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Target Concepts:
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Query: UMLS:C0277787 (
stigma
)
13,352
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
ptl1, a gene expressed specifically in pistil transmitting tissue of Antirrhinum flowers, encodes a protein with similarity to plant extensins. The protein is rich in proline (28%) and serine (9%) and contains several
proline-rich
repetitive amino acid motifs found in other extensin-like proteins. The presence of three consensus N-glycosylation sites indicates that it is probably glycosylated. RNA blots show that the ptl1 transcript is abundant in mature pistillar tissue but absent from immature flower buds and all other plant organs tested. In-situ localization of mRNA demonstrates that ptl1 expression is confined to the transmitting tissue of the style and
stigma
. The presence of a putative signal peptide at the N-terminus of the protein, taken together with the expression pattern, indicates that the ptl1 product may be secreted into the extracellular matrix of the transmitting tissue. The possible contributions of the ptl1 product to the physical properties of the transmitting tissue are considered in the light of current views on extensin structure and function.
...
PMID:The ptl1 gene expressed in the transmitting tissue of Antirrhinum encodes an extensin-like protein. 130 30
The extracellular matrix of stylar transmitting tissues of many angiosperms is enriched in secretory materials that are believed to be important for interactions with pollen tubes. We have previously characterized two related cDNAs (TTS-1 and TTS-2) for stylar transmitting tissue-specific
proline-rich
proteins (TTS proteins) from Nicotiana tabacum. We show here that TTS proteins are highly glycosylated proteins with apparent molecular masses ranging between 50 and 100 kD. Results from chemical and enzymatic deglycosylation suggest that TTS proteins have N-linked glycosyl groups, and the extensive glycosylation most probably has resulted from modifications at the proline residues. TTS proteins are localized to the intercellular regions between neighboring transmitting tissue cells, the space in which pollen tubes elongate as they migrate from the
stigma
toward the ovary. TTS mRNA and protein levels are regulated during pistil development and by pollination. The levels of TTS mRNAs and proteins increase with flower development and reach the maximal levels as flowers approach anthesis. These maximal levels are maintained in the styles for at least 3 to 4 days after pollination, during which time pollen tubes elongate and reach the ovary. Spatially, TTS mRNAs and proteins accumulate first in the stigmatic end of young styles, and their levels progressively increase toward the basal end as pistils mature. Pollination stimulates the levels of TTS mRNAs and proteins in hand-pollinated young styles, which normally accumulate relatively low levels of these TTS gene products. Pollination also qualitatively affects TTS mRNAs and proteins. In pollinated styles, TTS mRNAs are shorter than those in unpollinated styles and underglycosylated TTS protein species begin to accumulate. The elaborate regulatory mechanisms governing TTS mRNAs and proteins during development and by pollination strongly suggest that these proteins may play a functional role in the process of pollination.
...
PMID:Development and Pollination Regulated Accumulation and Glycosylation of a Stylar Transmitting Tissue-Specific Proline-Rich Protein. 1227 Oct 49
In response to wounding and pathogens, jasmonate (JA) serves as a signal molecule for both induction and repression of gene expression. To examine defense-regulated gene repression in Arabidopsis (Arabidopsis thaliana), we have identified a nonclassical arabinogalactan protein (AGP) gene, AGP31, and show that its mRNA decreased to about 30% of its original level within 8 h in response to methyl JA (MeJA) treatment of whole 7-d-old seedlings. Wounding and abscisic acid treatment had similar effects. MeJA suppression primarily depends on the action of the JA-signaling protein, COI1, as shown by much lower MeJA suppression in coi1-1 mutant plants. The main mechanism of mRNA suppression by MeJA is repression of transcription, as shown by nuclear run-on experiments. The AGP31 protein shares features with several known and putative nonclassical AGPs from other species: a putative signal peptide, a histidine-rich region near the N terminus followed by a repetitive
proline-rich
domain, and a cysteine-rich C-terminal PAC (for proline-rich protein and AGP, containing cysteine) domain. Positive Yariv reagent interaction demonstrated that the protein is an AGP. Monosaccharide analysis of purified AGP31 indicated it is a galactose-rich AGP. Expression of an AGP31-enhanced green fluorescent protein fusion protein in transgenic cells revealed that the AGP31 protein was localized to the cell wall. AGP31 promoter-beta-glucuronidase reporter gene analysis showed expression in the vascular bundle throughout the plant, except in the flower. In the flower, beta-glucuronidase staining occurred throughout the pistil, except in the
stigma
. The strong preferential expression in vascular tissues suggests that AGP31 may be involved in vascular tissue function during both the defense response and development.
...
PMID:A nonclassical arabinogalactan protein gene highly expressed in vascular tissues, AGP31, is transcriptionally repressed by methyl jasmonic acid in Arabidopsis. 1788 91
Kraepelin's dichotomy, manic-depressive insanity and dementia praecox, are contrasting and true endogenous disease entities which affect excitability, the fundamental property of the CNS. Kraepelin wanted to establish a valid classification and hit the extremes in brain structure and function at a time when we had no knowledge of brain dysfunction in "functional" psychoses. The aetiology is now known: the psychoses are part of human growth and maturation and might be classified according to their brain dysfunction, which is exactly what Kraepelin wanted. However, presumably to reduce the
stigma
attached to the word "psychosis", there is currently a strong initiative to eliminate the concept. But knowledge of what is happening in the brain in a psychosis might be more helpful in reducing
stigma
. It is suggested that psychosis is due to an affection of the supplementary motor area (SMA), located at the centre of the Medial Frontal
Lobe
network. The SMA is one of the rare universally connected areas of the brain, as should be the case for such a key structure that makes decisions as to the right moment for action. This important network, which partly has continuous neurogenesis, has sufficiently widespread connections. The SMA, a premotor area located on the medial side of the frontal lobes, is one of the last regions to reach a concurrence of synaptogenesis. An affection of the SMA, a deficient or abolished Delayed Response Task, seriously disturbs our relation and adaptation to the surroundings. We usually master the Delayed Response Task around the age of 7 months, a time at which the second CNS regressive event takes place, which proceeds from the posterior to the anterior of the brain. In very late maturation, a persistent affection of the SMA might occur. We experience a chronic psychosis: infantile autism (IA), a chronic inability to act consciously, which contrasts with the episodic SMA affection post-puberty, when excitation is reduced due to excessive pruning of excitatory synapses. Silent spots are the result of insufficient fill-in mechanisms following a breakdown of circuitry. They may affect the SMA in the case of very late puberty. An acute reduction in excitation and concomitantly a marked increase in silent spots might lead to an acute psychosis. A frontal preference is likely, given that a reduction might occur anywhere in the cortex, but particularly in the areas maturing latest. The varying localisations probably explain the difficulty in accepting schizophrenia as a disease entity. The multifactorial inheritance of the dichotomy implies that the genetics are not fate, a psychotic development might be prevented given enough epigenetic factors: brain food (omega 3). Might the present dietary adversity, with its lack of brain food, be responsible for a rising incidence in psychosis? A psychosis is an understandable and preventable dysfunction of the brain, and its mechanisms are known. Primarily a disorder of reduced excitation in an attenuated CNS, this explains why all the neuroleptics are convulsants, raising excitation, in contrast to all antidepressives, which are anti-epileptic.
...
PMID:What is a psychosis and where is it located? 1851 23
