RESUMO
Soybean (Glycine max [L.] Merrill) leaf senescence, which may partially result from mineral redistribution, appears to limit grain yield. Two experiments were designed to test the effects of supplemental inorganic phosphate (Pi), K, malate, and methionine (Met) infusions on senescence and yield. A novel stem infusion technique using pediatric intravenous kits was developed to supply these nutrients throughout seed growth. An average of 48.4 milliliters per plant was successfully infused into lower stem internodes during a 4 to 6 week period. Senescence was unaffected by K or malate infusions, but was delayed by Pi infusions (up to 8 days) and by increased nutrient solution Pi levels (up to 21 days) in separate experiments. Treatments which delayed senescence also improved yield as much as 3-fold, due primarily to increased pod retention and secondarily to increased seed size. Met infusions further increased pod retention at the lower, infused nodes, and thus increased total plant yield also. The influence of higher Pi levels during reproductive growth on soybean pod retention and yield may have been the result of sustained sucrose export due to altered C partitioning in leaves. The role of Met in improving yield was not clear. However, these results clearly demonstrate the importance of adequate Pi for delaying senescence and improving pod retention and yield.
RESUMO
The quality of soybean (Glycine max [L.] Merrill) seed storage protein is limited by its low methionine (Met) content. Met supplementation of an in vitro soybean cotyledon culture has been shown to increase Met content by 21.9% due to an inhibition of the synthesis of the Met-devoid beta subunit of 7S storage protein (JF Thompson et al. 1981, Phytochemistry 20: 941-945). The objective of this research was to determine if Met supplementation of intact plants would result in a similar improvement in soybean protein quality. A solution including 10 millimolar d,l malic acid plus 10 millimolar K(2)HPO(4) with or without 20 millimolar d,l Met or 20 millimolar Na(2)SO(4) was infused throughout seed development into lower stem internodes of soybeans (cv ;Williams 79' or ;Williams 82') grown under both greenhouse and field conditions. Pediatric intravenous kits were used to infuse an average of 51.2 milliliters per plant. Met content of whole soybean seeds from intact plants receiving Met infusions increased by as much as 22.7%. Even greater (up to 31.0%) increases in cysteine (Cys) content were noted, indicating that soybean plants are able to metabolize Met to Cys, or that supplemental Met allows Cys accumulation by some other mechanism. Electrophoretic patterns showed a dramatic decrease in the synthesis of the beta subunit of 7S storage protein when Met was supplemented, and this effect was not confined to seeds at the lower nodes. In addition, seeds from upper compared to lower plant nodes (regardless of infusion treatment) had greater protein content (45.0 versus 41.6 w/w%), and different protein composition, as indicated by significantly different amino acid profiles. Methionine supplementation of intact soybean plants improved protein quality through an alteration in storage protein composition.
