Temporal profile of amino acids and protein fractions in the developing kernel of maize germplasm

Temporal profile of amino acids and protein fractions in the developing kernel of maize germplasm

Abstract Maize, the most important source of animal and poultry feed, is deficient in essential amino acid methionine. Therefore, methionine is added to the poultry feed to meet its nutritional requirements. Keeping in view, an urgent requirement exists to develop high-methionine maize. The present...

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Bibliographic Details
Main Authors: Veena Devi, Mehak Sethi, Charanjeet Kaur, Vishal Singh, Ramesh Kumar, Dharam Paul Chaudhary
Format: Article
Language:English
Published: Nature Portfolio 2024-11-01
Series:Scientific Reports
Subjects:
Maize
Time course evaluation
Methionine
Lysine
Tryptophan
Zeins
Online Access:https://doi.org/10.1038/s41598-024-65514-2
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Summary:Abstract Maize, the most important source of animal and poultry feed, is deficient in essential amino acid methionine. Therefore, methionine is added to the poultry feed to meet its nutritional requirements. Keeping in view, an urgent requirement exists to develop high-methionine maize. The present study was designed to understand the synthesis and accumulation pattern of methionine, lysine, tryptophan, total protein, and protein fractions in the developing maize kernel. Results revealed that methionine accumulation starts before 15 DAP and increases towards maturity. Total protein, albumin, and globulin accumulation showed a declining trend, whereas, prolamin, prolamin-like, glutelin, and glutelin-like fractions increased with kernel maturity. Methionine showed a significant positive correlation with prolamin and a negative correlation with glutelin, indicating their use as markers to select high methionine lines. Higher level accumulation of lysine, tryptophan, and methionine, the three essential amino acids deficient in maize, was observed highest in lines 174705 and 194010 indicating their use as a potential donor for developing high methionine maize genotypes. The high methionine line identified in the present study can be used in breeding programs through introgressing maize germplasm of diverse genetic backgrounds to develop high-yielding methionine-rich maize genotypes to develop a sustainable nutritive feed supply chain.
ISSN:2045-2322

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