Add to ORKGSegregation for male sterility was observed in an F3 row from the cross of L67-533 (Clark-S, short internode) x SRF300 at Urbana, Illinois in 1971. The observed segregation was 63 fertile: 21 sterile (expected 63:21, 50 assuming sterility controlled by a single recessive gene). This hypothesis was confirmed in 1972, when, totaled over 49 segregating rows, the observed segregation was 1,551 fertile : 528 sterile plants (expected 1,559:520)
Seed set on male-sterile plants is of general interest to geneticists. For the quantitative genetici...
In soybeans, there are at least four recessive genes (ms1, ms2, ms3, ms4) that impart unconditional ...
An entry consisting mostly of plants having little to no seed set was found amidst the breeding mate...
In 1975 we selected green, partially sterile plants in farmers\u27 fields when the normal plants had...
The production of hybrid soybean will require the discovery of F1 heterosis of a magnitude that prov...
The male-sterile (female-fertile) mutant ms1 is identified by three characteristic features. Kenwort...
In 1969, Walter Fehr of Iowa State University found a dwarf soybean plant (T263) in an early elite b...
F2 linkage results between Ti and W1, Dt1 and EP are shown in Table 1. F2 linkage results between SP...
In 1971, Detroy Green, Department of Agronomy, Iowa State University, found sterile plants in an F4 ...
In 1970, a part-sterile plant in Uniform Test I, entry W6-4108 (from Wisconsin), was observed at Ame...
Genetic type T218M was found in \u27Illini\u27 in 1952 at Urbana, IL. T218H was derived from T218M b...
In 1976 several crosses were made to determine if any linkage existed between ms2 and selected genes...
In the M2 populations of different soybean varieties irradiated with gamma rays, a total of seven li...
The effective use of genetic male sterility in soybeans requires controlled pollen movement. Soybean...
Male sterility gene ms 1 from North Carolina was transferred to maturity groups I, II, and III over ...
Seed set on male-sterile plants is of general interest to geneticists. For the quantitative genetici...
In soybeans, there are at least four recessive genes (ms1, ms2, ms3, ms4) that impart unconditional ...
An entry consisting mostly of plants having little to no seed set was found amidst the breeding mate...
In 1975 we selected green, partially sterile plants in farmers\u27 fields when the normal plants had...
The production of hybrid soybean will require the discovery of F1 heterosis of a magnitude that prov...
The male-sterile (female-fertile) mutant ms1 is identified by three characteristic features. Kenwort...
In 1969, Walter Fehr of Iowa State University found a dwarf soybean plant (T263) in an early elite b...
F2 linkage results between Ti and W1, Dt1 and EP are shown in Table 1. F2 linkage results between SP...
In 1971, Detroy Green, Department of Agronomy, Iowa State University, found sterile plants in an F4 ...
In 1970, a part-sterile plant in Uniform Test I, entry W6-4108 (from Wisconsin), was observed at Ame...
Genetic type T218M was found in \u27Illini\u27 in 1952 at Urbana, IL. T218H was derived from T218M b...
In 1976 several crosses were made to determine if any linkage existed between ms2 and selected genes...
In the M2 populations of different soybean varieties irradiated with gamma rays, a total of seven li...
The effective use of genetic male sterility in soybeans requires controlled pollen movement. Soybean...
Male sterility gene ms 1 from North Carolina was transferred to maturity groups I, II, and III over ...
Seed set on male-sterile plants is of general interest to geneticists. For the quantitative genetici...
In soybeans, there are at least four recessive genes (ms1, ms2, ms3, ms4) that impart unconditional ...
An entry consisting mostly of plants having little to no seed set was found amidst the breeding mate...