Sex determination in the flowers of maize involves the abortion of stamen or pistil development. Recent work investigating genes that control this process reveals that a microRNA is involved in both the sex determination of the male inflorescence and its growth pattern
The maize 'fuzzy tassel' ('fzt') mutant is caused by a mutation in 'dicer-like1' and has broad devel...
The maize sex determination pathway results in the arrest of stamen in ear spikelets and the abortio...
Sexual reproduction in plants requires development of haploid gametophytes from somatic tissues. Pol...
Sex determination in the flowers of maize involves the abortion of stamen or pistil development. Rec...
Angiosperms, or flowering plants, form the largest group of plants, with more than 350,000 extant sp...
The development of unisexual flowers through floral organ suppression has been critical for promotin...
The understanding of the molecular mechanisms responsible for the making of a unisexual flower has b...
Sexual reproduction in plants requires development of haploid gametophytes from somatic tissues. Pol...
The evolution of sex determination in plants is a central problem in plant evolutionary biology. Cur...
Sex determination in maize involves the production of staminate and pistillate florets from an initi...
We investigated changes in floral developmental patterns and sex determination in the PCK (phosphoen...
Sex determination is as important for the fitness of plants as it is for animals, but its mechanisms...
Flowers are produced by floral meristems, groups of stem cells that give rise to floral organs. In g...
Sex dimorphism and gene expression were studied in developing catkins in 159 F2 individuals from the...
Sex determination and differentiation is an important biological process for unisexual flower develo...
The maize 'fuzzy tassel' ('fzt') mutant is caused by a mutation in 'dicer-like1' and has broad devel...
The maize sex determination pathway results in the arrest of stamen in ear spikelets and the abortio...
Sexual reproduction in plants requires development of haploid gametophytes from somatic tissues. Pol...
Sex determination in the flowers of maize involves the abortion of stamen or pistil development. Rec...
Angiosperms, or flowering plants, form the largest group of plants, with more than 350,000 extant sp...
The development of unisexual flowers through floral organ suppression has been critical for promotin...
The understanding of the molecular mechanisms responsible for the making of a unisexual flower has b...
Sexual reproduction in plants requires development of haploid gametophytes from somatic tissues. Pol...
The evolution of sex determination in plants is a central problem in plant evolutionary biology. Cur...
Sex determination in maize involves the production of staminate and pistillate florets from an initi...
We investigated changes in floral developmental patterns and sex determination in the PCK (phosphoen...
Sex determination is as important for the fitness of plants as it is for animals, but its mechanisms...
Flowers are produced by floral meristems, groups of stem cells that give rise to floral organs. In g...
Sex dimorphism and gene expression were studied in developing catkins in 159 F2 individuals from the...
Sex determination and differentiation is an important biological process for unisexual flower develo...
The maize 'fuzzy tassel' ('fzt') mutant is caused by a mutation in 'dicer-like1' and has broad devel...
The maize sex determination pathway results in the arrest of stamen in ear spikelets and the abortio...
Sexual reproduction in plants requires development of haploid gametophytes from somatic tissues. Pol...
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