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The IgG1hybridoma antibody, 91.9H, was originally raised against sulfated
mucins isolated from normal human colonic mucosa. Previous studies have
shown that the 91.9H antigen is expressed on normal colonic epithelial
cells and the sulfomucins that they produce, but not in the normal small
intestine and stomach. Tissue-specific changes occur in 91.9H antigen
expression in disease: the antigen diminishes in colonic carcinomas,
whereas in regions of gastric mucosa showing intestinal metaplasia and in
gastric carcinomas, the antigen is expressed as a "neo-antigen." This
report is concerned with elucidation, by the neoglycolipid technology, of
the determinant recognized by antibody 91.9H using sulfated and sialyl
oligosaccharides of Lewisa(Lea) and Lextypes, and analogs that lack
sulfate, sialic acid, or fucose. Binding experiments with the lipid-linked
oligosaccharides immobilized on chromatograms or on microwells, and
inhibition of binding experiments with free oligosaccharides based on di-,
tri- and tetrasaccharide backbones, show that the 91.9H antigenic
determinant is based on a trisaccharide backbone, and consists of the
3'-sulfated Leatetrasaccharide sequence, which is a potent ligand for the
E- and L-selectins. The antibody gives a relatively low signal with the
3'-sulfated non-fucosylated backbone, and has no detectable cross- reaction
with the 3'-sulfated Lexisomer, nor with sialyl-Leaand - Lexanalogues.
Antibody 91.9H is a valuable addition, therefore, to the repertoire of
reagents for mapping details of the distribution, and determining the
relative importance of sulfated and sialyl oligosaccharides as ligands for
the selectins, in normal and pathological epithelia and endothelia.
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RW Dapson 《Biotechnic & histochemistry》2013,88(3):161-166
Over the past 13 years, glyoxal has become the leading alternative to formaldehyde as a histological fixative because of its low inhalation risk, faster reaction rate and selective control over crosslinking. The latter attribute is especially important, because most of the difficulties relating to use of formaldehyde-fixed specimens for immunohistochemistry stem from its aggressive crosslinking behavior. With suitable catalysts or other reaction accelerators, glyoxal forms 2-carbon adducts with nearly all end groups in proteins and carbohydrates, leaving most of them unimpaired for subsequent immunohistochemical demonstration. Only arginine is seriously impaired by the formation of imidazoles, which is the basis for the well known arginine blockade method using glyoxal. A special glyoxal-specific antigen retrieval method using high pH and high temperature effectively reverses the blockade and restores immunoreactivity. Other methods for antigen retrieval are rarely beneficial and in most cases damage the specimen. Special stains work well, except silver methods for Helicobacter pylori. Routine hematoxylin and eosin preparations exhibit clarity and cellular detail rarely seen with formaldehyde. 相似文献
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D. Poncelet R. Lencki C. Beaulieu J. P. Halle R. J. Neufeld A. Fournier 《Applied microbiology and biotechnology》1992,38(1):39-45
Summary Small diameter alginate beads (microspheres) were formed via internal gelation of alginate solution emulsified within vegetable oil. Gelation was initiated by addition of an oil-soluble acid thereby reducing the pH of the alginate solution and releasing soluble Ca2+ from the citrate complex. Smooth, spherical, micron-sized beads were formed. The mean diameter ranged from 200 to 1000 m, controlled by the reactor impeller design and rotational speed. The technique has potential for large-scale and continuous applications in immobilization.Correspondence to: R. J. Neufeld 相似文献
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For the characterization of CO(2) absorption in aerated microalgal culture systems, a different approach based on K(L)a(O(2)) determination and transformation was studied. To confirm the validity of this method, the influence of reactions between CO(2) and compounds (OH(-), H(2)O, and NH(3)) present in the culture medium upon the absorption mechanism was evaluated under different physical and chemical culture conditions. Under these conditions, knowledge of the relative magnitudes of the diffusion and reaction kinetics permitted the evaluation of their relative importance. For the determination of the parameters required for the calculation of the CO(2) absorption constant, empirical correlations for K(L) (0) and a were used that had been previously verified with experimental data for O(2) absorption. Since, for the conditions studied, the absorption rate was shown to be independent of the chemical reactions taking place in the liquid phase, the K(L)a for CO(2) could be directly related to the K(L)a for O(2) by a simple factor that took into account the difference in aqueous diffusivity of the two gases. Thus, using methods developed for determining O(2) absorption in gas-liquid contactors, it is possible to adequately characterize CO(2) absorption for laboratory and pilot scale algal production systems. 相似文献
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Short repetitive sequences in green algal mitochondrial genomes: potential roles in mitochondrial genome evolution 总被引:4,自引:2,他引:2
Current data on green algal mitochondrial genomes suggest an unexpected
dichotomy within the group with respect to genome structure, organization,
and sequence affiliations. The present study suggests that there is a
correlation between this dichotomy on one hand and the differences in the
abundance, base composition, and distribution of short repetitive sequences
we observed among green algal mitochondrial genomes on the other. It is
conceivable that the accumulation of GC- rich short repeated sequences in
the Chlamydomonas-like but not Prototheca-like mitochondrial genomes might
have triggered evolutionary events responsible for the distinct series of
evolutionary changes undergone by the two green algal mitochondrial
lineages. The similarity in base composition, nucleotide sequence,
abundance, and mode of organization we observed between the short
repetitive sequences present in Chlamydomonas-like mitochondrial genomes on
one hand and fungal and vertebrate homologs on the other might extend to
some of the roles that the short repetitive sequences have been shown to
have in the latter. Potential involvements we propose for the short
repetitive sequences in the evolution of Chlamydomonas-like mitochondrial
genomes include fragmentation and scrambling of the ribosomal-RNA-coding
regions, extensive gene rearrangements, coding-region deletions, surrogate
origins of replication, and chromosomal linearization.
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The involvement of the microtubule (MT) and actin microfilament (MF) cytoskeletons in establishing nuclear positions during zoosporogenesis in Allomyces macrogynus was assessed using selective cytoskeletal disrupting treatments and documented with light microscopy. These experiments were coupled with low-speed centrifugation studies to determine the degree to which cytoskeletal elements anchor nuclear position. At the onset of zoospore formation, nuclei were positioned only in cortical cytoplasmic regions of the zoosporangia (ZS). Immunofluorescence microscopy revealed that MTs primarily emanated from centrosomal regions into the surrounding cytoplasm at this stage. During delimitation of the cytoplasm into individual uninucleate zoospores, nuclei migrated from cortical regions to become distributed throughout the cytoplasm. Coincident with nuclear migrations, MTs were primarily organized at and emanated from nuclear surfaces, forming extensive perinuclear arrays. Nuclear migrations were suppressed in ZS induced to sporulate in the presence of cytochalasin D, an actin MF inhibiting compound. Disruption of MTs with nocodazole did not block nuclear migrations, although resultant nuclear spacing was irregular. Centrifugation treatments of control and drug-treated ZS demonstrated that nuclear positions were stabilized by perinuclear MT arrays. The results indicate that nuclear motility in ZS of A. macrogynus is the result of an actin-based system while perinuclear MTs arrays function to establish and fix nuclear position during zoospore formation. Copyright 1998 Academic Press. 相似文献
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