolites, while P. acutifolius had 98, suggesting a conserved, drought-adapted metabolome. Although the total fat was low, P. vulgaris accessions had higher omega-3 content and favorable omega-6/omega-3. Ionomic profiling revealed a variation in Ca, Fe, and Zn, with one P. vulgaris line accumulating unsafe Pb and Cd. Multiomics enables identification of nutrient-rich, climate-resilient, food-safe accessions.

AB - Comprehensive profiling of Phaseolus species revealed key biochemical differences relevant to nutrition and crop improvement. Genotyping confirmed species-level separation and two gene pools in P. vulgaris, with evidence of introgression. Proteomic analysis identified over 11100 proteins, with P. vulgaris showing the highest diversity. Functional proteins, storage proteins, digestive enzymes, and protease inhibitors were linked to amino acid composition and digestibility. All 20 standard and nine essential amino acids were detected, with P. lunatus displaying a distinct essentials profile. Metabolomics identified 6717 compounds, 57% shared across species, dominated by flavonoids, polyphenols, and terpenoids. P. lunatus had 592 unique metabolites, while P. acutifolius had 98, suggesting a conserved, drought-adapted metabolome. Although the total fat was low, P. vulgaris accessions had higher omega-3 content and favorable omega-6/omega-3. Ionomic profiling revealed a variation in Ca, Fe, and Zn, with one P. vulgaris line accumulating unsafe Pb and Cd. Multiomics enables identification of nutrient-rich, climate-resilient, food-safe accessions.

KW - Beans

KW - Genotyping

KW - Metabolomics

KW - Fatty acids

KW - Proteomics

KW - Ionomics

KW - Food diversity

UR - https://doi.org/10.1021/acsnutrsci.5c00061

U2 - 10.1021/acsnutrsci.5c00061

DO - 10.1021/acsnutrsci.5c00061

M3 - Article

VL - 1

SP - 175

EP - 191

JO - ACS Nutrition Science

JF - ACS Nutrition Science

IS - 2

ER -

Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization

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