Optimizing infant nutrition: Proteomic insights from casein micelles in human and animal milks

Name: Optimizing infant nutrition: Proteomic insights from casein micelles in human and animal milks
Creator: Zhongyuan Ji
Published: 2024-09-06T22:57:22.054Z
Keywords: Milk

Ji, Zhongyuan; Dong, Ruifeng; Du, Qijing; Jiang, Hongning; Fan, Rongbo; Bu, Dengpan; Yu, Zhongna; Wang, Jun; Han, Rongwei; Yang, Yongxin

doi:10.17632/rd8gwk76wj.1

Optimizing infant nutrition: Proteomic insights from casein micelles in human and animal milks

Published: 6 September 2024| Version 1 | DOI: 10.17632/rd8gwk76wj.1

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Zhongyuan Ji, Ruifeng Dong, Qijing Du, Hongning Jiang, Rongbo Fan, Dengpan Bu, Zhongna Yu, Jun Wang, Rongwei Han, Yongxin Yang

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Table S1. Identified proteins were quantified in milk casein micelles samples from human, Holstein cattle, buffalo, yak, camel, sheep, goat, horse, and donkey. Table S2. Differential abundant milk casein micelles proteins between human, Holstein cattle, buffalo, yak, camel, sheep, goat, horse, and donkey using a proteomic approach. Table S3. KEGG pathways of differential abundant milk casein micelles proteins between human and eight dairy animals. Figure S1. Cluster analysis of milk casein micelles proteome between human, Holstein cattle, buffalo, yak, camel, sheep, goat, horse, and donkey.

Optimizing infant nutrition: Proteomic insights from casein micelles in human and animal milks

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