Results 281 to 290 of about 90,043 (297)
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Soybean [Glycine max (L.) Merr.]
2014In this chapter we describe an Agrobacterium tumefaciens transformation method of soybean that utilizes mature half seeds and regeneration from the cotyledonary node region. This method results in fertile transformed soybean plants and transgenic seed in approximately 9 months.
Diane Luth, Katey H. Warnberg, Kan Wang
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Transgenic Soybean (Glycine max)
2000“Transformation of soybean has been far from routine.... Unfortunately, all of the procedures described in the literature suffer from problems of low efficiency, poor reproducibility, and limited cultivar specificity.” This is the assessment of the field recently provided by The Soybean Center for Tissue Culture and Genetic Engineering (Trick et al ...
C.-Y. Hu, P. P. Chee
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Saponins from Glycine max Merrill (soybean)
Fitoterapia, 2013Saponins are a diverse group of plant secondary metabolites with a wide array of activities, as well as a significant role in nutrition and health. Saponins occur as multi-component mixtures of compounds with very similar polarities. Soysaponins are a special group of saponins.
Ikhlas A. Khan, Mudasir A. Tantry
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MEGASPOROGENESIS AND MEGAGAMETOGENESIS IN SOYBEAN, GLYCINE MAX
American Journal of Botany, 1985Megasporogenesis and megagametogenesis were examined in Glycine max with light, fluorescence, and electron microscopy. Megasporogenesis results in a linear tetrad of four megaspores. Megagametophyte development is of the Polygonum type, with the functional chalazal megaspore undergoing three successive mitotic divisions to produce an eight‐nucleate ...
John C. Kennell, Harry T. Horner
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2013
Soybean is the most important legume crop in the world, providing human food, animal feed, and industrial by-products based on its abundant protein- and vegetable oil-rich seeds. The genome of this self-fertile, nitrogen-fixing legume was sequenced (1100. Mb), which was predicted to encode 46.
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Soybean is the most important legume crop in the world, providing human food, animal feed, and industrial by-products based on its abundant protein- and vegetable oil-rich seeds. The genome of this self-fertile, nitrogen-fixing legume was sequenced (1100. Mb), which was predicted to encode 46.
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2009
Recently the Joint Research centre of the European Commission evaluated the suitability of soils for soybean cultivation. The assessment takes into account various climatic indexes and physical factors, including soil depth and texture, as well as water availability.
MICELI, Fabiano, BARBIERI S.
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Recently the Joint Research centre of the European Commission evaluated the suitability of soils for soybean cultivation. The assessment takes into account various climatic indexes and physical factors, including soil depth and texture, as well as water availability.
MICELI, Fabiano, BARBIERI S.
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Transformation in Soybean (Glycine max L.)
1993Glycine max is the second largest cash crop in the USA and is the most important plant source of oil and high protein meal. The current cultivars and breeding lines of G. max, developed through classical breeding methods, are characterized as having an extremely narrow genetic base.
P. J. Moore, G. B. Collins
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The metabolism of oligosaccharides in germinating soybeans, Glycine max
Archives of Biochemistry and Biophysics, 1962Abstract Sucrose, raffinose, and stachyose were utilized rapidly in the metabolic processes of germinating soybeans. Of the constituent units from these oligosaccharides, d -fructose and d -glucose were readily detectable in extracts from the beans, but only traces of d -galactose could be found.
John H. Pazur +2 more
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Wild Bees on Soybeans, Glycine max 1
Environmental Entomology, 1980A total of 29 species of wild bees in 4 families (Hymenoplera: Apidae, Anthphoridae. Megachilidae, Halictidae) was collected from soybeans from 3 regions of the United States. Twenty-two species were taken in Delaware from 14 varieties of soybeans. Soybean pollen was recovered from 6 of these species. Seven species were collected in Wisconsin and 10 in
Eric H. Erickson +2 more
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ANEUPLOIDS IN THE SOYBEAN,GLYCINE MAX
Canadian Journal of Genetics and Cytology, 1974Aneuploids have been identified among progeny from the homozygous recessive asynaptic soybean (Glycine max (L.) Merr., 2n = 40) mutants T241 and T242. The majority of the progeny (206 of 217) examined were near the tetraploid level and were sterile. The only fertile F1aneuploid had 36 F2progeny, which ranged in chromosome number from 41 to 44.
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