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Query: UMLS:C0277787 (
stigma
)
13,352
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pollination of many flowers initiates a sequence of precisely regulated developmental events that include senescence of the perianth and development of the ovary. The plant hormone ethylene is known to play a key role in regulating the biochemical and anatomical changes that constitute the postpollination syndrome. For this reason, we have studied the pollination syndrome in Phalaenopsis orchids by examining the spatial and temporal location of ethylene biosynthesis within the orchid flower, and how this biosynthesis is regulated by factors that influence expression of genes that encode key enzymes in the ethylene biosynthetic pathway. In particular, we examined the role in the postpollination syndrome of the expression of the gene for 1-aminocyclopropane-1-carboxylate (ACC) oxidase, which catalyzes the conversion of ACC to ethylene. In vivo incubation of tissues with the ethylene precursor ACC demonstrated that
ACC oxidase
activity increases after pollination in the
stigma
, contrary to the observation that activity is constitutive in petunia and carnation gynoecia. RNA blot hybridization of floral tissues indicates that the increase in
ACC oxidase
activity is due to de novo synthesis of mRNA and presumably protein, which is induced after pollination. Furthermore, the pattern of induction is consistent with a model of coordinate regulation of gene expression in which the pollination signal travels to other organs of the flower to induce their ethylene production. We have also used in situ hybridization to define further the temporal and spatial expression of
ACC oxidase
within the floral organs, showing that expression, and,by inference, the capability to oxidize ACC to ethylene, is induced in all living cells of the tissues examined after pollination. These findings contrast with work in petunia that suggests that
ACC oxidase
is localized to the stigmatic surface.
...
PMID:Temporal and spatial regulation of 1-aminocyclopropane-1-carboxylate oxidase in the pollination-induced senescence of orchid flowers. 751 81
The tomato
ACC oxidase
gene family is comprised of three members designated AC01, AC02 and AC03. These are highly homologous throughout the protein coding regions but do show a degree of sequence divergence within the 3' untranslated regions. These regions have been cloned and used as gene-specific probes to analyse the differential expression of the tomato
ACC oxidase
gene family in various tissues at different stages of development. Results indicate that all three genes are transcriptionally active and display a high degree of inducibility in a number of organs at various stages of the life cycle. Both AC01 and Ac03 transcripts accumulate during the senescence of leaves, fruit and flowers. In addition, it appears that AC01 is wound-inducible in leaves. All three
ACC oxidase
genes are expressed during flower development, with each showing a temporally distinct pattern of accumulation. In addition, the
ACC oxidase
transcripts are also spatially regulated throughout flower development; AC01 is predominantly expressed in the petals and the
stigma
and style, AC02 expression is mainly restricted to tissues associated with the anther cone whereas AC03 transcripts accumulate in all of the floral organs examined apart from the sepals.
ACC oxidase
enzyme assays and Western blot analysis indicate that both enzyme activity and
ACC oxidase
protein increase with transcript abundance in several tissues. The physiological role of the differential expression of the
ACC oxidase
gene family, in relation to the regulation of ethylene synthesis, during these various developmental processes is discussed.
...
PMID:Differential expression of the 1-aminocyclopropane-1-carboxylate oxidase gene family of tomato. 862 15
Self-pollination of diploid zonal geranium (Pelargonium x hortorum L.H. Bailey) florets leads to a dramatic rise in ethylene production, followed by abscission within 4 h. Neither wounding of the
stigma
, pollination with tetraploid pollen, nor heat-killed self pollen could elicit as much ethylene production and petal abscission as self-pollination. A cDNA sharing sequence identity with ACC synthase (GACS2) and three different cDNAs sharing sequence identity with
ACC oxidase
(GACO1, GACO2, GACO3) were isolated from geranium pistils. Transcripts hybridizing with these probes increased slightly in response to self-pollination, but the degree of accumulation in response to various treatments did not correlate with ethylene production. When calculated on a per-plant-part basis, transcripts hybridizing with GACS2 were equally distributed among the stigma+style, sterile ovary, and ovary tissues, but transcripts hybridizing with the three
ACC oxidase
clones were differentially distributed. All transcripts were differentially expressed among the other tissues of the plant, with GACO1 being the most widely distributed. Ethylene production in geranium pistils was not autocatalytic. Propylene failed to induce ethylene production and ethylene did not induce the accumulation of ACC synthase or
ACC oxidase
transcripts. ACC accumulated in the
stigma
and style, and to a smaller extent in the sterile ovary, after pollination. These data support a model of pollination-induced ethylene production by post-transcriptional regulation of ethylene biosynthetic gene expression.
...
PMID:Effect of pollination on accumulation of ACC synthase and ACC oxidase transcripts, ethylene production and flower petal abscission in geranium (Pelargonium x hortorum L.H. Bailey). 929 Jun 38
The differential expression of the petunia 1-aminocyclopropane-1-carboxylate (ACC) oxidase gene family during flower development and senescence was investigated.
ACC oxidase
catalyzes the conversion of ACC to ethylene. The increase in ethylene production by petunia corollas during senescence was preceded by increased
ACC oxidase
mRNA and enzyme activity. Treatment of flowers with ethylene led to an increase in ethylene production,
ACC oxidase
mRNA, and
ACC oxidase
activity in corollas. In contrast, leaves did not exhibit increased ethylene production or
ACC oxidase
expression in response to ethylene. Gene-specific probes revealed that the ACO1 gene was expressed specifically in senescing corollas and in other floral organs following exposure to ethylene. The ACO3 and ACO4 genes were specifically expressed in developing pistil tissue. In situ hybridization experiments revealed that
ACC oxidase
mRNAs were specifically localized to the secretory cells of the
stigma
and the connective tissue of the receptacle, including the nectaries. Treatment of flower buds with ethylene led to patterns of
ACC oxidase
gene expression spatially distinct from the patterns observed during development. The timing and tissue specificity of
ACC oxidase
expression during pistil development were paralleled by physiological processes associated with reproduction, including nectar secretion, accumulation of stigmatic exudate, and development of the self-incompatible response.
...
PMID:Pistil-Specific and Ethylene-Regulated Expression of 1-Aminocyclopropane-1-Carboxylate Oxidase Genes in Petunia Flowers. 1224 70
Mulberry (Morus alba) is an important crop tree involved in sericulture and pharmaceuticals. To further understand the development and the environmental adaptability mechanism of mulberry, a cDNA of the gene MaACO1 encoding 1-aminocyclopropane-1-carboxylate oxidase was isolated from mulberry. This was used to investigate stress-responsive expression in mulberry. Developmental expression of
ACC oxidase
in mulberry leaves and spatial expression in mulberry flowers were also investigated. Damage and low-temperature treatment promoted the expression of MaACO1 in mulberry. In leaves, expression of the MaACO1 gene increased in cotyledons and the lowest leaves with leaf development, but showed reduced levels in emerging leaves. In flowers, the pollinated
stigma
showed the highest expression level, followed by the unpollinated
stigma
, ovary, and immature flowers. These results suggest that high MaACO1 expression may be predominantly associated with tissue aging or senescence in mulberry.
...
PMID:Isolation of an 1-aminocyclopropane-1-carboxylate oxidase gene from mulberry (Morus alba L.) and analysis of the function of this gene in plant development and stresses response. 1799 89
