Resumen de Conversion of cassava leaf to bioavailable, high-protein yeast cell biomass

Kyria L. Boundy-Mills, Nardrapee Karuna, L Antonio Garay, Julian M Lopez, Calvin Yee, Alex Hitomi, Audry K Nishi, Lauren L Enriquez, Christopher Roberts, David E. Block, Tina Jeoh

• Cassava leaves are an abundant global agricultural residue because the roots are a major source of dietary carbohydrates. Although cassava leaves are high in protein, the protein is not bioavailable. This work aimed to convert cassava leaves to a bioavailable protein-rich animal feed ingredient using high-protein yeasts. RESULTS The structural proteins (ca 200?g?kg?1 d.b.) from sundried cassava leaves were solubilized by mild alkali pretreatment, and the resulting cassava leaf hydrolysate (CLH) was used to screen for growth of 46 high-protein yeasts from 30 species. Promising candidates from the initial screen cultivated at a 10 mL scale demonstrated increases in relative abundance of essential amino acids over that of CLH. In particular, lysine, growth-limiting for some livestock, was increased up to 226% over the CLH content. One yeast, Pichia kudriavzevii UCDFST 11-602, was grown in 3 L of CLH in a bioreactor to examine the scale-up potential of the yeast protein production. While glucose was completely consumed, yeast growth exited log phase before depleting either carbon or nitrogen, suggesting other growth-limiting factors at the larger scale. CONCLUSIONS High-value animal feed with enriched essential amino acid profiles can be produced by yeasts grown on agricultural residues. Yeasts convert structural protein solubilized from cassava leaves to essential amino acid-enriched, digestible protein. The low carbohydrate content of the leaves (ca 200?g?kg?1 d.b.), however, necessitated glucose supplementation for yeast growth. ? 2018 Society of Chemical Industry