PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 20945487-5 2010 In this study, we confirm that reducing phytic acid concentration improves lysozyme binding capacity and investigate alternative process conditions that reduce phytic acid interference. Phytic Acid 40-51 lysozyme Homo sapiens 75-83 20945487-6 2010 Compared with the previous best process, the adsorption capacity of human lysozyme was increased from 8.6 to 19.7 mg/mL when rice extract was treated with phytase to degrade phytic acid. Phytic Acid 174-185 lysozyme Homo sapiens 74-82 20945487-7 2010 Using tris buffer to adjust pH 4.5 extract to pH 6 before adsorption reduced phytic acid interference by minimizing phytic acid-lysozyme interactions, eliminated the need for phytase treatment, and increased the binding capacity to 25 mg/mL. Phytic Acid 77-88 lysozyme Homo sapiens 128-136 20945487-7 2010 Using tris buffer to adjust pH 4.5 extract to pH 6 before adsorption reduced phytic acid interference by minimizing phytic acid-lysozyme interactions, eliminated the need for phytase treatment, and increased the binding capacity to 25 mg/mL. Phytic Acid 116-127 lysozyme Homo sapiens 128-136 20945487-8 2010 Another method of reducing phytic acid concentration was to extract human lysozyme from rice flour at pH 10 with 50 mM NaCl in 50 mM sodium carbonate buffer. Phytic Acid 27-38 lysozyme Homo sapiens 74-82