The Enzymology of Lysine Catabolism in Rice Seeds — Isolation, Characterization, and Regulatory Properties of a Lysine 2‐Oxoglutarate Reductase/Saccharopine Dehydrogenase Bifunctional Polypeptide

The Enzymology of Lysine Catabolism in Rice Seeds — Isolation, Characterization, and Regulatory Properties of a Lysine 2‐Oxoglutarate Reductase/Saccharopine Dehydrogenase Bifunctional Polypeptide

In plant, the catabolism of lysine has only been studied in some detail in maize. The enzymes lysine α‐oxoglutarate reductase (also known as lysine α‐ketoglutarate reductase; LOR) and saccharopine dehydrogenase (SDH), which convert lysine into saccharopine, and saccharopine into glutamic acid and 2–...

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Veröffentlicht in:European journal of biochemistry 1997-07, Vol.247 (1), p.364-371
Hauptverfasser: Gaziola, Salete A., Teixeira, Cristiana M. O., Luoli, Juverlande, Sodek, Ladaslav, Azevedo, Ricardo A.
Format: Artikel
Sprache:eng
Schlagworte:
Kinetics
Lysine - metabolism
lysine 2‐oxoglutarate reductase
lysine catabolism
Molecular Weight
Oriza saliva L
Oryza - metabolism
rice
saccharopine dehydrogenase
Saccharopine Dehydrogenases - isolation & purification
Saccharopine Dehydrogenases - metabolism
Seeds - metabolism
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container_issue 1
container_start_page 364
container_title European journal of biochemistry
container_volume 247
creator Gaziola, Salete A.
Teixeira, Cristiana M. O.
Luoli, Juverlande
Sodek, Ladaslav
Azevedo, Ricardo A.
description In plant, the catabolism of lysine has only been studied in some detail in maize. The enzymes lysine α‐oxoglutarate reductase (also known as lysine α‐ketoglutarate reductase; LOR) and saccharopine dehydrogenase (SDH), which convert lysine into saccharopine, and saccharopine into glutamic acid and 2–aminoadipate 6‐semialdehyde, respectively, were isolated from immature rice seeds and partially purified through a three‐step purification procedure involving ammonium sulphate precipitation, and anion‐exchange and gel‐filtration chromatographies, leading to a final yield of 30% for LOR and 24% for SDH. The molecular masses estimated by gel‐filtration chromatography on a Sephacryl S200 column and by native non‐denaturing PAGE using Ferguson plots were 203 kDa for both enzymes by gel‐filtration and 202 kDa for both enzymes by native non‐denaturing PAGE. A second band of LOR and SDH activities on native gels was observed for both enzymes with an estimated molecular mass of 396 kDa, which indicated a multimeric structure. Kinetic studies were consistent with an ordered sequence mechanism for LOR, where 2‐oxoglutarate is the first substrate and saccharopine is the last product. The results observed for the LOR/SDH activity ratios during purification, the copurification in all three steps, the molecular masses, the relative mobilities on native non‐denaturing gels and the pl estimated for LOR and SDH suggest the existence of a bifunctional polypeptide containing LOR and SDH activities.
doi_str_mv 10.1111/j.1432-1033.1997.00364.x
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The results observed for the LOR/SDH activity ratios during purification, the copurification in all three steps, the molecular masses, the relative mobilities on native non‐denaturing gels and the pl estimated for LOR and SDH suggest the existence of a bifunctional polypeptide containing LOR and SDH activities.</description><subject>Kinetics</subject><subject>Lysine - metabolism</subject><subject>lysine 2‐oxoglutarate reductase</subject><subject>lysine catabolism</subject><subject>Molecular Weight</subject><subject>Oriza saliva L</subject><subject>Oryza - metabolism</subject><subject>rice</subject><subject>saccharopine dehydrogenase</subject><subject>Saccharopine Dehydrogenases - isolation &amp; purification</subject><subject>Saccharopine Dehydrogenases - metabolism</subject><subject>Seeds - metabolism</subject><issn>0014-2956</issn><issn>1432-1033</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1997</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNUU1u1DAUthCoDIUjIHnFiqR24iTjBQs6TEulkVp1ytpy7JcZj5I42Ik66apHYMGdeo-eBIcZusabZ73v50nfhxCmJKbhne1iytIkoiRNY8p5EROS5izev0KzF-A1mhFCWZTwLH-L3nm_I4TkPC9O0AlPGCdsPkNPd1vAy_ZhbGxtNyO2FV6N3rSAF7KXpa2Nb7Bp8a1RgNcA2uPnx9_4ytta9sa2n_FiK51UPTjzcNzIVuNb2AyBYd2Ib5ztwPUG_OQu__knz4-_rvd2Uw99MOghSPSgeunhbC2VCq62m3jfYDtqZzfQBgifm2po1XRH1vjG1mMHXW80vEdvKll7-HCcp-jHxfJu8T1aXV9eLb6uIsUoY5GCJCRAOHA1zxjJNNMkzbjM0rCtSlmqEAzoVOssD4EWuqpoGcKkfF6yPC3SU_Tp4Ns5-3MA34vGeAV1LVuwgxcFp0We5CwQ5weictZ7B5XonGmkGwUlYupQ7MRUlZiqElOH4m-HYh-kH483hrIB_SI8lhbwLwf83tQw_revuFier8Mv_QMtkLCi</recordid><startdate>199707</startdate><enddate>199707</enddate><creator>Gaziola, Salete A.</creator><creator>Teixeira, Cristiana M. 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subjects Kinetics
Lysine - metabolism
lysine 2‐oxoglutarate reductase
lysine catabolism
Molecular Weight
Oriza saliva L
Oryza - metabolism
rice
saccharopine dehydrogenase
Saccharopine Dehydrogenases - isolation & purification
Saccharopine Dehydrogenases - metabolism
Seeds - metabolism
title The Enzymology of Lysine Catabolism in Rice Seeds — Isolation, Characterization, and Regulatory Properties of a Lysine 2‐Oxoglutarate Reductase/Saccharopine Dehydrogenase Bifunctional Polypeptide
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