Effects of nitrogen source and timing of sulfur deficiency on seed yield and expression of 11S and 7S seed storage proteins of soybean

Autor:	Nam C. Paek, Richard Shibles, P. J. Sexton
Rok vydání:	1998
Předmět:	chemistry.chemical_classification Methionine Vegetative reproduction food and beverages Soil Science chemistry.chemical_element Assimilation (biology) Biology Sulfur chemistry.chemical_compound chemistry Agronomy Nitrate Urea Storage protein Agronomy and Crop Science Protein quality
Zdroj:	Field Crops Research. 59:1-8
ISSN:	0378-4290
DOI:	10.1016/s0378-4290(98)00101-4
Popis:	The nutritional value of soybean (Glycine max [L.] Merr.) seed as a protein source for nonruminants is limited by the amount of the S-containing amino acids, methionine and cysteine, they contain. The nutritional quality of S soybean is known to be influenced by both S and N nutrition. The capacity of the plant for S assimilation during late seed filling is an additional factor that might limit protein quality even when S availability is more than adequate. This paper describes experiments conducted to examine the effects of S and reduced N availability on protein quality, and the capacity of the plant for assimilation of sulfate-S during seed filling. Availability of sulfate-S was varied in the hydroponic culture during various vegetative and reproductive stages and N was supplied as either urea (reduced form) or as nitrate (oxidized form). The ratio of 11S/7S seed storage proteins was used as an indicator of protein quality. The 11S protein is of greater nutritional value than is the 7S protein; therefore, the greater the 11S/7S ratio the better the nutritional quality of the seed protein. Provision of reduced N caused seed yield to increase across S treatments and the 11S/7S ratio to decline among plants that were S-sufficient but not among those that were S-deficient. Seed yield was very sensitive to S-deficiency occurring during vegetative growth, but not to S-deficiency occurring during reproductive growth. The 11S/7S ratio was strongly influenced by S-deficiency occurring during reproductive growth, but was relatively insensitive to S availability during vegetative growth. Provision of S near the middle of the seed filling period to previously S-deficient plants caused 11S/7S ratio to increase threefold over plants that were maintained S-deficient throughout seed filling. We conclude that the plant maintains a substantial capacity for S assimilation late into seed filling, and that mobilization of vegetative S is not a large source of S for developing seeds.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::019c5ccd9f9c0f2415432da5ed0495bb https://doi.org/10.1016/s0378-4290(98)00101-4 Zobrazit plný text záznamu Full Text from ScienceDirect