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21.
In light:dark-synchronized cultures of Chlamydomonas reinhardtii, the genes encoding the enzymes for two early steps of chlorophyll biosynthesis, glutamate-1-semialdehyde aminotransferase (gsa) and [delta]-aminolevulinic acid dehydratase (alad), are expressed at high levels early in the light phase, just prior to a rapid burst of chlorophyll synthesis. Induction of gsa mRNA in synchronized cells is totally dependent on light, whereas induction of alad mRNA occurs to approximately one-half the light-induced level even in cells kept in the dark during the light phase and appears to be dependent on the cell cycle or a circadian rhythm. gsa mRNA and alad mRNA accumulation is induced by light that was passed through blue (400-480 nm) or green (490-590 nm) filters but not by light that was passed through orange (>560 nm) or red (>610 nm) filters, indicating the participation of a blue-light photoreceptor system rather than a protochlorophyllide- or rhodopsin-based photoreceptor. Light induction of gsa mRNA accumulation is absent in a carotenoid-deficient mutant, which suggests that a carotenoid-containing blue-light photoreceptor is involved. In contrast, pretreatment of wild-type cells with either of two flavin antagonists, phenylacetic acid and KI, does not prevent the light induction. In the later part of the light phase, the gsa mRNA level decreases more rapidly than that of alad mRNA. Turnover studies indicate that the half-life of alad mRNA is twice that of gsa mRNA. This difference in mRNA stability partially accounts for the more rapid decline in gsa mRNA levels after the peak of light induction is reached. Thus, differential blue-light induction and stability of mRNAs regulates the expression of these two chlorophyll biosynthetic genes.  相似文献   
22.
23.
One hundred microorganisms have been screened for their abilities to selectively modify the structure of the sesquiterpene lactone known as quadrone. The only products obtained were those formed when the 4-ketone functional group was reduced to the stereoisometric 4-quadronols. Quadrone alcohol isomers of (S) or (R) absolute configurations were identified by proton and carbon n.m.r., and high performance liquid chromatography (h.p.l.c.) was used to separate and quantitate these compounds in extracts of fermentations. Microorganisms were categorized according to their abilities to achieve Re- or Si-face carbonyl reduction to yield (S)- or (R)-alcohol isomers by h.p.l.c. Three groups of microorganisms were identified: those yielding only the (R)-alcohol isomer; those yielding only the (S)-alcohol isomer; and those providing mixtures of the two alcohol isomers. With quadrone as substrate, Mucor and Curvularia spp. may contain either Re- or Si-face reductases. The selection of microorganisms for their abilities to achieve enantiospecific reductions of ketones to alcohol products is discussed.  相似文献   
24.
Two biosynthetic routes to the heme, chlorophyll, and phycobilin precursor, δ-aminolevulinic acid (ALA) are known: conversion of the intact five-carbon skeleton of glutamate, and ALA synthase-catalyzed condensation of glycine plus succinyl-coenzyme A. The existence and physiological roles of the two pathways in Cyanidium caldarium were assessed in vivo by determining the relative abilities of [2-14C]glycine and [1-14C]glutamate to label protoheme and heme a. Glutamate was incorporated to a much greater extent than glycine into both protoheme and heme a, even in cells that were unable to form chlorophyll and phycobilins. The small incorporation of glycine could be accounted for by transfer of label to intracellular glutamate pools, as determined from amino acid analysis. It thus appears that C. caldarium makes all tetrapyrroles, including mitochondrial hemes, solely from glutamate, and there is no contribution by ALA synthase in this organism.  相似文献   
25.
Treatment of porcine immunoglobulin M (IgM) with pepsin at pH 4.6 and 37 degrees C was found to gradually remove Fab arms and Cmicro2 domains over a period of 18h. Structural studies failed to find any other change. The main products can therefore be regarded as IgM-like molecules with limited numbers of Fab arms and Cmicro2 domains. Results indicated that this removal of Fab arms is probably a random process. As the average number of Fab arms per molecule was decreased the ability to agglutinate Salmonella oranienburg (mt-H) gradually diminished. Complement fixation by the complexes however, decreased rapidly, and became negligible when the average number of Fab arms was four. This was confirmed by using a preparation containing mainly molecules with three or four Fab arms. The overall results showed that molecules with three or four Fab arms can agglutinate Salmonella but that these complexes do not fix complement. Molecules with five arms probably behave like those with four. Complexes formed by molecules with six arms fix complement quite efficiently. Possible explanations for these results are discussed.  相似文献   
26.
Cells dissociated from adult and neonatal rat retinas were separated by density gradient centrifugation. Previous work had shown that rat retinal cells labelled by an immunofluorescence assay for the Thy-1 antigen were chiefly or exclusively ganglion cells, and so the proportion of Thy-1 positive cells in the density gradient fractions was used as an index of the enrichment of ganglion cells. The proportion of Thy-1 positive neonatal cells was increased from about 0.4% in the initial dissociate to about 8% in the most enriched fraction of a Percoll step gradient. Amongst adult cells the initial 0.7% Thy-1 positive cells were increased to roughly 2% in the best fraction of a metrizamide step gradient.

The presence of relatively large numbers of Thy-1 positive cells in other fractions suggested that it would be difficult to further increase the proportion of rat ganglion cells by methods based on their sedimentation properties. These results demonstrate the importance of cell-type specific markers in attempts to purify cells from the central nervous system.  相似文献   

27.
The unicellular rhodophyte, Porphyridium cruentum, and the filamentous cyanobacterium, Calothrix sp. PCC 7601, contain phycobiliproteins that have covalently bound phycobilin chromophores. Overnight incubation of solvent-extracted cells at 40 degrees C with methanol liberates free phycobilins that are derived from the protein-bound bilins by methanolytic cleavage of the thioether linkages between bilin and apoprotein. Two of the free bilins were identified as 3(E)-phycocyanobilin and 3(E)-phycoerythrombilin by comparative spectrophotometry and high pressure liquid chromatography. Methanolysis also yields a third bilin free acid whose absorption and 1H NMR spectra support the assignment of the 3(E)-phytochromobilin structure. This novel bilin is the major pigment isolated from cells that are pre-extracted with acetone-containing solvents. Since phytochrome- or phytochromobilin-containing proteins are not present in either organism, the 3(E)-phytochromobilin must arise by oxidation of phycobilin chromophores. This pigment is not obtained by similar treatment of a cyanobacterium and a rhodophyte that lack phycoerythrin. Therefore, 3(E)-phytochromobilin appears to be derived from phycoerythrobilin-containing proteins. Comparative CD spectroscopy of 3(E)-phytochrombilin and 3(E)-phycocyanobilin suggests that the two bilins share the R stereochemistry at the 2-position in the reduced pyrrole ring. Incubation of 2(R),3(E)-phytochromobilin with recombinant oat apophytochrome yields a covalent bilin adduct that is photoactive and spectrally indistinguishable from native oat phytochrome isolated from etiolated seedlings. These results establish that the phycobiliprotein-derived 2(R),3(E)-phytochromobilin is a biologically active phytochrome chromophore precursor.  相似文献   
28.
Indirect immunofluorescence has been used to localize the Thy-1 antigen to ganglion cell axons, the ganglion cell layer and the inner plexiform layer in cryostat sections of adult and neonatal rat retina. In similar immunofluorescence experiments monoclonal antibodies raised against the 200,000 molecular weight neurofilament polypeptide bound only to ganglion cell axons and processes in the outer plexiform layer.Less than 1% of cells dissociated from 8 day postnatal rat retina had superficial Thy-1 antigen demonstrable by immunofluorescence; these cells were generally large and their size spectrum was similar to that of ganglion cells insitu. After culture for 1 day many of these Thy-1 positive cells had generated neurofilament antigen.We conclude that Thy-1 is found chiefly or exclusively on ganglion cells of eight day retina, and may be useful in the identification and isolation of these cells by immunoselection procedures.  相似文献   
29.
Foley T  Beale SI 《Plant physiology》1982,70(5):1495-1502
γ,δ-Dioxovaleric acid (DOVA) has been proposed as a precursor to heme and chlorophyll in plants and algae. DOVA transaminase activity was found in extracts of the unicellular green alga Euglena gracilis Klebs strain Z Pringsheim. Optimum conversion of DOVA to δ-aminolevulinic acid (ALA) occurred at pH 6.8. ALA formation was linear with time for at least 30 minutes at 37° C and was proportional to amount of cell extract in the incubation mixture. Boiled cell extract was inactive. DOVA transaminase from either wild-type or aplastidic derivative strain W14ZNaIL ran as a single band in agarose gel permeation chromatography, with a calculated molecular weight of 98,000 ± 3,000. l-Glutamic acid was the most effective amino donor. d-Glutamic acid was inactive. Km values for l-glutamic acid and DOVA were 11 and 1.1 millimolar, respectively. Pyridoxal phosphate stimulated activity maximally at 30 micromolar, and (aminooxy)acetate was strongly inhibitory. Glyoxylic acid was a competitive inhibitor with respect to DOVA, with an inhibition constant of 0.62 millimolar. Wild-type and aplastidic cells vielded equal activity, 31 ± 1 nanomoles ALA per 30 minutes per 107 cells, whether grown in light or dark. DOVA transaminase could not be separated from glyoxylate transaminase activity by agarose gel permeation or diethylaminoethyl-cellulose column chromatography. In all fractions, glyoxylate transaminase activity was at least 75 times greater than DOVA transaminase activity. DOVA transamination appears to be catalyzed by glyoxylate transaminase, and not to be of physiological significance with respect to chlorophyll synthesis in Euglena.  相似文献   
30.
Intravenous injection of sheep antiserum to somatostatin in the rat not only increases basal plasma TSH levels but also potentiates TSH response following exposure to cold (5° C). Plasma levels of GH rise 2–3 fold during the first 3 h after injection of the antiserum, with a progressive decrease of the effect up to 10 h. Rhythmical change of serum GH levels during a 10-hour period of observation is not altered after antiserum injection. These data indicate that somatostatin plays a physiological role in the control of both TSH and GH secretion and suggest the involvement of GH-releasing hormone, in addition to somatostatin, in the GH release mechanism.  相似文献   
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