24 research outputs found
Distribution of pectins in the pollen apertures of Oenothera hookeri.velans ster/+ster.
Cell wall pectins are some of the most complex biopolymers known, and yet their functions remain largely mysterious. The aim of this paper was to deepen the study of the spatial pattern of pectin distribution in the aperture of Oenothera hookeri.velans ster/+ster fertile pollen. We used “in situ” immunocytochemical techniques at electron microscopy, involving monoclonal antibodies JIM5 and JIM7 directed against pectin epitopes in fertile pollen grains of Oenothera hookeri.velans ster/+ster. The same region was also analyzed by classical cytochemistry for polysaccharide detection. Immunogold labelling at the JIM7 epitope showed only in mature pollen labelling mainly located at the intine endo-aperture region.
Cytoplasmic structures near the plasma membrane of the vegetative cell showed no labelling gold grains.
In the same pollen stage the labelling at the JIM5 epitope was mostly confined to a layer located in the limit between the endexine and the ektexine at the level of the border of the oncus. Some tubuli at the base of the ektexine showed also an accumulation of gold particles. No JIM5 label was demonstrated in the aperture chamber and either in any cytoplasmic structure of the pollen grains. The immunocytochemical technique, when compared with the traditional methods for non- cellulose polysaccharide cytochemistry is fare more sensitive and allows the univocal determination of temporal and spatial location of pectins recognized by the JIM7 and JIM5 MAbs.publishedVersio
Barbaceniopsis humahuaquensis Noher
Entre León y Yala.publishedVersio
Barbaceniopsis humahuaquensis Noher
Entre León y YalapublishedVersio
Guidelines for incorporating scientific knowledge and practice on rare diseases into higher education: neuronal ceroid lipofuscinoses as a model disorder model disorder.
This article addresses the educational issues associated with rare diseases (RD) and in particular the Neuronal
Ceroid Lipofuscinoses (NCLs, or CLN diseases) in the curricula of Health Sciences and Professional's Training
Programs. Our aim is to develop guidelines for improving scientific knowledge and practice in higher education
and continuous learning programs.
Rare diseases (RD) are collectively common in the general populationwith 1 in 17 people affected by a RDin their
lifetime. Inherited defects in genes involved in metabolism are the commonest group of RD with over 8000
known inborn errors of metabolism. The majority of these diseases are neurodegenerative including the NCLs.
Any professional training program on NCL must take into account the medical, social and economic burdens
related to RDs. To address these challenges and find solutions to themit is necessary that individuals in the government
and administrative authorities, academia, teaching hospitals and medical schools, the pharmaceutical
industry, investment community and patient advocacy groups all work together to achieve these goals.
The logistical issues of including RD lectures in university curricula and in continuing medical education should
reflect its complex nature. To evaluate the state of education in the RD field, a summary should be periodically up
dated in order to assess the progress achieved in each country that signed up to the international conventions
addressing RD issues in society. It is anticipated that auditing current practice will lead to higher standards and
provide a framework for those educators involved in establishing RD teaching programs world-wide.publishedVersio
Diagnosis of neuronal ceroid lipofuscinosis type 2 (CLN2 disease): Expert recommendations for early detection and laboratory diagnosis
Neuronal ceroid lipofuscinoses (NCLs) are a heterogeneous group of lysosomal storage disorders. NCLs include the rare autosomal recessive neurodegenerative disorder neuronal ceroid lipofuscinosis type 2 (CLN2) disease, caused by mutations in the tripeptidyl peptidase 1 (TPP1)/CLN2 gene and the resulting TPP1 enzyme deficiency. CLN2 disease most commonly presents with seizures and/or ataxia in the late-infantile period (ages 2-4), often in combination with a history of language delay, followed by progressive childhood dementia, motor and visual deterioration, and early death. Atypical phenotypes are characterized by later onset and, in some instances, longer life expectancies. Early diagnosis is important to optimize clinical care and improve outcomes; however, currently, delays in diagnosis are common due to low disease awareness, nonspecific clinical presentation, and limited access to diagnostic testing in some regions. In May 2015, international experts met to recommend best laboratory practices for early diagnosis of CLN2 disease. When clinical signs suggest an NCL, TPP1 enzyme activity should be among the first tests performed (together with the palmitoyl-protein thioesterase enzyme activity assay to rule out CLN1 disease). However, reaching an initial suspicion of an NCL or CLN2 disease can be challenging; thus, use of an epilepsy gene panel for investigation of unexplained seizures in the late-infantile/childhood ages is encouraged. To confirm clinical suspicion of CLN2 disease, the recommended gold standard for laboratory diagnosis is demonstration of deficient TPP1 enzyme activity (in leukocytes, fibroblasts, or dried blood spots) and the identification of causative mutations in each allele of the TPP1/CLN2 gene. When it is not possible to perform both analyses, either demonstration of a) deficient TPP1 enzyme activity in leukocytes or fibroblasts, or b) detection of two pathogenic mutations in trans is diagnostic for CLN2 disease